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A Gentle Introduction to GIS

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1. Gana AITE re ued P gt gt B Legend ee i tourism points t Fishing Look Out Point ae tourism lines eo Access Road Hiking Trail S x amp tourism polys Picnic Areas Er W E 50k roads A ARTERIAL ROUTE HIKING TRAIL MAIN ROAD OTHER ACCESS SECONDARY ROAD STREET os TRACK FOOTPATH El x amp 50k_inlandwater 5 2e 080242208406 scale i r2956 O Render E Illustration 48 Capturing lines for a tourism map When editing a line layer the vertices are shown with circular markers which you can move about with the mouse to adjust the line s geometry When adding a new line shown in red each click of the mouse will add a new vertex new vector polyline feature will have an appropriate scale see Topic 2 Working with Vector Data for more details on scale issues When you are ready you can click the polyline capture icon in the tool bar and then start drawing your line by clicking on the map After you make your first click you will notice that the line stretches like an elastic band to follow the mouse cursor around as you move it Each time you click with the left mouse button a new vertex will be added to the map This process is shown in Illustration 48 above When you have finished defining your line use the right mouse button to tell the GIS Application that you have completed your edits As with the procedure for capturing a point feature you wi
2. Oyen Gis teeters urjas File Edt View Layer Settings Plugins Tools Help Jjaeaeeascse e P E FQaxraeaao YS REAmeSOPRR TODA SOLOD DTA 4 UNOddAAN a Qo Legend E 5 g elevation_p1000 H Li F F u i an i wE 50k_contours Satie 2 Ed gd Interpolation IDW Overview x ith ere is a new plugin available 2512300 32 12765 Seale 113899 Illustration 89 IDW interpolation result from irregularly collected elevation sample points shown as black crosses wes yh i Triangulated Irregular Network TIN TIN interpolation is another popular tool in GIS A common TIN algorithm is called Delaunay triangulation It tries to create a surface formed by triangles of nearest neighbour points To do this circumcircles around selected sample points are created and their intersections are connected to a network of non overlapping and as compact as possible triangles see Illustration 90 below 97 Illustration 90 Delaunay triangulation with circumcircles around the red sample data The resulting interpolated TIN surface created from elevation vector points is shown on the right Image Source Mitas L Mitasova H 1999 The main disadvantage of the TIN interpolation is that the surfaces are not Smooth and may give a jagged appearance This is caused by discontinuous Slopes at the triangle edges and sample data points In addition triangulation is generally not suitable for extrapolation beyon
3. Scale is displayed in map units meters feet or degrees A legend explains all the symbols on a map A map should explain complex information as simply as possible Maps are usually always displayed North up Now you try Here are some ideas for you to try with your learners e Load some vector layers in your GIS for your local area See if your learners can identify examples of different types of legend elements such as road types or buildings Create a list of legend elements and define what the icons should look like so a reader can most easily figure out 85 their meaning in the map e Create a map layout with your learners on a sheet of paper Decide on the title of the map what GIS layers you want to show and what colours and icons to have on the map Use the techniques you learned in Topics 2 and 3 to adjust the symbology accordingly When you have a template open the QGIS Map Composer and try to arrange a map layout as planned Something to think about If you don t have a computer available you can use any topographical map and discuss the map design with your learners Figure out if they understand what the map wants to tell What can be improved How accurately does the map represent the history of the area How would a map from 100 years ago differ from the same map today Further reading Books e Chang Kang Tsung 2006 Introduction to Geographic Information Systems 3 Edition McGraw Hill ISBN 0070658
4. Building Points v Trees E Roads E Road Outlines E Water Bodies E Rivers v 6 Spot Height ao Y E Contours amp Building Areas v River Areas 8 i i i a n n B i E a There is a new plugin available 26 07573 32 09474 Scale 1 17067 mE SKE KF EF KAKEK TTT E Sii degios QGIS 2009 E Cd Render ka Attribute table houses daaa id RoofColour LEE sacki 14 0 Red 1 2000 E 3 2 Red 1 2001 e Beo 02004 Search for Black in RoofColour Heip Help Roofcolur e searc Joe Advanced Ed Close Illustration 33 In a GIS Application we can also search for features based on their attributes Here we see a search for houses with black roofs Results are shown in yellow in the map turquoise on the table Polyline Attributes Illustration 34 Vector features at a glance 2 Attributes in detail Attributes for a vector feature are stored in a table A table is like a spreadsheet Each column in the table is called a field Each row in the table is a record Table 2 below Shows a simple example of how an attribute table looks in a GIS The records in the attribute table in a GIS each correspond to one feature Usually the information in the attribute table is stored in some kind of database The GIS application links the attribute records with the feature geometry so that you can find records i
5. Topology shows the spatial relation of neighbouring vector features Topology in GIS is provided by topological tools Topology can be used to detect and correct digitizing errors For some tools such as network analysis topological data is essential Snapping distance and search radius help us to digitise topologically correct vector data e Simple feature data is not a true topological data format but it is commonly used by GIS applications Now you try Here are some ideas for you to try with your learners e Mark your local bus stops on a toposheet map and then task your learners to find the shortest route between two stops e Think of how you would create vector features in a GIS to represent a topological road network of your town What topological rules are important and what tools can your learners use in QGIS to make sure that the new road layer is topologically correct Something to think about If you don t have a computer available you can use a map of a bus or railway network and discuss the spatial relationships and topology with your learners Further reading Books e Chang Kang Tsung 2006 Introduction to Geographic Information Systems 3 Edition McGraw Hill ISBN 0070658986 e DeMers Michael N 2005 Fundamentals of Geographic Information Systems 3 Edition Wiley ISBN 9814126195 Websites e http www innovativegis com basis primer concepts html e http en wikipedia org wiki Geospatial topol
6. QGIS User Manila caine canaieeivacaeinacenaenewn ivan vawataweiacalewuiataandieniaeaaneeees 102 GIS for Educators Topic 1 Introducing GIS Objectives Understanding what GIS is and what it can be used for g Keywords GIS Computer Maps Data Information System Spatial Analysis Overview Just as we use a word processor to write documents and deal with words on a computer we can use a GIS application to deal with spatial information on a computer GIS stands for Geographical Information System A GIS consists of e Digital Data the geographical information that you will view and analyse using computer hardware and software e Computer Hardware computers used for storing data displaying graphics and processing data e Computer Software computer programs that run on the computer hardware and allow you to work with digital data A software program that forms part of the GIS is called a GIS Application With a GIS application you can open digital maps on your computer create new spatial information to add to a map create printed maps customised to your needs and perform spatial analysis Let s look at a little example of how GIS can be useful Imagine you are a health worker and you make a note of the date and place of residence of every patient you treat Longitude Latitude Disease 26 870436 31 909519 Mumps 13 12 2008 26 868682 31 909259 Mumps 24 12 2008 26 867707 31 910494
7. above about the health care worker She created a table to record diseases that looked like this Mo ale iaerer Latitude Disease 26 870436 31 909519 Mumps 13 12 2008 The longitude and latitude columns hold geographical data The disease and date columns hold non geographical data A common feature of GIS is that they allow you to associate information non geographical data with places geographical data In fact the GIS Application can store many pieces of information which are associated with each place something that paper maps are not very good at For example our health care worker could store the person s age and gender on her table When the GIS Application draws the layer you can tell it to draw the layer based on gender or based on disease type and so on So with a GIS Application we have a way to easily change the appearance of the maps we created based on the non geographical data associated with places GIS Systems work with many different types of data Vector data is stored as a series of X Y coordinate pairs inside the computer s memory Vector data is used to represent points lines and areas Illustration 11 below shows different types of vector data being viewed in a GIS application In the tutorials that follow we will be exploring vector data in more detail p QGIS 2009 Illustration 11 Vector data is used to represent points e g towns lines e g rivers and polygons e g municipal boundari
8. projections and let your pupils find the coordinates of several places on the two layers You can show them that it is not possible to overlay the two layers Then define the coordinate reference system as Geographic WGS 84 inside the Project Properties Dialog and activate the check box enable On the fly CRS transformation Load the two layers of the same area again and let your pupils see how On the fly projection works e You can open the Project Properties Dialog in QGIS and show your pupils the many different Coordinate Reference Systems so they get an idea of the complexity of this topic With On the fly CRS transformation enabled you can select different CRS to display the same layer in different projections Something to think about If you don t have a computer available you can show your pupils the principles of the three map projection families Get a globe and paper and demonstrate how cylindrical conical and planar projections work in general With the help of a transparency sheet you can draw a two dimensional coordinate reference system showing X axes and Y axes Then let your pupils define coordinates x and y values for different places Further reading Books e Chang Kang Tsung 2006 Introduction to Geographic Information Systems 3 Edition McGraw Hill ISBN 0070658986 e DeMers Michael N 2005 Fundamentals of Geographic Information Systems 3 Edition Wiley ISBN 9814126195 e Galati Stephen R
9. we add to the shapefile 1 Capturing geometry 2 Entering attributes The process of capturing geometry is different for points polylines and polygons To capture a point you first use the map pan and zoom tools to get to the correct geographical area that you are going to be recording data for Next you will need to enable the point capture tool Having done that the next place you click with the left mouse button in the map view is where you want your new point geometry to appear After you click on the map a window will appear and you can enter all of the attribute data for that point see Illustration 47 below If you are unsure of the data for a given field you can usually leave it blank but be aware that if you leave a lot of fields blank it will be hard to make a useful map from your data 43 C Enter Attribute alues Type EEE Look Gut Point Notes ttxt view of the lakel E Illustration 47 After you have captured the point geometry you will be asked to describe its attributes The attribute form is based on the fields you specified when you created the vector layer To capture a polyline the process is similar to that of a point in that you need to first use the pan and zoom tools to move the map in the map view to the correct geographical area You should be zoomed in enough so that your Quantum GIS 1 0 2 Kore Zz i F oj x File Edit View Layer Settings Plugins Tools Help
10. 2006 Geographic Information Systems Demystified Artech House Inc ISBN 158053533X Websites e http www colorado edu geography gcraft notes mapproj mapproj_ f ht ml e http qeoloay isu edu geostac Field Exercise topomaps index htm The QGIS User Guide also has more detailed information on working with map projections in QGIS What s next 7 In the section that follows we will take a closer look at Map Production 78 GIS for Educators Topic 8 Map Production Objectives Understanding of map production for spatial data Keywords Map production map layout scale bar north arrow legend map body map unit Overview Map production is the process of arranging map elements on a sheet of paper in a way that even without many words the average person can understand what it is all about Maps are usually produced for presentations and reports where the audience or reader is a politician citizen or a learner with no professional background in GIS Because of this a map has to be effective in communicating spatial information Common elements of a map are the title map body legend north arrow scale bar acknowledgement and map border see Illustration 72 below Title Common map elements ooo ee oe cz nee 4 Legend Wii ESS i Buildings w Contour lines 7 Lakes Ea Rivers Roads Other Access Track Footpath Spotheigts Acknowlegme
11. 50 000 map it is called a large scale map It is handy to remember that a small scale map covers a large area and a large scale map covers a small area A scale expression as a graphic or bar scale is another basic method of expressing a scale A bar scale shows measured distances on the map The 81 equivalent distance in the real world is placed above as you can see in Illustration 74c below a 1 centimeter represents 250 meters b 1 25 000 0 1000 4000 meters oi UC CO N NCO C Cd c Illustration 74 A map scale can be expressed in words a as a ratio b or as graphic or bar scale c Maps are usually produced at standard scales of for example 1 10 000 1 25 000 1 50 000 1 100 000 1 250 000 1 500 000 What does this mean to the map reader It means that if you multiply the distance measured on the map by the scale denominator you will know the distance in the real world For example if we want to measure a distance of 100mm on a map with a scale of 1 25 000 we calculate the real world distance like this 100mm x 25 000 2 500 000 mm This means that 100mm on the map is equivalent to 2 500 000mm 250m in the real word Another interesting aspect of a map scale is that the lower the map scale the more detailed the feature information in the map will be In Illustration 75 below you can see an example of this Both maps are the same size but have a different scale The image on th
12. Fe 4 m gt QGIS 2008 26 84592 31 90445 Scale 1 12073 3 v Render i Illustration 1 Example showing disease records in a GIS application It is easy to see that the mumps patients all live close to each other More about GIS GIS is a relatively new field it started in the 1970 s It used to be that computerised GIS was only available to companies and universities that had expensive computer equipment These days anyone with a personal computer or laptop can use GIS software Over time GIS Applications have also become easier to use it used to require a lot of training to use a GIS Application but now it is much easier to get started in GIS even for amateurs and casual users As we described above GIS is more than just software it refers to all aspects of managing and using digital geographical data In the tutorials that follow we will be focusing on GIS Software What is GIS Software a GIS Application You can see an example of what a GIS Application looks like in Illustration 1 above GIS Applications are normally programs with a graphical user interface that can be manipulated using the mouse and keyboard The application provides menus near to the top of the window File Edit etc which when clicked using the mouse show a panel of actions These actions provide a way for you to tell the GIS Application what you want to do For example you may use the menus to tell the GIS Applicat
13. Invariant Sections of your combined work in its license notice and that you preserve all their Warranty Disclaimers The combined work need only contain one copy of this License and multiple identical Invariant Sections may be replaced with a single copy If there are multiple Invariant Sections with the same name but different contents make the title of each such section unique by adding at the end of it in parentheses the name of the original author or publisher of that section if known or else a unique number Make the same adjustment to the section titles in the list of Invariant Sections in the license notice of the combined work In the combination you must combine any sections Entitled History in the various original documents forming one section Entitled History likewise combine any sections Entitled Acknowledgements and any sections Entitled Dedications You must delete all sections Entitled Endorsements 6 COLLECTIONS OF DOCUMENTS You may make a collection consisting of the Document and other documents released under this License and replace the individual copies of this License in the various documents with a single copy that is included in the collection provided that you follow the rules of this License for verbatim copying of each of the documents in all other respects You may extract a single document from such a collection and distribute it individually under this License provided you insert a copy of
14. Meteorologists people who study weather patterns might generate a province level raster showing average temperature rainfall and wind direction using data collected from weather stations see Illustration 54 above In these cases they will often use raster analysis techniques such as interpolation which we describe in Topic 10 Sometimes raster data are created from vector data because the data owners want to share the data in an easy to use format For example a company with road rail cadastral and other vector datasets may choose to generate a raster version of these datasets so that employees can view these datasets in a web browser This is normally only useful if the attributes that users need to be aware of can be represented on the map with labels or symbology If the user needs to look at the attribute table for the data providing it in raster format could be a bad choice because raster layers do not usually have any attribute data associated with them Spatial Resolution Every raster layer in a GIS has pixels cells of a fixed size that determine its Spatial resolution This becomes apparent when you look at an image ata Small scale see Illustration 56 below and then zoom in to a large scale see Illustration 57 below 53 HANKEY RYIGERMB EIN Illustration 56 This satellite image looks good when using a small scale Illustration 57 but when viewed at a large scale you can see the individual pixels
15. Mumps 22 01 2009 26 854908 31 920759 Measles 11 01 2009 26 855817 31 921929 Measles 26 01 2009 26 852764 31 921929 Measles 10 02 2009 26 854778 31 925112 Measles 22 02 2009 26 869072 31 911988 Mumps 02 02 2009 26 863354 31 916406 Chicken Pox 26 02 2009 If you look at the table above you will quickly see that there were a lot of measles cases in January and February Our health worker recorded the location of each patient s house by noting its latitude and longitude in the table Using this data in a GIS Application we can quickly understand a lot more about the patterns of illness Quantum Gis LOO Kore Ensterncape mee File Edit View Layer Plugins Tools a amp 21 ZRF C FOODS Ouds X TE z GECSEE 2 soi al i E toc le see diein i S V ecape disease example amp Chicken Pox lt amp _ iE Measles _ in N Mumps ey y w rivers im a m d h Dra AS za_roads i HIGHWAY e MAIN ROADS OTHER SECONDARY l ae STREET o y IK railway gt re za_highways dd v Eastern Cape Province C Population by Municipa ix 0 001 96977 100 if 96977 100 193954 200 uo f 193954 200 290931 300 e i 290931 300 387908 400 jg 387908 400 484885 500 i if 484885 500 581862 600 VASA w f 581862 600 678839 700 Pas i 678839 700 775816 800 ff 775816 800 872793 900 nt
16. ai gt E Soot eee ae gt oR Jea ti a Illustration 70 The Un Africa UTM zones 33S 34S 35S and 36S are used As you can see in Illustration 70 above and Illustration 71 below South Africa is covered by four UTM zones to minimize distortion The zones are called UTM 33S UTM 34S UTM 35S and UTM 36S The S after the zone means that the UTM zones are located south of the equator central meridian 15 degree east antral meridian 21 degree east tral meridian central meridian Go St i Illustration 71 UTM zones 33S 34S 35S and 36S with their central longitudes meridians used to project South Africa with high accuracy The red cross shows an Area of Interest AOI Say for example that we want to define a two dimensional coordinate within 74 the Area of Interest AOI marked with a red cross in Illustration 71 above You can see that the area is located within the UTM zone 35S This means to minimize distortion and to get accurate analysis results we should use UTM zone 35S as the coordinate reference system The position of a coordinate in UTM south of the equator must be indicated with the zone number 35 and with its northing y value and easting x value in meters The northing value is the distance of the position from the equator in meters The easting value is the distance from the central meridian longitude of the used UTM zone For UTM zone 35S it is 27 degrees East as s
