York University Faculty of Environmental Studies ENVS 3520 3.0
Contents
1. DMTI CanMap Series 2002 Ortho image Triathlon Ltd 1999 f Editing your text data files 1 Open MS Excel and selected File Open from the main menu The File type you want is txt Locate your waypoint data file from last weeks activities Using the Text Import Wizard open the file into Excel Remember it is comma delimited text file ii Now you need to edit all of the records Remove the original waypoint records rows used to find the sampling locations e g Waypoint A B Also remove the header first row that contains the GPS configuration settings iii The first 25 records are from your first waypoint sampling location with the waypoint records 26 50 belonging to the second sampling location Use the copy and paste function in excel to create 2 separate worksheets Find another group in the lab that collected samples for your FIRST waypoint sampling area Exchange MS Excel files via a a floppy disk or e mail attachment iv Consolidate the 26 50 records from the second group into your excel worksheet Now you should have 50 records in total v Save the worksheet in your student network folder using the FILE SAVE AS command as a Dbase IV dbf file Provide a copy of the file to your data collection partner Individual lab work for submission g Integrating and visualizing your waypoint data in ArcGIS Copy all of the files in the ENVS3520 Lab2 folder to your student network folder Double click on Lab2 mdx2. gt Port gt COMx normally COM1 or COM2 v Set the datum to the appropriate value under File Datum in the Waypoint software vi Set the configuration to UTM and meters under File Configuration in the Waypoint software vii From the GPS menu in the Waypoint software select Download from GPS gt All viii Downloading should now proceed your GPS unit will give a message alert press PAGE to see the message it should read Transfer has been completed ix Inthe Waypoint software select Waypoint List waypoints to see what you ve downloaded and confirm it s the correct data You can also plot your waypoints for a quick visualization x From the File menu select Save xi Make sure that you are saving this to your network drive and Save As Comma Delimited Text File xii Exit Waypoint xiii Double check that the Comma Delimited Text File waypoint file has been saved in your network folder with a txt file extension e g sorrellwp txt In order to do next week s work you will need 50 waypoints for sampling one location There is at least one other group that was assigned to the same two coordinates and have taken 25 readings Next week you will be combining results by cutting and pasting records in MS Excel END WEEK 1 ENVS3520 3 0 Lab Assignment 2 0 5 Week 2 Determine the Positional Accuracy of the GPS Sample Records Data Sources Roads shp Desktop Mapping Technologies Inc
3. this will open ArcMap Add the aerial photo of York campus To add the aerial photo into your map view use the add data toolbar button Navigate back to the Course Lab 2 folder and into the Ortho Folder Select the 45621a tif file to add to your project Add Pyramids if prompted The Pyramids option will create a lower resolution version of the aerial photo for faster display For more information use the ArcMap Help Index and search under Raster and then scroll down pyramids You will now import the waypoints into ArcMap using Add Data If you are having problems open up Arc Catalogue amp and find the dbf file and drag it over to ArcMap s Table of Content TOC Once the table is in the TOC right click on it and scroll down to the Data XY Set the X to the Easting values and the Y to the Northing values You should now see the scattering of point on the map Zoom to the cluster of sampling points ENVS3520 3 0 Lab Assignment 2 0 6 h Assessing Positional Accuracy of the data i ii iii Open the attribute table of the point feature you just added to the data frame Right click on the Easting column and scroll down to Statistics on the pop up menu This is a fast way to get descriptive statistic for attribute information in ArcMap tables Here the statistic required creating a centroid bounding rectangle and a standard distance circle ellipsoid are presented Refer to your Oct 1 2002 le
4. position format and datum and remove previous track and waypoints The use of the equipment will be demonstrated in the lab however you can also refer to the summary sheet of functions and the on line user manual on the web address http celia mehaffey com dale wgarmin html Furthermore you should become familiar with the type of words and expressions Turns the unit on and off and required for this lab exercise You will find a glossary at the back activates screen backlighting of this lab assignment Scrolls through the main data Once outside follow the following procedure for start up pages in sequence and returns display from a submenu page to a primary page 1 Global Erase Function Erase all previous waypoint records routes and track logs Captures a position and dis i Ensure the unit is OFF plays the mark position page ii While holding down the MARK key turn the unit ON iii A warning message will appear with YES highlighted Displays GOTO page with iv Press ENTER to confirm and erase all previous data and the waypoint highlighted for settings ee he pea 2 Set the proper position and datum format i Press the Page button until you arrive at the Main Menu Confirms data entry and page activates highlighted fields ii Select Setup Menu then select Navigation to allow data entry iii Scroll until the Position Format is active and press Enter iv Scroll to set the format to UTM UPS and then press Returns disp
