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1. oo the kikes at the New York Times got their yarmulkes in a tizzy when Sarah Palin used little bullseyes on her Facebook map of vulnerable Democrats Oh the horror Liberals would never do anything like that now would they ae ay oa EM ecard THE TQ TAKE ASTAND n TUE 2008 voted for the 2 th car v gt A cd From Sarah Palin s Facebook Page 77 Targeted Republican Thaddeus McCotter Thaddeus McCotter Michigan s 11th District Congressman Thaddeus McCotter s vote against President Obama s economic recovery package means that he tried to stop the purchase of 23 busses that are badl needed to improve the reliability of Livonia s transit system https Wai stimulus watch org project New 9570 The President s economic recovery package wil save or create 9 300 jobs in Michigan s 11th District alone Christina Roemer Chair of the White Hause Council af Economic Advisers zo From the Democratic Congressional Campaign COMNIE Website From www verumserum com p 13647 Let me guess You didn t hear about this one either Oh Don t worry It gets even better Now the Jew York Times is comparing the Tea Party attendees to the Weather Underground domestic terrorists http www nytimes com im agepages 2010 03 28 weekinreview 28 carey02 html M
2. Module TCM 3 1 10 Feature Authorization Module 3 1 11 Database Partitioning 3 1 12 GDS TIRKS Interface 3 1 13 GDS SOAC Interface 3 1 14 GDS SOP Interface 3 1 15 Data Matching in GDS GDS Desiened Data Intcifaes 3 1 16 GDS LMOS Interface E 3 1 17 GDS CIMAP SSC Interface JOB LOGGING FEATURES 3 21 Auto Routing 322 Auto Mapping Zo PROPRIETARY BELLCORE AND AUTHORIZED CLIENTS ONLY See proprietary restrictions on title page 1 1 1 1 m 1 1 1 2 2 1 2 1 2 2 2 2 2 2 2 2 2 2 2 4 2 4 2 4 2 4 2 4 2 4 2 5 2 6 2 6 3 1 3 1 3 3 3 4 3 4 3 4 3 4 3 5 3 5 3 5 3 6 3 7 3 34 3 42 3 46 3 49 3 55 3 70 3 71 3 72 iii 25 Generic Dispatch System Release 3 1 User Manual Part 1 BR 190 539 311 Issue 6 August 1989 GDSR 3 1 3 3 3 4 3 9 3 6 3 2 3 3 2 4 3 2 5 3 2 6 3 2 7 Auto Pricing Auto Screening Auto Job Typing and Priority Auto Date Calculation Job Status and Handling Codes WORK FORCE ADMINISTRATION 3 3 1 3 3 2 3 3 3 Supervisory Group Attributes Technician Attributes e o o Personnel Table INSTALLATION AND MAINTENANCE SUPPORT 3 4 1 3 4 2 3 4 3 Mechanized Work List Mechanized Job Review Automatic Loop Testing LOADING 3 5 1 3 5 2 3 5 3 3 5 4 3 5 5 3 5 6 Overview of the Job Selection Diete User Control of th
3. i 9 DLI A amp LJ DSU DP DLI LL OPTIONAL OFFICE TRANSMIT REPEATER RECEIVE BAY VOICE ALI CHANNELS LEGEND ALI ALARM AND LINE INTERFACE DLI DATA LINK INTERFACE DSU DP DATA SERVICE UNIT DATA PORT DSX1 DIGITAL SIGNAL CROSS CONNECT ESS ELECTRONIC SWITCHING SYSTEM LIU LINE INTERFACE UNIT LL LOCAL LOOP ML MAINTENANCE LOOP MDF DISTRIBUTING FRAME PUAB PERIPHERAL UNIT ADDRESS BUS PUC PERIPHERAL UNIT CONTROLLER RL REMOTE LOOP SCAB SCANNER ANSWER BUS MICROPROCESSOR Fig 8 T1 Carrier Data Link Loop Backs Page 18 10A RSS Interface Description amp Maintenance Considerations ESS PROTECTORS LEGEND DLI ESS LIU LL ML PUAB PUC REMOTE HOST MODEM MODEM PUC LIU RL LL 2 L JACK HOST MODEM FIELD VOICE CHANNELS pw REMOTE VOICE MODEM CHANNELS LL G HOST MODEM 2 N JACK CARRIER FIELD pap REMOTE TERMINAL DATA LINK INTERFACE ELECTRONIC SWITCHING SYSTEM LINE INTERFACE UNIT LOCAL LOOP MAINTENANCE LOOP PERIPHERAL UNIT ADDRESS BUS PERIPHERAL UNIT CONTROLLER REMOTE LOOP SCANNER ANSWER BUS MICROPROCESSOR N CARRIER TERMINAL ISS 2 SECTION 231 037 022 MAIN DISTRIBUTING FRAME PROTECTORS REMOTE TERMINAL DLI ML 011 Fig 9 RSS Carrier Data Link Loop Backs Page 19 20 10A RSS Interface Description amp Maintenance Considerations ESS
4. TimesPeoplerecomme Recommend 13 0 Ehe New lork Cimes March 28 2010 il omzs cd EE La 1 ML L e a E PE MAS ir F 3 iis A LS 1 ME L David Fenton Cretty Images top Mark Wilson Getty Images TWITTER SIGN IN TO RECOMMEND VARYING DEGREES OF RAGE The Weathermen including Bill Ayers second from right during the Days of Rage in 1969 and anti health reform protesters in Washington on Sunday Close Window 79 Note to the New York Times The biggest difference between the Tea Party attendees and the Weather Underground is BLOG ERIEFIXG ROOM LAIT A eee four 55 m L3 speeches Hemarks Press Bnehnas atatements amp Releases Presidential Actions Execute Orders Fresuentral SION Mn Featured Legislation E Nonunations amp LL ey Fun VF NS Sits EJ Disclosure Financial Disclosures Annual 10 Congress on White House Staff Visitors Access Records Ty amers PHOTOS amp VIDEO Obama has yet to meet with any Tea Party members sures Visor Access BRIEFING ROOM rds Visitor Records ISSUES rhe ADMINISTRATION Get Email Updates the WHITE HOUSE Contact Us
5. 6 08 For T carrier the RT and its T carrier channel interface circuitry performs most of the func tions of a conventional D4 channel bank The channel interface accepts the high speed 1 544 megabit data stream directly from a line and converts this sig nal into 24 voice channels These functions are imple mented with standard D4 circuitry contained on RSS circuit packs Thus the receiving functions of demultiplexing digital to analog conversion 4 wire to 2 wire conversion and alarm monitoring are all performed in this interface 6 09 The same functions are performed in the transmit direction except that a per channel loop supervisory state is inserted in the bit stream 6 10 For T carrier the equivalent D4 bank is con tained in three different circuit packs These packs are the channel interface CI the trans mit receive TR and the T1 alarm and line interface ALI 6 11 The 1 circuit pack is the first stage of in terfacing from the RSS voice frequency elec tronie network in the RT to the digital carrier This circuit pack provides one stage of network switching transmission path conditioning and con version from voice frequency to multiplexed pulse amplitude modulated transmission Each CI circuit pack provides for four audio channels Six packs are used to form the analog interface portion of a T1 digi tal group of 24 channels 6 12 The 1 transmit receive circuit pack provides t
6. Trademark 10A RSS Interface Description amp Maintenance Considerations ESS ISS 2 SECTION 231 037 022 SWITCHING NETWORK LINE SIDE 24 VOICE CHANNELS VOICE CARRIER CHANNELS N OR T CARRIER CHANNEL LINES TO BANKS STANDARD CUSTOMERS 5 FACILITIES ESS CENTRAL OFFICE 2 CHANNELS ASSIGNED TO DATA LINKS LEGEND CC CENTRAL CONTROL DLI DATA LINK INTERFACE ESS ELECTRONIC SWITCHING SYSTEM PUC DL PERIPHERAL UNIT CONTROLLER DATA LINK RT REMOTE TERMINAL TTY TELETYPEWRITER Fig 1 Remote Switching System Block Diagram uses two DL channels one active and one standby Therefore a single PUC DL frame has the capability of connecting up to eight RSS units However traffic limitations prevent more than six RSS units from being served per frame 2 05 The RSS PUC DL is a semiautonomous pe ripheral unit PU of the host ESS It serves as the interface between the DL contro function for the RSS RT and the host ESS central control CC In this application the PUC DL performs the following functions 1 Receives data from the host buffers and for mats the data into the appropriate DL mes sage protocol and then transmits it serially on the DL to the RSS 2 Responds to DL reconfiguration requests from the host CC 3 Receives serial data from the RSS buffers it and signals the host CC so that the informa tion received can be read by the host syst
7. Two D4 channel banks are required for T1 car rier Each D4 bank has two groups of 24 channel units One of these channels is a data service unit data port DSU DP The DSU DP provides con version from the 2400 bit second signals used by the DLs to the time divided 8 bit bursts at an 8 kHz rate needed for carrier transmission The burst speed is 1 544 bit sec but the average channel data rate is 64 kb sec The DSU DP occupies channel slot twelve Each data byte is repeated 20 times for error correction 211 Atthe host ESS the D4 equipment is external to the PUC DL At the remote end the D4 functions are integrated into the RT hardware 2 12 The analog facilities are N carrier Fig 5 or some other acceptable analog carrier When carrier N2 N3 N4 is used for the transmission to the host a 201C data set is used for the DL modem The modem converts the digital DL data to an N car rier analog signal and operates at 2400 bits per sec ond The modem is external to the PUC DL at the host and external to the RT frame at the remote site 2 13 The modem supplies an Electronic Industries Association EIA 232 interface a remote loop on the digital side of the modem and a local loop on the analog side of the modem Page 4 REMOTE TERMINAL DATA LINK INTERFACE 2 14 The DLI at the RSS RT performs some of the same functions as the PUC DL at the host ESS The DLI provides the circuitry to transmit and receive control
8. x 14 gam 9 FAILURE REPORTS 15 7 X5 Data Frame DATA LINK STATES 8 Carrier Data Link Loop Backs 0 18 LOOP BACKS FOR 1 CARRIER APPLICATIONS 16 9 RSS N Carrier Data Link Loop Backs 19 NOTICE Not for use or disclosure outside the Bell System except under written agreement Printed in U S A Page 1 10A RSS Interface Description amp Maintenance Considerations ESS SECTION 231 037 022 CONTENTS PAGE Tables RSS DL States amp 1 GENERAL 1 01 This section covers the No 10 Remote Switching System RSS interface to a No 1 or No 1A Electronic Switching System ESS RSS provides a distributed switching capability for the host The RSS consists of a remote switching en tity that is controlled by a host ESS via data link DL and is used to economically provide ESS fea tures to a relatively small number of lines Fig 1 1 02 The reasons for reissuing this section are listed below Since this reissue is a general revision no revision arrows have been used to denote significant changes Equipment Test Lists are not affected 1 Generally restructured for clarity 2 Adds DL protocol information 3 Adds DL diagnostic information 4 Adds DL failure report information 5 Adds DL state control output message infor mation 1 03 The No 10A RSS SD 4H001 is a remote ter min
9. 3 91 3 5 LOADING Sox 3s E Gt de dE dE d d d 3 93 3 5 1 Overview of the Job Selection Process Guo x 3 93 3 5 2 User Control of the Load Selection Process sb s s b o o o o 3 93 3 5 3 STEP 1 Determine the Candidate 0 88 3 94 3 5 4 STEP 2 Determine the Job pad u MM 3 95 3 5 5 Loading Procedures de X 112 3 5 5 1 Bulk Loading 5 3 0 5 39 112 3 5 5 2 Dynamic Loading e a 8 15 3 5 6 Work Document Distribution e e e 9417 36 DISPATCH AND COMPLETION o 3121 3 6 1 38 121 PROPRIETARY BELLCORE AND AUTHORIZED CLIENTS ONLY See proprietary restrictions on title page Generic Dispatch System Release 3 1 User Manual Part 1 BR 190 539 311 Issue 6 August 1989 GDSR 3 1 performed Whenever there is a return to the GDLST screen the system will recall the last screen display for the logical terminal In addition SMART JUMP FINDs are provided between GDS and CIMAP SSC The section entitled GDS CIMAP SSC Interface provides detailed information The JUMP PREVIOUS feature for the GDLST screen is explained in greater detail in Section 5 of this document IMS QUEUES There are instances when an IMS queue will be returned durin
10. reported hundreds of people at least dozens of people showed up LOL CNN made no mention of the egg throwing From www libertypost org cgi bin readart cgi ArtNum 286482 T i 19 a P ic S010 American Border Patrol 74 Now they lowering the standards for attending law schools More proof that non Whites are just not compatible with Western civilization Law Schools Struggle to Attract Minorities April 7 2010 From www startribune com By Elizabeth Flores More minority students are applying to Hamline University Law School Acceptances are up too But overall diversity Down a tick from a decade ago That s where the challenge remains said Donald Lewis dean Our issue is convincing the people we ve accepted to come here Hamline s struggle is common Law schools across the nation vie for students of color to diversify classrooms and ultimately courtrooms Greater diversity will lead to a fairer legal system they say and clients demand it Yet growth is slow and as a recent study shows representation of some races has even dropped That has law schools and law firms working in high schools preparing undergraduates and launching new admissions programs Starting April 15 the University of St Thomas School of Law will accept some students without LSAT scores which statistics show are generally higher for whites than minorities Other schools are considering simil
11. tic and prevents a request for a DL diagnostic from being honored 5 10 A full diagnostic may be requested at any time If the link is active an automatic request is made to the state control software to switch links If state control successfully switches the links the diagnostic test will be executed If not an abort mes sage will be printed 5 11 The diagnostic may abort if the PUC experi ences an input output fault A TTY output message reports PSTAT if this is the case 5 12 The partial diagnostic request is very useful for tracking intermittent problems In this case the link should be made unavailable using the PDL LNK FRU state control input message Then the diagnostic should be requested to loop on the phase in question The RAW mode of TTY output is very useful in this instance since only changes in state PASS FAIL or changes in failing result are printed 5 13 The circuits for the PUC DL at the host are diagnosed like the circuit packs of the No 1 1A ESS These diagnostics test a local circuit which is physically contained on one or more boards 5 14 The diagnostics for the DLI at the RT test the entire board for a faulty circuit Each diagnos tic is designed to test a single board type The diag nostic will test many logical components which are contained on one board The microprocessors will run routine diagnostics requested from the host ESS 5 15 If the RT DL diagnostic finds a fault failure inform
12. 3 115 3 117 3 121 3 121 3 121 4 1 4 4 4 4 4 5 4 6 4 6 4 6 4 7 4 9 4 15 4 18 4 19 4 21 4 23 4 24 4 26 4 35 4 37 4 40 4 47 4 49 4 51 4 53 26 Generic Dispatch System Release 3 1 User Manual Part 1 E 4 4 4 3 15 4 3 16 4 3 17 4 3 18 4 3 19 4 3 20 4 3 21 4 3 22 4 3 23 4 3 24 BR 190 539 311 Issue 6 August 1989 GDSR 3 1 SSDAC Dates Table SSDAC DATES Kc GDS Synchronization Options Table GDS SYNCH 5 Mail Groups Table MAIL GROUPS GDS Valid Formats GDS VALID FMT Ps n GDS SOAC Access Time Mapping GDS SOAC ACCESS GDS Service Order Image Parse GDS SOI PARSE GDS SOAC Parse Rule Failure GDS SOAC PFAIL s GDS ACTL Field Visit Determination Table GDS ACTL GDS SOP Edits GDS EDITS GDS SOP Options GDS SOP OPTIONS 4 CENTER TABLES e 4 0 uw de sc 44 1 4 4 2 4 4 3 4 44 4 4 5 4 4 6 4 4 7 4 4 8 4 4 9 4 4 10 4 4 11 4 4 12 4 4 13 4 4 14 4 4 15 4 4 16 4 4 17 4 4 18 4 4 19 4 4 20 4 4 21 4 4 22 4 4 23 4 4 24 4 4 25 4 4 26 Work Center Validation GCRLOC amp do d x GDS NPA NNX WC Mapping Table GDWCM i GDS CLLI WC Mapping Table GDCLLI Installation Center Routing GDICTR uu Cable Pair to Route Mapping Table GDCPM Inter DAA Travel Time Table GDDATR Ede GDS Alloca
13. 39V 3831NI ANI TANNVHO 0 08 02 01 df S 01 1 1H SSH Page 7 uD d 64 gt SYNT1 viva 10 81 09 u311081N02 NOWNOD LINN 553 TVu3HdIuU3d 140d Viva NSA 9NINIVINOO SLINN 1VIO3dS SYYOMLIN SJNVH 0 NNI SINIT S 01 dh 3NI1 3UIM ME 553 E SINIT 8 INT1 81 3118 10 lt gt 5653 1s0H 10A RSS Interface Description amp Maintenance Considerations ESS SECTION 231 037 022 REMOTE SITE UP TO UP TO 118 118 1 FRAME 4 WIRE uP TO 10 4 WIRE RSS RT ESS SF LINES HIGH FREQ LINES acon LIM UNITS ANALOG ANALOG CHANNEL LI CARRIER CARRIER INTERFACES TERMINALS UP TO 118 2 WIRE LINES 4 WIRE ESS COMMON CONTROL LEGEND ESS ELECTRONIC SWITCHING SYSTEM MODEM MODULATOR DEMODULATOR PUC DL PERIPHERAL UNIT CONTROLLER DATA LINK RSS REMOTE SWITCHING SYSTEM RT REMOTE TERMINAL SF SINGLE FREQUENCY TERMINALS DATA LINK INTERFACES 4 WIRE Fig 5 Analog Channel Transmission Plan timing This protocol provides the ability to detect transmission errors The serial data received from the host ESS at the RT is changed to parallel data by the SDLC circuit The same circuit is used to change parallel data from the RT to serial data to be trans mitted to the hos
14. CLO NUMBER CLO GDISWR CLO GCOCS1 BASE ITM GDISWR ITEM GCOCS1 ITEM NUMBER CLO GDISWR CLOS GCOCS1 SUPPLEMENT ACT GDISWR ACTN GCOCS1 CIRCUIT ACTION DOP 51 DISC ORD FLAG CAC GDISWR CAC GCOCS1 CIRCUIT ACCESS CODE CKTID GDISWR CKTTP GCOCS1 CIRCUIT TYPE CKTID GDISWR CKTID GCOCS1 CIRCUIT ID 155 GDISWR CDISS DIST CD ISSUE NUMBER SEC TCM table SYSTEM ENTITY CODE OCO GDISWR MCO GCOCS1 MAINTENANCE CONTROL OFFICE DD GDISWR DD GCOCS1 ORDER DUE DATE PTD GDISWR PTD GCOCS1 PLANT TEST DATE DVA GDISWR DVA GCOCS1 DVA DATE APP GDISWR APP GCOCS1 APP DATE RID GDISWR RID GCOCS1 RID DATE WOT GDISWR WOT GCOCS1 WOT DATE FCD GDISWR FCD GCOCS1 FCD DATE IAD GCOCS1 IAD DATE BILLNAME GDISWR CUST GCOCS1 CUSTOMER NAME JOBID GDISWR ORD GCOCS1 ORDER NUMBER CO GDISWR ALOC GCOCS1 A LOCATION CO GDISWR ZLOC GCOCS1 2 LOCATION PCLO WA PREVIOUS IE CLO RCLO GDISWR RCLO WA RELATED CLO ERO WA ENG REPORT OFFICE ERTN WA ENG REPORT TELEPHONE CRO GDISWR CRO WA COMPLETE WITH RORD PRQ WA PROTECTION TSP GDISWR RESP WA RESTORATION PRIORITY DOC GDISWR DOC GCOCS1 DOCUMENT CODE OCO GDISWR OCO WA OVERALL CONTROL OFF 7 TEL GDISWR BTN WA BILLING TELEPHONE CNA GDISWR ACNA OR CCNA GCOCSA ACNA OR CCNA COMM GDISWR WANOT WA 360 BYTES OF WA NOTES CKLID GDISWR CKLA LOOP 2 A END CKL ID CKLID GDISWR CKLZ LOOP 2 Z END CKL ID RO GDISWR RORD GCOCS1 RELA
15. Feature ISA Subtable Line Music on Hold Feature LMOH Subtable Intra LATA PIC Feature LPIC Subtable Local Service Provider Switch Owner Feature LSPSO Subtable Make Busy Key Feature MBK Subtable Message Waiting Feature MWT Subtable Network Facility Access Feature NFA Subtable Observe Agent form 500 2500 Set Feature OBS Subtable Primary Inter LATA Carrier Feature PIC Subtable Random Make Busy Feature RMB Subtable 59 IBNFEAT RSUS IBNFEAT SACB IBNFEAT SCL IBNFEAT SCMP IBNFEAT SCS IBNFEAT SDN IBNFEAT SDY IBNFEAT SEC IBNFEAT SHU IBNFEAT SimRing IBNFEAT SLU IBNFEAT SMDI IBNFEAT SOR IBNFEAT SPB IBNFEAT SSAC IBNFEAT SUPR IBNFEAT TBO IBNFEAT UCDSD IBNFEAT VMEADN IBNFEAT WML IBNFEAT WUCR IBNFXDS1 IBNLINES IBNLINES AC IBNLINES BL IBNLINES LNPTST IBNLINES MDN IBNLINES STN IBNMAP IBNMAP 2 IBNMAP 3 IBNMAP 4 IBNRTE IBNRTE AC IBNRTE ARS IBNRTE CFT IBNRTE CND IBNRTE DN IBNRTE EOW IBNRTE IBNRX IBNRTE INS IBNRTE ISA IBNRTE IW IBNRTE LINE IBNRTE LOC IBNRTE N IBNRTE NIL IBNRTE NOT IBNRTE OW IBNRTE QH IBNRTE RX IBNRTE S IBNRTE SG IBNRTE T IBNRTE TRMT IBNRTE VFG IBNRT2 IBNRT3 IBNRT4 Requested Suspension Feature RSUS Subtable Subscriber Activated Call Blocking Feature SACB Subtable Speed Calling List Long Feature SCL Subtable Series Completion Feature SCMP Subtable Speed Calling List S