17. and the most suitable method This may look like a time consuming process at the beginning However as you gain experience and knowledge of different interpolation methods the time required for generating the most suitable surface will be greatly reduced Other interpolation methods Although we concentrated on IDW and TIN interpolation methods in this worksheet there are more spatial interpolation methods provided in GIS such as Regularized Splines with Tension RST Kriging or Trend Surface interpolation See the additional reading section below for a web link What have we learned Let s wrap up what we covered in this worksheet e Interpolation uses vector points with known values to estimate values at unknown locations to create a raster surface covering an entire area e The interpolation result is typically a raster layer e It is important to find a suitable interpolation method to optimally estimate values for unknown locations e IDW interpolation gives weights to sample points such that the influence of one point on another declines with distance from the new point being estimated e TIN interpolation uses sample points to create a surface formed by triangles based on nearest neighbour point information Now you try 99 Here are some ideas for you to try with your learners e The Department of Agriculture plans to cultivate new land in your area but apart from the character of the soils they want to know if the
18. attribute values in different value ranges The GIS Application will analyse the attribute data e g height and based on the number of classes you request create groupings for you This process is illustrated in Table 3 below 30 Attribute Value Class and Colour 1 2 3 4 5 6 7 8 9 Table 3 Graduated colour breaks up the attribute value ranges into the number of classes you select Each class is represented by a different colour Continuous Colour Symbols In the previous section on Graduated Colour symbols we saw that we can draw features in discrete groups or classes Sometimes it is useful to draw features in a colour range from one colour to another The GIS Application will use a numerical attribute value from a feature e g contour heights or pollution levels in a stream to decide which colour to use Table 4 below shows how the attribute value is used to define a continuous range of colours Attribute Value Colour no classes or grouping O IONIA AOAOINA Table 4 Continuous colour symbology uses a start colour e g light orange shown here and an end colour e g dark brown shown here and creates a series of shades between those colours Using the same contours example we used in the previous section let s see how a map with continuous colour symbology is defined and looks The process starts by setting the layers proper
19. each pixel in the Y direction and the amount if any by which the image is rotated With these few pieces of information the GIS application can ensure that raster data are displayed in the correct place The georeferencing information for a raster is often provided in a small text file accompanying the raster Sources of raster data Raster data can be obtained in a number of ways Two of the most common ways are aerial photography and satellite imagery In aerial photography an aeroplane flies over an area with a camera mounted underneath it The photographs are then imported into a computer and georeferenced Satellite imagery is created when satellites orbiting the earth point special digital cameras towards the earth and then take an image of the area on earth they are passing over Once the image has been taken it is sent back to earth using radio signals to special receiving stations such as the one shown in Illustration 55 below The process of capturing raster data from an aeroplane or satellite is called remote sensing 52 Illustration 55 The CSIR Satellite Applications Center at Hartebeeshoek near Johannesburg Special antennae track satellites as they pass overhead and download images using radio waves In other cases raster data can be computed For example an insurance company may take police crime incident reports and create a country wide raster map showing how high the incidence of crime is likely to be in each area
20. founding member of Linfiniti Consulting CC a 4 small business set up with the goal of helping people to learn and use open source GIS software Web http linfiniti com Email marcelle linfiniti com 102 Lerato Nsibande Video Presenter Lerato is a grade 12 scholar living in Pretoria Lerato learns Geography at school and has enjoyed learning GIS with us Sibongile Mthombeni Video Presenter Sibongile lives near Johannesburg with her young daughter Her goal is to continue her studies and become a nurse Working on this project was the first time Sibongile used a computer 103 GNU Free Documentation License Version 1 2 November 2002 Copyright C 2000 2001 2002 Free Software Foundation Inc 51 Franklin St Fifth Floor Boston MA 02110 1301 USA Everyone is permitted to copy and distribute verbatim copies of this license document but changing it is not allowed 0 PREAMBLE The purpose of this License is to make a manual textbook or other functional and useful document free in the sense of freedom to assure everyone the effective freedom to copy and redistribute it with or without modifying it either commercially or noncommercially Secondarily this License preserves for the author and publisher a way to get credit for their work while not being considered responsible for modifications made by others This License is a kind of copyleft which means that derivative works of the docu
21. graphics program will let you save your drawing as a jpg JPEG image word processors let you save your document as an odt OpenDocument or doc Word Document and so on Just like these other applications GIS Applications can store their data in files on the computer hard disk There are a number of different file formats for GIS data but the most common one is probably the shape file The name is a little odd in that although we call it a shape file singular it actually consists of at least three different files that work together to store your digital vector data as shown in Table 7 below Extension DIe g iolu 0 Shp The geometry of vector features are stored in this file dbf The attributes of vector features are stored in this file shx This file is an index that helps the GIS Application to find features more quickly Table 7 The basic files that together make up a shapefile When you look at the files that make up a shapefile on the computer hard disk you will see something like Illustration 43 below If you want to share vector data stored in shapefiles with another person it is important to give them all of the files for that layer So in the case of the trees layer shown in Illustration 43 38 below you would need to give the person trees shp trees shx trees dbf trees prj and trees qml 1 C Program Filesi Quantum GIS gisdata local File Edit wiew Favorites Tools Hel
22. known temperature readings at nearby weather stations see Illustration 87 above This type of interpolated surface is often called a statistical surface Elevation data precipitation snow accumulation water table and population density are other types of data that can be computed using interpolation Because of high cost and limited resources data collection is usually conducted only in a limited number of selected point locations In GIS spatial interpolation of these points can be applied to create a raster surface with estimates made for all raster cells In order to generate a continuous map for example a digital elevation map from elevation points measured with a GPS device a suitable interpolation method has to be used to optimally estimate the values at those locations where no samples or measurements were taken The results of the interpolation analysis can then be used for analyses that cover the whole area and for modelling There are many interpolation methods In this introduction we will present two widely used interpolation methods called Inverse Distance Weighting IDW and Triangulated Irregular Networks TIN If you are looking for additional interpolation methods please refer to the further reading section at the end of this topic Inverse Distance Weighted IDW In the IDW interpolation method the sample points are weighted during interpolation such that the influence of one point relative to another declines w
23. meridians of longitude When you want to refer to a special area on a map during your presentation or in a report you could say the houses close to latitude 26 04 longitude 32 11 are often exposed to flooding during January and February see Illustration 76 below 83 Illustration 76 Graticules red lines representing the Earth s parallels of latitude and meridians of longitude The latitude and longitude values on the map border can be used for better orientation on the map Name of the map projection in detail A map projection tries to represent the 3 dimensional Earth with all its features like houses roads or lakes on a flat sheet of paper This is very difficult as you can imagine and even after hundreds of years there is no single projection that is able to represent the Earth perfectly for any area in the world Every projection has advantages and disadvantages To be able to create maps as precisely as possible people have studied modified and produced many different kinds of projections In the end almost every country has developed its own map projection with the goal of improving the map accuracy for their territorial area see Illustration 77 below entation 77 The world in different projections A Mollweide Equal Area projection left a Plate Carree Equidistant Cylindrical projection on the right 84 With this in mind we can now
24. not meet perfectly ata point node This type of error is called an undershoot if a gap exists between the lines and an overshoot if a line ends beyond the line it should connect to see Illustration 59 below a ts LF s ANA H rg f a Illustration 59 Undershoots 1 occur when digitised vector lines that should connect to each other don t quite touch Overshoots 2 happen if a line ends beyond the line it should connect to Slivers 3 occur when the vertices of two polygons do not match up on their borders The result of overshoot and undershoot errors are so called dangling nodes at the end of the lines Dangling nodes are acceptable in special cases for example if they are attached to dead end streets Topological errors break the relationship between features These errors need to be fixed in order to be able to analyse vector data with procedures like network analysis e g finding the best route across a road network or measurement e g finding out the length of a river In addition to topology being useful for network analysis and measurement there are other reasons why it is important and useful to create or have vector data with correct topology Just imagine you digitise a municipal boundaries map for your province and the polygons overlap or show slivers If such errors were present you would be able to use the measurement tools but the results you get will be incorrect You will not know the
25. of a school or a church Create a 1km buffer around your school and then go and see if there would be any bottle stores too close to your school 92 Illustration 86 Buffer zone green around a roads map brown You can see which houses fall within the buffer zone so now you could contact the owner and talk to him about the situation Something to think about If you don t have a computer available you can use a toposheet and a compass to create buffer zones around buildings Make small pencil marks at equal distance all along your feature using the compass then connect the marks using a ruler Further reading Books e Galati Stephen R 2006 Geographic Information Systems Demystified Artech House Inc ISBN 158053533X e Chang Kang Tsung 2006 Introduction to Geographic Information Systems 3 Edition McGraw Hill ISBN 0070658986 e DeMers Michael N 2005 Fundamentals of Geographic Information Systems 3 Edition Wiley ISBN 9814126195 Websites e http www manifold net doc transform border buffers htm The QGIS User Guide also has more detailed information on analysing vector data in QGIS What s next In the section that follows we will take a closer look at interpolation as an example of spatial analysis you can do with raster data 93 GIS for Educators Topic 10 Spatial Analysis Interpolation Objectives Understanding of interpolation as part of spatial analysis Keywords Point data interp
26. polygons 2 on right 18 n J QGIS 2009 Illustration 26 Undershoots 1 occur when digitised vector lines that should connect to each other don t quite touch Overshoots 2 happen if a line ends beyond the line it should connect to What have we learned Let s wrap up what we covered in this worksheet Vector data is used to represent real world features in a GIS A vector feature can have a geometry type of point line or a polygon Each vector feature has attribute data that describes it Feature geometry is described in terms of vertices Point geometries are made up of a single vertex X Y and optionally Z Polyline geometries are made up of two or more vertices forming a connected line Polygon geometries are made up of at least four vertices forming an enclosed area The first and last vertices are always in the same place Choosing which geometry type to use depends on scale convenience and what you want to do with the data in the GIS Most GIS applications do not allow you to mix more than one geometry type in a single layer Digitising is the process of creating digital vector data by drawing it ina GIS application Vector data can have quality issues such as undershoots overshoots and slivers which you need to be aware of 19 e Vector data can be used for spatial analysis in a GIS application for example to find the nearest hospital to a school e We have summarised the GIS Vector Data concept in Illu
27. rainfall is sufficient for a good harvest All the information they have available comes from a few weather stations around the area Create an interpolated surface with your learners that shows which areas are likely to receive the highest rainfall e The tourist office wants to publish information about the weather conditions in January and February They have temperature rainfall and wind strength data and ask you to interpolate their data to estimate places where tourists will probably have optimal weather conditions with mild temperatures no rainfall and little wind strength Can you identify the areas in your region that meet these criteria Something to think about If you don t have a computer available you can use a toposheet and a ruler to estimate elevation values between contour lines or rainfall values between fictional weather stations For example if rainfall at weather station A is 50 mm per month and at weather station B it is 90 mm you can estimate that the rainfall at half the distance between weather station A and B is 70 mm Further reading Books e Chang Kang Tsung 2006 Introduction to Geographic Information Systems 3 Edition McGraw Hill ISBN 0070658986 e DeMers Michael N 2005 Fundamentals of Geographic Information Systems 3 Edition Wiley ISBN 9814126195 e Mitas L Mitasova H 1999 Spatial Interpolation In P Longley M F Goodchild D J Maguire D W Rhind Eds Geographical Info
28. s S 257781 338647 Scale ander Illustration 49 Heads up digitising using a satellite image as a backdrop The image is used as a reference for capturing polyline features by tracing over them Digitising using a digitising table Another method of capturing vector data is to use a digitising table This approach is less commonly used except by GIS professionals and it requires expensive equipment The process of using a digitising table is to place a paper map on the table The paper map is held securely in place using clips Then a special device called a puck is used to trace features from the map Tiny cross hairs in the puck are used to ensure that lines and points are drawn accurately The puck is connected to a computer and each feature that is captured using the puck gets stored in the computer s memory You can see what a digitising puck looks like in Illustration 50 below 46 Illustration 50 A digitising table and puck are used by GIS professionals when they want to digitise features from existing maps After your features are digitised Once your features are digitised you can use the techniques you learned in the previous Topic to set the symbology for your layer Choosing an appropriate symbology will allow you to better understand the data you have captured when you look at the map Common problems things to be aware of If you are digitising using a backdrop raster layer such as an a
29. this License into the extracted document and follow this License in all other respects regarding verbatim copying of that document 7 AGGREGATION WITH INDEPENDENT WORKS A compilation of the Document or its derivatives with other separate and independent documents or works in or on a volume of a storage or distribution medium is called an aggregate if the copyright resulting from the compilation is not used to Limit the legal rights of the compilation s users beyond what the individual works permit When the Document is included in an aggregate this License does not apply to the other works in the aggregate which are not themselves derivative works of the Document If the Cover Text requirement of section 3 is applicable to these copies of the Document then if the Document is less than one half of the entire aggregate the Document s Cover Texts may be placed on covers that bracket the Document within the aggregate or the electronic equivalent of covers if the Document is in electronic form Otherwise they must appear on printed covers that bracket the whole aggregate 8 TRANSLATION Translation is considered a kind of modification so you may distribute 108 translations of the Document under the terms of section 4 Replacing Invariant Sections with translations requires special permission from their copyright holders but you may include translations of some or all Invariant Sections in addition to the original versions of these
30. when you work with GIS you already have projected data to start with In most cases these data will be projected in a certain CRS so you don t have to create a new CRS or even re project the data from one CRS to another That said it is always useful to have an idea about what map projection and CRS means What have we learned Let s wrap up what we covered in this worksheet e Map projections portray the surface of the earth on a two dimensional flat piece of paper or computer screen e There are global map projections but most map projections are created and optimized to project smaller areas of the earth s surface e Map projections are never absolutely accurate representations of the spherical earth They show distortions of angular conformity distance and area It is impossible to preserve all these characteristics at the same time in a map projection e A Coordinate reference system CRS defines with the help of coordinates how the two dimensional projected map is related to real locations on the earth e There are two different types of coordinate reference systems Geographic Coordinate Systems and Projected Coordinate Systems e On the Fly projection is a functionality in GIS that allows us to overlay layers even if they are projected in different coordinate reference systems 76 Now you try Here are some ideas for you to try with your learners e Start QGIS and load two layers of the same area but with different
31. x amp Inland Waters x ES River Areas x Rivers Lines x Contours sf es a LF x Building Points x Building Areas x GB map_50_000 xi s Spot Heights x amp province new 3226AA_1996 ED3 GEO x boundary E E E E E There s a plugin update availabe 26 09044 32 07818 Scale 1 9136 9 Render i P Illustration 24 After making our adjustments it is much easier to see that our points represent trees QGIS 2009 Symbology is a powerful feature making maps come to life and the data in your GIS easier to understand In the topic that follows working with attribute data we will explore more deeply how symbology can help the user to understand vector data What can we do with vector data in a GIS At the simplest level we can use vector data in a GIS Application in much the Same way you would use a normal topographic map The real power of GIS starts to show itself when you start to ask questions like which houses are within the 100 year flood level of a river where is the best place to put a hospital so that it is easily accessible to as many people as possible which learners live in a particular suburb A GIS is a great tool for answering these types of questions with the help of vector data Generally we refer to the process of answering these types of questions as spatial analysis In later topics of this tutorial we w
32. 986 e DeMers Michael N 2005 Fundamentals of Geographic Information Systems 3 Edition Wiley ISBN 9814126195 Websites e http en wikipedia org wiki Scale_ map e http www colorado edu geography gcraft notes mapproj mapproj html The QGIS User Guide also has more detailed information on map production provided in QGIS What s next In the section that follows we will take a closer look at vector analysis to see how we can use a GIS for more than just making good looking maps 86 GIS for Educators Topic 9 Vector Spatial Analysis Buffers Objectives Understanding the use of buffering in vector spatial X analysis g Keywords Vector buffer zone spatial analysis buffer distance dissolve boundary outward and inward buffer multiple buffer Overview Spatial analysis uses spatial information to extract new and additional meaning from GIS data Usually spatial analysis is carried out using a GIS Application GIS Applications normally have spatial analysis tools for feature statistics e g how many vertices make up this polyline or geoprocessing such as feature buffering The types of spatial analysis that are used vary according to subject areas People working in water management and research hydrology will most likely be interested in analysing terrain and modelling water as it moves across it In wildlife management users are interested in analytical functions that deal with wildlife point lo
33. A Gentle Introduction to GIS Brought to you with Quantum GIS a Free and Open Source Software GIS Application for everyone T Sutton O Dassau M Sutton sponsored by Chief Directorate Spatial Planning amp Information Department of Land Affairs Eastern Cape South Africa in partnership with Spatial Information Management Unit Office of the Premier Eastern Cape South Africa lt 7 Province of the AIS EASTERN CAPE j i s a OFFICE OF THE PREMIER Copyright c 2009 Chief Directorate Spatial Planning amp Information Department of Land Affairs Eastern Cape Permission is granted to copy distribute and or modify this document under the terms of the GNU Free Documentation License Version 1 2 or any later version published by the Free Software Foundation with no Invariant Sections no Front Cover Texts and no Back Cover Texts A copy of the license is included in the section entitled GNU Free Documentation License The above copyright notice excludes the QGIS User Manual which may be appended to this document Consult the QGIS Manuals for further copyright and licensing information A word from the editor This project was sponsored by the Chief Directorate Spatial Planning amp Information Department of Land Affairs DLA Eastern Cape in conjunction with the Spatial Information Management Unit Office of the Premier Eastern Cape South Africa GIS is becoming an increasingly impo
