Status of Operational GNSS Augmentations in United States Pamela Gomez Federal Aviation Administration (FAA) WAAS GCCS Team Lead
GNSS In U.S. U.S. Has Approved Use of Global Positioning System (GPS) For Aircraft Navigation For Over A Decade FAA Working With Other U.S. Federal Government Agencies To Insure Modernization of GPS Improves Aviation Capabilities FAA Has Commissioned the FAA’s GNSS Space Based Augmentation System (SBAS) Wide Area Augmentation System (WAAS) FAA Is Continuing Development Of the GNSS Ground Based Augmentation System (GBAS) Local Area Augmentation System (LAAS) FAA Has Committed To A “Performance Based National Airspace System” Fully utilize the capabilities of all equipment aboard the aircraft Implement Required Navigation Performance (RNP)
GNSS SBAS (WAAS – In USA) Enhances Navigation In All Phases Of Flight Enroute, Arrival, and Departure: Provides 100% Availability Of GNSS For Even The Most Critical RNP or RNAV Operations Provides Coverage At All Altitudes From 100,000 Feet To The Surface Provides Navigation Services To Users That Are Not Currently Served Approach: Enhances Safety By Providing Vertical Guidance To Every Runway End In The Coverage Area No Ground Hardware Required At Airport Allows IFR Operations To All Qualified Airports
SBAS: WAAS Background August 2000: FAA Makes WAAS Available For Non IFR Aviation Use Signal Available At Surface For All Users July 2003: Initial Operating Capability (IOC) For All Aircraft Instrument Flight Rule Use 100% Coverage CONUS & Alaska From 100,000 Ft. To Surface Horizontal Accuracy 1.5M Vertical Accuracy 3M Better Than 99.999% Availability Of System 95% Availability In CONUS Of Instrument Approaches With Vertical Guidance Enhances safety 250 foot Decision Height / ¾ Mile Visibility minimums No ground hardware required Instrument approach procedure required for each runway end
WAAS Architecture
Area Navigation Availability
Current LPV Approach Availability
WAAS Development Schedule Development Will Continue In Two Segments LPV Segment GLS Segment Improvements To Ground Components To Complete “LPV Segment” Software Efficiency Improvements, Integrity Monitor Improvements, And Additional Ground Reference Stations Will Be Brought Online Incrementally End State Performance Will Result In Greater Availability Of Approach With Vertical Guidance (LPV – 250ft Minimums) 99% Continental United States 95% In Most Of Alaska Addition of GEO Satellites To Provide At Least Two In View To All Users Over All CONUS And Alaska Improvements To Ground Components To Complete “GLS Segment” Requires GPS Modernization – L5 Frequency WAAS 200’ Minimums (First WAAS Precision Approach) Requires Hardware And Software Modifications 2003-2008 2007 2008 -2013
Development Activities: LPV Hardware 13 Additional Wide Area Reference Stations To Improve Availability And Coverage 4 Alaska 5 Mexico 4 Canada Equipment Upgrade Using Commercial Off The Shelf Hardware When Feasible Communications Enhancing The Terrestrial Communications Network Software More Efficient Integrity Monitor Algorithms Enhanced O&M Efficiency Prime Contractor - Raytheon
Predicted LPV Availability 2008 Full LPV Capability
North America USA, Canada, and Mexico Are Working Through The North American Aviation Trilateral (NAAT) Regional Cooperation Meeting On Civil Aviation Safety, Security, Capacity, And Efficiency To Cooperate On The Implementation of GNSS In The North American Region Canada And Mexico Will Host Additional Reference Stations To WAAS System 5 Mexico 4 Canada Provides WAAS Coverage In Canada And Mexico Improves Availability For U.S.
Canada Installing Four Reference Stations Site Surveys Complete Goose Bay Gander Iqaluit Winnipeg Site Surveys Complete First Two Sites Will Be Installed In August 2005, Second Two Installed In August 2006 Expect Operational In 2006 And 2007 Respectively Lateral Navigation/Vertical Navigation (LNAV/VNAV) -- Type of APV-I 350’ decision height 1½-mile visibility 556m horizontal alert limit (HAL) 50m vertical alert limit (VAL) LNAV/VNAV improved through TERPS optimization to provide Lateral Precision with Vertical Guidance, or LPV procedures. LNAV (NPA) = 400’ DH Lateral Precision with Vertical Guidance (LPV) -- Type of APV-I 250’ decision height ¾ mile visibility without proper lighting (½ mile visibility with proper lighting) 40m HAL 50m VAL LPV and LNAV/VNAV approaches do not require any equipment beyond standard WAAS Technical Standard Order (TSO) avionics.