16. SECTION 231 037 022 6 RSS CHANNELS 6 01 Instead of terminating as trunk facilities it is necessary to wire transmission facility chan nels to the line side of the ESS network RSS chan nels represent high usage lines similar to the private branch exchange PBX trunks in that they will carry 25 to 30 hundred call seconds CCS of traffic and terminate on the line side of the host network They are similar to PBX trunks in that an individual chan nel appearance at the main frame does not represent a unique RSS line appearance 6 02 Each 1024 line remote terminal can provide a maximum of 120 individual channels to the host ESS Two channels must be used for DLs maximum size system 2 frames of 2048 lines will provide 240 channels The actual number of RSS voice channels is determined by the traffic characteristics of the system minimum of two carrier systems per RSS are required for DL reliability 6 03 The individual voice channels at the host will be connected directly in the case of the T car rier from the output of the channel bank hardware to the line side of the host ESS network via the main distributing frame For N carrier it will be necessary to include a single frequency SF signaling unit to provide a signaling interface and to convert 4 wire to 2 wire and vice versa before connecting to the main frame Fig 5 6 04 The two voice channels assigned to the DL function are not connected to the line side o
17. or GOVERNMENT Search is of President Obama s commitment to government transparency we are providing records of while Hause visitors on an ongoing basis online In December 2009 we will begin posbng all White House visitor records for the period from September 15th onwards under ihe terms of our new voluntary disclosure policy In addition as part of our new policy we wall post records dating from January 20 that are specifically requested on an ongoing basis For more information read the Whie House blog post announcing the new policy Das Relate Last Mame 10 30 2009 AYERS 12302909 AYERS 02282910 AYERS AYERS 02 28 2012 AYERS 27252010 AYERS First Hame ILLM WILLDAM TLL STEPHEN SHARON BANDERA MARTIN Middle Initial Last arse NORTHERN OFFICE Name OFFICE VISITORS RANELLOS GFFICE VIEITORS OFFICE OFFICE VISITORS Meeting Location You should use an alias the next time you visit the White House Share Bookmark GROUP TOURS GROUP TOURS 80 Useful Idiots by James Hudnall and Val Mayerik WE GOT A 1 HOT PRESS PELEASE MEDIA MATTERS THEY SAY THE TEA BLICNED coss ON THE WHITE HOUSE ___ 5 TEA PARTY BURNS CROSSES Madia OF PELLABLE SOUPCES HAVE CONFIGAED THE STORY WE RE CLEA TO YOu TO CHECK WITH A
18. switched on line automatically if needed This state is used to run manually requested diagnostics The PUC will switch the DL to this state automatically if a fault or high error rate occurs A diagnostic is scheduled but the DL may be brought back on line automatically if needed This state occurs if a diagnostic finds a hard fault The fault must be cor rected before the DL is brought back on line This state occurs automatically when the DLs Have been switching between states repeatedly This indicates that there is a fault which the normal diagnostics cannot locate The DL may be switched on line automatically if needed The unavailable state is requested manually to take the DL out of service This state is used when changing circuit packs associated with the DL be cause the DL cannot go on line automatically CAUTION Do not use this state unless absolutely necessary This state manually forces the DL out of service Maintenance personnel forces this state to make changes of equipment associated with this DL State control is attempting to recover the link State control is waiting before attempting to recover the link Page 17 18 10A RSS Interface Description amp Maintenance Considerations ESS SECTION 231 037 022 DSU DP DLI 04 PUC LIU BANK e SCAB L I D 5 OFFICE 2 X REPEATER PUAB CHANNEL BAY UNITS 1 a VOICE CHANNELS gt lt gt lt Pad
19. 11 12 10A RSS Interface Description amp Maintenance Considerations ESS SECTION 231 037 022 there is sufficient data in the destination buffer to form them Smaller variable sized frames are trans mitted whenever the destination buffer is emptied 3 03 The X 25 data frame consists of a flag ad dress control data information and a cyclic redundancy code The flag is used to indicate the beginning and end of a frame The address identi fies the receiving station The control field is used to give the data frame an identification number The information field contains the data to be transmit ted The CRC check word is used to detect transmis sion error 3 04 16 bit CRC check word is sent with each data frame The check word is calculated using the address control and data fields of the data frame Upon reception of the data frame the check word is recalculated and compared with the trans mitted check word If the two words are not the same a CRC error is indicated 3 05 If an error is indicated concerning the data frame retransmission of the data frame is attempted If the error continues to occur despite multiple retries a protocol impasse error report is sent to the ESS Retransmission attempts continue until the DL is deactivated 4 PERIPHERAL UNIT CONTROLLER OPERATION 4 01 The PUC DL is connected to the host CC via the peripheral unit address bus PUAB and the scanner answer bu
20. 8735 19 554 1a and avnd W3G0W 117 553 VI 8 3931 10 3Nd 5 554 8 80 SINT Vivd 9 AL dime Sqv31 082 T ado 50 31 042 0 5 10A RSS Interface Description amp Maintenance Considerations ESS SECTION 231 037 022 PUAB 0 1 SCAB 0 1 CPD 0 1 CPD 0 1 TYPICAL NO 1 1A ESS DUPLICATED PERIPHERAL BUS ACCESS CONTROLLER 0 CONTROLLER 1 PUC ESS PUC INTERFACE ESS PUC INTERFACE CENTRAL PROCESSING UNIT 0 CENTRAL PROCESSING UNIT 1 PUC MEMORY 0 MEMORY 1 INTERFACE INTERFACE PUC PERIPHERAL PUC PERIPHERAL DATA LINK INTERFACE LINE INTERFACE UNITS LINE INTERFACE UNITS _ _ _ 0 7 0 7 LEGEND CPD CENTRAL PULSE DISTRIBUTOR ESS ELECTRONIC SWITCHING SYSTEM PUAB PERIPHERAL UNIT ADDRESS BUS PUC PERIPHERAL UNIT CONTROLLER SCAB SCANNER ANSWER BUS Fig 3 Peripheral Unit Controller for Data Links Block Diagram Page 6 Y W ST Nem NS 5 RTI 5 5 S Q E 5 5 he Q Q Q 5 ISS 2 SECTION 231 037 022 13938 5 ul W31SAS 5 31043H SSH YOLVINGOWSG YOLVINGOW W31SAS 5 10373 553 LINN 39IAH3S 91 0 o nsa 39V3M31NI 3NIl ONY WHYTY QN3931
21. Deletions e Reschedules e Data Updates completions jeopardies GDS only The Status Reporter will send to GOC from GDS CIMAP CC and OPS INE the following CWL CKL completions jeopardies Item level completions jeopardies For CIMAP CC and GDS controlled orders PROPRIETARY BELLCORE AND AUTHORIZED CLIENTS ONLY See proprietary restrictions on title page 45 Generic Dispatch System Release 3 1 User Manual Part 1 BR 190 539 311 Issue 6 August 1989 GDSR 3 1 UPDATES TO ORDERS ISSUED TO CIMAP C1 DIST CIMAP SSC ADD GOC CWLs CKLs COMPLETIONS amp JEOPARDIES CIMAP DOC CKLs CWLs for SSC ORDERS e Process Control information e Post Jeopardies amp Completions for CKLs CWLs 605 e INE PROVISIONING OPERATIONS Figure 3 2 Data Flow From Provisioning to GDS amp CIMAP At Issue Time for CIMAP SSC Controlled Orders PROPRIETARY BELLCORE AND AUTHORIZED CLIENTS ONLY See proprietary restrictions on title page 3 9 46 Generic Dispatch System Release 3 1 User Manual Part 1 BR 190 539 311 Issue 6 August 1989 GDSR 3 1 ADD GOC CWLS ON NO SSC WORKLISTS ISSUED ORDERS ONLY UPDATES TO ORDERS ARE CREATED BASED OCO MCO CCO COMPLETIONS amp JEOPARDIES STATUS SPECIALS ADD HISTORY ORDER CWI INFO MESSAGE POST JEOPARDIES amp COMPLETIONS AT I
22. Guide is divided into the following major sections Section 2 A high level overview of the svstem Section 3 A detailed description of each of the system features Section 4 The steps for establishing a work center in GDS Section 5 A detailed description on how to use the GDS on line screens Section 6 A detailed description of the miscellaneous system features Section 7 A directory of format fields PROPRIETARY DELLCORE AND AUTHORIZED CLIENTS ONLY See proprietary restrictions on title page 30 eneric Dispatch System Release 3 1 User Manual Part 1 BR 190 539 311 Issue 6 August 1989 GDSR 3 1 1 5 GDS DOCUMENT REFERENCES In addition to this User Guide there are other Bellcore Practices BRs to help the user understand and use GDS These documents can be obtained from the Bellcore Distribution Service Center 60 New England Avenue Piscataway New Jersey 08854 or by calling the Hotline 201 699 5800 190 539 001 190 539 002 190 539 003 190 539 004 190 539 007 190 539 008 190 539 009 190 539 100 190 539 102 190 539 300 190 539 301 190 539 302 190 539 303 190 539 304 190 539 305 190 539 308 190 539 312 190 539 314 190 539 315 190 539 400 190 539 401 190 539 402 190 539 404 190 539 405 GDSR Database Administrators Guide GDSR Format to Transaction Cross Reference Table GDSR Security Administrators Guide GDSR Installation Guide GDSR Reference Data TTS Encyclopedia GDSR Ref
23. IBNATD IBNFEAT IBNFEAT 3WCPUB IBNFEAT ACD IBNFEAT ACRJ IBNFEAT AIN IBNFEAT ASP IBNFEAT AUL IBNFEAT BCLID IBNFEAT CALLOG IBNFEAT CDT IBNFEAT CFDVT IBNFEAT CFFPOVR IBNFEAT CFIND IBNFEAT CFTB IBNFEAT CFD IBNFEAT CFX IBNFEAT CLI IBNFEAT CMG IBNFEAT CNF IBNFEAT CPU IBNFEAT IBNFEAT CTD IBNFEAT CXR IBNFEAT DIN IBNFEAT DMCT IBNFEAT DND IBNFEAT DRING IBNFEAT ECM IBNFEAT EMW IBNFEAT FCTDINT IBNFEAT FRO IBNFEAT FRS IBNFEAT GIC IBNFEAT ISA IBNFEAT LMOH IBNFEAT LPIC LSPSO IBNFEAT MBK IBNFEAT MWT IBNFEAT NFA IBNFEAT OBS IBNFEAT PIC IBNFEAT RMB TOPS Holiday Treatment Table TOPS Holiday Treatment Inactive Table Home Location Routing Number Table TOPS Domestic Hot List Table Heap Waste Table High Speed Modem Link Table Hunt Group Table Hunt Group Member Table High Water Mark Table Interadministration Accounting Control Table ISDN Access Controller Inventory Table ISDN Access Controller P Side Inventory Table Insert Area Code Required Table ITOPS International Alternate Routing Table Internal Announcement Information Table IBN Audio Tone Detector Table IBN Line Feature Table Three Way Calling Pubic Feature 3WCPUB Subtable Automatic Call Distribution Feature ACD Subtable Anonymous Caller Rejection Feature ACRJ Subtable Advanced Intelligent Network Feature AIN Subtable Alternate Service Provide
24. Ldfiii31NI 011 12055 SATYLSNONI 21N0uUu12313 SS3udav 39V 3M431NI 549019 6bb VIJ e viva 171935 124145 X9V8d001 2705 uaav 0N3931 01 ONY 300930 1 3002N3 1 9 10 10A RSS Interface Description amp Maintenance Considerations ESS SECTION 231 037 022 2 Cyclic redundancy code check failure 3 Transmitter underflow 4 Data parity error 5 Carrier failure 2 25 The interrupts will force the DLI to stop re sponding to the data received from the DL This will be detected at the host end of the DL when the PUC DL receives no response from the remote end Several retries are attempted and if they fail the host recovery programs will automatically order the RSS to diagnose the DLI A TTY report of the recov ery reconfiguration and the results of the automatic diagnostics will be printed 2 206 Most DLI diagnosties will be automatically run However the host office maintenance personnel can make a TTY request for a DLI diagnos tic The diagnostics can all be run from the host ESS or from the SCC serving the host office Only TTY access to the host is required 2 207 Any repairs made at the remote site must be verified prior to leaving the location Diagnos tic tests are possible if a portable TTY is carried to the RSS when the repairs are made This should be done only by personnel qualified t
25. Speed Calling List Table IBN Treatment Table IBN Translation Table Advanced Intelligent Network Selector AIN Subtable Ambiguous Code Dialing Version 1 Selector AMBI Subtable Ambiguous Code Dialing Version 2 Selector AMBIG Subtable Attendant Access Selector ATT Subtable Access to Attendant in Other Customer Group Selector ATTO Subtable Bearer Capability Selector BC Subtable Cut Through Dialing Selector CUTTD Subtable Dial Call Waiting Selector CWD Subtable Direct Outward Dial Selector DOD Subtable Electronic Switched Network Selector ESN Subtable Extension Selector Selector EXTN Subtable Feature Selector FEAT Subtable Route to IBN Treatment Selector FLEXI Subtable Refineable Translation Result Selector FTR Subtable General Network Selector Selector GEN Subtable Group Intercom Selector GIC Subtable Two or Three Digit Station Numbers Selector IAG23 Subtable Location Selector LOC Subtable Loudspeaker Paging Answerback Activation Selector LPACT Subtable Loudspeaker Selector LSPKP Subtable Multiswitch Business Group Selector MBG Subtable Set Prefix Fence Selector N Subtable Networks Selector NET Subtable Electronic Switched Network Information Signals Selector PROTO Subtable Private Network Selector PVT Subtable Selector REPL Subtable Digits Dialed to be Replaced Selector ROUTE L Subtable Route Directly to CLLI Selector ROUTE S Subtable Route to Office or IBN Route Select
26. Subtable High Speed Data Unit Type HS Subtable High Speed Loop Extended Data Unit or Low Speed Extended Data Unit Type HSEXT or LSEXT Subtable Low Speed Data Unit Type LS Subtable Meridian Asynchronous Data Option Type MADO Subtable Modem Pool Data Unit Type MP Subtable Meridian Programmable Data Adaptor Type MPDA Subtable Terminal COAX Unit Type TCU Subtable Dial Up Autoquote Modem Table Digital Recorded Announcement Machine Table 54 Short Name Title DRAMPHRS Digital Recorded Announcement Machine Phrases Table DRAMTRK Digital Recorded Announcement Machine Track Table DRMAPPL Distributed Recording Manager Applications Table DRMPOOL Distributed Recording Manager Pool Table DRMTRANS DIRP to DRM Translation Table DRMUSERS Digital Recorded Announcement Machine Users Table DS Data Store Assignment Table DSCWDTYP Deluxe Spontaneous Call Waiting Identification Types Table DSLIMIT Data Store Limit Table DSTTABLE Automated Time of Day Change Table DTUPRO Data Terminal Unit Protocol Name Definition Table DUAQOPT Dial Up Autoquote Office Parameter Table DVIINV DVS DS30 Interface Inventory Table DVSINV DVS Lineup Inventory Table E911ALI Enhanced 911 Direct Access to AT amp T ALI Controller Table E911ESN Enhanced 911 Emergency Service Number Table E911NPD Enhanced 911 Numbering Plan Digit Table E9110FC Enhanced Network 911 Office Table E911PSAP Enhanced 911 Public Safety Answering Point Table E911RCER Enhanced 911 Remot
27. TCXO installed a stock Qualcomm OmniTRACS unit The oscillator s label reads EG amp G FREQUENCY PRODUCTS INC CINCINNATI OHIO MADE IN USA P N l1DN14 CV90 2201 1 FREQ 10 00 MHZ S N 71150 MODEL T 424 REV C DATE 9347 OFFSET Q 25 C 0 0 HZ Remove the TCXO by heating the bottom of the circuit board with a hot air gun and gently prying around the TCXO s case 64 Bottom view of the TCXO Only three connections are needed 12 VDC 10 MHz output and ground Note the access hole for the trimmer capacitor on the bottom This is for slighly tweaking the output frequency of the TCXO 65 support components attached to a terminal strip Using the threaded studs on the bottom of the TCXO add two standoffs for mounting the oscillator in a position which allows you to access the trimmer capacitor The 10 MHz output of the oscillator is routed via a piece of small diameter coaxial cable 66 The oscillator s voltage regulator buffer and divider circuit board will be mounted in an old printer switch case The oscillator s RF output comes into the 2 2222 via the coaxlal cable on the lower left There is no real need to make the PC board overly complicated but try to utilize proper ground plane construction The LM7812 for 12 VDC and LM7805 for 5 VDC voltage regulators on the upper left This device was meant to be powered from an external voltage source of around 15 VDC You ma
28. Thus the N carrier CI contains the circuitry for four N car rier voice channels the 4 wire to 2 wire conversions and the first stage of PNPN switching The TR and ALI boards are removed for this group CHANNEL MAINTENANCE 6 23 Remote Switching System channels can be accessed via the trunk test panel in the host ESS or the remote trunk test facilities at the SCC The RSS transmission plan requires that the RSS host ESS channels be routinely tested to ensure the proper operation Centralized automatic reporting on trunks CAROT shauld be the main vehicle to ac complish this If a host ESS office is not equipped with CAROT a regularly scheduled manual routine to test these RSS channels is required 6 24 The software for trunk maintenance routines was designed to test circuit appearances on the trunk side of the network Since RSS voice chan nels appear on the line side of the network rear rangement of existing equipment is needed to utilize the trunk maintenance programs The new configu ration is called a back to back trunk connection BTBTC 6 25 A is achieved by wiring together two SD 1A166 trunks mounted on a single plate and assigning them adjacent trunk network numbers TNN on the reference trunk link network TLN Six BTBTCs are required for a host office The trunks that are involved in the BTBTC should be located next to each other Page 21 22 10A RSS Interface Description amp Maintenance
29. another room if the WWV signal was overpowered by the time base signal You should be hearing a Whoosh Whoosh Woosh sound as both the time base signal and the WWV carrier are heterodyned together The number of whooshes per second is equal to the frequency in Hertz that your time base is off The WWV RF carrier is guaranteed to be exactly 10 MHz so it ll be your time base that s off not WWV You ll now want to let everything warm up for a period of a hour or so After the time base is at its proper operating temperature slowly tweak the trimmer capacitor with a non conductive tool until the number of whooshes gets down to around one per second If the number of whooshes goes up turn the capacitor in the other direction You can tweak the oscillator s final frequency even further but it ll just end up driving you crazy That s it Your 10 MHz time base should now within one or two Hertz of exactly 10 MHz You can now use your new time base for calibrating a frequency counter or to replace the reference oscillator in your PRO 2006 scanner 70 gt N i gt H Fe EN ajos OOOL 8 st OOXL ZHN OL 71 IMP NS CES ut You can t work a ham when he s away fromm his rig but you _ D wel ud 2 wu setup contact by phone It s quick and it s reasonable especia