34. ELES URE gt Pe a 4 ea a i l i Da l En E C 2 t NODAS Bo PHD MAR gt x x Legend Bix Os ni F El lt 4 tourism_points gt b Fishing of Look Out Point E WE tourism lines obe Access Road o Hiking Trail d x tourism polys Lo Picnic Areas Er W E 0k roads aa ARTERIAL ROUTE H A HIKING TRAIL MAIN ROAD OTHER ACCESS SECONDARY ROAD ee toT REE I o TRACK FOOTPATH El 3 50k inlandwater EE La EE e EN onat Illustration 44 A map with tourism layers We have used three different geometry types for tourism data so that we can properly represent the different kinds of features needed for our visitors giving them all the information they need Example 2 Creating a map of pollution levels along a river 40 If you wanted to measure pollution levels along the course of a river you would typically travel along the river in a boat or walk along its banks At regular intervals you would stop and take various measurements such as Dissolved Oxygen DO levels Coliform Bacteria CB counts Turbidity levels and pH You would also need to make a map reading of your position or obtain your position using a GPS receiver To store the data collected from an exercise like this in a GIS Application you would probably create a GIS layer with a point geometry Using point geometry makes sense here because each sample taken represents the conditions at a very specific
35. IS 2009 Illustration 8 GIS Software let you easily change symbology the way information is displayed Another common feature of GIS Applications is the map legend The map legend provides a list of layers that have been loaded in the GIS Application Unlike a paper map legend the map legend or layers list in the GIS Application provides a way to re order hide show and group layers Changing the layer order is done by clicking on a layer in the legend holding the mouse button down and then dragging the layer to a new position In Illustrations 9 and 10 below the map legend is shown as the area to the left of the GIS Application window By changing the layer order the way that layers are drawn can be adjusted in this case so that rivers are drawn over the roads instead of below them Quantum Gis 1 0 0 Kore EasternGape Quantum Gis To 0 kore Eacterncape File Edit View Layer Plugins Tools Help File Edit View Layer Plugins Tools Help le Eee CBR ROC KP KP ERR EP Jadi SKC PP EGR E gt FODS SOURS TWO a FOOD CMDS Oe gt N gt ZiUNODK Q0 7 e 2L LOIA Legend iI p oo a El V Roads 1 1mil fk HIGHWAY MAIN ROADS EI v Roads 1 1mil Outlines fe A HIGHWAY MAIN ROADS be HIGHWAY e MAIN ROADS E a Roads 1 15k c a Roads 1 15k Outlines ai v Railways H v 5 Places 4 E W Roads 1 15k Es v ye Roads 1 15k Outlines H MK Railways MK R
36. Invariant Sections You may include a translation of this License and all the license notices in the Document and any Warranty Disclaimers provided that you also include the original English version of this License and the original versions of those notices and disclaimers In case of a disagreement between the translation and the original version of this License or a notice or disclaimer the original version will prevail If a section in the Document is Entitled Acknowledgements Dedications or History the requirement section 4 to Preserve its Title section 1 will typically require changing the actual title 9 TERMINATION You may not copy modify sublicense or distribute the Document except as expressly provided for under this License Any other attempt to copy modify Sublicense or distribute the Document is void and will automatically terminate your rights under this License However parties who have received copies or rights from you under this License will not have their licenses terminated so long as such parties remain in full compliance 10 FUTURE REVISIONS OF THIS LICENSE The Free Software Foundation may publish new revised versions of the GNU Free Documentation License from time to time Such new versions will be similar in Spirit to the present version but may differ in detail to address new problems or concerns See http www gnu org copyleft Each version of the License is given a distinguishing versi
37. RACK FOOTPATH Style Options Outline style Outline color Outline width L Fill color Fill style B Restore Default Style Save As Default Load Style Save Style Help Apply x Cancel 4J ok Illustration 41 Defining unique value symbology for roads based on the road type When the GIS draws the layer it will look at the attributes of each feature before drawing it to the screen Based on the value in the chosen field in the attribute table the road line will be drawn with suitable colour and line style and fill style if its a polygon feature This is shown in Illustration 42 below Illustration 42 A roads vector layer symbolised using a unique value per road type Things to be aware of Deciding which attributes and symbology to use requires some planning Before you start collecting any GeoSpatial data you should ensure you know what attributes are needed and how it will be symbolised It is very difficult to go back and re collect data if you plan poorly the first time around Remember also that the goal of collecting attribute data is to allow you to analyse and interpret spatial information How you do this depends on the questions you are trying to answer Symbology is a visual language that allows people to see and understand your attribute data based on the colours and symbols you use Because of this you should put a lot of thought into how you symbolise your maps in order to make them
38. ages Some features such as roads show in an image as a sudden change of colour from neighbouring pixels The computer program looks for such colour changes and creates vector features as a result This kind of functionality is normally only available in very specialised and often expensive GIS software Vector to raster conversion Sometimes it is useful to convert vector data into raster data One side effect of this is that attribute data that is attributes associated with the original vector data will be lost when the conversion takes place Having vectors converted to raster format can be useful though when you want to give GIS data to non GIS users With the simpler raster formats the person you give the raster image to can simply view it as an image on their computer without needing any special GIS software Raster analysis There are a great many analytical tools that can be run on raster data which cannot be used with vector data For example rasters can be used to model water flow over the land surface This information can be used to calculate where watersheds and stream networks exist based on the terrain Raster data are also often used in agriculture and forestry to manage crop production For example with a satellite image of a farmer s lands you can identify areas where the plants are growing poorly and then use that information to apply more fertilizer on the affected areas only Foresters use raster data to estimate ho
39. ake measurements such as pH dissolved oxygen etc Capture the data using the GIS application and make maps that show the samples with a suitable symbology Could you identify any areas of concern Was the GIS Application able to help you to identify these areas Something to think about If you don t have a computer available you can follow the same process by using transparency sheets and a notebook Use an aerial photo orthosheet or satellite image printout as your background layer Draw columns down the page in your notebook and write in the column headings for each attribute field you want to store information about Now trace the geometry of features onto the transparency sheet writing a number next to each feature so that it can be identified Now write the same number in the first column in your table in your notebook and then fill in all the additional information you want to record Further reading Website http www k12science org curriculum waterproj SOOproject miami2000 miam iriverfinal Atml A school project to assess water quality in their local river The QGIS User Guide also has more detailed information on digitising vector data in QGIS What s next In the section that follows we will take a closer look at raster data to learn all about how image data can be used in a GIS 49 GIS for Educators Topic 5 Raster Data Objectives Understand what raster data is and how it can be used in a GIS Keywo
40. are building your own skills freeing money to be spent on important things like food and Shelter and boosting our own economy By sponsoring the creation of this resource the DLA has created a foundation to which young minds can be exposed Exciting possibilities lie ahead when principles of free sharing of Knowledge and data are embraced For this we give our heartfelt thanks to the DLA We hope you enjoy using and learning QGIS in the spirit of Ubuntu Tim Sutton April 2009 Table of Contents TOPIC L THE OGUCGCING Gl Sencicacecacacanosctheainseternaaacontsaniacscdanianseeaasaenaiaeoaaeeans 2 TOD NOCCON Ol oera 10 TOPIC Vector Attribute Dalaicuinengsaucsiergesvavawssauadaeuenanneee geen euenaiaetiwetewenews 21 NODIC4 Data Cap CFC sw hiisasidnn ie vadinndeagatinnien a a a Na 34 TODIC S asl ely Dele aahcecsam atenad aman ameter ata uments cena ae ee nen eairadaceaade 46 TODI COS TODO OY reiron nE NE S E 55 Topic 7 Coordinate Reference SYStEMS ccccccseceuessucueenuueueusucueesaucuenauenans 60 Topic Map ProdUCtiO M isisisi i aN NENEN AEN 72 Topic 9 Vector Spatial Analysis Buffers cccccccsececeeseeeeeeeueuensuuueneaueuneess 80 Topic 10 Spatial Analysis Interpolation cccccccecceeseeseeeeeeeeeeeeetsegeeeeeeeees 87 About the authors amp contributorS s s sessssssssnsnsnsssnnunnnunnnnnnnnnnnnunnnnnunnnnnuns 93 GNU Free Documentation LICENSE ccc cece ecnneeneecscnnseusenucenvennuuuseusenursesnunaas 95
41. are overlaid on top of each other Illustrations 4 to 7 below show a map view that has several layers being added to it An important function of the map view is to allow you to zoom in to magnify zoom out to see a greater area and move around panning in the map 0 01 _ 0 uaa o degrees Gaj m G a ga D A H N G Ea Ea D Qals 2009 Ce QGIS 2009 Illustration 4 A towns layer Illustration 5 A schools layer added to the map view added to the map view 0 0 01 0 0 01 B 1 degrees Ea 1 degrees Ge n a me i EAA ee a oa al k ao S il ie thi r t A s e a l ponte oacie zea Illustration 6 A railways Illustration 7 A rivers layer layer added to the map view added to the map view Unlike paper maps the maps displayed in GIS Applications can be changed after they have been created You can change the symbology of the map layers to make them appear in different colours or symbols For example if we take the map in Illustration 7 and change the symbology we can completely change how it looks as shown in Illustration 8 below Symbology plays an important role in how we interpret maps and GIS Applications are very good at letting you change symbology quickly and easily 0 0 01 degrees Lag Pee ae geo My Queenstown p Tle Wy N gt Pos a I QG
42. at layer in your GIS application with a single mouse click Editing vector data The GIS application will allow you to create and modify the geometry data in a layer a process called digitising which we will look at more closely in a later tutorial If a layer contains polygons e g farm dams the GIS application will only allow you to create new polygons in that layer Similarly if you want to change the shape of a feature the application will only allow you to do it if the changed shape is correct For example it won t allow you to edit a line in such a way that it has only one vertex remember in our discussion of lines above that all lines must have at least two vertices Creating and editing vector data is an important function of a GIS since it is one of the main ways in which you can create personal data for things you are interested in Say for example you are monitoring pollution in a river You could use the GIS to digitise all outfalls for storm water drains as point features You could also digitise the river itself as a polyline feature Finally you could take readings of pH levels along the course of the river and digitise the places where you made these readings as a point layer As well as creating your own data there is a lot of free vector data that you can obtain and use For example you can obtain vector data that appears on the 1 50 000 map sheets from the Chief Directorate Surveys and Mapping Scale and vec
43. aul s This requires topological information data about where it is possible to change trains Looking at a map of the underground the topological relationships are illustrated by circles that show connectivity Changing trains at stations allows you to move from one connected part of the network to another King s Cross St Pancras Portland Baker Russell Square Ay Farringdon boQ Chancery Om Lane Onas Marylebone Edgware Bayswater O Covent A Garden Leicester Blackfriars o ow Lancaster 4 e Cannon Queensway Gate N ous Street London A Bridge ki Charing Q e Embankment Cross heed _ Southwark Knightsbridge High Street 4 Kensington Gloucester South A O Road i Earl s Kensington Sinane Suan Court Square ico Hyde Park Corner Westminster Borough St James s Lambeth Park North mee Victoria O Elephant amp Castle khak ak lkm Illustration 58 Topology of London Underground Network 59 Topology errors There are different types of topological errors and they can be grouped according to whether the vector feature types are polygons or polylines Topological errors with polygon features can include unclosed polygons gaps between polygon borders or overlapping polygon borders A common topological error with polyline features is that they do
44. bes a position in space using an x y and optionally z axis Geometries which have vertices with a z axis are often referred to as 2 5D since they describe height or depth at each vertex but not both 10 When a feature s geometry consists of only a single vertex it is referred to as a point feature see Illustration 15 below Where the geometry consists of two or more vertices and the first and last vertex are not equal a polyline feature is formed see Illustration 16 below Where four or more vertices are present and the last vertex is equal to the first an enclosed polygon feature is formed see Illustration 17 below Vector Point Feature Vector Polyline Feature Vector Polygon Feature Polygon Geometry a series of connected vertices that do form an enclosed shape Polyline Geometry a series of connected vertices that do not form an enclosed shape Point Geometry indicates the x y and z position of the feature Point attributes describe the feature Polyline attributes describe the feature Polygon attributes describe the feature Id Name Description Id Name Description Id Name Description 1 School Boundary Fenceline for the school 2 Sports Field We play soccer here 1 Footpath 1 From class to the playground 2 Footpath 2 From the school gate to the hall 1 Tree Outside our classroom 2 Light post At the school entrance Illustration 15 A point Illustration 16 A Illustrat
45. can be found on top of the lake on a map The road in the east will then be to the right of the water body on the map a river in the south will be below the water body and if you are searching for a train station to the west of the lake you will find it on the left side on the map Scale in detail The scale of a map is the value of a single unit of distance on the map representing distance in the real world The values are shown in map units meters feet or degrees The scale can be expressed in several ways for example in words as a ratio or as a graphical scale bar see Illustration 74 below Expressing a scale in words is a commonly used method and has the advantage of being easily understood by most map users You can see an example of a word based scale in Illustration 74a below Another option is the representative fraction RF method where both the map distance and the ground distance in the real world are given in the same map units as a ratio For example a RF value 1 25 000 means that any distance on the map is 1 25 000 of the real distance on the ground see Illustration 74b below The value 25 000 in the ratio is called the scale denominator More experienced users often prefer the representative fraction method because it reduces confusion When a representative fraction expresses a very small ratio for example 1 1000 OOO it is called a small scale map On the other hand if the ratio is very large for example a 1
46. cations and their relationship to the environment In this topic we will discuss buffering as an example of a useful spatial analysis that can be carried out with vector data Buffering in detail Buffering usually creates two areas one area that is within a specified distance to selected real world features and the other area that is beyond The area that is within the specified distance is called the buffer zone A buffer zone is any area that serves the purpose of keeping real world features distant from one another Buffer zones are often set up to protect the environment protect residential and commercial zones from industrial accidents or natural disasters or to prevent violence 87 Illustration 78 The border between the United States of America and Mexico is separated by a buffer zone Photo taken by SGT Jim Greenhill 2006 Common types of buffer zones may be greenbelts between residential and commercial areas border zones between countries see Illustration 78 above noise protection zones around airports or pollution protection zones along rivers In a GIS Application buffer zones are always represented as vector polygons enclosing other polygon line or point features see Illustrations 79 81 below Illustration 79 A Illustration 80 A Illustration 81 A buffer zone around buffer zone around buffer zone around vector points vector polylines vector polygons Variations in buffering There are several
47. conformity when dealing with large areas Small areas will be far less prone to having their angles distorted when you use an equal area projection Alber s equal area Lambert s equal area and Mollweide Equal Area Cylindrical projections shown in Illustration 67 below are types of equal area projections that are often encountered in GIS work 69 Keep in mind that map projection is a very complex topic There are hundreds of different projections available world wide each trying to portray a certain portion of the earth s surface as faithfully as possible on a flat piece of paper In reality the choice of which projection to use will often be made for you Most countries have commonly used projections and when data is exchanged people will follow the national trend lt a eb P De ek z a Kd A Pili y HH amp eo Illustration 67 The Mollweide Pey Area Cylindrical projection for example ensures that all mapped areas have the same proportional relationship to the areas on the Earth Coordinate Reference System CRS in detail With the help of coordinate reference systems CRS every place on the earth can be specified by a set of three numbers called coordinates In general CRS can be divided into projected coordinate reference systems also called Cartesian or rectangular coordinate reference systems and geographic coordinate reference systems Geographic Coordinat
48. correct area for any municipality and you will not be able to define exactly where the borders between the municipalities are It is not only important for your own analysis to create and have topologically correct data but also for people who you pass data on to They will be expecting your data and analysis results to be correct 60 Topology rules Fortunately many common errors that can occur when digitising vector features can be prevented by topology rules that are implemented in many GIS applications Except for some special GIS data formats topology is usually not enforced by default Many common GIS like QGIS define topology as relationship rules and let the user choose the rules if any to be implemented in a vector layer The following list shows some examples of where topology rules can be defined for real world features in a vector map e Area edges of a municipality map must not overlap e Area edges of a municipality map must not have gaps slivers e Polygons showing property boundaries must be closed Undershoots or overshoots of the border lines are not allowed e Contour lines in a vector line layer must not intersect cross each other Topological tools Many GIS applications provide tools for topological editing For example in QGIS you can enable topological editing to improve editing and maintaining common boundaries in polygon layers A GIS such as QGIS detects a shared boundary in a polygon map s
49. d all contour lines below 900m or similar and in green all lines above or equal to 900m Can you think of how to reproduce other symbology types using the same technique Further reading Website http en wikipedia org wiki Cartography Map_symbology The QGIS User Guide also has more detailed information on working with attribute data and symbology in QGIS What s next In the section that follows we will take a closer look at data capture We will put the things we have learned about vector data and attributes into practice 36 by creating new data 37 GIS for Educators Topic 4 Data Capture Objectives Learn how to create and edit vector and attribute data e Keywords Editing data capture heads up table database Overview In the previous two topics we looked at vector data We saw that there are two key concepts to vector data namely geometry and attributes The geometry of a vector feature describes its shape and position while the attributes of a vector feature describe its properties colour size age etc In this section we will look more closely at the process of creating and editing vector data both the geometry and attributes of vector features How does GIS digital data get stored Word processors spreadsheets and graphics packages are all programs that let you create and edit digital data Each type of application saves its data into a particular file format For example a
