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Wide Area Augmentation System (WAAS)

0. Wide Area Augmentation System (WAAS). DAN HANLON WAAS PROGRAM MANAGER Tom Salat WAAS NAS INTEGRATION. GPS in Wide Spread Use. 0. GPS used in aviation since 1992…provides significant benefits to aviation Over 3500 non-precision GPS instrument procedures

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Wide Area Augmentation System (WAAS)

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  1. 0 Wide Area Augmentation System(WAAS) DAN HANLON WAAS PROGRAM MANAGER Tom Salat WAAS NAS INTEGRATION

  2. GPS in Wide Spread Use 0 • GPS used in aviation since 1992…provides significant benefits to aviation • Over 3500 non-precision GPS instrument procedures • Non-precision does not provide descent guidance to pilot • Provides lower landing minimums for airports w/o Radio Navigation Aids (400’ AGL) • Reduce reliance on and cost of radio navigation infrastructure

  3. Why Augment GPS?Technical Reasons 0 • Current GPS constellation cannot support requirements for all phases of flight • Integrity • Know when it’s providing bad information & correcting for it • Accuracy • With SA off, GPS vertical accuracy > 15 m • 7m or less need for precision approach • Availability and continuity • Plan to have it at your destination • Assurance it will be available when arrive

  4. Why Augment GPS?Operational Reasons 0 • Provides ILS-like capability for little or no cost • Provides primary navigation system capability without line-of-sight limitations • Will allow GPS to replace NDBs and >50% VORs and associated avionics in aircraft

  5. WAAS Components 0 • WAAS consists of: • 25 reference stations • 2 master stations • 2 geosynchronous satellites • 3 uplink stations • Corrects: • Timing Errors • Orbital Errors • Faulty Satellites • Atmospheric Errors • Provides additional GPS satellite signals

  6. How Does It Work? 0

  7. How Does It Work? 0

  8. How Does It Work? 0

  9. How Does It Work? 0

  10. INMARSAT 3 POR 178°E INMARSAT 3 AOR/W 54°W Current GEO ServiceInmarsat III 0 • Main Problem Is Single Coverage Over the Majority of CONUS

  11. GEO Transition 0 PanAmSat 133°W Telesat 107°W INMARSAT 3 POR 178°E INMARSAT 3 AOR/W 54°W INMARSAT AOR/W 98°W • Provides Dual Coverage Over CONUS and Alaska with AOR/W as hot spare

  12. Vertical Coverage Sample, Aug,12 05 0 Additional WRS’s will improve vertical coverage

  13. Area Navigation Availability 0 • Dashed black line indicates NPA coverage

  14. WAAS Capabilities 0 • 100% Coverage CONUS & Alaska From 100,000 Ft. to Surface • Horizontal Accuracy <1.5M • Vertical Accuracy <3M • Better Than 99.99% Availability Of System • WAAS Specific Approaches (LPV) Published • Sep 2003 - 250’ Minimums • Began publication of WAAS specific approaches (LPV) in September 2003 • Continuing to develop the system to expand vertical navigation to most of North America

  15. Airspace Benefits 0 • Aids in transition to more advanced navigation capability • WAAS supports Required Navigation Performance (RNP) • Provides very high quality navigation signal for lower RNP values (better than .11) • Improves airspace system efficiency and capacity • Complex procedures available to all aircraft • Advanced arrival and departure procedures • Promotes airspace redesign • Guidance through position velocity time (PVT)/FMS RNAV • Cost savings by decommissioning of redundant ground based navigation aids

  16. Airport Benefits 0 • Precision Approach Capability At All Runway Ends • Positive Departure Guidance • Enhanced Noise Abatement By Use of Advanced Procedures • Available to all users at reasonable cost • No Radio Navigation Aids required • Less stringent cost/benefit justification

  17. WAAS Avionics 0 • Certified receivers • Over 2,500 Garmin GNS-480s sold • Chelton systems with Free Flight Systems WAAS sensor • Recent developments • 50,000 Garmin units in field that can be upgraded • Upgrade cost expected to be $1500, available Fall 2006 • The FAA is currently teaming with other manufacturers to develop additional LPV receivers in all functional classes GNS-480 GNS-530

  18. Operational Implementation 0 GLS 200’ 3o

  19. LPV Candidate Airports(Runway ends 3200’ or greater) 0

  20. Pending GPS Approaches for California 0 There are currently 7 LPV approaches in CA, McClellan, Chino, Fresno (2), Long Beach, San Jose (2) 32 LPV approaches pending at 22 Airports • Apple Valley - Southern California Logistics • Arcada - Watsonville Muni • Nervino • Byron • California City • Buchanan Fld • Hayward Executive • Monetery Peninsula • Metropolitan Oakland Int’l • Ontario • Palm Springs • Riverside • Sacramento Int’l • San Francisco Int’l • San Jose Int’l • Reid-Hillview of Santa Clara • Stockton Metro • Tracy Muni • Cable

  21. 0 Preparing your airport for WAAS

  22. Preparing Airports for WAAS 0 • No Ground Hardware Required • Airport Infrastructure Needed • Paved Runways Over 3200ft • Parallel Taxiway • Medium Intensity Runway Lights • Non-Precision Runway Markings, Precision Markings for lowest min • Step 1: Reference AC 150/5300-13 (Airport Design Guide) • Step 2: Contact Airport District Office - Infrastructure Improvements • Step 3: Surveys • Step 4: Airport Layout Plan

  23. STEP 1 – AC 150/5300 - 13 0 • AC 150/5300-13 Airport Design provides the guidance for developing the airport • Appendix 16 defines the requirements for new instrument approaches • Table A16-1B defines the requirements for APV-RNP instrument procedures (LPV) • Lower requirements for higher minimums

  24. Airport Infrastructure Requirements 0

  25. STEP 2 – Airports District Office 0 • Make Contact with the Airports District Office for your area to discuss and determine what infrastructure requirements will yield the lowest minimums against cost and time constraints • Review current infrastructure and determine (from Table A16-1B) what visibility minimums are required • Determine in conjunction with the ADO determine what infrastructure changes are best for the airport • If the current infrastructure does not meet the requirements then an upgrade to the infrastructure is required or reduced minima will be used to develop the procedure

  26. STEP 3 – Surveys 0 • Refer to Table A16-2 to determine the type of survey required and then determine if your airport has a current survey of the appropriate type • All airport surveys must be FAA 405 compliant • ANA-PC or PIR survey required • Can use 405 type D survey • If an appropriate type survey is not available, then review the required documents and initiate a request for a survey of the appropriate type

  27. Survey Requirements 0

  28. STEP 4 – Airport Layout Plan 0 • Based on information from Table A16-1B, verify the appropriate level of service is indicated on the Approved Airport Layout Plan • If the appropriate level of service is not on the approved ALP, then take action to update the ALP to the appropriate level of service

  29. Questions? 0 You can find more details on our website at: http://gps.faa.gov Procedures information can be accessed at: http://avn.faa.gov Survey information can be accessed at: http://www.ngs.noaa.gov/AERO/aero.html Dan.Hanlon@faa.gov Thomas.ctr.Salat@faa.gov

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