30. control PROVISIONING OPERATIONS Figure 3 4 Data Flow From Provisioning To CIMAP At Log Time For Disconnect Orders PROPRIETARY BELLCORE AND AUTHORIZED CLIENTS ONLY See proprietary restrictions on title page 3 16 53 DMS 100 Master List of Data Schema Tables Part 2 This list contains the short names and full titles of switch tables for the Nortel DMS product family DNIBERT DNINV DNLPIC DNOWN DNPIC DNPORT DNREGION DNREVXLA DNROUTE DNROUTE ACD DNROUTE AIN DNROUTE ASR DNROUTE D DNROUTE DISA DNROUTE DNTRIG DNROUTE DSVC DNROUTE M DNROUTE MCDN DNROUTE MM DNROUTE MONA DNROUTE MSR DNROUTE RSDT DNROUTE SPRING DNROUTE SRA DNROUTE SYN DNROUTE T DNROUTE UCD DNRTE DNRTEID DNSCRN DOMBILL DPACDEV DPCTSCRN DPNSSLK DPP DPROFILE DPROFILE AILC DPROFILE CCU DPROFILE CMADO DPROFILE DAVLC DPROFILE HS DPROFILE HSEXT or LSEXT DPROFILE LS DPROFILE MADO DPROFILE MP DPROFILE MPDA DPROFILE TCU DOMODEM DRAMS Directory Number Groups Table Directory Number Head Table Directory Number Integrated Bit Error Ratio Test Table Directory Number Inventory Table Directory Number Primary Intra LATA Carrier Table Directory Number Owner Table Directory Number Primary Inter LATA Carrier Table Directory Number Ported Out Table MMP only Directory Number Region Table Directory Number Reverse Translation Table Directory Number Route Table Auto
31. for circuit maintenance work The price for each work function is derived from user input values to GDS Pricing tables estimated price of each component of a work function can be unique for each work center work center can further break down the pricing geographically into Pricing Groups 2 2 4 Screening Screening is the process of determining if an installation order requires a field visit FV or no field visit NFV to complete Jobs which are FV flow to the mapping process while the NFV jobs are identified for Auto Complete 2 2 5 Typing And Prioritizing Job typing is the process of categorizing each job for the purpose of assigning a technician for prioritizing jobs relative to each other and for report generation There are three main job types I Installation M Maintenance and R Routine The main job types are predefined however subsets of the three main categories are defined by the BCC 2 2 8 Date Calculation GDS will calculate the early and late job start dates and times based on the installation order critical dates minus user defined offset for special service the commitment date for POTS and maintenance and the estimated time to perform the work 2 2 7 Job Status and Handling Codes The system assigns a three character alpha job status code to each job as part of the job logging process status code of a job changes each time a status change is made to amp he job record of all chan
32. information from either RT controller to the host ESS via the dedicated voice channels as signed to the DLs There is one DLI for each DL DLIO and DLI1 and each DLI has access to either controller 2 15 For the receive function the DLI buffers the incoming bit stream each byte is received an interrupt is generated to both controllers The ac tive controller will read the buffer and thus allow the next byte to be received by the DLI The process is repeated until the entire message is received Inter rupts are also generated by the DLI for several other conditions that are determined by the DLI These conditions include error check failures on the incom ing bit stream overflow of the DLI buffers carrier failure and other similar conditions 2 16 The DLI transmit function is similar to the receive function in reverse Data is transmit ted serially in blocks of between 2 and 16 bytes plus 6 bytes of SDLC overhead per block 2 17 The same DLI is used for either or N carri er since both interfaces are provided on the circuit pack 2 18 Figure 6 is a functional block diagram of the DLI The buffers at the right of the diagram steer the information so that datd may be transmit ted to or received from either microprocesor They also allow address input from either processor The buffers are enabled by the gating logic shown above the buffers The read write and enable signals to the gating logic come from the micr
33. it cannot find any fault The DL is then placed back into service 5 31 The process used to detect DL state oscillation is called trouble analysis The three trouble analysis thresholds for acceptable DL outage rates are as follows 1 Four transitions per hour between the active state and an OOS state 2 Eight transitions per hour between the active degraded state and an OOS state 3 Ten transitions per hour between either of the above states and an OOS state Counts are kept of these transitions If any of them exceed the appropriate threshold the DL is placed ISS 2 SECTION 231 037 022 into the OOS trouble analysis state instead of the state into which it would otherwise be placed DATA LINK STATES 5 32 Each RSS DL can be in one of several possible states Table A One DL per RSS is normally in the active state while the other is in a standby state This occurs when both DLs have a low error rate The active DL is on line while the standby DL is off line 5 33 All RSS data is transmitted over the active DL Only diagnostic messages to evaluate its own performance are transmitted on the standby DL failure in the active DL will be detected by built in error checks and reported to the host CC The host CC will then request a switch to the standby DL The host ESS controls all the DL state switching by send ing switch requests to the PUC 5 34 Datalink states can be changed automatically by the ESS or manual
34. matching Then the load is made permanent PERM PROPRIETARY BELLCORE AND AUTHORIZED CLIENTS ONLY See proprietary restrictions on title page 37 Generic Dispatch System Release 3 1 User Manual Part 1 BR 190 539 311 Issue 6 August 1989 GDSR 3 1 GDS also allows the user to select the type and number of work documents to be sent to the field for each job Route sheets WORD documents service order images and work requests may be issued to remote printers in field locations 2 6 DISPATCH Once a load has been run and made permanent technicians can be dispatched When the dispatch function is invoked GDS dispatches the first preassigned job on the technician s log for bulk and first job loads or if the technician is on dynamic load it selects the best job from a pool of pending work for that technician A technician may be assigned as a helper or as part of a team in a two tech area 2 7 COMPLETIONS GDS allows jobs to be partially or totally completed Separate completion screens are provided for installation and for maintenance work and Specials and POTS When the completion process is invoked completion notifications are sent to the appropriate Operations Support System OSS Installation CKL completions are automatically sent to GOC for Special Services A service order completion notice is printed at designated Service Order Completion Center SOCC printer upon the completion of the order or is sent to
35. ox o 3 7 4113 GDS SOAC Interface 4 4 4 e 3 34 3 1 14 GDS SOP Interface 3 42 3 1 15 Data Matching in GDS GDS Designed Bats interface 5 d 3 46 3 1 16 GDS LMOS Interface chan ER 3 49 3 1 17 GDS 55 ab ds 3 55 32 JOB LOGGING FEATURES 3 70 3 2 1 Auto Routing 3 71 322 Auto Mapping Zanne ee dex 3 72 3 2 3 Auto Pricing w 49 3 e dc amp ee 3 73 3 24 Auto Screening wey 3 75 3 2 5 Auto Job Typing and Priority uv 4 a 3 76 3 2 6 Auto Date Calculation eS De 3 78 3 2 7 Job Status and Handling Codes oe 3 79 33 WORK FORCE 3 83 3 3 1 Supervisory Group Attributes e e s e o ee on on 3 83 3 3 2 Technician Attributes e e om 3 83 333 Personnel Table oe WS UE 3 86 3 4 INSTALLATION AND MAINTENANCE SUPPORT x a JR 3 87 3 4 1 Mechanized Work List ee 3 87 3 4 3 Mechanized Job Review 3 87 3 4 3 Automatic Loop Testing s e o
36. project to utilize the Omni TRACS main 10 MHz Temperature Compensated Crystal Oscillator TCXO as a time standard for your workbench Overview The 10 MHz TCXO is model number T424 and made by EG amp G Frequency Products Inc And yes EG amp G is one of the large defense contractors which works out at Area 51 The stock oscillator unit measured only a few Hertz off of 10 MHz and the unit has an externally accessible trimmer capacitor which you can use to zero beat the oscillator directly to WWV This will allow you to tune the oscillator to within 1 Hertz of the 10 MHz WWV NIST time standard The 10 MHz output signal of the TCXO will be buffered with a simple 2N2222A transistor and sent to a 74HC390 dual decade ripple counter to be divided down for generating an optional 1 MHz reference signal The final two signal outputs are isolated with a 74HC241 octal 3 state buffer The signals are then routed to front panel BNC jacks A few series 100 ohm resistors limit the current in case any of the outputs get shorted EG amp G TCXO Pinout 2 x 2 TCXO PINOUTS t12V BOTTOM VIEW GND o 63 Pictures amp Construction Notes J FREQUENCY PRODUCTS INC CINCINNATI OHIO MADE IN USA P N 10 14 9 2201 1 10 00 MHZ S N 71150 MODEL T 424 92 E a px g gt 4 ET RE gt EG amp G 10 MHz
37. which consists of the following Routing Mapping Zoning e Pricing e Screening e Job Type Priority e Date Calculation SOP Determination POTS Installation only The job logging process utilizes a series of user built tables called GDS tables If job logging is successful the work request is given a job status of pending load PLD If job logging is unsuccessful the work request is assigned a job status of pending screen PSC and an appropriate handling code The mechanized job review process can be used to correct work requests with job logging errors 2 2 1 Routing The routing function of the job logging process consists of determining and routing a job to the work center responsible for a particular type of work The system enables the user to build the logic for routing different types of work to different work centers The routing of work is based on the Class of Service Service Code and Modifier order type wire center and Carrier Name Abbreviation Jobs which do not meet the user defined criteria are routed to a user defined default center Work may also be routed to the center TRASHCAN Work requests routed to TRASHCAN are discarded and not entered into GDS 2 2 2 Mapping Zoning The mapping function derives the circuit work location from the serving Wire Center WC and the Local Loop Facility assignment Cable Pair Locations are defined as sets of Allocation Areas which reside within a Dis
38. 6 Technician Log Record Retrieval MENU E E 6 2 1 Generic Dispatch System User Screens 6 2 2 Generic Dispatch System Load Tables 6 23 Generic Dispatch System Job Logging Tables 6 2 4 Generic Dispatch System TTS Tables 6 2 5 Generic Dispatch System Utility Screens GDCRON VGHELP GDPMD GDDBD 4 DBD to Table Reference GDDBD1 GDPSB p x d 6 10 GDPSBI PROPRIETARY BELLCORE AND AUTHORIZED CLIENTS ONLY See proprietary restrictions on title page 5 34 5 41 9 44 5 48 5 50 5 53 5 57 5 61 5 65 5 68 9 71 5 76 5 81 5 85 5 85 5 86 5 92 5 93 5 94 5 100 5 102 5 110 9 118 9 121 5 128 9 136 6 1 6 1 6 1 6 2 6 2 6 2 6 12 6 14 6 16 6 17 6 19 6 20 6 21 6 23 6 24 6 27 6 32 6 34 6 36 6 37 6 38 6 39 28 Generic Dispatch System Release 3 1 User Manual Part 1 BR 190 539 311 Issue 6 August 1989 GDSR 3 1 6 1 1 GDPSB2 6 40 7 0 FIELD DIRECTORY 7 1 PROPRIETARY BELLCORE AND AUTHORIZED CLIENTS ONLY See proprietary restrictions on title page vii 29 Generic Dispatch System Release 3 1 User Manual Part 1 BR 190 539 311 Issue 6 August 1989 GDSR 3 1 1 0 INTRODUCTION 1 1 BACKGROUND The IC Installation Center and the MC Maintenance Center are responsible for local loop installation and maintenance and
39. CSI WOT GCOCS1 MI C1 IAD GCOCSI FCD GCOCS1 SWC GCOCS1 C1 ASD GCOCMA CTA GCOCSA CCR GCOCSI C1 DOP GCOCS1 SEC not displayed ORD TYP GCOCSI MI MCN CLODET TD DOC GCOCSI C1 CCNA GCOCSA MA CA ASSOC ORD GCOCSA MA CA PON GCOCSA MA CA TGAC jndicates that this data is available only with LOOP II 3 12 TIRKS Release Post 14 1 Post 14 1 Post 14 1 Post 14 1 Post 14 1 LOOP IT Post 14 1 Post 14 1 LOOP IT Post 14 1 LOOP IT Post 14 1 Post 14 1 LOOP II 14 1 14 1 Post 14 1 Post 14 1 Post 14 1 Post 14 1 Post 14 1 Post 14 1 Post 14 1 Post 14 1 Post 14 1 Post 14 1 P st 14 1 Post 14 4 Pre 14 1 15 1 15 1 15 1 15 1 15 1 PROPRIETARY BELLCORE AND AUTHORIZED CLIENTS ONLY See proprietary restrictions on title page 49 Generic Dispatch System Release 3 1 User Manual Part 1 BR 190 539 311 Issue 6 August 1989 GDSR 3 1 Table 3 2 Fields Available in CIMAP CC TIRKS Issue Interface FIELD NAME CC CLO CCOE ORDER ACTIVITY CCOE ORDER NUMBER CCOE CIRCUIT ID CCOE RELATED ORDER CCOE CUSTOMER NAME CCOE DVA DATE CCOE WOT DATE CCOE FCD DATE CCOE PTD DATE CCOE ASD DATE CCOE DUE DATE CCOE IAD DATE CCOE ACNA CCOE CCO CCOE OCO CCOE MCO CCOE CCXREF PROJECT CODE CCOE CCR CCOE ORDER TYPE CCOE JOB ID CCOE FIE
40. Considerations ESS SECTION 231 037 022 7 ABBREVIATIONS 7 01 The following abbreviations are used in this section TERM ACU A D ALI AMA ATP BTBTC CAROT CC CCS CI CPU CRC DL DLI DSU DP EIA ESS FIFO LIU LLN MCC Page 22 22 Pages DEFINITION Alarm Control Unit Analog to Digital Alarm and Line Interface Automatic Message Accounting Tests Pass Back To Back Trunk Connection Centralized Automatic Reporting on Trunks Central Control Hundred Call Seconds Channel Interface Central Processing Unit Cyclic Redundancy Code Data Link Data Link Interface Data Service Unit Data Port Electronic Industries Association Electronic Switching System First In First Out Line Interface Unit Line Link Network Mater Control Center TERM 008 ORB PBX POB PU PUAB PUC PUC DL PUC LIU ROB RSS RT SCAB SCC SDLC SF SPCS STP TLN TNN TOP TR TTY DEFINITION Out Of Service Office Repeater Bay Private Branch Exchange Peripheral Order Buffer Peripheral Unit Peripheral Unit Address Bus Peripheral Unit Controller Peripheral Unit Controller Data Link Peripheral Unit Controller Line Interface Unit Remote Order Buffer Remote Switching System Remote Terminal Scanner Answer Bus Switching Control Center Synchronous Data Link Control Single Frequency Stored Program Control System Some Tests Pass Trunk Link Network Trunk Network Number Task Oriented Practi
41. DOC passes GDS order information for all special service orders GDS uses this information to build Work Requests and notifies the Status Reporter of the CKL locations that GDS is tracking See Table 3 3 for the information passed to GDS from CIMAP DOC PROPRIETARY BELLCORE AND AUTHORIZED CLIENTS ONLY See proprietary restrictions on title page 44 Generic Dispatch System Release 3 1 User Manual Part 1 BR 190 539 311 Issue 6 August 1989 GDSR 3 1 CIMAP DOC passes OPS INE order and CWL information for all orders involving Intelligent Network Transmission Elements CIMAP DOC updates the EXSYSW and SIC code in GOC for orders sent to GDS and that were not issued to CIMAP SSC B Information flows between the TIRKS System and Operations for orders that exist in GDS and CIMAP CC but are not tracked in CIMAP SSC See Figure 3 3 EDIIS issues the WORD document to CIMAP if the MCO OCO CCO of a GDS or CIMAP CC controlled order is the CIDIST SSC INFO table The CIMAP SSC software receives the WORD and logs it in the CIMAP pending WORD database The software checks the NON SSSC CLLT code table to see if the OCO CCO MCO for the order exists If found the CIMAP SSC software knows that this is a non SSC controlled order No worklist entries are created and at this point the order is not logged in the Order IA and Circuit History databases CIMAP DOC sends an order to CIMAP CC or GDS and the
42. Editorial and rants 10A RSS Interface Description amp Maintenance Considerations ESS BELL SYSTEM PRACTICES SECTION 231 037 022 AT amp TCo Standard Issue 2 August 1982 NO 10A REMOTE SWITCHING SYSTEM INTERFACE DESCRIPTION AND MAINTENANCE CONSIDERATIONS 2 WIRE NO 1 AND NO 1A ELECTRONIC SWITCHING SYSTEMS CONTENTS PAGE CONTENTS PAGE 1 GENERAL 2 LOOP BACKS FOR CARRIER APPLICATIONS 2 DATA LINK SYSTEM 2 i PERIPHERAL UNIT CONTROLLER FOR DATA 6 RSS CHANNELS 20 LINKS 2 CARRIER 20 TRANSMISSION FACILITIES 4 N CARRIER 21 REMOTE TERMINAL DATA LINK INTERFACE 4 DATA LINK OPERATION 10 CHANNEL MAINTENANCE 21 3 DATA LINK PROTOCOL 10 7 ABBREVIATIONS 22 4 PERIPHERAL UNIT CONTROLLER OPERATION Figures DATA TRANSMISSION 12 1 Remote Switching System Block Diagram DATA RECEPTION 12 2 Data Links P 5 MAINTENANCE 1 X 4 ee 3 Peripheral Unit Controller for Data Links 5 DATA LINK MAINTENANCE 12 Block Diagam 6 PATA UNK DIAGNOSTICS I3 4 Digital Channel Transmission Plan 7 A Diagnostic Restrictions dw d 5 Analog Channel Transmission Plan bud 8 B Diagnostic Structure 14 6 Data Link Interface Functional Block Dia C Routine Diagnostics bod amp
43. ITEM 01 ITEM 01 Figure 2 3 GDS Database Structure Each level or segment contains information related to a different part of the work request first segment contains information at the ORDER level and is keyed to the CENTER and JOBID Order Number Trouble Ticket Number The second level contains information at the circuit work location CKL or TERMINATION level along with technician data The third segment contains circuit and facility information ITEM level and is keyed to the CIRCUIT ID A circuit with multiple work locations will generate a work request with a single JOBID and multiple CKLs Multiple circuits at the same work location are built to a work request with a single JOBID with multiple ITEMs Work requests are retained in the Work Request database until they are archived or purged 2 5 LOADING AND ISSUE Bulk loading is the mechanized process of selecting a number of jobs from the Work Request database considering the available field technicians and performing a best match of work to technician The load process considers such factors as job priority critical dates access windows appointments skill level etc Technicians may be loaded PREassigned with either a full or partial day s work BULK only a first job FIRST or a single next best job DYNAMIC Loads may be run for an entire work center by supervisor s group or by technician Loads are run TRIAL until the user is satisfied with the load
44. Issue 72 The Monthly Journal of the American Hacker April 2010 When the battery dies the operation dies became mantra of OTS Office of Technical Services As transistors delivered improved performance battery technology lagged behind becoming the weak link in audio operations My Wife often said mumble my sleep but that never said anything clearly remembered a senior TSD Technical Services Division manager from the early years Except one night apparently sat up and shouted Those fucking batteries Quote from the book Spycraft A Secret History of the CIA s Spytechs from Communism to Al Qaeda by Robert Wallace and H Keith Melton Table of Contents Page 2 10A RSS Interface Description amp Maintenance Considerations ESS Maintenance strategy for a 10 Remote Switching System RSS with a 1A ESS host Page 24 Generic Dispatch System Release 3 1 User Manual Part 1 GDS mechanizes the administration support for the installation and maintenance of POTS and Special Services lines Missing a few pages Page 54 DMS 100 Master List of Data Schema Tables Part 2 The short names and full titles of switch tables for the Nortel DMS product family Page 63 10 MHz TCXO Stable Time Base Utilize the 10 MHz time base from an old Qualcomm OmniTRACS unit as handy piece of test gear Page 72 Bonus Old Bell System Ham Radio Ad Page 73 The End e