50. d fields to the attribute table Normally we give field names that are short have no spaces and indicate what type of information is being stored in that field Example field names may be pH RoofColour RoadType and so on As well as choosing a name for each field you need to indicate how the information should be stored in that field i e is ita number a word ora sentence or a date Computer programs usually call information that is made up of words or sentences strings so if you need to store something like a street name or the name of a river you should use string for the field type The shapefile format allows you to store the numeric field information as either a whole number integer or a decimal number floating point so you need to think before hand whether the numeric data you are going to capture will have decimal places or not The final step as shown in Illustration 46 below for creating a shapefile is to give it a name and a place on the computer hard disk where it should be created Once again it is a good idea to give the shapefile a short and meaningful name Good examples are rivers watersamples and so on 21x Look in p ciiprooram Files 1S gisdatallocal 000g 50k spothgt shx boundary dbf boundary prj boundary qm boundary shp boundary shx elevation 91000 dbf elevation p1000 prj elevation piOO0 qml elevation plO00 shp elevation p1000 shx houses dbf houses
51. d the area with collected Sample data points see Illustration 91 below F Clupeigi een Gils 1 05 ors arja tin File Edit View Layer Settings Plugins Toot Help J 48G8SRRC CPE BWAQRXKQVQARO 2eSORR ORDBOOuUOST gt 4 UN2BANS KO O gt V gt mma a gt Legend E x e rainfall_january mm degrees O E 3 50k_contours 68 E Interpolation QGls 2009 There is anew suai available S 25 9980 32 1023 Scale 1 100159 E Render iz Illustration 91 Delaunay TIN interpolation result from irregularly collected rainfall sample points blue circles 98 Common problems things to be aware of It is important to remember that there is no single interpolation method that can be applied to all situations Some are more exact and useful than others but take longer to calculate They all have advantages and disadvantages In practice selection of a particular interpolation method should depend upon the Sample data the type of surfaces to be generated and tolerance of estimation errors Generally a three step procedure is recommended 1 Evaluate the sample data Do this to get an idea on how data are distributed in the area as this may provide hints on which interpolation method to use 2 Apply an interpolation method which is most suitable to both the sample data and the study objectives When you are in doubt try several methods if available 3 Compare the results and find the best result
52. d use raster data and in which you would use vector data Get your learners to create a raster map of your school by using A4 transparency sheets with grid lines drawn on them Overlay the transparencies onto a toposheet or aerial photograph of your school Now let each learner or group of learners colour in cells that represent a certain type of feature e g building playground sports field trees footpaths etc When they are all finished overlay all the sheets together and see if it makes a good raster map representation of your school Which types of features worked well when represented as rasters How did your choice in cell size affect your ability to represent different feature types Something to think about If you don t have a computer available you can understand raster data using pen and paper Draw a grid of squares onto a sheet of paper to represent your soccer field Fill the grid in with numbers representing values for grass cover on your soccer field If a patch is bare give the cell a value of O If the patch is mixed bare and covered give it a value of 1 If an area is completely covered with grass give it a value of 2 Now use pencil crayons to colour the cells based on their values Colour cells with value 2 dark green Value 1 should get coloured light green and value O coloured in brown When you finish you Should have a raster map of your soccer field 57 Further reading Book e Chang Kang Tsung 2006 Int
53. e Systems The use of Geographic Coordinate Reference Systems is very common They use degrees of latitude and longitude and sometimes also a height value to describe a location on the earth s surface The most popular is called WGS 84 Lines of latitude run parallel to the equator and divide the earth into 180 equally spaced sections from North to South or South to North The reference line for latitude is the equator and each hemisphere is divided into ninety sections each representing one degree of latitude In the northern hemisphere degrees of latitude are measured from zero at the equator to ninety at the north pole In the southern hemisphere degrees of latitude are measured from zero at the equator to ninety degrees at the south pole To simplify the digitisation of maps degrees of latitude in the southern hemisphere are often assigned negative values 0 to 90 Wherever you are on the earth s surface the distance between the lines of latitude is the same 70 60 nautical miles See Illustration 68 below for a pictorial view 187450 20 9050 30 0 30 80 o 120 850 180 r ro 2 Foer i a 9 i na n Bi a 7 ao Ao a ro Coe i ae aa AE ik ag LE Ie eee ct Oe ee PORE cate eg ae Ce Le rata 3 i cay a B Rees fi br is a ee e i j ny Pace ue i a ark a tt Pa eee teed het dre Se N ey a a i i a i 180 450 120 90 80 30 o g0 Sy 90 120 150 180 Illustration 68 Geog
54. e left side shows more details for example the houses south west of the water body can be clearly identified as separate squares In the image on the right you can only see a black clump of rectangles and you are not able to see each house clearly 82 pee Le 0 02 0 04 degree 0 08 degree L Fuse Ss SH Illustration 75 Maps showing an area in two different scales The map scale on the left is 1 25 000 The map scale on the right is 1 50 000 Acknowledgment in detail In the acknowledgment area of a map it is possible to add text with important information For example information about the quality of the used data can be useful to give the reader an idea about details such as how by whom and when a map was created If you look at a topographical map of your town it would be useful to know when the map was created and who did it If the map is already 50 years old you will probably find a lot of houses and roads that no longer exist or maybe never even existed If you know that the map was created by an Official institution you could contact them and ask if they have a more current version of that map with updated information Graticule in detall A graticule is a network of lines overlain on a map to make spatial orientation easier for the reader The lines can be used as a reference As an example the lines of a graticule can represent the earth s parallels of latitude and
55. e many 50 variations in colour and density of cover It would be easy enough to make a Single polygon around each grassland area but a lot of the information about the grassland would be lost in the process of simplifying the features to a Single polygon This is because when you give a vector feature attribute values they apply to the whole feature so vectors aren t very good at representing features that are not homogeneous entirely the same all over Another approach you could take is to digitise every small variation of grass colour and cover as a separate polygon The problem with that approach is that it will take a huge amount of work in order to create a good vector dataset y a ee 7 llustration 53 Some features on a landscape are easy to represent as points polylines and polygons e g trees roads houses In other cases it can be difficult For example how would you represent the grasslands As polygons What about the variations in colour you can see in the grass When you are trying to represent large areas with continuously changing values raster data can be a better choice Using raster data is a solution to these problems Many people use raster data as a backdrop to be used behind vector layers in order to provide more meaning to the vector information The human eye is very good at interpreting images and so using an image behind vector layers results in maps with a lot more meaning Raster data is not only g
56. e plant as part of an evacuation plan see Illustration 83 below 89 Illustration 83 Buffering a point feature with distances of 10 15 25 and 30 km Buffering with intact or dissolved boundaries Buffer zones often have dissolved boundaries so that there are no overlapping areas between the buffer zones In some cases though it may also be useful for boundaries of buffer zones to remain intact so that each buffer zone is a separate polygon and you can identify the overlapping areas see Illustration 84 below Illustration 84 Buffer zones with dissolved left and with intact boundaries right showing overlapping areas 90 Buffering outward and inward Buffer zones around polygon features are usually extended outward from a polygon boundary but it is also possible to create a buffer zone inward from a polygon boundary Say for example the Department of Tourism wants to plan a new road around Robben Island and environmental laws require that the road is at least 200 meters inward from the coast line They could use an inward buffer to find the 200m line inland and then plan their road not to go beyond that line Common problems things to be aware of Most GIS Applications offer buffer creation as an analysis tool but the options for creating buffers can vary For example not all GIS Applications allow you to buffer on either the left side or the right side of a line feature to dissolve the boundaries of buffer z
57. e right it is much easier to see the different features In this topic we will look at how attribute data can help us to make interesting and informative maps In the previous topic on vector data we briefly explained that attribute data are used to describe vector features Take a look at the house pictures in Illustration 30 below The geometry of these house features is a polygon based on the floor plan of the house the attributes we have recorded are roof colour whether there is a balcony and the year the house was built Note that attributes don t have to be visible things they can describe things we know about the feature such as the year it was built In a GIS Application we can represent this feature type in a houses polygon layer and the attributes in an attribute table see Illustration 31 below 23 Roof Colour Red Roof Colour Black Has balcony Yes Has balcony No Year Built 2000 Year Built 2002 Illustration 30 Every feature has characteristics that we can describe These can be visible things or things we know about the feature e g year built 24 g Quantum GIS 1 0 2 Kore EasternCapeVectors Lo Lx lt File Edit View Layer Plugins Tools Tools Help N aHUS SKRECE EG KEERN PA E EO E Ae PRERE E m RR Legend K f Zo 0 01 1 ii houses alek AA W Black b Pas s1181 B Red v Building Points ala4 lA ES ie AIN 1 f I i e205 4 n j ih pa Ci pl 2 4 i
58. ead of paper maps Here are some that we could think of o GIS Applications allow you to create many different types of maps from the same data o GIS is a great visualisation tool that can show you things about your data and how they are related in space e g those disease outbreaks we Saw earlier o Paper maps need to be filed and are time consuming to view The GIS can hold a very large amount of map data and make it quick and easy to find a place you are interested in e Geography Can you and your learners think of how raster data from Satellites could be useful Here are some ideas we had o During natural disasters raster data can be useful to show where the impacted areas are For example a recent satellite image taken during a flood can help to show where people may need rescuing o Sometimes people do bad things to the the environment like dumping dangerous chemicals that kill plants and animals Using raster data from satellites can help us to monitor for these type of problems o Town planners can use raster data from satellites to see where informal settlements are and to help in planning infrastructure Something to think about If you don t have a computer available many of the topics we cover in this tutorial can be reproduced using an overhead and transparency as it uses the Same technique of layering information However to properly understand GIS it is always better to learn it using a computer Further readin
59. easy to understand What have we learned Let s wrap up what we covered in this worksheet Vector features have attributes Attributes describe the properties of the feature The attributes are stored in a table Rows in the table are called records There is one record per feature in the vector layer Columns in the table are called fields 34 Fields represent properties of the feature e g height roof colour etc Fields can contain numerical string any text and date information The attribute data for a feature can be used to determine how it is symbolised Graduated colour symbology groups the data into discrete classes Continuous colour symbology assigns colours from a colour range to the features based on their attributes Unique value symbology associates each different value in the chosen attribute column with a different symbol colour and style If the attribute of a vector layer is not used to determine its symbology it is drawn using a single symbol only Now you try Here are some ideas for you to try with your learners Using the table that you created in the last topic add a new column for the symbology type you would use for each feature type and have the learners identify which symbology type they would use see Table 6 below for an example Try to identify which symbology types you would use for the following types of vector features o points showing pH level of soil samples taken around your school o li
60. entence J Preserve the network Location if any given in the Document for public access to a Transparent copy of the Document and likewise the network locations given in the Document for previous versions it was based on These may be placed in the History section You may omit a network location for a work that was published at least four years before the Document itself or if the original publisher of the version it refers to gives permission K For any section Entitled Acknowledgements or Dedications Preserve the Title of the section and preserve in the section all the substance and tone of each of the contributor acknowledgements and or dedications given therein L Preserve all the Invariant Sections of the Document unaltered in their text and in their titles Section numbers or the equivalent are not considered part of the section titles M Delete any section Entitled Endorsements Such a section may not be included in the Modified Version N Do not retitle any existing section to be Entitled Endorsements or to conflict in title with any Invariant Section 0 Preserve any Warranty Disclaimers m H T If the Modified Version includes new front matter sections or appendices that qualify as Secondary Sections and contain no material copied from the Document you may at your option designate some or all of these sections as invariant To do this add their titles to the list of Invariant Sections in the Modified V
61. erial photograph or satellite image it is very important that the raster layer is properly georeferenced A layer that is georeferenced properly displays in the correct position in the map view based on the GIS Application s internal model of the earth We can see the effect of a poorly georeferenced image in Illustration 51 below 47 Illustration 51 The importance of using properly georeferenced raster images for heads up digitising On the left we can see the image is properly georegistered and the road features in orange overlap perfectly If the image is poorly georeferenced as shown on the right the features will not be well aligned Worse still if the image on the right is used as a reference when capturing new features the newly captured data will be inaccurate Also remember that it is important that you are zoomed in to an appropriate scale so that the vector features you create are useful As we saw in the previous topic on vector geometry it is a bad idea to digitise your data when you are zoomed out to a scale of 1 1000 000 if you intend to use the data you capture at a scale of 1 50 000 later What have we learned Let s wrap up what we covered in this worksheet e Digitising is the process of capturing knowledge of a feature s geometry and attributes into a digital format stored on the computer s disk e GIS Data can be stored in a database or as files e One commonly used file format is the shapefile which is act
62. ersion s license notice These titles must be distinct from any other section titles You may add a section Entitled Endorsements provided it contains nothing but endorsements of your Modified Version by various parties for example Statements of peer review or that the text has been approved by an organization as the authoritative definition of a standard You may add a passage of up to five words as a Front Cover Text and a passage of up to 25 words as a Back Cover Text to the end of the list of Cover Texts in the Modified Version Only one passage of Front Cover Text and one of Back Cover Text may be added by or through arrangements made by any one entity If the Document already includes a cover text for the same cover previously added by you or by arrangement made by the same entity you are acting on behalf of you may not add another but you may replace the old one on explicit permission from the previous publisher that added the old one The author s and publisher s of the Document do not by this License give permission to use their names for publicity for or to assert or imply 107 endorsement of any Modified Version 5 COMBINING DOCUMENTS You may combine the Document with other documents released under this License under the terms defined in section 4 above for modified versions provided that you include in the combination all of the Invariant Sections of all of the Original documents unmodified and list them all as
63. es Raster data are stored as a grid of values There are many satellites circling the earth and the photographs they take are a kind of raster data that can be viewed in a GIS One important difference between raster and vector data is that if you zoom in too much on a raster image it will start to appear blocky see illustrations 12 and 13 below In fact these blocks are the individual cells of the data grid that makes up the raster image We will be looking at raster data in greater detail in later tutorials Illustration 12 Raster data are Illustration 13 The same raster often images taken by data but this time zoomed in satellites Here we can see The grid nature of the data can mountains in the Eastern Cape be seen What have we learned Let s wrap up what we covered in this worksheet e A GIS is a system of computer hardware computer software and geographical data e A GIS Application allows you to view geographical data and is an important part of the GIS e A GIS Application normally consists of a menu bar toolbars a map view and a legend e Vector and raster data are geographical data used in a GIS application e Geographical data can have associated non geographical data Now you try Here are some ideas for you to try with your learners e Geography Describe the concept of GIS to your learners as outlined in this tutorial Ask them to try to think of 3 reasons why it might be handy to use a GIS inst
64. features as we would represent them in a GIS Rivers blue and roads green can be represented as lines trees as points red and houses as polygons white As we show in Illustration 15 a point feature has an X Y and optionally Z value The X and Y values will depend on the Coordinate Reference System CRS being used We are going to go into more detail about Coordinate Reference Systems in a later tutorial For now let s simply say that a CRS is a way to accurately describe where a particular place is on the earth s surface One of the most common reference systems is Longitude and Latitude Lines of Longitude run from the North Pole to the South Pole Lines of Latitude run from the East to West You can describe precisely where you are at any place on the earth by giving someone your Longitude X and Latitude Y If you make a similar measurement for a tree or a telephone pole and marked it on a map you will have created a point feature Since we know the earth is not flat it is often useful to add a Z value to a point feature This describes how high above sea level you are Polyline features in detail Where a point feature is a single vertex a polyline has two or more vertices The polyline is a continuous path drawn through each vertex as Shown in Illustration 16 above When two vertices are joined a line is created When more than two are joined they form a line of lines or polyline 12 A polyline is used to sho
65. formity within some acceptable limit Examples of compromise projections are the Winkel Tripel projection and the Robinson projection see Illustration 63 below which are often used for world maps 2A LA annua Ca e a THS M EESERREEDD EEEha n LY TR ENGEUEEEDE po ra T TAF at AEN SO a oe Illustration 63 The Robinson projection is a compromise where distortions of area angular conformity and distance are acceptable It is usually impossible to preserve all characteristics at the same time in a map projection This means that when you want to carry out accurate analytical operations you need to use a map projection that provides the best characteristics for your analyses For example if you need to measure distances on your map you should try to use a map projection for your data that provides high accuracy for distances Map projections with angular conformity When working with a globe the main directions of the compass rose North East South and West will always occur at 90 degrees to one another In other words East will always occur at a 90 degree angle to North Maintaining correct angular properties can be preserved on a map projection as well A map projection that retains this property of angular conformity is called a conformal or orthomorphic projection 67 ea LL TTT EE am Illustrati