5. where you are in relation to your desired coutse Position An exact unique location based on a geographic coordinate system Track TRK The direction of movement relative to a ground position Universal Transverse Mercator UTM A grid coordinate system that projects global sections onto a flat surface to measure position in specific zones Velocity Made Good VMG The speed you are traveling in the direction of the destination Waypoint A specific location saved in the receiver s memory ENVS3520 3 0 Lab Assignment 2 0
6. 0 or you have located the orange marker on the ground Once there you are ready to capture static waypoint samples Find your first Waypoint marker now d Capturing Waypoints Storing your present location is the usual way to record a waypoint You will be capturing 25 waypoints with at least 20 seconds between readings To record a waypoint i Hit the MARK key the waypoint entry form will appear ii A unique default name is assigned automatically e g 001 iii No unique symbols or references are required for your waypoints iv Wait for 20 seconds and repeat until you have 25 waypoint samples note the Compass Page has a clock for timing your intervals Once you have all your waypoints for your first destination us the GOTO command to locate your second Waypoint sampling location Repeat step d and take 25 waypoints with 20 second intervals When finished TURN OFF the GPS unit and return to the lab to complete the final step for this week s portion of the exercise e Download the waypoints from the GPS unit Turn on the unit You will now download the waypoints from the GPS unit using the Waypoint software This software is installed on the PCs in the Lumbers 318 lab i Carefully connect the GPS unit to the serial port of a PC in the GIS Lab watch the security cables ii Turn on the GPS Unit iti Double click the Waypoint icon to run the program iv Ensure that the correct serial port is set by selecting GPS
7. OORDINATES YOU WILL BE CONCENTRATING ON THE GPS UNIT BUT ALWAYS BE AWARE OF YOUR SUROUNDINGS c Finding your assigned UTM coordinate Pair Values The GPS unit provides several pages which you can access through the keypad The first one you will come across is the Satellite Page It shows you how many satellites your unit is receiving and the strength of reception Ensure you are at least 40 meters from any large structures that may block reception satellites in your horizon i e angles of possible reception You should have at least SIX 6 satellite signals acquired before you begin Compass Page Horizontal Destinati Status el Accuracy Bearing to Waypoint Field a Waypoint 2 l Graphic Distance to Battery Skyview Compass Waypoint Indicator gt Display Pointer to Speed Over Waypoint Ground TRE SPD 211 2 0 ETE 06 17 a Selectable Field Signal Strength Track Over W Indicators Ground Figure 2 0 The Satellite and Compass Page on the Garmin 12 XL unit ENVS3520 3 0 Lab Assignment 2 0 4 The next important page is the Compass Page This page will be the one to use when tracking to your waypoints It will provide you with a bearing from North a directional arrow to your waypoint and an estimate of distance The GPS unit will alert you once you are approximately 40 metres from your survey destination point Keep moving until the distance to the waypoint is 0 0
8. York University Faculty of Environmental Studies ENVS 3520 3 0 GEOGRAPHIC INFORMATION SYSTEMS IN ENVIRONMENTAL STUDIES Lab Exercise 2 Static GPS Surveying and Positional Error Assessment Due before Oct 8 2002 10 of Final Grade Problem Statement Your task in this lab will be to assess the positional accuracy of static GPS survey records from a Garmin GPS 12XL receiver Positional accuracy will be described using the following descriptive spatial statistics mean centre a centroid coordinate range bounding rectangle and standard distance SD circle Students will need to be familiar with these simple spatial statistics Deliverables At the end of two 2 weeks the student will produce a map displaying the feature point data collected with the Garmin GPS receivers using the York University Campus aerial photo as the background image A short report that assesses the overall positional accuracy of the data collected and a brief explanation of the possible contributing factors to error should be included Background The global positioning system is a satellite based navigation system consisting of a network of 24 orbiting satellites that are eleven thousand nautical miles in space and in six different orbital paths The satellites are constantly moving at a rate of 1 8 miles per second making two complete orbits around the Earth in less than 24 hours The orbital paths of these satellites take them between roughly 60 d