45. LD NAME SOURCE TIRKS System CLO GCOCSI ACTN GCOCSI MI LOC A GCOCSI LOC Z GCOCSI ORD GCOCSI 1 CID GCOCSI 1 REL ORD GCOCSI CUST DVA GCOCSI WOT GCOCSI FCD GCOCS1 1 PTD GCOOCSI 1 ASD GCOCMA DD GCOCSI MI CTA GCOCSA IAD GCOOCSI 1 ACNA GCOCSA CCO WA OCO WA MCO WA PROJ GCOCSI M1 CCR GCOCSI DOP GCOCSI MI SEC GOC not displayed ORD TYP GCOCSI MI gt JOB ID GCOCSI 1 NOTE 1 CIMAP DOC also sends FRM PLUG and JMPR counts for each location to CIMAP CC 2 Blank fields under CC column indicates TIRKS fields are not displayed CIMAP CC 3 CIMAP DOC also passed to CIMAP CC all fields passed by CI DIST to CIMAP SSC These fields are not used by the CIMAP CC software but they will be used to populate fields in the order DB when that order is controlled by CIMAP CC Examples of the data are Customer Address Billing Telephone Number and Premise Information CLO is first nine characters of GOC CLO used as tracking key on CCXREF PROPRIETARY BELLCORE AND AUTHORIZED CLIENTS ONLY See proprietary restrictions on title page 50 Generic Dispatch System Release 3 1 User Manual Part 1 BR 190 539 311 Issue 6 August 1989 GDSR 3 1 Table 3 3 Fields Available in GDS TIRKS Issue Interface FIELD NAME GDS FIELD NAME SOURCE TIRKS System DEFINITION CLO GDISWR CLO GCOCS1
46. LINK DIAGNOSTICS 5 06 If there is a problem transferring data be tween the ESS and RSS the fault will be lo cated in either the PUC DL the RT or the DL channel facilities Depending on the type of problem the PUC DL or the RT will run DL diagnostics to find the fault The microprocessors in the PUC DL and the RT will run the diagnostics requested and controlled by the host ESS CC Routine DL diagnos tics run automatically The DL diagnostics run con currently with call processing to detect and locate faults 5 07 When a fault is detected in an RSS link a di agnostic is automatically requested and traf fic is switched to the standby link If the diagnostic fails the link is removed from service Normally the diagnostic should be requested again to validate the previous results If the diagnostic passes it should be ISS 2 SECTION 231 037 022 requested once more to verify if an intermittent fault exists 5 08 Each diagnostic can be requested manually TTY input message or automatically via ESS maintenance software The actual programs which perform the various diagnostic checks reside in the PUC and RT firmware 5 09 The ESS master control center MCC diag nostic in progress lamp provides a visual indi cation that a diagnostic is being executed This lamp is not unique to the PUC DL feature It also serves to indicate other unrelated diagnostics Key 20 on the MCC buffer bus 17 aborts an in progress DL diagnos
47. RV 526 597 GDITE i amp d x d d ode we 528 GDLOG 529 5210 5211 5212 5 2 13 GDLOAD 5214 GDTLOG 4 x X Xx ROO 5215 GDISSU x 4x e o ee de cO o d d GDS JOB GROUPING 5 3 1 GENERAL INFORMATION zo 5 3 2 GDS JOB GROUPING SCREEN GDGRP DISPATCH AND COMPLETION i m 5 4 1 Special Service Installation Dispatch Screen GDISDP E A 5 4 2 Special Service Maintenance Dispatch Screen GDMSDP 543 POTS Maintenance Dispatch Screen GDMDP 5 44 POTS Installation Dispatch Screens GDDISP j 5 4 5 GDS POTS Installation Completion Screen GDCOMP 5 46 GDS POTS Installation Screen 2 GDCMP2 5 4 7 Special Service Installation Completion Screen GDISCP 5 48 GDS POTS Maintenance Completion Screen GDMCP 5 4 9 Special Service Maintenance Completion Screen GDMSCP 6 0 MISCELLANEOUS SUPPORT vi 6 1 6 2 6 3 6 4 6 5 6 6 6 7 6 8 6 9 ARCHIVE AND RETRIEVAL 611 Work Request Database Log Database Record 6 1 2 Service Order Image Database Record Archive 6 1 3 Technician Log Database Record Archive 6 1 4 Work Request Database Log Database Record Retrieval 6 1 5 Service Order Image Record Retrieval 6 1
48. S Originating Control Table INWORIRT INWATS Originating Route Reference Table INWSNPA INWATS Originating Screen Office Table INWTERCN INWATS Terminating Control Table INWTERTE INWATS Terminating Route Reference Table INWTMAP INWATS Terminating Map Table IOC Input Output Controller Table IOGTKEY ITOPS OGT Key Table IOPATTR International Traffic Operator Position System Attributes Table IOPRTRAN ITOPS Operator Translations Table IPCOMID Internet Protocol Communications Identifier Table IPEINV Intelligent Peripheral Equipment Inventory Table IPHOST Internet Protocol SuperNode End Hosts Table IPINV Internet Protocol Inventory Table IPMLINV Interperipheral Message Link Inventory Table IPNETWRK Internet Protocol Network Table IPROUTER Internet Protocol Subnet Router Table IPSCP Internet Protocol to Service Control Point Table IPSVCS Internet Protocol Services Table IPTHRON Internet Protocol Throttling Numbers Table IRLNKINV Interlink Inventory Table ISAINFO In Session Activation Information Table ISAMENU In Session Activation Menu Table ISAXLA Integrated Services Access Translation Table ISCTAB International Service Calls Table ISDNBILL ISDN Services Billing Table ISDNPARM ISDN Trunk Subgroup Parameter Table ISDNPROT ISDN Protocol Variant Timer Table ISDNTCP ISDN Test Call Parameter Table ISGDEF ISDN Service Group Definition Table ISGTDM ISDN Service Group Time Division Multiplex Table ISNDPMAP Intelligent Services Node Digit Pa
49. SS after passing over the T1 span through the integrated common Page 16 logic at the RT and through a major portion of the T1 encode decode logic on the DLI cir cuit pack This loop back is activated by a sig nal wire from the PUC LIU to the DSU DP 5 41 The following loop backs are under direct con trol of the RT processor and data from the RT is looped back to itself They are activated by auto matic diagnostic routines e DLI This loops data after passing through the processor interface and the SDLC logic on the DLI circuit pack e DLI Local This loops data back after passing through about 75 percent of the DLI logic DLI Remote This loops data after passing over the T1 main span through the host D4 bank common equipment and about 80 per cent of the DSU DP logic 5 42 The following loop back is activated manually and is not used by the usual diagnostic rou tines All 24 channels of a particular group are looped back This loop back is used only after all other diagnostie methods have failed e D4 Bank Inserting a tip plug in the face plate of the LIU common equipment plug in of the D4 common equipment loops all 24 channels back to the ESS LOOP BACKS FOR N CARRIER APPLICATIONS 5 43 The following N carrier loop back is under di rect control of the PUC and loops data from the PUC back to the PUC for maintenance purposes This loop back is part of the automatic di
50. Simultaneous Screening Option CFS Subtable FTRGOPTS CFU Call Forward Universal Option CFU Subtable FTRGOPTS CFW Call Forward Option CFW Subtable FTRGOPTS CLID Calling Line Identification Option CLID Subtable FTRGOPTS CLIDSP Calling Line Identification Display Option CLIDSP Subtable FTRGOPTS CMCF Call of Multiple Call Forward Option CMCF Subtable FTRGOPTS CNAMD Calling Name Delivery Option CNAMD Subtable FTRGOPTS CND Calling Number Delivery Option CND Subtable FTRGOPTS CNDB Calling Number Delivery Blocking Option CNDB Subtable FTRGOPTS CNF FTRGOPTS COT FTRGOPTS CXR FTRGOPTS DDN FTRGOPTS FXR FTRGOPTS MWT FTRGOPTS NAMEDSP FTRGOPTS OLS FTRGOPTS OPTS FTRGOPTS PF FTRGOPTS PFCNTL FTRGOPTS READSP FTRGOPTS SC1 FTRGOPTS SC2 FTRGOPTS SC3 FTRGOPTS SCL FTRGOPTS SCS FTRGOPTS TLS FTRTE Flexible Station Controlled Conference Option CNF Subtable Customer Originated Trace Option COT Subtable Call Transfer Option CXR Subtable Dialable Delivery Number Option DDN Subtable Fast Transfer Option FXR Subtable Message Waiting Option MWT Subtable Name Display Option NAMEDSP Subtable Originating Line Select Option OLS Subtable Various Line Options Option OPTS Subtable Power Features Option PF Subtable Power Features Control Option PFCNTL Subtable Reason Display Option READSP Subtable Speed Calling Speed Calling Speed Calling Speed Calling Sp
51. T LEAST TWO SOURCES VERIFY RADICAL TEA PARTY INCITES RACIST WAR NN BLACK PRESIDENT THIS IS ABOVE THE FOLD STORY IF EVER SAW ONE T S TIAE WE BURIED THESE TERRORISTS 81
52. TED ORDER RELNO RELEASE NUMBER CCR GCOCSI CIRCUIT CONTROL RECORD ADDR GDISWR STA ADDR LOOP 2 CUSTOMER ADDRESS LOC GDISWR STA LCTN LOOP 2 CUSTOMER LOCATION PROJ GDISWR PROJ GCOCS1 PROJECT NUMBER NOTE 1 Blank fields under the GDS column indicates TIRKS fields are not displayed on any screen in GDS CIMAP DOC also sends cable equipment and network interface information to GDS 2 is displayed when the value of MCO OCO flag in GDS OPTS is set to 3 Additional fields are passed to GDS by CIMAP DOC that are only used when GDS as owner of the order logs the order in the A DB PROPRIETARY BELLCORE AND AUTHORIZED CLIENTS ONLY See proprietary restrictions on title page 3 14 51 Generic Dispatch System Release 3 1 User Manual Part 1 BR 190 539 311 Issue 6 August 1989 GDSR 3 1 C Information Flows from the TIRKS System to CIMAP and GDS at Log Time for Disconnects An option is available for receiving disconnect orders into CIMAP SSC OPS INE and CIMAP CC at order log time To exercise this option a switch must be set to yes in the OPTS LINK SSC OPTS LINK INE and OPTS LINK CC tables The alternative flow is shown in Figure 3 4 and is as follows GOC logs a disconnect order in the TIRKS System is notified and notifies CIMAP DOC e CIMAP DOC retrieves the in effect view of the circuit from and extracts the MCO OCO CCO Using th
53. TEM amp CWL LEVEL PROCESS CONTROL INFO 5 x DOC ENH DEPENDENT e GDS e CIMAP CC e INE Figure 3 3 Data Flow Between Provisioning and CIMAP for Non SSC Controlled Orders PROPRIETARY BELLCORE AND AUTHORIZED CLIENTS ONLY See proprietary restrictions on title page 3 10 47 Generic Dispatch System Release 3 1 User Manual Part 1 BR 190 539 311 Issue 6 August 1989 GDSR 3 1 Table 3 1 Fields Available in CIMAP SSC TIRKS Issue Interface FIELD NAME SSC CLO OSSOI ACT OSSOI 05501 2 08501 ORD 05501 FMT OSSOI ID 05501 OLD CKTFMT OSSOI OLD CKTID OSSOI RO OSSOI CUS OSSOT CUST OSSOI CUST N ADDRESS OSSOT CUST N TEL OSSOI BTN 08501 RID not displayed PTD OSSOI DVA OSSOI DD OSSOI CAC OSSOT STAT OSSOT OSSOI RRI OSSIMD 05501 RTI OSSOT ACNA OSSOI FIELD NAME SOURCE TIRKS System CLO GCOCSI MI C1 ACTN GCOCSI MI LOC A GCOCSI C1 LOC Z GCOCSI ORD GCOCSI MI C1 FMT GCOCSI CID GCOCSI MI C1 FMT OLD GCOCSI OLD ID GCOCSI MI C1 REL ORD GCOCSI CUS WA CUST GCOCSI M1 C1 SA WA CCON TEL BTN WA RID GCOCSI PTD GCOCS1 DVA GCOCSI MI C1 DD GCOCSI C1 CAC GCOCSI CSTAT GCOCSI C1 MCO WA LOOP RRI WA RSP WA LOOP RTI indica
54. TIRKS Query System TQS is a subsystem of the Generic Dispatch System GDS TQS is an on line facility that allows users to query certain databases of the GDS It provides a variety of pre defined model queries and procedures and allows the user to define their own queries TQS is a very powerful subsystem that provides the user with real time query and report capability The end user can do the following e define the information they want to see create English like queries to extract the data from the database and format the output report as they desire Detailed information on the capabilities and use of TQS is found the following documents TIRKS Query System TQS User Manual BR 190 539 300 How To Use TQS For GDS BR 190 539 314 3 1 5 Archive and Retrieval The GDS Archive and Retrieval process allows the BCC to establish intervals for purging and archiving completed data records from the work request service order image technician log personnel availability GDPAD databases Predefined selective data items from each database are either purged or archived Records which have been archived may be retrieved as predefined output reports Retrieval reports are scheduled as required by the GDS user and are run BATCH Section 6 1 contains a detailed description of the capabilities and use of this process 3 1 0 Table Checker The Table Checker is a utility in GDS that checks certain data entries between GDS tables for incl
55. a designated SOP for the autocompletion process Maintenance completion notifications are sent to LMOS or CIMAP SSC For work requests which do not require a field visit GDS will automatically complete the job on the due date and generate the appropriate completion notification PROPRIETARY BELLCORE AND AUTHORIZED CLIENTS ONLY See proprietary restrictions on title page 38 Generic Dispatch System Release 3 1 User Manual Part 1 BR 190 539 311 Issue 6 August 1989 GDSR 3 1 CONTENTS 3 0 SYSTEM FEATURES 3 1 31 GENERAL FEATURES 3 1 31 1 Standard Screen Features 3 1 3 1 2 Standard Table Features 3 3 313 GDS Security odo de GE we 3 4 3 1 4 TIRKS Query System TQS ene de od 3 4 3 1 5 Archive and Retrieval 4 3 4 31 6 Table Checker 6 4 4 e om om om on on 3 4 247 ae x s s w w wee s OX d o9 3 4 318 CRON cO 3 5 3 1 9 TIRKS Module TCM 2 4 de Gd Ae 4 3 5 3 1 10 Feature Authorization Module FAM 3 5 3 1 11 Database Partitioning e 4 4 3 6 1112 GDS TIRKS Interface 4 3 4 xo
56. ability required for execution of phase 6 In this case phase 6 reports all tests pass ATP without actually running the phase 5 18 Phase 1 resets the LIU and checks the status of the input output ports to verify that they were reset to the proper state It also exercises all enables to insure their connections to the FG40 5 19 Phase 2 places the LIU in an on board loop back mode at the output of the universal serial receiver transmitter verifies that data transmitted is equal to data received and that no CRC errors oc curred The data consists of zero walked through a field of ones followed by a one walked through a field of zeros 5 20 Phase 3 is identical to phase 2 except that the loop back is at the DSU DP instead of at the LIU 5 21 Phase 4 is run by the RSS RT and consists of ten tests These tests verify reset read write Page 14 of control registers and error checking circuitry In cluded in the tests is an on board local loop back 5 22 Phase 5 performs a local loop back through the DSU DP or the remote modem depending on the facility from the RT Testing is done to verify that data received is the same as data transmitted 5 23 remote loop back on an N carrier data set cannot be performed under program control Because of this phase 6 is shipped and always reports ATP when a full diagnostic is requested for N carrier DLs 5 24 Phase 6 for T1 carier DLs causes data to loop back at the DLI
57. agnostics for the DL Fig 9 e LIU Maintenance This loops data after passing through all of the PUC and the LIU 5 44 The following loop back is under direct con trol of the RT processor and loops data from the RSS back to the RSS e DLI Maintenance This loops data after passing through the DLI processor interface and SDLC logic 17 10A RSS Interface Description amp Maintenance Considerations ESS ACTIVE ACTIVE DEGRADED ACTIVE FORCE STANDBY OUT OF SERVICE OOS DEGRADED OOS MANUAL OSS REMOVED OOS FAULT OOS TROUBLE ANALYSIS UNAVAILABLE INVALID RECOVERY ACTIVE RECOVERY 005 ISS 2 SECTION 231 037 022 TABLE A REMOTE SWITCHING SYSTEM DATA LINK STATES The DL is transferring RSS data at a low error rate The DL is transferring data but accepts a high error rate without reporting error rate faults CAUTION Do not use this state unless absolutely necessary This state is brought about manually via TTY input message and must be used with caution This state forces the DL on line and causes the PUC DL to ignore all errors No automatic maintenance is done and the DL state cannot be changed automatically by the PUC The DL was OK when last used and is on standby to go on line if needed This state occurs when a high error rate is encountered The DL is switched off line and a diagnostic is scheduled This state is requested by TTY message The DL is off line but may be
58. al RT which performs call processing and maintenance tasks under direct commands from the host ESS Transmission facilities connecting the RSS switching network to line equipment terminals on the ESS line link network frames are required for voice transmission Two voice channels are assigned to be DLs Fig 1 A peripheral unit controller for data links PUC DL is required at the host ESS The PUC DL SD 1A478 controls the duplicated DLs used for the RSS A general description of the RSS is provided in Section 255 200 100 1 04 The maintenance strategy of the RSS 1s incor porated into the existing maintenance strat egy of the host The teletypewriter TTY messages unique to RSS will appear on the host ESS mainte nance TTY Alarms associated with the RSS RT will Page 2 trigger host central office alarms The Switching Control Center SCC interface for the host also pro vides capability to monitor analyze and diagnose problems either unique to the RSS RT or common to the host and the RSS 1 05 The DL information sent from the host ESS office to the RT will include commands to set up or tear down network paths ring phones collect coins or operate relays The host ESS may also make inquiries into the RSS status over the DL The host ESS always decides which DL is to be active The DL information from the RSS to the host ESS will be indications of its status such as the confirmation of a request action the states of line
59. ar steps A Step Ahead Melissa Martinez transferred to St Thomas for her undergraduate degree in part because she hoped to earn her law degree there too The 31 year old student plans to be an advocate a voice for the voiceless and law seemed a good avenue Because she s a St Thomas junior and a student of color she s perfect for the university s new Tommie Law Early Admission program which aims to draw diversity from its undergraduate programs The program will accept those students based on grades and college entrance exams not the LSAT The university joined a handful of others that got the American Bar Association s OK to waive the test for a limited number of students We ve seen in our own experience that those scores don t always indicate how successful students will be said Cari Haaland director of admissions Martinez was already studying for the test It s the program s promise to integrate her as a senior into the law school community that convinced her to apply It gets me on track she said Instead of worrying senior year about what I m going to do where I m going to apply if I m going to be accepted 75 Diversity Numbers Stable Despite an increasingly diverse population the proportion of students of color in Minnesota s law schools is similar to a decade ago The U sits at about 16 percent including 26 Hispanic students the same number as in 2004 and 1999 Students of color ma