66. g Book Desktop GIS Mapping the Planet with Open Source Tools Author Gary Sherman ISBN 9781934356067 Website http www gisdevelopment net tutorials tuman006 htm The QGIS User Guide also has more detailed information on working with QGIS What s next In the sections that follow we are going to go into more detail showing you how to use a GIS Application All of the tutorials will be done using QGIS Next up let s look at vectors GIS for Educators Topic 2 Vector Data Objectives Understanding of vector data models as used in GIS e Keywords Vector Point Polyline Polygon Vertex Geometry Scale Data Quality Symbology Data Sources Overview Vector data provide a way to represent real world features within the GIS environment A feature is anything you can see on the landscape Imagine you are standing on the top of a hill Looking down you can see houses roads trees rivers and so on see Illustration 14 below Each one of these things would be a feature when we represent them in a GIS Application Vector features have attributes which consist of text or numerical information that describe the features San y _ llustration 14 Looking over a landscape you can see the main features such as roads houses and trees A vector feature has its shape represented using geometry The geometry is made up of one or more interconnected vertices A vertex descri
67. h Title Page means the text near the most prominent appearance of the work s title preceding the beginning of the body of the text A section Entitled XYZ means a named subunit of the Document whose title either is precisely XYZ or contains XYZ in parentheses following text that translates XYZ in another language Here XYZ stands for a specific section name mentioned below such as Acknowledgements Dedications Endorsements or History To Preserve the Title of such a section when you modify the Document means that it remains a section Entitled XYZ according to this definition The Document may include Warranty Disclaimers next to the notice which states that this License applies to the Document These Warranty Disclaimers are considered to be included by reference in this License but only as regards disclaiming warranties any other implication that these Warranty Disclaimers may have is void and has no effect on the meaning of this License 2 VERBATIM COPYING You may copy and distribute the Document in any medium either commercially or noncommercially provided that this License the copyright notices and the License notice saying this License applies to the Document are reproduced in all copies and that you add no other conditions whatsoever to those of this License You may not use technical measures to obstruct or control the reading or further copying of the copies you make or distribute However you may accept com
68. hat our eyes cannot Of course in a hand held camera it probably doesn t make sense to record information from the non visible parts of the spectrum since most people just want to look at pictures of their dog or what have you Raster images that include data for non visible parts of the light spectrum are often referred to as multi spectral images In GIS recording the non visible parts of the spectrum can be very useful For example measuring infra red light can be useful in identifying water bodies Because having images containing multiple bands of light is so useful in GIS raster data are often provided as multi band images Each band in the image is like a separate layer The GIS will combine three of the bands and show them as red green and blue so that the human eye can see them The number of bands in a raster image is referred to as its spectral resolution If an image consists of only one band it is often called a grayscale image With grayscale images you can apply false colouring to make the differences in values in the pixels more obvious Images with false colouring applied are often referred to as pseudocolour images 55 Raster to vector conversion In our discussion of vector data we explained that often raster data are used as a backdrop layer which is then used as a base from which vector features can be digitised Another approach is to use advanced computer programs to automatically extract vector features from im
69. hat you want to create a nice tourism map for your local area Your vision of the final map is a 1 50 000 toposheet with markers overlaid for sites of interest to tourists First let s think about the geometry We know that we can represent a vector layer using point polyline or polygon features Which 39 one makes the most sense for our tourism map We could use points if we wanted to mark specific locations such as look out points memorials battle sites and so on If we wanted to take tourists along a route such as a scenic route through a mountain pass it might make sense to use polylines If we have whole areas that are of tourism interest such as a nature reserve ora cultural village polygons might make a good choice As you can see it s often not easy to know what type of geometry you will need One common approach to this problem is to make one layer for each geometry type you need So for example if you look at digital data provided by the Chief Directorate Surveys and Mapping South Africa they provide a river areas polygons layer and a rivers polyline layer They use the river areas polygons to represent river stretches that are wide and they use river polylines to represent narrow stretches of river In Illustration 44 below we can see how our tourism layers might look on a map if we used all three geometry types Quantum GIS 1 0 7 Kore a _ 5 x File Edit View Layer Settings Plugins Tools Help sadd KE
70. he Document that deals exclusively with the relationship of the publishers or authors of the Document to the Document s overall subject or to related matters and contains nothing that could fall directly within that overall Subject Thus if the Document is in part a textbook of mathematics a Secondary Section may not explain any mathematics The relationship could be a matter of historical connection with the subject or with related matters or of legal commercial philosophical ethical or political position regarding them The Invariant Sections are certain Secondary Sections whose titles are designated as being those of Invariant Sections in the notice that says that the Document is released under this License If a section does not fit the 104 above definition of Secondary then it is not allowed to be designated as Invariant The Document may contain zero Invariant Sections If the Document does not identify any Invariant Sections then there are none The Cover Texts are certain short passages of text that are listed as Front Cover Texts or Back Cover Texts in the notice that says that the Document is released under this License A Front Cover Text may be at most 5 words and a Back Cover Text may be at most 25 words A Transparent copy of the Document means a machine readable copy represented in a format whose specification is available to the general public that is Suitable for revising the document straightforwardl
71. he attributes of features are not numeric but instead strings are used String is a computer term meaning a group of letters numbers and other writing symbols Strings attributes are often used to classify things by name We can tell the GIS Application to give each unique string or number its own colour and symbol Road features may have different classes e g street secondary road main road etc each drawn in the map view of the GIS with different colours or symbols This is illustrated in Table 5 below Attribute Value Colour class and symbol Arterial route Main road Secondary road Street Table 5 Unique attribute values for a feature type e g roads can each have their own symbol Within the GIS Application we can open choose to use Unique Value symbology for a layer The GIS will scan through all the different string values in the attribute field and build a list of unique strings or numbers Each unique value can then be assigned a colour and style This is shown in Illustration 41 below layer Properties Tz General Symbology Metadata Labels Actions Attributes Legend type Unique Value a Transparency 0 Tl Classification field FEAT_TYPE Classify Add class Delete classes Randomize Colors Reset Colors A ARTERIAL ROUTE HIKING TRAIL A MAIN ROAD OTHER ACCESS Label SECONDARY ROAD STREET T
72. hown in Illustration 71 above Furthermore because we are south of the equator and negative values are not allowed in the UTM coordinate reference system we have to add a so called false northing value of 10 000 000m to the northing y value and a false easting value of 500 000m to the easting x value This sounds difficult so we will do an example that shows you how to find the correct UTM 35S coordinate for the Area of Interest The northing y value The place we are looking for is 3 550 000 meters south of the equator so the northing y value gets a negative sign and is 3 550 000m According to the UTM definitions we have to add a false northing value of 10 000 000m This means the northing y value of our coordinate is 6 450 000m 3 550 000m 10 000 000m The easting x value First we have to find the central meridian longitude for the UTM zone 35S As we can see in 71 it is 27 degrees East The place we are looking for is 85 000 meters West from the central meridian Just like the northing value the easting x value gets a negative sign giving a result of 85 000m According to the UTM definitions we have to add a false easting value of 500 000m This means the easting x value of our coordinate is 415 000m 85 000m 500 000m Finally we have to add the zone number to the easting value to get the correct value As a result the coordinate for our Point of Interest projected in UTM zone 35S would be writ
73. ill look at spatial analysis in more detail Common problems with vector data Working with vector data does have some problems We already mentioned the issues that can arise with vectors captured at different scales Vector data also needs a lot of work and maintenance to ensure that it is accurate and reliable Inaccurate vector data can occur when the instruments used to capture the data are not properly set up when the people capturing the data aren t being careful when time or money don t allow for enough detail in the collection process and so on If you have poor quality vector data you can often detect 17 this when viewing the data in a GIS For example slivers can occur when the edges of two polygon areas don t meet properly see Illustration 25 below Overshoots can occur when a line feature such as a road does not meet another road exactly at an intersection Undershoots can occur when a line feature e g a river does not exactly meet another feature to which it should be connected Illustration 26 below demonstrates what undershoots and overshoots look like Because of these types of errors it is very important to digitise data carefully and accurately In the upcoming topic on topology we will examine some of these types of errors in more detail S 91128 up on their borders At a small scale e g 1 on left you may not be able to see these errors At a large scale they are visible as thin strips between two
74. ion 17 A feature is described by polyline is a sequence of polygon like a polyline its X Y and optionally Z joined vertices Each is a sequence of coordinate The point vertex has an X Y and vertices However in a attributes describe the optionally Z coordinate polygon the first and point e g if it is a tree Attributes describe the last vertices are always or a lamp post polyline at the same position Looking back at the picture of a landscape we showed you further up you Should be able to see the different types of features in the way that a GIS represents them now see Illustration 18 below Point features in detail The first thing we need to realise when talking about point features is that what we describe as a point in GIS is a matter of opinion and often dependent on scale let s look at cities for example If you have a small scale map which covers a large area it may make sense to represent a city using a point feature However as you zoom in to the map moving towards a larger scale it makes more sense to show the city limits as a polygon When you choose to use points to represent a feature is mostly a matter of scale how far away are you from the feature convenience it takes less time and effort to create point features than polygon features and the type of 11 feature some things like telephone poles just don t make sense to be stored as polygons g Illustration 18 Landscape
75. ion to add a new layer to the display output File Edit View _Jmaad gt LI Add Raster Layer 7 a Je Add PostGIS Layer Legend Add WMS Layer Open Attribute Table Toggle editing Save as Shapefile Save Selection as Shapefile H Remove Layer Properties ee Add to Overview Add All to Overview amp Remove All From Overview Q Hide All Layers wy Show All Layers Illustration 2 Application menus when clicked with the mouse expand to Show a list of actions that can be carried out Toolbars rows of small pictures that can be clicked with the mouse normally sit just below the menus and provide a quicker way to use frequently needed actions JIB eds osR RPP Pe BBR YS 2 ce ae KON MOMOGTK Rw iea waaWheuw 4a FiLUMOANHA S Do PHASPQQVQeaoa Illustration 3 Toolbars provide quick access to commonly used functions Holding your mouse over a picture will usually tell you what will happen when you click on it A common function of GIS Applications is to display map layers Map layers are stored as files on a disk or as records in a database Normally each map layer will represent something in the real world a roads layer for example will have data about the street network When you open a layer in the GIS Application it will appear in the map view The map view shows a graphic representing your layer When you add more than one layer to a map view the layers
76. ith distance from the unknown point you want to create see Illustration 88 below 95 Sample Points i Unknown value to be interpolated Illustration 88 Inverse Distance Weighted interpolation based on weighted sample point distance left Interpolated IDW surface from elevation vector points right Image Source Mitas L Mitasova H 1999 Weighting is assigned to sample points through the use of a weighting coefficient that controls how the weighting influence will drop off as the distance from new point increases The greater the weighting coefficient the less the effect points will have if they are far from the unknown point during the interpolation process As the coefficient increases the value of the unknown point approaches the value of the nearest observational point It is important to notice that the IDW interpolation method also has some disadvantages The quality of the interpolation result can decrease if the distribution of sample data points is uneven Furthermore maximum and minimum values in the interpolated surface can only occur at sample data points This often results in small peaks and pits around the sample data points as shown in Illustration 88 above 96 In GIS interpolation results are usually shown as a 2 dimensional raster layer In Illustration 89 below you can see a typical IDW interpolation result based on elevation sample points collected in the field with a GPS device
77. lies of map projections The process of creating map projections can be visualised by positioning a light source inside a transparent globe on which opaque earth features are placed Then project the feature outlines onto a two dimensional flat piece of paper Different ways of projecting can be produced by surrounding the globe in a cylindrical fashion as a cone or even as a flat surface Each of these methods produces what is called a map projection family Therefore there is a family of planar projections a family of cylindrical projections and another called conical projections see Illustration 62 H N a A A i p v4 a El ST Map Projection Families Illustration 62 The three families of map projections They can be represented by a cylindrical projections b conical projections or c planar projections Today of course the process of projecting the spherical earth onto a flat piece of paper is done using the mathematical principles of geometry and trigonometry This recreates the physical projection of light through the globe Accuracy of map projections Map projections are never absolutely accurate representations of the spherical earth As a result of the map projection process every map shows distortions of angular conformity distance and area A map projection may combine 66 several of these characteristics or may be a compromise that distorts all the properties of area distance and angular con
78. ll then be asked to enter in the attribute data for your new polyline feature The process for capturing a polygon is almost the same as capturing a polyline except that you need to use the polygon capture tool in the tool bar Also you will notice that when you draw your geometry on the screen the GIS Application always creates an enclosed area To add a new feature after you have created your first one you can simply click again on the map with the point polyline or polygon capture tool active and start to draw your next feature When you have no more features to add always be sure to click the allow editing icon to toggle it off The GIS Application will then save your newly created layer to the hard disk Heads up digitising As you have probably discovered by now if you followed the steps above it is pretty hard to draw the features so that they are spatially correct if you do not have other features that you can use as a point of reference One common solution to this problem is to use a raster layer such as an aerial photograph or a Satellite image as a backdrop layer You can then use this layer as a reference map or even trace the features off the raster layer into your vector layer if they are visible This process is known as heads up digitising and is Shown in Illustration 49 below 45 Quantum GIS 1 0 2 Kore File Edit view Layer Settings Plugins Tools Help addo ae r t g EE al
79. m GIS 1 0 0 Kore EasternGapeVectors Quantum GIS 1 0 0 Kore EasternGapeVectors File Edit View Layer Settings Plugins Tools Help ABB SKEE PS CREBA ABBAS SKRECE PS KERR File Edit View Layer Settings Plugins Tools Help 4 N2OBAKSCe KQ0 PAD anaa AA aa NOGA 47 N2O AKSC e KQ0 PAD wea eaeartA NOGA TAAXAAAO MPrTeSORR 7222 Q8R80 VL EESORR Legend x 0 0 005 Legend x 0 0 005 degrees degrees Vie L Vi ae L Black 0 No Balcony E Ra MMMA LIZ aa 1 Balcony s1384 vi Building Point Vv Building Point wi 6 Trees os Trees a k Road i i M k Roads te V amp Road Out 7 y amp Road Outlines e vi water Bod v Water Bodies vi amp Rivers vf Rivers v 5 Spot Height 4 5 Spot Height v ao v ao ng Areas 4 q River Areas 91388 a Lo en al QGIS 2009 26 05662 32 09212 Scale 1 8296 Q v Render fy 4A ie ng Areas T q River Areas 91388 f F CS n gt al QGIS 2009 D 26 06733 32 08643 Scale 1 8296 x v Render k f oe Illustration 32 In a GIS Application we can draw features differently depending on their attributes On the left we have drawn house polygons with the same colour as the roof attribute On the right we colour coded houses according to whether they have a balcony or not If you have ever searched a map for a place name or a specific feature you will Know how time consuming it can be Having attrib
80. ment must themselves be free in the same sense It complements the GNU General Public License which is a copyleft license designed for free software We have designed this License in order to use it for manuals for free software because free software needs free documentation a free program should come with manuals providing the same freedoms that the software does But this License is not limited to software manuals it can be used for any textual work regardless of subject matter or whether it is published as a printed book We recommend this License principally for works whose purpose is instruction or reference 1 APPLICABILITY AND DEFINITIONS This License applies to any manual or other work in any medium that contains a notice placed by the copyright holder saying it can be distributed under the terms of this License Such a notice grants a world wide royalty free license unlimited in duration to use that work under the conditions stated herein The Document below refers to any such manual or work Any member of the public is a licensee and is addressed as you You accept the license if you copy modify or distribute the work in a way requiring permission under copyright law A Modified Version of the Document means any work containing the Document or a portion of it either copied verbatim or with modifications and or translated into another language A Secondary Section is a named appendix or a front matter section of t
81. n the table by selecting features on the map and find features on the map by selecting features in the table Attribute Table Field 1 YearBuilt Field 2 Field 3 Balcony RoofColour Record 1 Red Record 2 2000 Black No Record 3 2001 Silver Yes Table 2 An attribute table has fields columns and records in rows Each field in the attribute table contains contains a specific type of data text numeric or date Deciding what attributes to use for a feature requires some thought and planning In our house example earlier on in this topic we chose roof colour presence of a balcony and month of construction as attributes of interest We could just as easily have chosen other aspects of a house such as number of levels number of rooms number of occupants type of dwelling RDP House block of flats shack brick house etc year the house was built area of floor space in the house and so on With so many options how do we make a good choice as to what attributes are needed for a feature It usually boils down to what you plan to do with the data If you want to produce a colour coded map showing houses by age it will make sense to have a Year Built attribute for your feature If you know for sure you will never use this type of map it is better to not store the information Collecting and storing unneeded information is a bad idea because of the cost and time required to research and capture the informa