9. al takes longer to reach the receiver than if it traveled a direct path This added time makes the GPS receiver think the satellite is farther away than it really is which adds error to the overall position determination When they occur multipath errors typically add less than 3 meters of error to your overall position 3 Atmospheric Effects Propagation delay due to atmospheric effects that result in very small positional errors Propagation delay is the slowing down of the GPS signal as it passes through Earth s ionosphere and troposphere In space radio signals travel at the speed of light but they are significantly slower once they enter the atmosphere Reducing Position Error and Improving Positional Accuracy All geographically referenced information is subject to positional error Expect a field GPS receiver to displays positional coordinates that are different from the true coordinates of a terrestrial object A typical civilian GPS receiver s accuracy can be improved to 2 5 meters or better Although there are several approaches to improving position accuracy differential correction is common to most of them Differential correction can remove most of the common sources of error in GPS positioning In this technique a second receiver i e a base station located on a surveyed position is used to compute corrections to the roaming or field GPS measurements This base station receiver is then coupled to your GPS receiver data and r
10. ation information including location and health of satel lites that is transmitted to your receiver from every GPS satellite Almanac data must be acquired before GPS navigation can begin Bearing BRG The compass direction from your position to a destination Course Made Good CMG The bearing from the active from position your starting point to your present position Crosstrack Error XTK The distance you are off a desired course in either direction Desired Track DTK The compass course between the from and to waypoints Differential GPS DGPS An extension of the GPS system that uses land based radio beacons to transmit position corrections to GPS receivers Estimated Time of Arrival ETA The time of day of your arrival at a destination Estimated Time Enroute ETE The time left to your destination at your present speed INTRODUCTION Grid Coordinate system that projects the earth on a flat surface using square zones for position measurements UTM UPS and Maidenhead formats are grid systems Ground Speed SPD The velocity you are traveling relative to a ground position Latitude The north south measurement of position perpendicular to the earth s polar axis Longitude An east west measurement of position in relation to the Prime Meridian an imaginary circle that passes through the north and south poles Navigation The process of traveling from one place to another and knowing
11. cture notes for details on these simple spatial statistics You will need to record statistic from both he Easting and Northing field in the table Return to the map and create centroid using the point Drawing Tool located on the bottom of the ArcMap screen Adjust the properties of the circle e g colours and coordinates so that it is appropriately presented and positioned Now you will create a Standard Distance OVAL around the centroid Assuming the positional error of your sample points are distributed normally approximately 68 of the survey points should be contained within the diameter of the oval circle Click on the OVAL shape on the Drawing Tool and place it over the mean centroid Double click on it and change the size Easting and Northing values equate to width and height when configuring the positional properties of the oval The colour setting should allow you to see all of the sampling points Finally create a Bounding Rectangle Use the rectangle Drawing Tool Now visualize the results using the aerial orthophoto as the background image Set the scale of the map to 1 1000 or a scale suitable to display the features appropriately Activate the features and draw tool graphics and move to the layout view Annotate the spatial statistics on the map with all of the appropriate cartographic elements to produce an informative map i Lab Report Your submission must address all of the items listed in the problem statement and in the de
12. egrees North and 60 degrees South latitudes Satellite signals can be acquired anywhere on the Earth s surface at any time and in all weather conditions So what information does a GPS satellite transmit The GPS signal contains a pseudo random code ephemeris pronounced ee fem er is and almanac data The pseudo random code identifies which satellite is transmitting in other words an I D code Satellites are generally referred to by their PRN pseudo random number from through 32 and this is the number displayed on a GPS receiver to indicate which satellite s is being received Ephemeris data is constantly transmitted by each satellite and contains important information such as status of the satellite healthy or unhealthy current date and time To determine your position the GPS receiver compares the time a signal was transmitted by a satellite with the time it was received by the GPS receiver The time differential allow for the calculation of distance between receiver and that particular satellite If at least two more distance measurements are used a triangulated position on the Earth s can be calculated This is exactly what a GPS receiver does With a minimum of three or more satellites a GPS receiver can determine a coordinate position what s called a 2D position fix With four or more satellites a GPS receiver can determine a 3D position which includes an Easting x Northing y and Elevation z By continuously u