60. are primarily concerned with POTS Plain Old Telephone Service services The SSC Special Service Center and the SSDAC Special Service Dispatch Administration Center have similar responsibilities for special service circuits In the course of installing and maintaining POTS and special service circuits a center must dispatch field technicians to work locations at various points along a local loop facility The dispatch process involves evaluating a number of factors i e type of work location of work availability of technicians required technician skills etc This process is predominantly manual effort and is extremely labor and paper intensive 1 2 PURPOSE OF THE GENERIC DISPATCH SYSTEM GDS The GDS Generic Dispatch System provides the mechanized work and force administration tools for the automation of the local loop dispatch process GDS supports installation maintenance POTS nondesigned and special service center operations of any combination or subset 1 3 PURPOSE OF DOCUMENT This document has a threefold purpose 1 To provide an explanation of GDS functions features and interfaces 2 To provide the step by step methods for building a work center in GDS 3 To provide a detailed description of how to use the system and a quick and easy reference to fields formats and features 1 4 STRUCTURE OF DOCUMENT This document combines both the GDS User Guide information and the format field directory The GDS User
61. artition a work center resides in to use the system since GDS automatically translates the work center ID to the correct partition Service Order Image Database The Service Order Image database like the work request database is separated into ten partitions however it is not separated by work center since a service order can span multiple centers To provide an even spread across partitions service orders are automatically distributed across partitions by the last character of the service order number as they enter the system Log History Database The Log History database is separated into ten partitions by work center using the same matrix as the Work Request database PROPRIETARY BELLCORE AND AUTHORIZED CLIENTS ONLY See proprietary restrictions on title page 3 6 43 Generic Dispatch System Release 3 1 User Manual Part 1 BR 190 539 311 Issue 6 August 1989 GDSR 3 1 3 1 12 GDS TIRKS Interface A Information Flows from the TIRKS System to CIMAP and GDS at Issue RID as of CIMAP 3 2 The standard flow for receiving special service message and carrier WORD documents and special service message and carrier orders D R RN into CIMAP is via the mechanized interface with C1 DIST EDIIS A special service message or carrier order is logged into GOC The TIRKS System F1 is used to assign design and inventory both the circuit and the equipment facilities At RID Re
62. ation is printed on the TTY containing Page 13 14 10A RSS Interface Description amp Maintenance Considerations ESS SECTION 231 037 022 the suspected faulty board location numbers with the most probable board first The maintenance person nel can use this board number to find the physical location of the board Once the faulty board has been replaced a repair verification is done to insure the fault is fixed and no new faults were introduced with the new circuit board A Diagnostic Restrictions 5 16 Several restrictions apply to RSS DL diagnos tics To diagnose any link the link must be off line If a diagnostic is requested on an active link an automatic request is made to DL state control soft ware to switch links If state control is unable to switch links an output message will indicate that the diagnostic was aborted The diagnostic will also abort if a link under diagnosis is needed for service If a loop on a phase is reguested the link must be manually placed in the unavailable state Another restriction is that the diagnostic program will not run if maintenance is removed from the PUC control ling the DL B Diagnostic Structure 5 17 The RSS DL diagnostic is segmented into seven phases request for the full RSS DL diagnostic normally results in all seven phases being executed except when the DL is using N carrier The data sets used for N carrier does not provide the re mote loop back cap
63. ble Enhanced WATS Selector EOW Subtable IBN Route Reference Index Selector IBNRX Subtable Insert Selector INS Subtable Integrated Service Access Selector ISA Subtable INWATS Selector IW Subtable Line Selector LINE Subtable Location Selector LOC Subtable N Selector N Subtable NIL Selector NIL Subtable NOT Selector NOT Subtable OUTWATS Selector OW Subtable Queue Head Selector OH Subtable Retranslate Selector RX Subtable S Selector S Subtable Supergroup Selector SG Subtable T Selector T Subtable Treatment Selector TRMT Subtable Virtual Facility Group Selector VFG Subtable IBN Second Route Table IBN Third Route Table IBN Fourth Route Table 60 IBNSC IBNTREAT IBNXLA IBNXLA AIN IBNXLA AMBI IBNXLA AMBIG IBNXLA ATT IBNXLA ATTO IBNXLA BC IBNXLA CUTTD IBNXLA CWD IBNXLA DOD IBNXLA ESN IBNXLA EXTN IBNXLA FEAT IBNXLA FLEXI IBNXLA FTR IBNXLA GEN IBNXLA GIC IBNXLA IAG23 IBNXLA LOC IBNXLA LPACT IBNXLA LSPKP IBNXLA MBG IBNXLA N IBNXLA NET IBNXLA PROTO IBNXLA PVT IBNXLA REPL IBNXLA ROUTE L IBNXLA ROUTE S IBNXLA ROUTE T IBNXLA SFMT IBNXLA SLE IBNXLA SPDC IBNXLA SRNG IBNXLA STAR IBNXLA TRMT IBNXLA TTTR IBNXLA TTTT IBNXLA U3WC IBNXLA VMX ICIDATA ICNTRY IDBCLASS IDIGCTL IFC IFORDA IFORINW ILPELGBL ILPREGN IMAGEDEV IMGSCHED INATLPRT INBGCUST INNCOS INPRTRNS INTCCFMT INTCCMTR IBN
64. ble Name Display Selector SPECL NAME Subtable Night Service Programming Selector SPECL NSPRG Subtable Parking of Calls by Attendant Selector SPECL PARK Subtable Position Busy Selector SPECL POS Subtable Private Virtual Network Authorization Code Selector SPECL PVNAUTH Subtable Private Virtual Network Remote Access Call Attendant Selector SPECL PVNRMAC Subtable Private Virtual Network Calling Number Attendant Assistance Selector SPECL PVNSRCDN Subtable Speed Calling List Selector SPECL SC10 SC30 SC50 SC70 or SCU Subtable Serial Calling Selector SPECL SERIAL Subtable Station Origination Restrictions Controller Selector SPECL SORC Subtable Attendant Query Time and Date Selector SPECL TIME Subtable Trouble Code Selector SPECL TRBL Subtable Unparking of Calls by Attendant Selector SPECL UNPK Subtable Wild Card Selector SPECL WC Subtable Trunk Access Control Selector TAC Subtable Trunk Group Busy Selector TGB Subtable Virtual Facility Group Access Control Selector VAC Subtable Virtual Facility Group Busy Selector VGB Subtable Foreign Numbering Plan Area 7 Digit Number Table List of Foreign Numbering Plan Area Codes Subtables Table Foreign NPA Codes Subtable List of Foreign NPA STS Codes Subtables Subtable 56 FNPACONT FNPASTS Foreign NPA STS Route Reference Subtable RTEREF FNPACONT RTEREF Foreign NPA Route Reference Subtable FPDEVINV File Processor Device Inventory Table FPDIPINV File P
65. ces Transmit Receive Teletypewriter 23 Generic Dispatch System Release 3 1 User Manual Part 1 Bellcore f 5 Bet Communications Reasearch Bellcore Practice BR 190 539 311 Issue 6 August 1989 GDSR Release 3 1 Generic Dispatch System GDS User Guide User Manual 24 Generic Dispatch System Release 3 1 User Manual Part 1 BR 190 539 311 Issue 6 August 1989 GDSR 3 1 CONTENTS 1 0 INTRODUCTION 2 0 3 0 1 1 1 2 1 3 1 4 1 5 BACKGROUND PURPOSE OF THE GENERIC DISPATCH SYSTEM GDS PURPOSE OF DOCUMENT STRUCTURE OF DOCUMENT e e GDS DOCUMENT REFERENCES SYSTEM OVERVIEW 2 1 2 2 SYSTEM INTERFACES 21 1 Provisioning Interfaces 2 1 2 Maintenance Interfaces JOB LOGGING PROCESS 231 Routing e 2 22 Mapping Zoning 2 2 3 Pricing 2 2 4 Screening Wem ee ww 2 2 5 Typing And 8 226 Date Calculation i 2 2 7 Job Status and Harding Codes MECHANIZED JOB REVIEW WORK REQUESTS LOADING AND ISSUE DISPATCH COMPLETIONS SYSTEM FEATURES 3 1 3 2 GENERAL FEATURES 3 1 1 Standard Screen Features I 3 1 2 Standard Table Features 31 3 GDS Security i SE 3 314 TIRKS Query TQS A 3 1 5 Archive and Retrieval 3 1 6 Table Checker 3 1 7 Mail 3 1 8 CRON 3 1 9 TIRKS
66. component in another external System or external non TCM System in another IMS is used in the GDS SOAC interface and the GDS SOP interface for autocompletion Details of the GDS SOAC interface can be found in Section 3 1 13 Details of the GDS SOP interface can be found in Section 3 1 14 The following related documents describe TCM in greater detail TCM Overview BR 190 539 301 TCM Route Administration RA User Manual BR 190 539 302 TCM Message Administration MA User Manual BR 190 539 303 e TCM Network Administration NA User Manual BR 190 539 304 Translation Administration TA User Manual BR 190 539 305 F C LF Description and Syntax User Manual BR 190 539 308 TCM On Line Message Directory BR 190 539 404 3 1 10 Feature Authorization Module FAM The Feature Authorization Module FAM provides the automatic means of restricting access to specific features of the GDSR software application In GDSR the FAM restricts the use of certain POTS features for nonparticipating BCCs The restrictions are set at a company level 7 The following POTS features are restricted in this release Denied use of the Service Order Entry Format GDSOT Denied use of the Trouble Ticket Entry Format GDTTE based on class of service Denied use of the Installation Work Request Format for POTS GDIWR e Limited LMOS interface functionality Denied use of PST MLT testing Restrict mainte
67. cord Issue Date the WORD is issued by CI DIST At this time C1 DIST via EDIIS checks whether the WORD and the order should be sent to CIMAP This decision is made using information from the CIDIST CO OPTS and CIDIST SSC INFO tables see Appendix D of the CIMAP SSC User Manual BR 190 582 305 for more details The EDIIS System is used to send the information to CIMAP Tables needed to set up the EDIIS to CIMAP interface are described in Appendix J of the CIMAP SSC User Manual BR 190 582 305 receive message and carrier orders and WORD documents CIMAP Release 3 2 and the companion TIRKS Release 15 1 must be installed If CIMAP is to receive the order the following steps take place as shown in Figure 3 2 e EDIIS sends the WORD document to the CIMAP WORD databases These databases contain the latest version of the complete WORD for all in effect circuits and WORD documents for each pending order To have WORD documents issued to CIMAP WORD for GDS and CIMAP CC controlled orders the GDS or CIMAP CC OCO MCO or OCO must be in the CIDIST SSC INFO table WORD documents are issued by EDIIS by either MCO OCO or CCO based on the setting of a flag in the CIDIST CO OPTS table EDIIS also sends CIMAP SSC information which is used to prime the Installation Administration Order database and the Circuit History database Table 3 1 contains the mapping of the data that CIMAP SSC receives at issue time with its source in the TIRKS System and the TIRKS R
68. different from GDS tables in the way they are displayed and maintained Each TTS table is identified by a table name and optionally a Table Key The Table Key allows the user to create multiple versions of the same table each with a unique Table Key Each table is comprised of one or more entries or table records Each table record can contain one or more data fields Each data field is identified in the table record by a FIELD NAME and an associated FIELD VALUE For each record one or more of the data fields can be designated as the Table Record Key The table record key is used to identify and retrieve a table record for display The TTS Position Guide BR 190 539 100 provides greater detail on the use of TTS tables PROPRIETARY BELLCORE AND AUTHORIZED CLIENTS ONLY See proprietary restrictions on title page 3 3 40 Generic Dispatch System Release 3 1 User Manual Part 1 BR 190 539 311 Issue 6 August 1989 GDSR 3 1 3 1 3 GDS Security Security is set by the Bellcore Client Company BCC at three levels systems screens and functions and commands For each GDS Center a security administrator together with managers and supervisors must set up security tables and grids user IDs and passwords A detailed description of the action required when setting up security for GDS can be found in Section 4 2 of this document and in GDSR Security Administrator s Guide BR 190 539 003 8 1 4 TIRKS Query System TQS The
69. dling MECHANIZED JOB REVIEW WORK REQUESTS LOADING AND ISSUE DISPATCH COMPLETIONS CONTENTS odes BR 190 539 311 Issue 6 August 1989 GDSR 3 1 2 1 e 2 2 22 dec o o 2 2 2 4 oe o 2 4 2 24 M 2 4 2 4 2 4 2 4 2 6 2 6 PROPRIETARY BELLCORE AND AUTHORIZED CLIENTS ONLY See proprietary restrictions on title page 32 Generic Dispatch System Release 3 1 User Manual Part 1 BR 190 539 311 Issue 6 August 1989 GDSR 3 1 2 0 SYSTEM OVERVIEW This section provides an overview of the Generic Dispatch System GDS Figure 2 1 is the GDS architecture It will allow the user to follow the system process flows which are presented in the system overview Section numbers are shown for each process 2 7 2 2 2 1 THE THE TIRKS TIRKS SYSTEM SYSTEM SOP SOCC SOAC SOP 2 5 E us DOC ZO srg SOO TABLES Figure 2 1 GDS System Architecture 2 1 SYSTEM INTERFACES Work is input to GDS through mechanized interfaces from other operations support systems and by manual input through the GDS on line screens The mechanized interfaces are separated into provisioning and maintenance The provisioning interface consists of the Bellcore TIRKS System and the Service Order Analysis and Control System SOAC and the Circuit Installation and Maintenance Assistance Package CIMAP The maintenance interfaces consis
70. e Call Event Record Table E911SRDB Enhanced 911 Selective Routing Database Table EAACTSAN Equal Access Automated Coin Toll Service Announcement Table EAANIID TOPS Equal Access ANI ID Digits Table EADAS Engineering and Administrative Data Acquisition System Table EADNMPK EADAS NM Interface Packet Schedule Table EADNMTG EADAS NM Interface Current Trunk Group Schedule Table EADNMTGP EADAS NM Interface Pending Trunk Group Schedule Table EAMCCSAN Equal Access Mechanized Calling Card Service Announcement Table EAREGN Equal Access Region Table EASAC Equal Access Service Access Codes Table EASCRN Equal Access Screening Table ECHCONF Echo Canceler Module Configuration Table HINV Echo Canceler Module Inventory Table ECHOSUP Digital Echo Suppressor Member List Table EDRAMINV Enhanced Digital Recording Machine Inventory Table EMRDIGS Emergency Region Digits MMP only ENCDINV Enhanced Network Card Inventory Table ENINV Enhanced Network Node Inventory Table ENSITES External Node Sites Table ENTYPES External Node Types Table EOCDB Embedded Operations Channel Database Table ESA Emergency Stand Alone Table ESAHNPA Emergency Stand Alone Home Numbering Plan Table ESAPXLA Emergency Stand Alone Prefix Translation Table ESARTE Emergency Stand Alone Routing Table ESRVATTR Enhanced Services Attributes Table ESRVCAP Enhanced Services Capacities Table ETSIFEAT ETSI Feature Table EXNDAPPL External Node Application Table EXNDINV External Node Invent
71. e Load Selection Process STEP 1 Determine the Candidate Jobs STEP 2 Determine the Job E Loading Procedures 3 5 5 1 Bulk Loading 3 5 5 2 Dynamic Loading Work Document Distribution DISPATCH AND COMPLETION 3 6 1 3 6 2 Dispatch Completion 4 0 BUILDING THE DISPATCH CENTER LOAD PROGRAMS iv 4 1 4 2 4 3 4 1 1 4 1 2 4 1 3 4 1 4 4 1 5 Circuit History Load Progen Cable and Pair Mapping Table Load DAA AA Mapping Table Load DAA Travel Distance Table AA Travel Distance Travel Load SECURITY TABLES GDS TTS TABLES 4 3 1 4 3 2 4 3 3 4 3 4 4 3 5 4 3 6 4 3 7 4 3 8 4 3 9 4 3 10 4 3 11 4 3 12 4 3 13 4 3 14 GDS Company Options GDS CO OPTIONS LMOS TT Routing GDS LMOS ROUTING GDS Handling Codes GDS HDLGCODE GDS Job Class GDS JOBCLASS GDS Priority Flags GDS GDS LMOS Priority Ranking Table GDS LMOS PRNK GDS Load Parameters GDS LOAD PARMS GDS Maintenance Job Types Table GDS MAINT JT GDS Exceptions Table GDS EXCEPTIONS GDS Work Center Options Table GDS OPTIONS GDS Issue Options Table GDS ISSUE OPTS GDS Installation PCS Options Table GDS PCS GDS SOC Printer Table GDS SOC PRINTER GDS PROD NONPROD Times GDS TIME TYPES PROPRIETARY BELLCORE AND AUTHORIZED CLIENTS ONLY See proprietary restrictions on title page 3 73 3 75 3 76 3 78 3 79 3 83 3 83 3 83 3 86 3 87 3 87 3 87 3 91 3 93 3 93 3 93 3 94 3 95 3 112 3 112
72. e MCO OCO CCO as the key to the OPTS LINK SSC CIMAP DOC determines whether CIMAP SSC is on whether the flag to receive disconnect orders at log time is and the release level CIMAP DOC updates GOC with the External System Switch EXSYSW and the System Identifier Code SIC from the CIDIST SSC INFO table in addition to message switching order information to CIMAP SSC Updating the EXSYSW field notifies GOC that an external system wants to know about future Updates or Post Complete functions on this order CIMAP SSC receives the order from CIMAP DOC If the OCO CCO MCO is not found in the NON SSC CLLI code table and CIMAP SSC has the IE view of the circuit the disconnect order information is entered in the Installation Administration database and the Circuit History database and worklist entries are created This implies that an A R or RN order has already been issued to CIMAP SSC before the disconnect is logged similar option is available for CIMAP CC OPS INE and GDS to receive disconnect orders at order log time To exercise these options a switch must be set to yes in the OPTS LINK CC OPTS LINK SSDAC and OPTS LINK INE tables If this switch is on CIMAP DOC extracts CKL CWL information from the IE view of the circuit in the TIRKS System GOC order information including critical dates and the MCO OCO CCO flag from the C1 DIST OPTS table This information is then sent to CIMAP CC OPS INE and GDS as applicable for
73. e are four scan memo ries having 64 words each provided for received data These scan memories are read by the ESS over the SCAB 4 06 Each DL will have a receive buffer in a dedi cated area of the scan memory and data will be read using the standard scan commands The oper ation of the CC and PUC DL controllers are com pletely autonomous without coordination between their internal task schedules MAINTENANCE 4 07 A description of PUC maintenance capabili ties is in Section 231 037 020 Task oriented practice TOP 231 050 030 contains procedures for clearing trouble using PUC diagnostics 5 DATA LINK MAINTENANCE 5 01 condition of the DL is checked by the PUC Trouble is detected by carrier loss pro tocol response failure from the remote end or exces sive error rates When trouble is detected the PUC reports this to the host ESS which then attempts re eovery of the DL Recovery involves establishing a working configuration with the RSS if possible di agnosing the faulty link and reporting the fault to maintenance personnel by a host TTY message If both DLs to the RSS are inoperative the recovery program will restore with manual stimulus commu nication whenever one of the links becomes usable 5 02 Recovery from DL faults will most often be handled automatically by the recovery pro grams However some faults may require manual 13 10A RSS Interface Description amp Maintenance Considerati