82. nes These projections are used for radio and seismic mapping and for navigation The Plate Carree Equidistant Cylindrical see Illustration 66 below and the Equirectangular projection are two good examples of equidistant projections The Azimuthal Equidistant projection is the projection used for the emblem of the United Nations see Illustration 65 below ra Se nee ae tent Illustration 66 The Plate Carree Equidistant Cylindrical projection for example is used when accurate distance measurement is important Projections with equal areas When a map portrays areas over the entire map so that all mapped areas have the same proportional relationship to the areas on the Earth that they represent the map is an equal area map In practice general reference and educational maps most often require the use of equal area projections As the name implies these maps are best used when calculations of area are the dominant calculations you will perform If for example you are trying to analyse a particular area in your town to find out whether it is large enough for a new shopping mall equal area projections are the best choice On the one hand the larger the area you are analysing the more precise your area measures will be if you use an equal area projection rather than another type On the other hand an equal area projection results in distortions of angular
83. nes showing a road network in a city o polygons for houses with an attribute that shows whether it is made of brick wood or other material 35 Real world feature Geometry Symbology Type Type The school flagpole Point Single Symbol The soccer field Polygon Single Symbol The footpaths in Polyline Have your learners count the number of and around the learners using each footpath in the hour before school school and then use graduated symbols to Show the popularity of each footpath Places where taps Point Single symbol are located Classrooms Polygon Unique value based on the grade of the learners in the classroom Fence Polyline Have your learners rate the condition of the fence around your school by separating it into sections and grading each section on a scale of 1 9 based on its condition Use graduated symbols to classify the condition attribute Classrooms Polygon Count the number of learners in each classroom and use a continuous colour symbol to define a range of colours from red to blue Table 6 An example of a table that defines the feature types and the kind of symbology you would use for each Something to think about If you don t have a computer available you can use transparency sheets and a 1 50 000 map sheet to experiment with different symbology types For example place a transparency sheet over the map and using different coloured koki pens draw in re
84. nt Data Source GIS for Educators Illustration 72 Common map elements labelled in red are the title map body legend north arrow scale bar acknowledgement and map border Other elements that might be added are e g a graticule or name of the 79 map projection CRS Together these elements help the map reader to interpret the information shown on the map The map body is of course the most important part of the map because it contains the map information The other elements support the communication process and help the map reader to orientate himself and understand the map topic For example the title describes the subject matter and the legend relates map symbols to the mapped data Title in detail The map title is very important because it is usually the first thing a reader will look at on a map It can be compared with a title in a newspaper It should be short but give the reader a first idea of what the map is about Map Border in detall The map border is a line that defines exactly the edges of the area shown on the map When printing a map with a graticule which we describe further down you often find the coordinate information of the graticule lines along the border lines as you can see in Illustration 73 below Map Legend in detail A map is a simplified representation of the real world and map symbols are used to represent real objects Without symbols we wouldn t understand maps To ensure that a
85. o that they can be used to describe with an acceptable level of accuracy the location of a point on the map To accomplish this degrees are divided into minutes and seconds There are sixty minutes in a degree and sixty seconds in a minute 3600 seconds in a degree So at the equator one second of latitude or longitude 30 87624 meters 71 72 Projected coordinate reference systems A two dimensional coordinate reference system is commonly defined by two axes At right angles to each other they form a so called XY plane see Illustration 69 on the left side The horizontal axis is normally labelled X and the vertical axis is normally labelled Y In a three dimensional coordinate reference system another axis normally labelled Z is added It is also at right angles to the X and Y axes The Z axis provides the third dimension of space see Illustration 69 on the right side Every point that is expressed in spherical coordinates can be expressed as an X Y Z coordinate uly Illustration 69 Projected coordinate reference systems Two dimensional with X and Y coordinates left and three dimensional with X Y and Z coordinates right A projected coordinate reference system in the southern hemisphere south of the equator normally has its origin on the equator at a specific Longitude This means that the Y values increase southwards and the X values increase to the West In the northern hemisphere north of the equa
86. o you only have to move the edge vertex of one polygon boundary and QGIS will ensure the updating of the other polygon boundaries as shown in Illustration 60 1 below Another topological option allows you to prevent polygon overlaps during digitising see Illustration 60 2 below If you already have one polygon it is possible with this option to digitise a second adjacent polygon so that both polygons overlap and QGIS then clips the second polygon to the common boundary Illustration 60 1 Topological editing to detect shared boundaries when moving vertices When moving a vertex all features that share that vertex are updated 2 To avoid polygon overlaps when a new polygon is digitised shown in red it is clipped to avoid overlapping neighbouring areas 61 Snapping distance Snapping distance is the distance a GIS uses to search for the closest vertex and or segment you are trying to connect when you digitise A segment is a Straight line formed between two vertices in a polygon or polyline geometry If you aren t within the snapping distance a GIS such as QGIS will leave the vertex where you release the mouse button instead of snapping it to an existing vertex and or segment see Illustration 61 below Line Seqment Vertex d i Snapping Distance Snapping Distance Illustration 61 The snapping distance black circle is defined in map units e g decimal degrees for snapping to either vertices
87. oads 1 1mil o HIGHWAY im MAIN ROADS a E Roads 1 1mil Outlines Na Stiring a QGIS 2009 L i QGIS 2009 K a Reso at 27 9458 32 9615 Scale 1 32380 9 m Render i 5 27 9168 32 9619 Scale 1 32380 v Render Illustration 9 Before changing the Illustration 10 After changing the layer order rivers are drawn layer order rivers are drawn on top underneath roads of roads Getting a GIS Application for your own computer s There are many different GIS Applications available Some have many sophisticated features and cost tens of thousands of Rands for each copy In other cases you can obtain a GIS Application for free Deciding which GIS Application to use is a question of how much money you can afford and personal preference For these tutorials we will be using the Quantum GIS Application also known as QGIS Quantum GIS is completely free and you can copy it and share it with your friends as much as you like If you received this tutorial in printed form you should have received a copy of QGIS with it If not you can always visit http qgis org to download your free copy if you have access to the internet GIS Data Now that we know what a GIS is and what a GIS Application can do let s talk about GIS data Data is another word for information The information we use in a GIS normally has a geographical aspect to it Think of our example
88. ogy The QGIS User Guide also has more detailed information on topological editing provided in QGIS What s next 63 In the section that follows we will take a closer look at Coordinate Reference Systems to understand how we relate data from our spherical earth onto flat maps 64 GIS for Educators Topic 7 Coordinate Reference Systems Objectives Understanding of Coordinate Reference Systems x j Keywords Coordinate Reference System CRS Map Projection On the Fly Projection Latitude Longitude Northing Easting Overview Map projections try to portray the surface of the earth or a portion of the earth on a flat piece of paper or computer screen A coordinate reference system CRS then defines with the help of coordinates how the two dimensional projected map in your GIS is related to real places on the earth The decision as to which map projection and coordinate reference system to use depends on the regional extent of the area you want to work in on the analysis you want to do and often on the availability of data Map Projection in detail A traditional method of representing the earth s shape is the use of globes There is however a problem with this approach Although globes preserve the majority of the earth s shape and illustrate the spatial configuration of continent sized features they are very difficult to carry in one s pocket They are also only convenient to use at extremely small scale
89. olation method Inverse Distance Weighted Triangulated Irregular Network ef Overview Spatial analysis is the process of manipulating spatial information to extract new information and meaning from the original data Usually spatial analysis is carried out with a Geographic Information System GIS A GIS usually provides spatial analysis tools for calculating feature statistics and carrying out geoprocessing activities as data interpolation In hydrology users will likely emphasize the importance of terrain analysis and hydrological modelling modelling the movement of water over and in the earth In wildlife management users are interested in analytical functions dealing with wildlife point locations and their relationship to the environment Each user will have different things they are interested in depending on the kind of work they do Spatial interpolation in detail Temperatures in South Africa Pictalnng on 15 April 2009 at llam Beaufort West assem island Illustration 87 Temperature map interpolated from South African Weather Stations Spatial interpolation is the process of using points with known values to estimate values at other unknown points For example to make a precipitation rainfall map for your country you will not find enough evenly spread weather stations to cover the entire region Spatial interpolation can estimate the 94 temperatures at locations without recorded data by using
90. on 64 The Mercator projection for example is used where angular relationships are important but the relationship of areas are distorted These projections are used when the preservation of angular relationships is important They are commonly used for navigational or meteorological tasks It is important to remember that maintaining true angles on a map is difficult for large areas and should be attempted only for small portions of the earth The conformal type of projection results in distortions of areas meaning that if area measurements are made on the map they will be incorrect The larger the area the less accurate the area measurements will be Examples are the Mercator projection as shown in Illustration 64 above and the Lambert Conformal Conic projection The U S Geological Survey uses a conformal projection for many of its topographic maps Map projections with equal distance If your goal in projecting a map is to accurately measure distances you should select a projection that is designed to preserve distances well Such projections called equidistant projections require that the scale of the map is kept constant A map is equidistant when it correctly represents distances Illustration 65 The United Nations Logo uses the Azimuthal Equidistant projection from the centre of the projection to any other place on the map Equidistant projections maintain accurate distances from the centre of the projection or along given li
91. on number If the Document specifies that a particular numbered version of this License or any later version applies to it you have the option of following the terms and conditions either of that specified version or of any Later version that has been published not as a draft by the Free Software Foundation If the Document does not specify a version number of this License you may choose any version ever published not as a draft by the Free Software Foundation ADDENDUM How to use this License for your documents To use this License in a document you have written include a copy of the License in the document and put the following copyright and License notices just after the title page Copyright c YEAR YOUR NAME Permission is granted to copy distribute and or modify this document under the terms of the GNU Free Documentation License Version 1 2 or any later version published by the Free Software Foundation with no Invariant Sections no Front Cover Texts and no Back Cover Texts A copy of the license is included in the section entitled GNU Free Documentation License If you have Invariant Sections Front Cover Texts and Back Cover Texts replace the with Texts line with this with the Invariant Sections being LIST THEIR TITLES with the Front Cover 109 Texts being LIST and with the Back Cover Texts being LIST If you have Invariant Sections without Cover Texts or some other combination of the three merge th
92. ones or to buffer inward from a polygon boundary A buffer distance always has to be defined as a whole number integer ora decimal number floating point value This value is defined in map units meters feet decimal degrees according to the Coordinate Reference System CRS of the vector layer More spatial analysis tools Buffering is a an important and often used spatial analysis tool but there are many others that can be used in a GIS and explored by the user Spatial overlay is a process that allows you to identify the relationships between two polygon features that share all or part of the same area The output vector layer is a combination of the input features information see Illustration 85 below Typical spatial overlay examples are e Intersection The output layer contains all areas where both layers overlap intersect e Union the output layer contains all areas of the two input layers combined e Symmetrical difference The output layer contains all areas of the input layers except those areas where the two layers overlap intersect e Difference The output layer contains all areas of the first input layer that do not overlap intersect with the second input layer 91 Intersection Symetrical Difference Difference Illustration 85 Spatial overlay with two input vector layers a_input rectangle b_input circle The resulting vector layer is displayed green What have we learned Let s wrap up wha
93. ood for images that depict the real world surface e g satellite images and aerial photographs they are also good for representing more abstract ideas For example rasters can be used to show rainfall trends over an area or to depict the fire risk on a landscape In these kinds of applications each cell in the raster represents a different value e g risk of fire on a scale of one to ten An example that shows the difference between an image obtained from a 51 satellite and one that shows calculated values can be seen in Illustration 54 below QGIS 2009 Illustration 54 True colour raster images left are useful as they provide a lot of detail that is hard to capture as vector features but easy to see when looking at the raster image Raster data can also be non photographic data such as the raster layer shown on the right which shows the calculated average minimum temperature in the Western Cape for the month of March Georeferencing Georeferencing is the process of defining exactly where on the earth s surface an image or raster dataset was created This positional information is stored with the digital version of the aerial photo When the GIS application opens the photo it uses the positional information to ensure that the photo appears in the correct place on the map Normally this positional information consists of a coordinate for the top left pixel in the image the size of each pixel in the X direction the size of
94. or segments Search Radius Search radius is the distance a GIS uses to search for the closest vertex you are trying to move when you click on the map If you aren t within the search radius the GIS won t find and select any vertex of a feature for editing In principle it is quite similar to the snapping distance functionality Snapping distance and search radius are both set in map units so you may need to experiment to get the distance value set right If you specify a value that is too big the GIS may snap to a wrong vertex especially if you are dealing with a large number of vertices close together If you specify the search radius too small the GIS application won t find any feature or vertex to move or edit Common problems things to be aware of Topology is a complex representation of vector data True topological vector datasets are stored in special file formats that record all the relationships between features Most commonly used vector data formats use something called Simple Features which also consists of point line and polygon features Simple feature datasets are mainly designed for simplicity and for fast rendering but not for data analysis that require topology such as finding routes across a network Many GIS applications are able to show topological and simple feature data together and some can also create edit and analyse both 62 What have we learned Let s wrap up what we covered in this worksheet
95. ose two alternatives to suit the situation If your document contains nontrivial examples of program code we recommend releasing these examples in parallel under your choice of free software License such as the GNU General Public License to permit their use in free software 110 QGIS User Manual
96. p Building Areas x map_50_000 xi Spot Heights x amp province_new 3226AA_1996 ED3 GEO x boundary 1247 91205 here is a plugin update available IS 26 07280 32 08620 Scale 1 9136 05 f degrees gt gt aQGIS 2009 Tae oee i Illustration 22 When a layer for example the trees layer above is first loaded a GIS application will give it a generic symbol g Layer Properties 27va x General Symbology Metadata Labels Actions Attributes Legend type Single Symbol ha Transparency 0 Label Point Symbol OOO0 xXA4Ax t AP OGGH8F00000HAL a GewmeHMoe RHEKR Gel BLAR IPH PR tCX n7 AAR ve POSSESS COSZOGS 661T OFF OCOATFEPBOQOSSSOSSEQB 4 XKXX X XXOOSO FL Eee a Rotation field Area scale field Size lt off gt x lt off gt 2 00 B Style Options Outline style Solid Line Outi color M Outline width 0 26 Fill style mm Solid a kel Restore Default Style Save As Default Load Style Save Style Help Apply Cancel Illustration 23 In the GIS you can use a panel like the one above to adjust how features in your layer should be drawn 16 g Quantum GIS 1 0 0 Kore Vectors vV A x File Edit View Layer Settings Plugins Tools Help aBa SKKF PE ua EK RA wet RODRrAve a Oo re wy iy fy amp F EAF pomi j SA n RZA O FR AREBOFRR S gt 9 gt Zi Legend Ex 0 0 005 Fi H g Roads Xi Road Outlines
97. p ae Back gt gt 7 ie gt Search E Folders o gt Ei X lz Hae Address C Program Files Quantum GISigisdatailocal Go Folders x E Quantum GIs sf bin C doc E gisdata alaska O ecape O local D sa G iln trees dbf trees prj G icons images gt include 9 lib trees shp trees shi 5 objects Disk free space 19 0 GB 2 01 ME d My Computer a Illustration 43 The files that make up a trees shapefile as seen in the computer s file manager Many GIS Applications are also able to store digital data inside a database In general storing GIS data in a database is a good solution because the database can store large amounts of data efficiently and can provide data to the GIS Application quickly Using a database also allows many people to work with the Same vector data layers at the same time Setting up a database to store GIS data is more complicated than using shapefiles so for this topic we will focus on creating and editing shapefiles Planning before you begin Before you can create a new vector layer which will be stored in a shapefile you need know what the geometry of that layer will be point polyline or polygon and you need to know what the attributes of that layer will be Let s look at a few examples and it will become clearer how to go about doing this Example 1 Creating a tourism map Imagine t
98. pensation in exchange for copies If you distribute a large enough 105 number of copies you must also follow the conditions in section 3 You may also lend copies under the same conditions stated above and you may publicly display copies 3 COPYING IN QUANTITY If you publish printed copies or copies in media that commonly have printed covers of the Document numbering more than 100 and the Document s License notice requires Cover Texts you must enclose the copies in covers that carry clearly and legibly all these Cover Texts Front Cover Texts on the front cover and Back Cover Texts on the back cover Both covers must also clearly and legibly identify you as the publisher of these copies The front cover must present the full title with all words of the title equally prominent and visible You may add other material on the covers in addition Copying with changes limited to the covers as long as they preserve the title of the Document and satisfy these conditions can be treated as verbatim copying in other respects If the required texts for either cover are too voluminous to fit legibly you Should put the first ones listed as many as fit reasonably on the actual cover and continue the rest onto adjacent pages If you publish or distribute Opaque copies of the Document numbering more than 100 you must either include a machine readable Transparent copy along with each Opaque copy or state in or with each Opaque copy a compu