13. elays positional corrections In the absence of differential correction we can manually calculate simple spatial to assess the general positional accuracy of our GPS measurements Further Readings Lo C P Yeung K W 2002 Concepts and Techniques of Geographic Information Systems Prentice Hall New Jersey pp 52 54 and 313 314 GPS Glossary of Terms http www rbf com cgcc glossary htm ENVS3520 3 0 Lab Assignment 2 0 J Lab Exercise Objectives This exercise has been designed to allow students an opportunity to engage in field activities to generate static point feature data integrate point feature data into ArcGIS assess the positional accuracy of GPS measurements and produce cartographic output in ArcGIS A better appreciation of coordinate referencing systems and positional error will also be developed New Procedures Using Garmin GPS 12XL Waypoint Finder software assessing positional error simple spatial statistics and using ArcMap Drawing Tools WEEK 1 You will be working with a partner to complete this week s portion of the lab exercise Your lab demonstrator will provide a Garmin GPS 12XL unit and demonstrate how to calibrate and operate it Waypoint destination coordinates will be assigned to you and your partner a Learn the basics of operating the Garmin GPS 12XL Before going out on the field and recording spatial data you must become comfortable with the GPS unit by setting the proper
14. lay to a previous Enter page or restoresa data fields v Scroll to the Map Datum area and press Enter previous value vi The Map Datum we will be using for this lab is NAD 83 North American Datum 1983 Selects alphanumerical characters and menu choices and moves the field highlight Figure 1 0 keypad on the GPS unit This is your interface to from field to field manage menu selections and make quick operation commands Moves the selected character field and moves the field highlight from field to field BINVIIIZY J U LUV ASSIYNMENL L U 3 b Entering the first of two provided UTM Coordinate pair values You and your partner will be assigned two pair values Record here the letter coordinates Waypoint E N Waypoint E N You will be entering these coordinates into the GPS unit as waypoints You will use the Compass Screen to find the location on campus To enter the first of your two pair values following these instructions i Go to the main menu and select waypoint ii Select New from the on page menu located at the bottom of the screen Remember that you can use the up arrow key to reach the bottom of the screen iii Enter the new Waypoint name e g A B C and the UTM values iv Select done when you are finished v Repeat for the second Waypoint location you will be finding Take the GPS unit out on campus and find your Waypoint coordinates YOU MAY BE CROSSING ROADS TO FIND YOUR C
15. pdating position a GPS receiver can also accurately provide speed and direction of travel referred to as ground speed and ground track GPS Positioning and Error Everything has to be somewhere So every object can potential have a reference of location associated to it Global Positioning Systems GPS calculate absolute positioning coordinates in either geographic references e g latitude and longitude or in projected coordinate systems like a regional Universal Transverse Mercator UTM All geographically referenced information is subject to positional error Below is a summary list of factors affecting GPS accuracy 1 Satellite Geometry In simple terms satellite geometry refers to where the satellites are located relative to each other from the perspective of the GPS receiver If a GPS receiver is locked onto four satellites and all four of these satellites are in the sky to the north and west of the receiver satellite geometry is rather poor Satellite geometry also becomes an issue when using a GPS receiver in a vehicle near tall buildings or in mountainous or canyon areas As more and more of the sky is obstructed by buildings or terrain it becomes increasingly difficult to determine a position 2 Multipath Simply put multipath is the result of a radio signal being reflected off an object With GPS multipath occurs when the signal bounces off a building or terrain before reaching the GPS receiver s antenna The sign
16. scription of the deliverables Your understanding of the problem statement the data you worked with and the interpretation of the results will account for the majority of your overall mark Specifically the lab report should include i il iii Discusses the positional accuracy assessment of the Garmin GPS 12XL unit You should draw on the values calculated in the simple spatial statistics Based on your experience the pattern of dispersion of any positional error discuss possible factors contributing to error in your waypoint samples A table with all of the raw waypoint records with the calculated spatial statistics and A final map clearly displaying your sample waypoints all graphic representation of the spatial statistics calculated text annotations and all cartographic elements Other screen captures may also be included in the report as the student deems necessary Please ensure your report format is consistent with the Lab Submission Guidelines distributed earlier in the term End ENVS3520 3 0 Lab Assignment 2 0 T INTRODUCTION The GPS 12XL is a powerful navigation tool that can guide you anywhere in the world To better understand its operation and capabilities it may be helpful to review the basic terms and concepts briefly explained below Other navigation and GPS definitions used in the manual are defined in the appropriate reference sections of the manual Almanac Data Satellite constell
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