74. eed Calling Short List Option SC1 Subtable Long List L30 Option SC2 Subtable Long List L50 Option SC3 Subtable Long List IBN Option SCL Subtable Short List IBN Option SCS Subtable Terminating Line Select Option TLS Subtable Utility Code Route Table 57 FTSPCINV FXDNMAP G7MSGSET G7PARM GASINFO GCASCRN GCASSET GDLADEV GPPTRNSL GWDIGMAN HEAPTAB HNPACONT HNPACONT ATTRIB HNPACONT HNPACODE HNPACONT HNPACODE AMBI HNPACONT HNPACODE DN HNPACONT HNPACODE FNPA HNPACONT HNPACODE FRTD and FRTE HNPACONT HNPACODE HNPA HNPACONT HNPACODE HRTE HNPACONT HNPACODE INWC INWO HNPACONT HNPACODE INWS HNPACONT HNPACODE INWT HNPACONT HNPACODE LRTE HNPACONT HNPACODE NPOSDN HNPACONT HNPACODE NSC HNPACONT HNPACODE OPC3 OPC4 and OPC5 HNPACONT HNPACODE SACNWM HNPACONT HNPACODE SCD3 SCD4 HNPACONT HNPACODE SLRTE HNPACONT HNPACODE STRG HNPACONT HNPACODE TTC HNPACONT HNPACODE VCT HNPACONT RTEMAP HNPACONT RTEREF HOBICDEV HOLDAY HOLIDAY HOLITRMT Frame Transport System Point Code Inventory Table Foreign Exchange Directory Number Map Table GOSS7 Message Set Parameters Table Global Operating Signalling System Number 7 Parameters Table General AFT System Information Table Global Competitive Access Screen Global Competitive Access Schedule Set Name Table Generic Data Link Application Device Table Global Peripheral Platform GPP Translations Table Gatewa
75. elease in which the data is available EDIIS updates GOC with the External System Switch EXSYSW and System Identifier Code SIC using data values in the CIDIST SSC INFO table GOC now knows that an external system namely the Operations Status Reporter wants to know of any future Updates or Post Complete functions on this order by GOC The Status Reporter notifies the appropriate OPS system e g CIMAP SSC CIMAP CC GDS of the GOC updates Updating the EXSYSW followed by the completion of RID triggers GOC to send CIMAP the latest order information which includes all the CKLs CWLs that have been logged on the order C1 DIST notifies CIMAP DOC when an order has been issued CIMAP DOC formats the work location information from the WORD document into CIMAP DFWO and ESD documents for each CWL CKL work location In addition CIMAP DOC passes work location information to the following Operations subsystems CIMAP DOC passes CIMAP CC order and CWL information for all message special service and in a future TIRKS Release carrier orders See Table 3 2 for information passed to CIMAP CC CIMAP DOC uses the CC Admin Code tables in the TIRKS System to generate eight or eleven character location codes that are sent to CIMAP CC CIMAP CC takes the information and uses the STEP tables to build work requests for the order The CWL locations are then passed to CIMAP SSC via the Status Reporter to be logged in the Order database CIMAP
76. em 4 Detects its own PUC faults and reports to the host CC Ne 5 Performs diagnostic tests when requested by the host CC or a timed basis 6 Performs audits of its own memory when re quested by the host CC 7 Reinitializes itself when requested by the host CC 2 06 The PUC DL is a single frame of equipment that attaches to the PU communication bus of the host ESS It sorts buffers and transmits the out going DL messages The PUC DL similarly receives incoming DL messages from the various DLs It veri Page 3 10A RSS Interface Description amp Maintenance Considerations ESS SECTION 231 037 022 fies the message integrity and communicates the re sult of the message to the host CC 2 07 peripheral unit controller for data link PUC DL faults will be reported to mainte nance personnel via the host ESS maintenance TTY The host will control all PUC DL diagnostics The host software includes the software for DL maintenance 2 08 Each DL connects to a line interface unit LIU in the PUC DL The LIU performs a full duplex parallel to serial conversion and supports the synchronous data link control SDLC protocol which is used to assemble data into blocks and provide error control TRANSMISSION FACILITIES 2 09 Digital or analog carrier facilities connect the RT with the host ESS for voice channels as well as DL channels 210 digital facilities are carrier Fig 4
77. erence Data TTS Field Directory OT Administrator s Guide TTS Position Guide C 1 Location Group Information Format GCRLOC TIRKS Query System TQS User Manual TIRKS Communication Module TCM Overview TCM Route Administration RA User Manual TCM Message Administration MA User Manual TCM Network Administration NA User Manual Translation Administration TA User Manual F C LF Description and Syntax GDSR Electronic Mail MAIL User Manual How To Use TQS For GDS GDSR Database Modifier User Manual Generic Dispatch System GDS On Line Message Directory Operations Interface OI On Line Message Directory TIRKS Table System TTS On Line Message Directory TIRKS Communication Module TCM On Line Message Directory Circuit Inventory Reference Data Module C 1 REF On Line Message Directory The GDS Format Field Directory BR 190 539 005 has been incorporated into the GDS User Manual TIRKS is a registered trademark of Bellcore PROPRIETARY BELLCORE AND AUTHORIZED CLIENTS ONLY See proprietary restrictions on title page 31 Generic Dispatch System Release 3 1 User Manual Part 1 2 0 SYSTEM OVERVIEW 2 1 2 2 SYSTEM INTERFACES 2 1 1 Provisioning Interfaces 2 1 2 Maintenance Interfaces JOB LOGGING PROCESS 2 31 Routing 2 2 9 Mapping Zoning 2 2 3 Pricing 2 24 Screening 9 2 5 Typing And Prioritizing 2 2 8 Date Calculation 2 27 Job Status and Han
78. f the network These two channels will be connected to the PUC DL The duplieated DLs must be separated into different circuit groups so that the failure of a single piece of common equipment will not result in the loss of both DLs CARRIER 6 05 For Tl carrier the D4 channel banks are used for interfacing Fig 4 The host ESS office uses the D4 channel bank frame This frame will con tain a maximum of 192 voice channels or eight T1 sys tems 6 06 A single D4 channel bank frame can be shared by different RSS RTs but the duplicated DL for an individual RT must be in separate T1 and D4 systems with no common circuitry The DLs for a particular RT must be equipped in separate equip Page 20 ment mounting racks since it is possible to have two T1 systems in the same rack or unit with some com mon circuitry feeding them It is permissible to have one of these D4 banks containing a DL for one RT and the DL for another separate RT It is imperative that powering for the equipment used by the DLs be sepa rated so that a power failure will not force a duplex DL failure 6 07 The RSS DL channels can be either T1 or N carrier For the T1 carrier interface a D4 channel unit has been designed to plug directly into a D4 channel bank in place of a normal voice fre quency channel pack The LIU in the PUC DL con nects directly to this port It is possible for one DL for a single RSS to use N carrier and the other to use T1 carrier
79. for reliability With N carrier there is no restriction on which voice channel is assigned to the DL function It is recommended that a channel in the middle of a group be used to avoid potential phase distortion problems with end channels 6 18 For DLs using N carrier a data modem is re quired at the host as well as the RT Fig 2 The data modem converts the digital data received from the PUC DL to a voice frequency representa tion of the data and vice versa The EIA 232 standard interface is used between the data modem and the PUC DL 6 19 Correspondingly at the RT there will also be an N carrier channel bank and a data modem 10A RSS Interface Description amp Maintenance Considerations ESS ISS 2 SECTION 231 037 022 The interface between the modem and the DLI at the RT is also an EIA 232 standard 6 20 For the N carrier interface the existing car rier channel banks perform the multiplexing demultiplexing functions All of the other necessary operations are provided in the CI portion of the RSS 6 21 IfNcarrier is used the circuitry for the CI for T carrier is removed from the RSS frame The standard N and 4 carrier frame is used and its 4 wire output is interfaced to an N carrier channel interface that will be placed in the RSS frame where the CI circuit packs were for the carrier case 6 22 The N carrier CI performs the function that the T1 CI circuit packs did for T carrier
80. g work on a screen For example if a new work request is being added and as a result of pressing the PF4 key a totally different screen is returned this unrequested screen is referred to as a queue Normal IMS procedures allow the user to press the PA2 key to eliminate the queue If a blank screen is returned as a result of pressing the PA2 key press the PF11 key HELP When the HELP menu is returned press the ENTER key to obtain the original screen Following this procedure will prevent the user from re typing all the original data if an error was made on the original screen input 8 1 2 Standard Table Features GDS utilizes two types of tables into which the GDS user enters and maintains data GDS tables TTS tables The following are the descriptions of each table type A GDS Tables From a user perspective the GDS tables look much like other GDS screens they contain a TITLE COMMAND field FOR DATE and TIME In addition GDS tables contain a C COMMAND line at the left margin of the screen The COMMAND line is used for selecting a record or group of records of a table for an activity e g add delete update GDS tables are separated into two functional groups LOAD tables which are referenced by the load program and JOB LOGGING tables which are used in the job logging process Each GDS table and its use are shown and explained in detail in Sections 4 and 5 of this document B TIRKS Table System TTS TTS tables are
81. ges for the life of a job are kept in the job status log Job status codes are used by GDS to trigger automatic processes for loading and are used in report generation Job status codes are predefined in GDS In addition to the job status codes set of handling codes is provided to further define a job status Some handling codes are defined by GDS user can also establish an additional set of handling codes Handling codes are used in combination with a job status An example would be a job status of JEP jeopardy and a handling code of NAS no access 2 3 MECHANIZED JOB REVIEW Jobs which fail at any point in the job logging process will be identified by a special job status code and handling code A mechanized job review process allows the GDS user to sequentially display and manually correct each job 2 4 WORK REQUESTS Jobs are stored as work requests in the Work Request database by work center Every work request has a unique job ID For installation jobs it is the service order number For maintenance jobs it is the trouble ticket number PROPRIETARY BELLCORE AND AUTHORIZED CLIENTS ONLY See proprietary restrictions on title page 36 Generic Dispatch System Release 3 1 User Manual Part 1 BR 190 539 311 Issue 6 August 1989 GDSR 3 1 Work request information is stored at three levels in the Work Request database The following figure illustrates the database structure within GDS ORDER 01
82. he analog to digital A D conversion and 21 vice versa It also provides T1 framing and T1 system signaling infomation that is to be performed 6 13 The Tl alarm and line interface circuit pack is the direct interface between the 1 544 megabit digital 1 line and the A D encoders in the transmit receive circuit It also incorporates the functions nor mally found in the office repeaters the D4 channel unit plug ins the office interface units and the alarm control unit ACU This circuit pack also pro vides the capability to provide a loop back in either direction to verify proper operation as determined by the host ESS central office 6 14 Six CI circuit packs one TR and one ALI provide a full T1 digital group of 24 voice channels 6 15 If an office repeater bay is required for back powering a line then it must be provided separately from the RSS frame Similarly if T1 out state is used it has to be provided independent of the RSS frame N CARRIER 6 16 Three types of N carrier equipment are com patible with RSS N2 N3 and N4 At the host ESS the output of the existing channel bank must have its normal crossconnect removed from its nor mal trunk interface and reconnected via SF signal ing unit to the line side of the network via the main distributing frame 6 17 The DLs for carrier like T carrier use two of the voice channels and must be assigned to separate N carrier systems
83. hort Feature SCS Subtable Secondary Directory Number Feature SDN Subtable AT amp T Line Study Feature SDY Subtable Security Feature SEC Subtable Stop Hunt Feature SHU Subtable Simultaneous Ringing Feature SimRing Subtable Subscribers Line Usage Feature SLU Subtable Simplified Message Desk Interface Feature SMDI Subtable Station Origination Restrictions Feature SOR Subtable Special Billing Code Feature SPB Subtable Station Specific Authcode Feature SSAC Subtable ACD Supervisor Position on 500 2500 Set Feature SUBR Subtable Terminating Billing Option Feature TBO Subtable UCD Signal Distribution Points Feature UCDSD Subtable Voice Mail Easy Access Directory Number Feature VMEADN Subtable Warm Line for RES and MDC Feature WML Subtable Wake Up Call Request Feature WUCR Subtable IBN Digital FX Trunk Subtable IBN Line Assignment Subtable Attendant Console Option AC Subtable Bulk Calling Line Identification Option BL Subtable Option Local Number Portability Test Call LNPTST Subtable Multiple Appearance Directory Number Option MDN Subtable Station Option STN Subtable ISDN Routing Map Table ISDN Routing Map 2 Table ISDN Routing Map 3 Table ISDN Routing Map 4 Table IBN Route Table Attendant Console Selector AC Subtable Automatic Route Selection Selector ARS Subtable Call Forward Selector CFT Subtable Calling Number Delivery Selector CND Subtable Delivery Number Selector DN Subta
84. in the RT 5 25 Phase 7 is the final go no go test of the diag nostic It requests that the link be made active and sends a message over the link to the RT When the RT receives this message it responds over the link being diagnosed After the diagnostic program sends the message it periodically checks the DL for the response This phase will result in an STF if the correct response is not received within approxi mately 5 seconds 5 26 Phases 4 and 5 executed by the RT report some tests pass STP when both links servicing an RSS are out of service OOS This is be cause an active link is not available for the RT to re port the status of these phases When this occurs phase 7 provides the only test ofthe remote portion of the link If phase 7 passes diagnostic tests the link is good C Routine Diagnostics 5 27 Two maintenance control MAC routine exer cise programs attempt to place OOS DLs back into service on a routine basis if manual action is not taken One program is executed every hour and the other every midnight These programs schedule diag nostics on OOS DLs that are not in the forced unavailable state If the diagnostics pass the links are then restored to service 5 28 In addition to the routine exercises on the OOS DLs a diagnostic is also scheduled on the standby mate of an in service duplex application link at midnight If the diagnostic passes the standby link is switched into service This
85. is to assure that if no reconfiguration occurs on the pair of links during 15 10A RSS Interface Description amp Maintenance Considerations ESS the day they are automatically switched at midnight so that neither link is favored to remain in service FAILURE REPORTS 5 29 total DL outage failure report is printed when both links of a duplex pair fail When a total outage occurs the ESS recovery program waits 30 seconds and sends orders to the PUC to place a link into service The ESS then waits 6 seconds or until the PUC returns a response message If the response indicates that the link was successfully placed into service the recovery sequence is completed If the response indicates that the link was not placed into service orif there was no response the recovery pro gram waits for 30 seconds again If possible the pro gram attempts to recover the mate of the link otherwise it will retry the same link If six of these cycles pass without a successful recovery the pro gram stops retrying and schedules a diagnostic at high priority 5 30 The DL maintenance state is not allowed to oscillate between in service and OOS for a long period of time This oscillation may be caused by the presence of a DL fault which disrupts traffic but cannot be detected by the diagnostic When the DL failure is detected the link is removed from service and a diagnostic is scheduled The diagnostic runs and passes since
86. ke up 13 1 percent at Hamline down from 13 9 in 1999 This fall s entering class at William Mitchell was about 11 percent students of color and 15 percent at St Thomas Nationwide about 29 percent of law students starting this fall identified themselves as other than white according to the Law School Admission Council up from 26 percent in 2001 But the percentage of black and Mexican American students has declined since 1993 a recent study by a Columbia Law School professor shows In that time both groups improved college grades and LSAT scores and law schools added about 3 000 seats for first year students said Prof Conrad Johnson These groups of students did not get any of those seats Johnson s study has been controversial the Law School Admission Council points out overall growth in minority students and questions if data stayed comparable over time Although more minority students are enrolling at the University of Minnesota Law School more white students are too Diversity looks much like it did 10 years ago Drawing from Minnesota When applying to law schools Robbie Barton heard a lot about diversity Miraculously every school s website features diverse students he said There s always a diverse representative on campus when you visit They regularly talk about how important diversity is But once he enrolled at the U in 2006 he was the only student of color in several classes Barton created a committee on di
87. ly beers wen jou dial direct The Night amp Weekend rate is the lowest 2 3 EUIS 5o Che kthe chart below f other low dial direct rates LEID i gc i 1 i du d WEEKENDS amp i Monday Fridey SundseFrdday Everreig 1 8 85 m p m Spm p m Satutday i day and night day r i except p m to p m z First Minute First Minute Minute ens l Tot 3 Additional minutes cost less than the first minute Diat direct rates apply on ali interstate calls rom residence or business phone without Additional min as dial de nce hey also apply ori calls with an operator from a residence or business rate EIU ICI ny cene Geto Dial coti i ea 19 char to another number because an operator myst assist on such Rates E perd ans Cut this chart out and put ip your phene book 72 End of Issue 72 Any Questions Editorial and Rants A March 27 2010 rally in support of Harry Reid had a few egg throwing thugs attending Don t count on hearing that from the mainstream media The person with the egg in his hand is Jesse Walker of IBEW Local 357 in Las Vegas MAE conomy 73 There was some good news though This was the Tea Party rally against Harry Reid CNN