99. person can correctly read a map a map legend is used to provide a key to all the symbols used on the map It is like a dictionary that allows you to understand the meaning of what the map shows A map legend is usually shown as a little box in a corner of the map It contains icons each of which will represent a type of feature For example a house icon will show you how to identify houses on the map see Illustration 73 below l N N ELEVATION MAP DANNI BE RN CSS J Cee A Ps psc Illustration 73 Two maps from the same area both with a water body in the background but with different themes map symbols and colours in the legend 80 You can also use different symbols and icons in your legend to show different themes In Illustration 73 above you can see a map with a lake in light blue overlaid with contour lines and spot heights to show information about the terrain in that area On the right side you see the same area with the lake in the background but this map is designed to show tourists the location of houses they can rent for their holidays It uses brighter colours a house icon and more descriptive and inviting words in the legend North arrow in detail A north arrow sometimes also called a compass rose is a figure displaying the main directions North South East and West On a map it is used to indicate the direction of North For example in GIS this means that a house that is located north from a lake
100. place For the attributes we would want a field for each thing that describes the Sample site So we may end up with an attribute table that looks something like Table 8 below SampleNo pH DO CB Turbidity Collector Date 1 7 6 N Low Patience 12 01 2009 2 6 8 5 Y Medium Thabo 12 01 2009 3 6 9 6 Y High Victor 12 01 2009 Table 8 Drawing a table like this before you create your vector layer will let you decide what attribute fields columns you will need Note that the geometry positions where samples were taken is not shown in the attribute table the GIS Application stores it separately Creating an empty shapefile Once you have planned what features you want to capture into the GIS and the geometry type and attributes that each feature should have you can move on to the next step of creating an empty shapefile The process usually starts with choosing the new vector layer option in your GIS Application and then selecting a geometry type see Illustration 45 below AS we covered in an earlier topic this means choosing either point polyline or polygon for the geometry File Format Type Point Line Polygon Attributes Type String Name Type Type String Notes String 41 Illustration 45 Creating a new vector layer is as simple as filling in a few details in a form First you choose the geometry type and then you add the attribute fields Next you will ad
101. prj houses grl 50k_riversa shp 50k riversa shx SOk_ roads dbf SOk_ roads prj SOk_roads gmil SOk_roads shp SOk_ roads shx SOk roads pg gmil SOk roads pg gnil 50k roadsoutline qm 50k spothgt dbf 50k spothgt prj 50k spoathgt gmil SOk spothgt shp d My Computer E Administrator EN ENEVGUEUEUEUVEUENEUEUEUEUEL ma fre lt z fre ma fre a fre ma fre ma fre a rie a fe a a lt a f File name tourism points shp 7 Files oF type All Files je Cancel Encoding System Hout Illustration 46 After defining our new layer s geometry and attributes we need to save it to disk It is important to give a short but meaningful name to your shapefile 42 Let s recap the process again quickly To create a shapefile you first say what kind of geometry it will hold then you create one or more fields for the attribute table and then you save the shapefile to the hard disk using an easy to recognise name Easy as 1 2 3 Adding data to your shapefile So far we have only created an empty shapefile Now we need to enable editing in the shapefile using the enable editing menu option or tool bar icon in the GIS Application Shapefiles are not enabled for editing by default to prevent accidentally changing or deleting the data they contain Next we need to start adding data There are two steps we need to complete for each record
102. q iJ al a84 J IA i fe LM 405 Tr E p j j JE i k v 6 Trees yi E Roads y E Road Outlines yi E Water Bodies yf Y Rivers 6 Spot Height aol yf E Contours yi E Building Areas y ET River Areas a1104 d d j ih k P Pe h a a fr kS There is a new plugin available 26 0722 32 0766 Scale 1 31810 3 vi Render iz Attribute table houses ES id SSDS SIAL Ten saia 0 Red 1 2000 a 2 1 Black 1 2008 3 2 Red 1 2001 4 3 Black 0 2004 S Search for in RoofColour RoofColour Search Search select a Advanced _ Her Ed cose Illustration 31 A houses layer House features have attributes that describe the houses roof colour and other properties The attribute table lower image lists the attributes for the house areas shown on the map When a feature is highlighted in the table it will appear as a yellow polygon on the map The fact that features have attributes as well geometry in a GIS Application opens up many possibilities For example we can use the attribute values to tell the GIS what colours and style to use when drawing features see Illustration 32 below The process of setting colours and drawing styles is often referred to as setting feature symbology Attribute data can also be useful when creating map labels Most GIS Applications will have a facility to select an attribute that should be used to label each feature 25 Quantu
103. raphic coordinate system with lines of latitude parallel to the equator and lines of longitude with the prime meridian through Greenwich Lines of longitude on the other hand do not stand up so well to the standard of uniformity Lines of longitude run perpendicular to the equator and converge at the poles The reference line for longitude the prime meridian runs from the North pole to the South pole through Greenwich England Subsequent lines of longitude are measured from zero to 180 degrees East or West of the prime meridian Note that values West of the prime meridian are assigned negative values for use in digital mapping applications See Illustration 68 above for a pictorial view At the equator and only at the equator the distance represented by one line of longitude is equal to the distance represented by one degree of latitude As you move towards the poles the distance between lines of longitude becomes progressively less until at the exact location of the pole all 360 of longitude are represented by a single point that you could put your finger on you probably would want to wear gloves though Using the geographic coordinate system we have a grid of lines dividing the earth into squares that cover approximately 12363 365 square kilometres at the equator a good start but not very useful for determining the location of anything within that square To be truly useful a map grid must be divided into small enough sections s
104. rds Raster Pixel Remote Sensing Satellite Image Georeference ef Overview In the previous topics we have taken a closer look at vector data While vector features use geometry points polylines and polygons to represent the real world raster data takes a different approach Rasters are made up of a matrix of pixels also called cells each containing a value that represents the conditions for the area covered by that cell see Illustration 52 below In this topic we are going to take a closer look at raster data when it is useful and when it makes more sense to use vector data pt tt tt Pt ttt tt ty pty te tee tt ty tt j Columns Illustration 52 A raster dataset is composed of rows running across and columns running down of pixels also know as cells Each pixel represents a geographical region and the value in that pixel represents some characteristic of that region Raster data in detail Raster data is used in a GIS application when we want to display information that is continuous across an area and cannot easily be divided into vector features When we introduced you to vector data we showed you the image in Illustration 53 below Point polyline and polygon features work well for representing some features on this landscape such as trees roads and building footprints Other features on a landscape can be more difficult to represent using vector features For example the grasslands shown hav
105. re taps are located Etc Table 1 Create a table like this leaving the geometry type column empty and ask your learners to decide on suitable geometry types Something to think about If you don t have a computer available you can use a toposheet and transparency sheets to show your learners about vector data Further reading The QGIS User Guide also has more detailed information on working with vector data in QGIS What s next In the section that follows we will take a closer look at attribute data to see 21 how it can be used to describe vector features 22 GIS for Educators Topic 3 Vector Attribute Data Objectives In this topic we describe how attribute data are associated with vector features and can be used to symbolise data ef Overview Keywords Attribute database fields data vector symbology If every line on a map was the same colour width thickness and had the same label it would be very hard to make out what was going on The map would also give us very little information Take a look at Illustration 29 below for example SSSA axon C degrees j s i e115 A D me rat A AGO r aN a V O ee A ww 5 104 i t om Oe i coan Bio nd different symbols are used to help you to tell one type of feature from the next Can you tell the difference between rivers roads and contours using the map on the left Using the map on th
106. rmation Systems Principles Techniques Management and Applications Wiley Websites e http en wikipedia org wiki Interpolation e http en wikipedia org wiki Delaunay triangulation e http www agt bme hu public e funcint funcint html The QGIS User Guide also has more detailed information on interpolation tools provided in QGIS What s next 100 This is the final worksheet in this series We encourage you to explore QGIS and use the accompanying QGIS manual to discover all the other things you can do with GIS software 101 About the authors amp contributors Tim Sutton Editor amp Lead Author Tim Sutton is a developer and project steering committee member of the Quantum GIS project He is passionate about seeing GIS being Freely available to everyone Tim is also a founding member of Linfiniti Consulting CC a small business set up with the goal of helping people to learn and use open source GIS software Web http linfiniti com Email tim linfiniti com u Otto Dassau Assistant Author Otto Dassau is the documentation maintainer and project steering committee member of the Quantum GIS project Otto has considerable experience in using and training people to use Free and Open Source GIS software Web http www nature consult de Email otto dassau gmx de Marcelle Sutton Project Manager Marcelle Sutton studied english and drama and is a qualified teacher Marcelle is also a
107. roduction to Geographic Information Systems 3 Edition McGraw Hill ISBN 0070658986 e DeMers Michael N 2005 Fundamentals of Geographic Information Systems 3 Edition Wiley ISBN 9814126195 Website http en wikipedia org wiki GIS Raster The QGIS User Guide also has more detailed information on working with raster data in QGIS What s next In the section that follows we will take a closer look at topology to see how the relationship between vector features can be used to ensure the best data quality 58 GIS for Educators Topic 6 Topology Objectives Understanding topology in vector data Keywords Vector topology topology rules topology errors search radius snapping distance simple feature Overview Topology expresses the spatial relationships between connecting or adjacent vector features points polylines and polygons in a GIS Topological or topology based data are useful for detecting and correcting digitising errors e g two lines in a roads vector layer that do not meet perfectly at an intersection Topology is necessary for carrying out some types of spatial analysis such as network analysis Imagine you travel to London On a sightseeing tour you plan to visit St Paul s Cathedral first and in the afternoon Covent Garden Market for some souvenirs Looking at the Underground map of London see Illustration 58 below you have to find connecting trains to get from Covent Garden to St P
108. rtant tool in environmental management retail military police tourism and many other spheres of our daily lives If you use a computer or a cell phone you have probably already used a GIS in some form without even realising it Maybe it was a map on a web site Google Earth an information booth or your cell phone telling you where you are Proprietary GIS software software that cannot be freely shared or modified is available that will let you do everything we describe in these worksheets and a lot more However this software is usually very expensive or otherwise limits your freedom to copy share and modify the software GIS vendors sometimes make an exception for educational activities providing cheaper or free copies of their software They do this knowing that if teachers and learners get to know their software they will be reluctant to learn other packages When learners leave school they will go into the workplace and buy the commercial software never knowing that there are free alternatives that they could be using With Quantum GIS we offer an alternative software that is free of cost and free in a social sense You can make as many copies as you like When learners leave school one day they can use this software to build their skills solve problems at work and make the world a better place When you buy commercial software you limit your options for the future By learning using and sharing Free and Open Source Software you
109. s e g 1 100 million Most of the thematic map data commonly used in GIS applications are of considerably larger scale Typical GIS datasets have scales of 1 250 000 or greater depending on the level of detail A globe of this size would be difficult and expensive to produce and even more difficult to carry around As a result cartographers have developed a set of techniques called map projections designed to show with reasonable accuracy the spherical earth in two dimensions When viewed at close range the earth appears to be relatively flat However when viewed from space we can see that the earth is relatively spherical Maps as we will see in the upcoming map production topic are representations of reality They are designed to not only represent features but also their shape and spatial arrangement Each map projection has advantages and disadvantages The best projection for a map depends on the scale of the map and on the purposes for which it will be used For example a projection may have unacceptable distortions if used to map the entire African continent but may be an excellent choice for a large scale detailed map of your country The properties of a map projection may also influence some of the design features of the map Some projections are good for small areas some are good for mapping areas with a large East West 65 extent and some are better for mapping areas with a large North South extent The three fami
110. s can help us to interpret the meanings of contours For example we can draw low lying areas with one colour mid altitude areas with another and high altitude areas with a third 29 General Symbology Metadata Labels Actions Attributes Legend type Graduated Symbol Transparency 0 Classification field HEIGHT Mode Quantiles Number of classes 3 g Classify Delete class 980 000000 1120 000000 1120 000000 1240 000000 1240 000000 1500 000000 Label Style Options Outline style Solid Line s Outline color M Outline width 0 26 E il color SS Fill style mm Solid A Restore Default Style Save As Default li Load Style Save Style Her Apply Cancel ok Illustration 37 The height attribute of contours can be used to separate the contours into 3 classes Contours between 980m and 1120m will be drawn in brown those between 1120m and 1240m in green and those between 1240m and 1500m in purple i am 4 f t G te 1 i l pe k r i Qs oe ff Illustration 38 Our map after setting graduated colours for our contours Setting colours based on discrete groups of attribute values is called Graduated Symbology in QGIS The process is shown in Illustrations 37 and 38 above Graduated symbols are most useful when you want to show clear differences between features with
111. stration 27 below Ve ctorF eature Has only one Attributes describe the Has at leasttwo Attributes describe the Has at leastfour Attrib ute s describe Vertex feature e g Lamp post Verlices feature g Secondary Road Vertices the fe ature e g Municipal Dam ria a Pi bas ris baal e g Longitude e g Latitude above sea level te g Longitude e g Latitude above sea level e g Longitude e g Latitude above sea level Illustration 27 This diagram shows how GIS applications deal with vector data Now you try Here are some ideas for you to try with your learners e Using a copy of a toposheet map for your local area like the one shown in Illustration 28 below see if your learners can identify examples of the different types of vector data by highlighting them on the map e Think of how you would create vector features in a GIS to represent real world features on your school grounds Create a table of different features in and around your school and then task your learners to decide 20 whether they would be best represented in the GIS as a point line or polygon See Table 1 below for an example uf lt l l i A bi s ns ih ea Illustration 28 Can you identify two point features four line features and one polygon feature on this map Real world feature Suitable Geometry Type The school flagpole The soccer field The footpaths in and around the School Places whe
112. t we covered in this worksheet Buffer zones describe areas around real world features Buffer zones are always vector polygons A feature can have multiple buffer zones The size of a buffer zone is defined by a buffer distance A buffer distance has to be an integer or floating point value A buffer distance can be different for each feature within a vector layer Polygons can be buffered inward or outward from the polygon boundary Buffer zones can be created with tntact or dissolved boundaries Besides buffering a GIS usually provides a variety of vector analysis tools to solve spatial tasks Now you try Here are some ideas for you to try with your learners Because of dramatic traffic increase the town planners want to widen the main road and add a second lane Create a buffer around the road to find properties that fall within the buffer zone see Illustration 86 below For controlling protesting groups the police want to establish a neutral zone to keep protesters at least 100 meters from a building Create a buffer around a building and colour it so that event planners can see where the buffer area is A truck factory plans to expand The siting criteria stipulate that a potential site must be within 1 km of a heavy duty road Create a buffer along a main road so that you can see where potential sites are Imagine that the city wants to introduce a law stipulating that no bottle stores may be within a 1000 meter buffer zone
113. ta Labels Actions Attributes Legend type Single Symbol Transparency 0 Ei Legend type Single Symbol Transparency 0 C Label Point Symbol ONGO XAAA TAPS ORUSSSSSRSLEHAL j SvmeHBooc RHEKGSe gt BEAR PRAA Ma Xar OSSGOSCOSOHS 6Ot0Rf Rotation field Area scale field Size Label Style Options lt off gt B lt off gt 2 70 Outline style Solid Line Style Options Outline color obline width 0 26 Fill color es Outline style Solid Line a pare es Fill style f No Bush ieia Restore Default Style Save As Defaut Load Style Save Style _ Restore Default Style Save As Default Load Style Save Style Hep concejo Ore 4 mpy cancel Illustration 35 When using simple __ Illustration 36 There are different symbols the feature is drawn options when defining simple without using an attribute to contro symbols for polyline and polygon how it looks This is the dialog for features point features Graduated Symbols Sometimes vector features represent things with a changing numerical value Contour lines are a good example of this Each contour usually has an attribute value called height that contains information about what height that contour represents In Illustration 33 earlier in this topic we showed contours all drawn with the same colour Adding colour to the contour
114. ten as 35 415 000mE 6 450 000mN In some GIS when the correct UTM zone 35S is defined and the units are set to meters within the system the coordinate could also simply appear as 415 000 6 450 000 On The Fly Projection As you can probably imagine there might be a situation where the data you 75 want to use in a GIS are projected in different coordinate reference systems For example you might get a vector layer showing the boundaries of South Africa projected in UTM 35S and another vector layer with point information about rainfall provided in the geographic coordinate system WGS 84 In GIS these two vector layers are placed in totally different areas of the map window because they have different projections To solve this problem many GIS include a functionality called On the fly projection It means that you can define a certain projection when you start the GIS and all layers that you then load no matter what coordinate reference system they have will be automatically displayed in the projection you defined This functionality allows you to overlay layers within the map window of your GIS even though they may be in different reference systems Common problems things to be aware of The topic map projection is very complex and even professionals who have studied geography geodetics or any other GIS related science often have problems with the correct definition of map projections and coordinate reference systems Usually
115. ter network location from which the general network using public has access to download using public Standard network protocols a complete Transparent copy of the Document free of added material If you use the latter option you must take reasonably prudent steps when you begin distribution of Opaque copies in quantity to ensure that this Transparent copy will remain thus accessible at the stated location until at least one year after the last time you distribute an Opaque copy directly or through your agents or retailers of that edition to the public It is requested but not required that you contact the authors of the Document well before redistributing any large number of copies to give them a chance to provide you with an updated version of the Document 4 MODIFICATIONS You may copy and distribute a Modified Version of the Document under the conditions of sections 2 and 3 above provided that you release the Modified Version under precisely this License with the Modified Version filling the role of the Document thus licensing distribution and modification of the Modified Version to whoever possesses a copy of it In addition you must do these things in the Modified Version A Use in the Title Page and on the covers if any a title distinct from that of the Document and from those of previous versions which should if there were any be listed in the History section of the Document You may use the same title as a previous