88. ly by typing a message at the host ESS or the RSS RT via the portable TTY Manually changing the DL states may override the automatic control and should be used with care The changing of DL states is dependent on the current state of the on line DL current state of the off line DL and the reconfiguration stimulus 5 35 When a fault occurs on the active DL the links are switched and a diagnostic is scheduled The diagnostic returiis failure data to be used to lo cate the fault Once the fault is repaired the DL must be restored to service via a TTY message The DL is diagnosed and is put back in service if the diagnostic passes 5 36 Ifthe PUC encounters a high error rate on DL but cannot find a hard fault the DL is put in a degraded state The OOS DL will be made active after a routine diagnostic if the error rate improves 5 37 A DL state control output message is printed to indicate the current status of DLs State control can be activated manually or automatically The first line of the message contains five fields as shown in the example below Page 15 16 10A RSS Interface Description amp Maintenance Considerations ESS SECTION 231 037 022 M PUCDL DLOO PUCOO TTYSWT EXC DATA LINK PUC STIMULUS MEMBER MEMBER PRIORITY DISPOSITION OF ACTION 5 38 The priority of action field consists of up to two characters indicating the priority of the action to be taken This field can be used to de
89. matic Call Distribution Feature ACD Subtable Advanced Intelligent Network Feature AIN Subtable Automatic Set Relocation Feature ASR Subtable Directory Number Selector D Feature D Subtable Direct Inward Service Access Feature DISA Subtable Directory Number Trigger Feature DNTRIG Subtable Default Service Feature DSVC Subtable Directory Number Selector M Feature M Subtable Message Center Directory Number Feature MCDN Subtable Directory Number Selector MM Feature MM Subtable Meridian OffNet Access Feature MONA Subtable Message Storage and Retrieval Feature MSR Subtable Directory Number Selector Restricted Dial Tone Feature RSDT Subtable Subscriber Programmable Ringing for CFDA Feature SPRING Subtable Suppressed Ringing Access Feature SRA Subtable Synonym Directory Number Feature SYN Subtable Directory Number Selector T Feature T Subtable Uniform Call Distribution Feature UCD Subtable Directory Number Route Table Directory Number Route Identifier Table Directory Number Screening Table TOPS Domestic Billing Restrictions Table Datapac Device Table Dial Plan and Call Type Screening Table Digital Private Network Signaling System Link Table Distributed Processing Peripheral Table Data Unit Profile Table Asynchronous Interface Line Card Type AILC Subtable Controller COAX Unit Type CCU Subtable Continuous Calling Meridian Asynchronous Data Option Type CMADO Subtable Data Above Voice Line Card Type DAVLC
90. modules determine ownership either by MCO or CCO depending on the setting of the flag in the CIDIST CO OPTS table which is sent to them by CIMAP DOC An ownership flag is on when GDS or CIMAP CC sends their order logging information to the Status Reporter At this point the order is logged in Order and Circuit History databases with an owner of either CIMAP CC or GDS For CIMAP CC or GDS controlled order the user can view the order information using the OSSOI and OSSCWL formats On these formats the CIMAP CC or GDS control office will be populated in the SSC field This field will have variable FID name SSC CCS GDS or depending on the ownership of the order log will be maintained during the processing of the order and can be viewed using OSSLOG Circuit history information can also be displayed using OSSCHI and OSSHMD If GOC is the first system to log information on an order as a result of EDIIS updating the EXSYSW in GOC the temporary owner will be GOC until an Operations module claims ownership If no module claims ownership the owner remains GOC until the order WORD are archived The Status Reporter handles posting and supplement information between the TIRKS System and Operations although CIMAP SSC is not involved with the order However the CIMAP SSC software must be turned up For GDS and CIMAP CC orders that are not in CIMAP SSC the Status Reporter notifies those systems of all GOC e Cancels e
91. nance trouble ticket reports with POTS classes of service across interface Denied use of the Autocompletion to the Service Order Processor SOP IBM is a registered trademark of International Business Machines Corp PROPRIETARY BELLCORE AND AUTHORIZED CLIENTS ONLY See proprietary restrictions on title page Generic Dispatch System Release 3 1 User Manual Part 1 42 Generic Dispatch System Release 3 1 User Manual Part 1 BR 190 539 311 Issue 6 August 1989 GDSR 3 1 3 1 11 Database Partitioning In systems where large databases span multiple DASD Direct Access Storage Device hardware failure can result in slow recovery and cause very long system downtime One method of reducing the outage time is to split large database into a number of smaller databases partitions GDS has applied this methodology and has partitioned three of the GDS databases the Work Request the Service Order Image and the Log History databases Work Request Database The Work Request database is separated into ten partitions by GDS work center As work centers are added to the system they may be distributed among the ten partitions The work center to partition relationships are maintained in a database called the Partitioning Matrix database The work request partition matrix information may be displayed on line using format GDPMD see Section 6 6 for format use Note that it is not necessary for the GDS user to know which p
92. o make stored pro gram control system SPCS inputs Access to the host ESS from the RT will require contacting the SCC and arranging for a remote TTY connection at the SCC These tests can also be made by telephoning the SCC and requesting remote activation of the tests However this is not recommended since it in volves a two person operation 2 28 Circuit board diagnostics can be manually requested at the RT using the RSS mainte nance panel Normally the suspect boards are loaded into the maintenance panel repair buffer before the maintenance personnel reaches the RT The repair buffer is loaded with up to four boards via TTY input messages 2 09 There are no defined manually initiated peri odic maintenance routines for the DLs DATA LINK OPERATION 2 30 The DL which allows the RT to be controlled by the host ESS uses the same transmission Page 10 facilities which connect the two entities for voice transmission These facilities may be either digital T1 or analog N carrier paragraph 2 09 2 31 Information will be sent on the DL in blocks of between 2 and 16 bytes of data plus 6 bytes of SDLC overhead per block 2 32 The amount of DL traffic is dependent on the number of calls per hour The DL link has been engineered to run at 2400 bits per second in a syn chronous mode 2 33 Data is serially transmitted and received under the control of various transmit and re ceive options previously loaded in control
93. ons ESS ros intervention If so almost all permissible DL states can be forced by TTY messages from the host ESS 5 03 Some DL faults may require the replacement of faulty circuit boards before recovery can be achieved The PUC DL diagnostics and sectionaliza tion capabilities are used to locate the faulty circuit boards 5 04 The DL diagnostics will test various sections of the DL by looping signals at different inter faces The applied signals are designed to stress the system The return signal which has been looped is compared to the transmitted signal with mismatches indicating a failure Following completion of the di agnostic the results and failed circuits are indicated to the maintenance personnel via a TTY message 5 05 Data link input messages are typed at the local maintenance TTY in the host ESS the remote maintenance channel at the SCC or the por table TTY at the RSS RT The messages are inputted to obtain the DL status switch DL states initialize DLs or request DL diagnostics A pair of DLs per taining to a single RSS is specified by the application RSS and the application member number The ap plication member number indicates which RSS the pair of DLs pertain to A single DL is specified by the PUC member number and the DL member number The PUC member number indicates the PUC to which the DLs are connected The DL member num ber indicates the particular DL on the specified PUC DATA
94. oprocessors Eight bits of data and three bits of address flow between the buffers and the SDLC integrated circuit 2 19 The T1 interface has encode and decode func tions which translate between each data bit on the SDLC circuit and a fixed T1 stream The encode and decode operations also have error correction ability Processor controlled loop backs are also pro vided in this interface For T1 carrier the DLI inter faces directly into the common channel interface logic For N carrier an EIA 232 interface is provided in the DLI 2 20 The DLI provides the necessary hardware to implement the SDLC protocol format and W ST Nem d NS 5 RTI 5 S Q Q E 5 5 he Q Q t S 5 ISS 2 SECTION 231 037 022 21901 NOWWO9 1 031 21901 NOMWOS 031V8931NT sna H3MSNV H3NNV2S TWNIWH31 31043H W31SAS ONIHOLIMS 310W3H XNIl viva H3110H1NO9 LINN 1VH3HdIU3d 553 LINN TVu3HdIHW3d U0SS3208d0821IM Juo1vifhid0W3a 801V INGOW 3NI WALSAS 5 23INQUI2313 011 12055 5 5 21 0919313 ANI VLVO 01 5 35109 1 1 39 1081NO9 TWHINAD syur Djbq W3Q0N 710H1NO9 1H0d m NOMKOS L viva 2 09 WOO Li 1V i gal
95. or ROUTE T Subtable Switch Format Selector SFMT Subtable Selective List Editing Selector SLE Subtable Speed Calling Access Code Selector SPDC Subtable Station Ringer Selector SRNG Subtable Star Selector STAR Subtable Route to Office Line or Trunk Treatment Selector TRMT Subtable Tandem Tie to Trunk Route Selector TTTR Subtable Tandem Tie Trunk Termination Selector TTTT Subtable Three Way Calling Usage Sensitive Selector U3WC Subtable Voice Message Exchange Selector VMX Subtable Incoming Call Identification Data Table ITOPS International Country Inward Call and Directory Assistance Operator ITOPS International Delay Call Database Keyed Values Table Information Digits Control Table Inbound Facility Table ITOPS International Country City Directory Assistance Operator Table ITOPS International Country City Inward Call Operator Table OLNS Intra LATA Presubscription Eligibility Table OLNS Intra LATA Presubscription Region Number Table Image Device Table Image Schedule Table International Pretranslator Names Table Intelligent Network Business Group to Customer Group Mapping Table Intelligent Network Class of Service Table MMP only International Pretranslator Table International Calling Card Format Table International Calling Card Metering Table 61 Short Name Title INTLZONE International Zone Table MMP only INWOMAP INWATS Originating Map Table INWORIBN INWATS Originating Band Table INWORICN INWAT
96. ory Table FACODE Foreign Area Code Table FAHEAD Foreign Area Code Head Table FAILMSG Mapping Fail Messages Between Protocols Table FAIL2STG Two Stage Call Failure Treatment Mapping Table MMP only FAIL2TMT Fail Messages to Treatment Table MMP only FARTE Foreign Area Code Route Table FDCPLSTM Line Signaling Protocol Timers Table MMP only FDCPLSVR Line Signaling Variant Table MMP only FDCPLSWF Line Signaling Waveform Characteristics Table MMP only 55 Master List of Data Short Name FEATCHG FEATDESC FGBCIC FIXEDANI FLEXAMA FMRESINV FMRESUSE FMTINV FMTMAP FMTSC FNMAP FNMAP ACC FNMAP ACEES FNMAP AUTH FNMAP AUTOD FNMAP AUVAL FNMAP BUZZ FNMAP BVL FNMAP BVT FNMAP CFS FNMAP CONF FNMAP DND FNMAP DQC FNMAP DSPC FNMAP GTAC FNMAP GTGB FNMAP GVAC FNMAP GVGB FNMAP ICICODE FNMAP LANG FNMAP LOGIN FNMAP MSGIND FNMAP NAME FNMAP NSPRG FNMAP PARK FNMAP POS FNMAP PVNAUTH FNMAP PVNRMAC FNMAP PVNSRCDN SC10 SC30 SC50 SC70 or SCU FNMAP SERIAL FNMAP SORC FNMAP TIME FNMAP TRBL FNMAP UNPK FNMAP WC FNMAP TAC FNMAP TGB FNMAP VAC FNMAP VGB FNPA7DIG FNPACONT FNPACONT FNPACODE FNPACONT FNPASTS STSCODE International Line Feature Metering Table Feature Description Table Feature Group B Carrier Identification Code Table Outgoing amp Two Way R2 CAMA Trunk Fixed ANI Table Flexible Automatic Message Acc
97. ounting Table Facility Maintenance Resource Inventory Table Facility Maintenance Resource Users Table Enhanced Fiber Monitoring Inventory Table Enhanced Fiber Monitoring MAP Table Enhanced Fiber Monitoring Scan Table Attendant Console Functional Key Table Account Code Entry Selector SPECL ACC Subtable Attendant Console End to End Signaling Selector SPECL ACEES Subtable Authorization Code Selector SPECL AUTH Subtable Attendant Autodial Selector SPECL AUTOD Subtable Authorization Code Validation Selector SPECL AUVAL Subtable Flexible Console Alerting Selector SPECL BUZZ Subtable Busy Verification Line Selector SPECL BVL Subtable Busy Verification Trunk Selector SPECL BVT Subtable Attendant Activate Deactivate and Program Call Forwarding Selector SPECL CFS Subtable Conference Call Selector SPECL CONF Subtable Do Not Disturb Selector SPECL DND Subtable Display Queued Calls Selector SPECL DQC Subtable Key and Lamp Display Selector SPECL DSPC Subtable Group Trunk Access Control Selector SPECL GTAC Subtable Group Trunk Group Busy Selector SPECL GTGB Subtable Global Virtual Facility Group Access Control Selector SPECL GVAC Subtable Global Virtual Facility Group Busy Selector SPECL GVGB Subtable Incoming Call Identification Code Selector SPECL ICICODE Subtable Flexible Display Language Selector SPECL LANG Subtable Login Selector SPECL LOGIN Subtable Message Waiting Selector SPECL MSGIND Subta
98. patch Administration Area DAA along a Route DAAs and AAs are used in calculating travel time Combinations of DAA AA are defined by the GDS user as an Appointment Zone Appointment Zones are used in work and force time calculations and for setting appointments PROPRIETARY BELLCORE AND AUTHORIZED CLIENTS ONLY See proprietary restrictions on title page 34 Generic Dispatch System Release 3 1 User Manual Part 1 BR 190 539 311 Issue 6 August 1989 GDSR 3 1 Figure 2 2 is a sample of a dispatch control center area broken down by wire centers DAAs and AAs DAA 101 DAA 102 WC 212123 WC 212789 DAA 103 DAA 104 DAA 105 WIRE CENTER BOUNDARY DAA BOUNDARY AA BOUNDARY 1010 AA NUMBER Figure 2 2 Dispatch Control Center Area PROPRIETARY BELLCORE AND AUTHORIZED CLIENTS ONLY See proprietary restrictions on title page 2 3 35 Generic Dispatch System Release 3 1 User Manual Part 1 BR 190 539 311 Issue 6 August 1989 GDSR 3 1 2 2 3 Pricing Pricing is the summing of the estimated amount of time to perform particular work functions at a circuit work location Work functions for GDS are defined as wiring which is connecting and disconnecting wires to local loop facilities and field equipment and testing which is performing circuit tests Wiring and testing work is derived from information received from SOAC and the TIRKS System for circuit installation work and from LMOS and SSC
99. r Feature ASP Subtable Automatic Line Feature AUL Subtable Bulk Calling Line Identification Feature BCLID Subtable Call Log Feature CALLOG Subtable Custom IBN Disconnect Treatment Feature CDT Subtable Call Forwarding Do Not Answer Variable Timing Feature CFDVT Subtable Call Forward Fraud Prevention Override Feature CFFPOVR Subtable Call Forwarding Indication Feature CFIND Subtable Call Forward Timed for Call Forward Busy Feature CFTB Subtable Call Forward Timed for Call Forward Don t Answer Feature CFD Subtable Call Forwarding Feature CFX Subtable Calling Line Identification Feature CLI Subtable Call Management Group Feature CMG Subtable Flexible Station Controlled Conference Feature CNF Subtable Call Pickup Feature CPU Subtable Call Screening Monitoring and Intercept Feature CSMI Subtable Carrier Toll Denied Feature CTD Subtable Call Transfer Feature CXR Subtable Denied Incoming Feature DIN Subtable Deny Malicious Call Termination Feature DMCT Subtable Do Not Disturb Feature DND Subtable Distinctive Ringing Feature DRING Subtable Extended Call Management Feature ECM Subtable Executive Message Waiting Feature EMW Subtable Full Carrier Toll Deny for International Carriers Feature FCTDINT Subtable Fire Reporting System Originating Feature FRO Subtable Sleeve Lead for Public Fire Reporting System Feature FRS Subtable Group Intercom Feature GIC Subtable In Session Activation
100. registers Full speed data flow may occur in the transmit and receive directions at the same time The incoming and outgoing blocks have no need for synchroniza tion 2 34 Most DL input messages will be for call pro cessing and will consist of instructions loaded into a remote order buffer ROB by the host ESS At the RT input items from the DL are collected and buffered by the operating system until a complete message is received Then the appropriate execution routine is scheduled and the entire message is passed on to be decoded and executed 2 35 main vehicle for transmitting messages from the host to the RT is the ROB The ROB functions much the same as the peripheral order buffer POB except that the ROB exclusively han dles the orders for the remote site The ROB is first hunted loaded and activated by the host The ROB execution routines then send blocks of orders to the appropriate RSS The execution routines also time and handle acknowledgments 2 36 The DLis duplicated for reliability One DL is normally active with the other in a standby state There are other possible DL states for mainte nance purposes paragraph 5 33 3 DATA LINK PROTOCOL 3 01 A DL protocol is a set of rules for DL error control Data is formatted into blocks called frames which are subject to error detection and cor rection Fig 7 The protocol used for the RSS DL is an SDLC derivative International Telegraph and Telephone Cons
101. rocessor Device Interface Paddle Board Inventory Table FPHOPT Freephone Option Table FRSACCCN Frame Relay Service Access Point Connections Table FRSCCTRL Frame Relay Service Congestion Control Table FRSCIR Frame Relay Service Committed Information Rate Table FRSCNEND Frame Relay Service Connection End Table FRSTRKCN Frame Relay Service Connections for T1 Trunks Table FRSTRKGP Frame Relay Service for T1 Trunk Group Table FRSTRKS Frame Relay Service for T1 Trunks Table FTCODE Utility Code Table FTHEAD Utility Code Head Table FTRANDEV File Transfer Device Table FTRGDEFS Feature Group Definitions Table FTRGMEMS Feature Group Members Table FTRGOPTS Feature Group Options Table FTRGOPTS 3WCPUB Three Way Calling Public Option 3WCPUB Subtable FTRGOPTS ACB Automatic Callback Option ACB Subtable FTRGOPTS AR Automatic Recall Option AR Subtable FTRGOPTS AUD Automatic Dialing Option AUD Subtable FTRGOPTS AUTODISP Automatic Display Option AUTODISP Subtable FTRGOPTS CFB Call Forward Busy Option CFB Subtable FTRGOPTS CFBL Call Forward Busy Line Option CFBL Subtable FTRGOPTS CFD Call Forward Don t Answer IBN Option CFD Subtable FTRGOPTS CFDA Call Forward Don t Answer Option CFDA Subtable FTRGOPTS CFDVT Call Forward Don t Answer Variable Timer Option CFDVT Subtable FTRGOPTS CFI Call Forward Intragroup Option CFI Subtable FTRGOPTS CFK Call Forward per Key Option CFK Subtable FTRGOPTS CFS Call Forward
102. s SCAB Data transmitted to the PUC DL will be sent over the PUAB and data received from the DLs will be transferred to the CC over the SCAB data words transferred between the PUC DL and CC are in parallel form 4 02 transferring of information between the PUC DL and the ESS is accomplished by the PUC DL application firmware which is covered in detail in the PUC description Section 231 037 020 DATA TRANSMISSION 4 08 The PUC DL interface to the PUAB is a 256 word 24 bit word first in first out FIFO buffer All dat and commands transferred to the PUC DL will be passed via the FIFO buffer which will be unloaded by the PUC controller on a periodic interrupt 404 All incoming data from the ESS is read from the input FIFO buffer and sorted in three Page 12 eategories data parameters and maintenance or ders The data is destined to be sent on a DL Data is not addressed to a specific link number it is marked with a destination number specifying a buffer in the PUC DL read write memory One destination buffer exists for each RT The association of a destination buffer and a single DL is specified in a parameter The data is loaded in the appropriate destination buffer The DL protocol program unloads the desti nation buffer and transmits data over the DL to the RT DATA RECEPTION 4 05 Data link messages received from the RT in the PUC DL are loaded into the receive buff ers in the scan memory Ther
103. s or circuits and diagnostic results 2 DATA LINK SYSTEM 201 The RSS DL communicates digital control data between the host ESS and the RSS The DL requires PUC DL frame in the host ESS office transmission facilities and a data link interface DLI in the RT Fig 2 The entire DL is duplicated for reliability and each DL can be used by either RSS microprocessor Two voice channels from the multi plexed channels provided by the T1 or N carrier facil ity are dedicated for DL use PERIPHERAL UNIT CONTROLLER FOR DATA LINKS 2 02 peripheral unit controller PUC is a selfchecking microprocessor controller Fig ure 3 is a simplified block diagram of the PUC DL The PUC consists of two controllers Each controller consists of a central processing unit CPU a memo ry an ESS PUC interface and a PUC peripheral in terface which connects the serial DLs to the individual RSS DL ports 2 03 The PUC DL is a particular application of the PUC The PUC DL application firmware de scription is in the PUC description BSP 231 037 020 The PUC is customized to the DL function with the use of a unique set of programs for its BELLMAC 8 microprocessor However the basic interface to the No 1 1A processor for all PUC appli cations is the same Thus much of the host ESS maintenance software is essentially the same for all uses of the PUC 204 A PUC DL frame can accommodate up to 16 separate DL channels Each RSS application
104. t ESS The SDLC circuit shifts data in and out seri ally from the communications channel The serial data from this shift register is parallel loaded into a latch which transfers data to and from the RT data bus 2 21 2 02 Some of the SDLC control signals come from Page 8 a control latch This latch is used for various reset and transmit receive enable signals The latch is controlled by the gating logic 2 23 DLI provides maintenance arrangements that allow control and data paths to be checked For example loop arounds can automati cally be set up to check the DLI 2 04 Troubles in the DLI will be detected and indi cated to the RSS microprocessors via inter rupts Problems causing DLI interrupts are 1 Receive buffer overflow Y W ST Nem d NS 5 RTI 5 5 S Q E 5 5 he Q Q t 5 ISS 2 SECTION 231 037 022 4 o g ppU 4ur DIDG 9 INIL lt 91901 1NI lt 19 5118 6 uaavi PN vival gt sua4ina V v1va gt L SS3uaadv SALVLS 7081N02 11 9419 9145 uaav b 9NIX93H9 9 ALTUVd 59013 dI14 80883 S318VN3 21 1 01 ALIUVd 1081NO09 1 1 0 SNONOYHSNAS
105. t of CIMAP for Special Service Centers CIMAP SSC and the Loop Maintenance Operations System LMOS PROPRIETARY BELLCORE AND AUTHORIZED CLIENTS ONLY See proprietary restrictions on title page 33 Generic Dispatch System Release 3 1 User Manual Part 1 BR 190 539 311 Issue 6 August 1989 GDSR 3 1 2 1 1 Provisioning Interfaces The SOAC interface supplies service order work details in the form of planning message an assignment message NET2 and a service order image The mechanized interface from the TIRKS System provides designed circuit installation work details The Status Reporter in CIMAP SSC controls communication between the TIRKS System and GDS For non designed services GDS requires only the service order information from SOAC to perform a dispatch For designed services GDS matches the service order work details from SOAC with the designed circuit work details from the TIRKS System to dispatch Engineering work orders are dispatched from the circuit work details received from the TIRKS System and do not require service order information 2 1 2 Maintenance Interfaces The mechanized interface to CIMAP SSC provides the means for automated hand off of special service trouble tickets to GDS The LMOS interface provides for the automatic input of trouble ticket data and test results to GDS for circuits stored in LMOS 2 2 JOB LOGGING PROCESS Work entered into GDS moves through a job logging process
106. termine why the output occurred and if further action is re quired The priority of action codes and their mean ings are shown in the output message manual The DL and PUC member fields contain the member numbers of the designated link The stimulus field contains a mnemonic for the requested action The disposition field contains a code indicating whether or not the action was successful The second and fol lowing lines give the application application member number DL member number and the resulting state of each link involved in the reconfiguration LOOP BACKS FOR T1 CARRIER APPLICATIONS 5 39 Sections of the DL can be checked for correct data transmission by sending data out on the DL from either the host ESS or the RSS RT and loop ing back the data at several points Fig 8 The data received is compared with the data transmitted to find errors 5 40 The following loop backs are provided for a DL using T1 carrier and under the control of the host ESS They are activated by automatic diag nostic routines e LIU Maintenance The peripheral unit controller line interface unit PUC LIU loops data back to the host ESS after passing through the PUC and LIU e DSU DP Local The data service unit data port DSU DP loops data back to the ESS after passing through about 20 percent of the logic in the D4 data port This is acti vated by a signal wire from the PUC LIU e DSU DP Remote This loops the data back to the E
107. the order Based on the setting of the MCO OCO CCO control flag CIMAP CC determines whether they are in control of the disconnect order If so an ownership flag will be set to yes when CIMAP CC logs the order via the Status Reporter and CIMAP CC will be able to post item level completions jeopardies to GOC CIMAP CC and GDS build work requests for each CWL CKL location based on the IE view of the circuit and pass the appropriate CWL CKL information to CIMAP SSC INE work is built on orders involving Intelligent Network Transmission Elements based on the IE view of the circuit No WORD document for the disconnect order exists at this point The user could access the in effect WORD for the information needed to work the order Regardless of whether an order is sent to CIMAP SSC GDS or CIMAP CC GOC is notified to send Update and Post Complete information on that order to the Status Reporter It is recommended that the disconnect options in OPTS LINK SSC OPTS LINK CC OPTS LINK SSDAC and OPTS LINK INE be set to the same values PROPRIETARY BELLCORE AND AUTHORIZED CLIENTS ONLY See proprietary restrictions on title page 3 15 52 eneric Dispatch System Release 3 1 User Manual Part 1 BR 190 539 311 Issue 6 August 1989 GDSR 3 1 UPDATES DISCONNECT CIMAP SSC ORDERS IN CIMAP SSC Update EXSYSW amp SIC code CIMAP DOC Add CKLs CWLs Log Orders for circuits GDS and CIMAP CC
108. tion Area Travel Time GDAATR DAA AA Mapping Table GDMAP E X x a GDS DAA Table GDDAA Assign Dispatch Weights Table GDADW Job Type Weights Table GDJTW g GDS FRONT END UNIT TABLE GDFEP 5 due a GDS INSTALL CLCI CS OPTS GDCSC e GDS INSTALL NCI OPTS GDNCI USOC Options For Installation Jobs GDUSOC FID Options Table For Installation Jobs GDFID Pair Gain Options For Installation Jobs GDPGS Installation Job Types Table GDIJT wo 8 08 Maintenance Job Pricing Table GDMJP GDS SSC Trouble Ticket OPTS GDSSTT PST Options Table For Processing Installation Jobs GDPST 4 144 GDS Service Order Processors Table T GDSUPV oe d GDTECH GDPAD TSEND Device Type Table GTSDEV 45 GENERIC DISPATCH TABLE CHECKER GDCHK 5 0 ON LINE SCREENS 5 1 5 2 5 1 1 5 1 2 5 1 3 5 1 4 WORK REQUEST SCREENS GDISWR GDIWR GDMSWR GDMWR SUPPORT SCREENS 5 2 1 5 2 2 GDCOMM GDSOI PROPRIETARY BELLCORE AND AUTHORIZED CLIENTS ONLY See proprietary restrictions on title page 5 20 5 26 5 26 5 28 27 Generic Dispatch System Release 3 1 User Manual Part 1 BR 190 539 311 Issue 6 August 1989 GDSR 3 1 5 3 5 4 5 2 3 ox 5 ww 524 GDTEST ee we 525 GDMI
109. tor not displayed ACNA GCOCSA MA CA Indicates those fields which are also updated on WA and LOOP TIRKS Release Pre 14 1 Pre 14 1 Pre 14 1 Pre 14 1 Pre 14 1 Pre 14 1 Pre 14 1 Pre 14 1 Pre 14 1 Pre 14 1 Pre 14 1 Pre 14 1 Pre 14 1 Post 14 1 Pre 14 1 Pre 14 1 Pre 14 1 Pre 14 1 Pre 14 1 Pre 14 1 Pre 14 1 Pre 14 1 Pre 14 1 Pre 14 1 Pre 14 1 Pre 14 1 PROPRIETARY BELLCORE AND AUTHORIZED CLIENTS ONLY See proprietary restrictions on title page 48 Generic Dispatch System Release 3 1 User Manual Part 1 BR 190 539 311 Issue 6 August 1989 GDSR 3 1 Table 3 1 Fields Available in CIMAP SSC TIRKS Issue Interface cont d FIELD NAME SSC OCO OSSOI CCO OSSOI CUST A OSSOI CUST 2 OSSOT P1 Name OSSOT P1 Address OSSOT TEL OSSOT P2 Name OSSOT P2 Address OSSOI P2 TEL 05501 CRO OSSOI RCLO OSSOI PROJ OSSOI WOT 08801 IAD OSSOI FCD OSSOI SWC MSG amp CXR ASD MSG CTA not d s layed 08801 DOP not displayed SEC not displayed ORD TYP not displayed MON 05501 TD Fielded Data DOC 05801 CCNA OSSOT ASSOC ORD 05501 PON 05801 05801 For 0 and Beyond FIELD NAME SOURCE TIRKS System OCO WA CCO WA STA LCTN A LOOP STA LCTN Z LOOP LCON NAME A LOOP STA ADDR A LOOP LCON TEL A LOOP LCON NAME Z LOOP STA ADR Z LOOP LCON TEL Z LOOP CRO WA RCLO WA PROJ GCO
110. ttern Mapping Table ISTRKGRP RCC Dynamic Trunk Groups Table ISUPDEST 57 ISDN User Part Destination Table ISUPSERV ISDN User Part Services Table ISUPTRK ISDN User Part Trunk Table ITOPATTR ITOPS Attributes Table ITOPS ITOPS Position Display Table ITOPSANI ANI to ITOPS by Service Class Table ITOPSDEV ITOPS Device Table TOPSDP TOPS Dial Plan Table ITOPSERV ITOPS Position Routing Table ITOPSOPR ITOPS Operator Table ITOPSPOS ITOPS Position Table ITOPTRBL ITOPS Operator Reporting Trouble Disposition Table ITOSPIDNM ITOPS Queue Management System Service Provider Identifier Name Table IVDINV Integrated Voice and Data Set Inventory Table IVDTRBL Integrated Voice and Data Trouble Table IVPNCONV International Virtual Private Network Conversion Table KP2TRUNK NSC KP2 Trunk Groups Table KSETFEAT Business Set and Data Unit Feature Table KSETFEAT 3WC KSETFEAT 3WCPUB KSETFEAT AAB KSETFEAT ACB Three Way Calling Feature 3WC Subtable Three Way Calling Public Feature 3WCPUB Subtable Auto Answerback Feature AAB Subtable Automatic Callback Feature ACB Subtable 62 10 MHz Stable Time Base Older versions of the Qualcomm OmniTRACS satellite fleet tracking system are starting to show up at ham fests These units include a very nice one watt RF power amplifier for 14 0 14 5 GHz range and a low noise 11 7 12 2 GHz receive circuit but we re still trying to figure those sections out In the mean time we ll show you a
111. ultive Committee CCITT standard 11 X 25 The outgoing X 25 data frame Fig 7 is built from data in the destination buffer paragraph 4 04 and transmitted over the DL Data received from the RT is extracted from the X 25 frame and loaded into the receiver buffer paragraph 4 05 3 02 The destination buffer in the PUC DL is a list of outgoing data messages consisting of a sync header and data all 16 bit words The sync word allows the message routing program in the RT TRANSMIT BUFFER MESSAGE 10A RSS Interface Description amp Maintenance Considerations ESS ISS 2 SECTION 231 037 022 to identify the start of a message The header word allows the program to determine the client program the message is to be routed to The number of words used for the data message is variable The message may contain several RSS orders The only restriction on message content is that it contain data for a single client program It may take several frames to contain the message or several messages may be contained within a single frame depending on the message size Data is transmitted in full size frames as long as MESSAGE DATA IS PARTITIONED INTO X 25 DATA FRAMES BY PROTOCOL FOR TRANSMISSION MEE wie X 25 FRAME LEGEND FLAG 8 BITS A ADDRESS FIELD 8 BITS C CONTROL FIELD 8 BITS INFO INFORMATION FIELD VARIABLE LENGTH CRC CYCLIC REDUNDANCY CODE 16 BITS Fig 7 X 25 Data Frame Page
112. usion and consistency The Table Checker supports the GDS system administrator or manager in building and maintaining GDS tables for a work center in GDS In addition to data item validation the Table Checker can merge data items from different tables into a single output report A detailed description of the Table Checker and its use can be found in Section 4 5 of this document 3 1 7 Mail The GDS MAIL feature is used to send and receive messages Messages can be sent to either one or more user IDs or to one or more terminals The detailed description and use of MAIL is provided in Section 6 3 of this document and in GDSR Electronic Mail MAIL User Manual BR 190 539 312 PROPRIETARY BELLCORE AND AUTHORIZED CLIENTS ONLY See proprietary restrictions on title page 3 4 41 BR 190 539 311 Issue 6 August 1989 GDSR 3 1 8 1 8 CRON The CRON feature is used to schedule certain transactions to be run immediately or on a periodic basis CRON allows the GDS user to specify certain dates days of the week start and end times as well as run intervals for individual requests in specific work centers A complete description of CRON and its uses can be found in Section 6 4 of this document 8 1 9 TIRKS Communication Module TCM TOM is a set of modules that comprise a subsystem in the GDSR application It provides the means for a component system residing with TCM in one IMS of computer to communicate with
113. versity since grown to include professors and administrators to find out why and how it could be fixed He came away believing the school needed to do more recruiting in Minnesota About 60 percent of the U s law students come from out of state felt like they were looking exclusively outside the state said Barton who is from Milwaukee and practices in California We have the largest Somali population one of the largest Native American populations the second largest Hmong population But those groups are not represented at the law school Fierce Competition Law schools fight for students of color and often those with higher rankings or bigger scholarships win But schools and students recognize law firms won t get more diverse if schools simply become better at recruiting from the same limited pool of students The pool must grow 76 obstacle is not in the law school admissions office Lewis said There are institutional systemic barriers Two years ago the U started a summer LSAT preparation program for about 25 students from under represented populations One student from that program s first year ended up enrolling at the U Our goal is to increase that number said Nick Wallace law school admissions director As the program builds a little bit of history we may see some benefits further down the road P amm EDU PN Eee I rico
114. y Digit Manipulation Table Heap Table HIEINV Host Interface Equipment Inventory Table List of Home NPA Code Subtables Table Home NPA Longhaul Attribute Subtable Home NPA Code Subtable Ambiguous Code Type AMBI Subtable Terminating Line Code Type DN Subtable Foreign Number Plan Area Code Type FNPA Subtable Foreign Number Plan Area Code Type FRTD and FRTE Subtable Home Numbering Plan Code Type HNPA Subtable Home Route Code Type HRTE Subtable INWATS Originating Code Types INWC INWO Subtable INWATS Terminating Code Type INWS Subtable INWATS Tandem Code Type INWT Subtable Local Route Code Type LRTE Subtable No Position to DN Code Type NPOSDN Subtable Number Service Code Type NSC Subtable Operator Code Types OPC3 OPC4 and OPC5 Subtable Service Access Network Management Code Type SACNWM Subtable Three or Four Digit Local Service Codes Types SCD3 SCD4 Subtable Special Local Route Code Type SLRTE Subtable Station Ringer Code Type STRG Subtable Terminating Toll Center Code Type TTC Subtable Vacant Code Type VCT Subtable ISDN Home NPA Route Reference Subtable Home NPA Route Reference Subtable Hotel Billing Information Center Device Table TOPS Holiday Table ITOPS Rating Charge Calculator Holiday Table ITOPS Rating Charge Calculator Holiday Treatment Table 58 HOLTRT HOLTRTI HOMELRN HOTLIST HPWASTE HSMLINK HUNTGRP HUNTMEM HWM IAACTRL IACINV IACPSINV IACREQ IALTRTE IANNINFO
115. y wish to use low dropout voltage regulators if you use a 13 8 VDC power supply 67 V FREQUENCY PRODUCTS INC CINCINNATI OHIO MADE IN USA P N 1DN14 CV90 2201 1 FREQ 10 00 MHZ S N 71150 MODEL 424 Mounting the oscillator and circuit board The front panel has a LED power indicator and two BNC jacks for the 10 MHz and 1 MHz outputs On the rear panel right is the incoming DC power jack Note how the oscillator was mounted so an existing hole in the case allows access to the frequency adjustment trimmer capacitor A small piece of aluminum duct tape covers the access hole 68 HO4VT119SO 15 ZH 2 52 138350 Wi M 1300W 09114 N S 00 Ob 03u3 L LOZ22 06AD vV N d gt YSN IL VNNIONIO NI S12naoud A9N3ano3uWu3 t g793 Alternate view with the completed wiring Try to use coaxial cables for all the lines carrying the 10 MHz or 1 MHz signals The front panel BNC connector on the left is the 10 MHz output the other is the 1 MHz output 69 zero beat the oscillator tune a shortwave receiver AM to the 10 MHz WWV time standard sure to use a quality antenna as the received signal will need to be quite strong Next connect a short little rubber duck antenna to your powered time base and position the shortwave receiver so you are receiving both signals at once You may have to place the shortwave receiver in

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