116. that the image is composed of Several factors determine the spatial resolution of an image For remote sensing data spatial resolution is usually determined by the capabilities of the sensor used to take an image For example SPOTS satellites can take images where each pixel is 10m x 10m Other satellites for example MODIS take images only at 500m x 500m per pixel In aerial photography pixel sizes of 50cm x 50cm are not uncommon Images with a pixel size covering a small area are called high resolution images because it is possible to make out a high degree of detail in the image Images with a pixel size covering a large area are called low resolution images because the amount of detail the images show is low In raster data that is computed by spatial analysis such as the rainfall map we mentioned earlier the spatial density of information used to create the raster will usually determine the spatial resolution For example if you want to create a high resolution average rainfall map you would ideally need many weather stations in close proximity to each other One of the main things to be aware of with rasters captured at a high spatial resolution is storage requirements Think of a raster that is 3x3 pixels each of which contains a number representing average rainfall To store all the information contained in the raster you will need to store 9 numbers in the computer s memory Now imagine you want to have a raster layer for
117. the 54 whole of South Africa with pixels of ikm x ikm South Africa is around 1 219 090 km Which means your computer would need to store over a million numbers on its hard disk in order to hold all of the information Making the pixel size smaller would greatly increase the amount of storage needed Sometimes using a low Spatial resolution is useful when you want to work with a large area and are not interested in looking at any one area in a lot of detail The cloud maps you see on the weather report are an example of this it s useful to see the clouds across the whole country Zooming in to one particular cloud in high resolution will not tell you very much about the upcoming weather On the other hand using low resolution raster data can be problematic if you are interested in a small region because you probably won t be able to make out any individual features from the image Spectral resolution If you take a colour photograph with a digital camera or camera on a cellphone the camera uses electronic sensors to detect red green and blue light When the picture is displayed on a screen or printed out the red green and blue RGB information is combined to show you an image that your eyes can interpret While the information is still in digital format though this RGB information is stored in separate colour bands Whilst our eyes can only see RGB wavelengths the electronic sensors in cameras are able to detect wavelengths t
118. ties to continuous colour using a dialog like the one shown in Illustration 39 below 3 a Layer Properties General Symbology Metadata Labels Actions Attributes Legend type Continuous Color Transparency 0 1 Classification Field HEIGHT a Minimum Value Maximum Value Outline Width 0 26 e Restore Default Style Save As Default l Load Style Save Style Help 2 Apply Cancel ok Illustration 39 Setting up continuous colour symbology The contour height attribute is used to determine colour values Colours are defined for the minimum and maximum values The GIS Application will then create a gradient of colours for drawing the features based on their heights After defining the minimum and maximum colours in the colour range the colour features are drawn in will depend on where the attribute lies in the range between minimum and maximum For example if you have contour features with values starting at 1000m and ending at 1400m the value range is 1000 to 1400 If the colour set for the minimum value is set to orange and the colour for the maximum value is black contours with a value of close to 1400m will be drawn close to black On the other hand contours with a value near to 1000m will be drawn close to orange See Illustration 40 below 1 T A l AS aO 40 A r map co using onou colour symbology 32 Unique Value Symbols Sometimes t
119. tion Very often we obtain vector data from companies friends or the government In these cases it is usually not possible to request specific attributes and we have to make do with what we get Single Symbols 28 If a feature is symbolised without using any attribute table data it can only be drawn in a simple way For example with point features you can set the colour and marker circle square star etc but that is all You cannot tell the GIS to draw the features based on one of its properties in the attribute table In order to do that you need to use either a graduated continuous or unique value symbol These are described in detail in the sections that follow A GIS application will normally allow you to set the symbology of a layer using a dialog box such as the one shown in in Illustration 35 below In this dialog box you can choose colours and symbol styles Depending on the geometry type of a layer different options may be shown For example with point layers you can choose a marker style With line and polygon layers there is no marker style option but instead you can select a line style and colour such as dashed orange for gravel roads solid orange for minor roads and so on as shown in Illustration 36 below With polygon layers you also have the option of setting a fill style and colour oo m Layer Properties om Layer Properties General Symbology Metadata Labels Actions Attributes General Symbology Metada
120. tor the origin is also the equator at a specific Longitude However now the Y values increase northwards and the X values increase to the East In the following section we describe a projected coordinate reference system called Universal Transverse Mercator UTM often used for South Africa Universal Transverse Mercator UTM CRS in detail The Universal Transverse Mercator UTM coordinate reference system has its origin on the equator at a specific Longitude Now the Y values increase Southwards and the X values increase to the West The UTM CRS is a global map projection This means it is generally used all over the world But as already described in the section accuracy of map projections above the larger the area for example South Africa the more distortion of angular conformity distance and area occur To avoid too much distortion the world is divided into 60 equal zones that are all 6 degrees wide in longitude from 73 East to West The UTM zones are numbered 1 to 60 starting at the international date line zone 1 at 180 degrees West longitude and progressing East back to the tnternational date line zone 60 at 180 degrees East longitude as shown in Illustration 70 below z Loj T DanS i i i 1 pe Py eet la BERREEREe Bn a a E geed ola tes P92 4 See T _ e pe al 5 q s ase z E a 3 rR gt ns Eee ame ail 35 y T oa i sae
121. tor data Map scale is an important issue to consider when working with vector data in a GIS When data is captured it is usually digitised from existing maps or by taking information from surveyor records and global positioning system devices Maps have different scales so if you import vector data from a map 14 into a GIS environment for example by digitising paper maps the digital vector data will have the same scale issues as the original map This effect can be seen in Illustrations 20 and 21 below Many issues can arise from making a poor choice of map scale For example using the vector data in Illustration Illustration 20 below to plan a wetland conservation area could result in important parts of the wetland being left out of the reserve On the other hand if you are trying to create a regional map using data captured at 1 1000 000 might be just fine and will save you a lot of time and effort capturing the data g Quantum GIS 1 0 0 Kore EasternCapeScaleDifferences Yv A x g lt Quantum GIS 1 0 0 Kore EasternCapeScaleDifferences File Edit View Layer Settings Plugins Tools Help j 898 6RB8RB8 F E EE PRE E F MARKAeaAoO Legend j Sx ue OE 7 kK Qora Bh MADA gt Ze ER EBA n aQ0 F 2B MAAA gt Yi bee ORR S gt O NOanr Maaxaaao Legend ax SREGSORR S we ne RI saraieceunin eiastcniedichacr a ktealcted aiiis rer Ee ihe i 3 are Ei ALAALA ANIDA SRIAS EN ASALET vmap coun
122. tries m 5 NASA IPL There is a update available AAE Seale 2 50000 lix Fever lis Illustration 20 Vector data red lines that was digitised from a small scale 1 1000 000 map Symbology C There is a te available 5 18 0525 33 1349 Scale 1 50000 Ox ree is Illustration 21 Vector data green lines that was digitised from a large scale 1 50 000 map When you add vector layers to the map view in a GIS application they will be drawn with random colours and basic symbols One of the great advantages of using a GIS is that you can create personalised maps very easily The GIS program will let you choose colours to suite the feature type e g you can tell it to draw a water bodies vector layer in blue The GIS will also let you adjust the symbol used So if you have a trees point layer you can show each tree position with a small picture of a tree rather than the basic circle marker that the GIS uses when you first load the layer see Illustrations 22 23 amp 24 below 15 Quantum GIS 1 0 0 Kore Vectors g Ble ole Wew Laver Settings Bugis Bow Let Jj EBS REeC FP EC B trnreaarndee Qo Eam RA S W OE i s gt v oA O S x Legend x Roads a xi _ Road Outlines f x ES inland Waters x amp River Areas x E Rivers Lines x E Contours x 3 Building Points x am
123. ually a group of three or more files shp dbf and shx e Before you create a new vector layer you need to plan both what geometry type and attribute fields it will contain e Geometry can be point polyline or polygon e Attributes can be integers whole numbers floating points decimal numbers strings words or dates e The digitising process consists of drawing the geometry in the map view and then entering its attributes This is repeated for each feature e Heads up digitising is often used to provide orientation during digitising by using a raster image in the background e Professional GIS users sometimes use a digitising table to capture information from paper maps Now you try 48 Here are some ideas for you to try with your learners e Draw up alist of features in and around your school that you think would be interesting to capture For example the school boundary the position of fire assembly points the layout of each class room and so on Try to use a mix of different geometry types Now split your learners into groups and assign each group a few features to capture Have them symbolise their layers so that they are more meaningful to look at Combine the layers from all the groups to create a nice map of your school and its surroundings e Find a local river and take water samples along its length Make a careful note of the position of each sample using a GPS or by marking it ona toposheet For each sample t
124. understand why it makes sense to add the name of the projection on a map It allows the reader to see quickly if one map can be compared with another For example features on a map in a so called Equal Area projection appear very different to features projected in a Cylindrical Equidistant projection see Illustration 77 above Map projection is a very complex topic and we cannot cover it completely here You may want to take a look at our previous topic Coordinate Reference Systems if you want to know more about it Common problems things to be aware of It is sometimes difficult to create a map that is easy to understand and well laid out whilst still showing and explaining all the information that the reader needs to know To achieve this you need to create an ideal arrangement and composition of all the map elements You should concentrate on what story you want to tell with your map and how the elements such as the legend scale bar and acknowledgements should be ordered By doing this you will have a well designed and educational map that people would like to look at and be able to understand What have we learned Let s wrap up what we covered in this worksheet e Map production means arranging map elements on a sheet of paper e Map elements are the title map body map border legend scale north arrow and the acknowledgement e Scale represents the ratio of a distance on the map to the actual distance in the real world
125. ute data can make searching for a specific feature quick and easy In Illustration 33 below you can see an example of an attribute search in a GIS Finally attribute data can be very useful in carrying out spatial analysis Spatial analysis combines the spatial information stored in the geometry of features with their attribute information This allows us to study features and how they relate to each other There are many types of spatial analysis that can be carried out for example you could use GIS to find out how many red roofed houses occur in a particular area If you have tree features you could use GIS to try to find out which species might be affected if a piece of land is developed We can use the attributes stored for water samples along a river course to understand where pollution is entering into the stream The possibilities are endless In a later topic we will be exploring spatial analysis in more detail Before we move on to attribute data in more detail let s take a quick recap Features are real world things such as roads property boundaries electrical substation sites and so on A feature has a geometry which determines if it is a point polyline or polygon and attributes which describe the feature This is shown in Illustration 34 below 26 g Quantum GIS 1 0 2 Kore EasternCapeVectors File Edit View Layer Plugins Tools Tools Help 7 fe ww S L ehU RUQ96ANHKO amp Q2 O F eBARAAAO Legend amp
126. variations in buffering The buffer distance or buffer size can vary according to numerical values provided in the vector layer attribute table for each feature The numerical values have to be defined in map units according to the Coordinate Reference System CRS used with the data For example the width of a buffer zone along the banks of a river can vary depending on the intensity of the adjacent land use For intensive cultivation 88 the buffer distance may be bigger than for organic farming see Illustration 82 below and Table 9 below Illustration 82 Buffering rivers with different buffer distances Adjacent land use Buffer distance meters Breede River Intensive vegetable cultivation 100 Komati Intensive cotton cultivation 150 Oranje Organic farming 50 Telle river Organic farming 50 Table 9 Attribute table with different buffer distances to rivers based on information about the adjacent land use Buffers around polyline features such as rivers or roads do not have to be on both sides of the lines They can be on either the left side or the right side of the line feature In these cases the left or right side is determined by the direction from the starting point to the end point of line during digitising Multiple buffer zones A feature can also have more than one buffer zone A nuclear power plant may be buffered with distances of 10 15 25 and 30 km thus forming multiple rings around th
127. version if the original publisher of that version gives permission B List on the Title Page as authors one or more persons or entities responsible for authorship of the modifications in the Modified Version together with at least five of the principal authors of the Document all of its principal authors if it has fewer than five unless they release you from this requirement C State on the Title page the name of the publisher of the 106 Modified Version as the publisher Preserve all the copyright notices of the Document Add an appropriate copyright notice for your modifications adjacent to the other copyright notices F Include immediately after the copyright notices a license notice giving the public permission to use the Modified Version under the terms of this License in the form shown in the Addendum below G Preserve in that License notice the full lists of Invariant Sections and required Cover Texts given in the Document s license notice Include an unaltered copy of this License Preserve the section Entitled History Preserve its Title and add to it an item stating at least the title year new authors and publisher of the Modified Version as given on the Title Page If there is no section Entitled History in the Document create one Stating the title year authors and publisher of the Document as given on its Title Page then add an item describing the Modified Version as stated in the previous s
128. very angular Polygon features in detail Polygon features are enclosed areas like dams islands country boundaries and so on Like polyline features polygons are created from a series of vertices that are connected with a continuous line However because a polygon always describes an enclosed area the first and last vertices should always be at the same place Polygons often have shared geometry boundaries that are in common with a neighbouring polygon Many GIS applications have the capability to ensure that the boundaries of neighbouring polygons exactly 13 coincide We will explore this in the topology topic later in this tutorial As with points and polylines polygons have attributes The attributes describe each polygon For example a dam may have attributes for depth and water quality Vector data in layers Now that we have described what vector data is let s look at how vector data is managed and used in a GIS environment Most GIS applications group vector features into layers Features in a layer have the the same geometry type e g they will all be points and the same kinds of attributes e g information about what species a tree is for a trees layer For example if you have recorded the positions of all the footpaths in your school they will usually be stored together on the computer hard disk and shown in the GIS as a single layer This is convenient because it allows you to hide or show all of the features for th
129. w much timber can be harvested from an area Raster data is also very important for disaster management Analysis of Digital Elevation Models a kind of raster where each pixel contains the height above sea level can then be used to identify areas that are likely to be flooded This can then be used to target rescue and relief efforts to areas where it is needed the most Common problems things to be aware of As we have already mentioned high resolution raster data can require large amounts of computer storage 56 What have we learned Let s wrap up what we covered in this worksheet Raster data are a grid of regularly sized pixels Raster data are good for showing continually varying information The size of pixels in a raster determines its spatial resolution Raster images can contain one or more bands each covering the same Spatial area but containing different information When raster data contains bands from different parts of the electromagnetic spectrum they are called multi spectral images Three of the bands of a multi spectral image can be shown in the colours Red Green and Blue so that we can see them Images with a single band are called grayscale images Single band grayscale images can be shown in pseudocolour by the GIS Raster images can consume a large amount of storage space Now you try Here are some ideas for you to try with your learners Discuss with your learners in which situations you woul
130. w the geometry of linear features such as roads rivers contours footpaths flight paths and so on Sometimes we have special rules for polylines in addition to their basic geometry For example contour lines may touch e g at a cliff face but should never cross over each other Similarly polylines used to store a road network should be connected at intersections In some GIS applications you can set these special rules for a feature type e g roads and the GIS will ensure that these polylines always comply to these rules If a curved polyline has very large distances between vertices it may appear angular or jagged depending on the scale at which it is viewed see Illustration 19 below Because of this it is important that polylines are digitised captured into the computer with distances between vertices that are small enough for the scale at which you want to use the data The attributes of a polyline decribe its properties or characteristics For example a road polyline may have attributes that describe whether it is surfaced with gravel or tar how many lanes it has whether it is a one way street and so on The GIS can use these attributes to symbolise the polyline feature with a suitable colour or line style 150 a QGIS 2009 QGIS 2009 Illustration 19 Polylines viewed at a smaller scale 1 20 000 to the left may appear smooth and curved When zoomed in to a larger scale 1 500 to the right polylines may look
131. y with generic text editors or for images composed of pixels generic paint programs or for drawings some widely available drawing editor and that is suitable for input to text formatters or for automatic translation to a variety of formats suitable for input to text formatters A copy made in an otherwise Transparent file format whose markup or absence of markup has been arranged to thwart or discourage Subsequent modification by readers is not Transparent An image format is not Transparent if used for any substantial amount of text A copy that is not Transparent is called Opaque Examples of suitable formats for Transparent copies include plain ASCII without markup Texinfo input format LaTeX input format SGML or XML using a publicly available DTD and standard conforming simple HTML PostScript or PDF designed for human modification Examples of transparent image formats include PNG XCF and JPG Opaque formats include proprietary formats that can be read and edited only by proprietary word processors SGML or XML for which the DTD and or processing tools are not generally available and the machine generated HIML PostScript or PDF produced by some word processors for output purposes only The Title Page means for a printed book the title page itself plus such following pages as are needed to hold legibly the material this License requires to appear in the title page For works in formats which do not have any title page as suc

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