Mexico Installing Five Reference Stations Mexico City Merida Puerto Vallarta La Paz Tapachula Three Site Surveys Completed In August, The Remaining Two Next Summer First Three Sites Installed In August 2005, Second Two Installed In August 2006 Expect Operational In 2006 And 2007 Respectively
WAAS – GLS Development Will Commence In 2008 In USA, GLS Capability Will Require Modernized GPS Constellation Addition Of Second Frequency, L5 Availability Of L5 For Operational Use By Aviation Expected By 2013 FAA Ground Upgrade Complete In 2013 Hardware: Upgrade of Reference Station Receivers To Receive L5 Software: Broadcast Of WAAS Message On L5 Will Eliminate Loss Of Vertical Guidance Caused By Ionospheric Storms Full GLS Capability Throughout Coverage Area System Will Be Capable Of Augmenting Other Satellite Navigation System Constellations
Current GEO Service Inmarsat III AOR/W 54°W POR 178°E Main Problem Is Single Coverage Over the Majority of CONUS
INMARSAT III Current INMARSAT Lease Expires September 2006 Market Survey Released In May For Possible Lease Extension To 2009/2010 Four Vendors Responded INMARSAT AOR-W Scheduled To Be Relocated From 54W To 98W In October 2005 High Risk To WAAS Users In CONUS WAAS Team Performing Trade Study On Mitigation Options To Include Feasibility Study To Leave AOR In Place Until GCCS Becomes Operational Data Link Only During 22-day Relocation
GEO Satellite Improvements Lockheed Martin Prime Contractor Contract Definitization Expected To Be Complete February 2005 Contract Structured to Provide: Leased Payloads on Up to 3 Satellites Ground Infrastructure to Support Signal in Space Goal is Two GEOs In View To All Users Over CONUS and Alaska by 2007
PanAmSat at 133W Ground Uplink Stations PanAmSat Galaxy XV Signal Generator Subsystem (SGS) Factory Acceptance Tests Complete Radio Frequency Unit (RFU) Installations Complete, Napa CA and Littleton, CO SGS/RFU Integration starting February 05 PanAmSat Galaxy XV Satellite Payload Integration to be complete May 2005 Delivered to Launch Site in June 2005 90-day Launch Window GCCS Integration to be complete December 2005 WAAS Integration Activities Operational 4th Qtr 2006
Telesat Anik F1R at 107W Telesat Canada Anik F1R Satellite Payload Integration Complete Satellite in Thermal Vacuum Testing 90-day Launch Window July 2005 – September 2005 Ground Uplink Stations Sites Selected Brewster, WA Woodbyne, MD Long Lead Items Procured GCCS Integration to be complete April 2006 WAAS Integration Operational 2nd Qtr 2007
GEO Transition INMARSAT 3 POR 178°E PanAmSat 133°W Telesat 107°W INMARSAT 3 AOR/W 54°W INMARSAT AOR/W 98°W Provides Dual Coverage Over CONUS and Alaska with AOR/W as hot spare
WAAS Avionics Two Certified Receivers Currently Available Garmin Garmin & Chelton Systems (With Free Flight Systems WAAS Sensor) Garmin CNX-80 Field Upgradeable to Complete WAAS Functionalities GNS-480 (The Upgraded CNX-80) Sales Forecast Of 2,000 Units This Year Retail $11,995 GNS-430/530 Currently 50,000 Units Sold, Expect 30% To Buy The Upgrade Approximately $1,500 for Upgrade, Available October GNS-1000 Plan To Offer Upgrade In 2005
WAAS Avionics Rockwell-Collins In Development Of WAAS Capability In Multi-Mode Receiver (MMR) Free Flight Systems Upgrading Sensor In Shelton CAPSTONE Avionics To Provide Vertical Approach Capability Other Manufacturers Developing WAAS/SBAS Capable Avionics WAAS Avionics Can Be Installed In All Aircraft (Avionics Not Yet Available For All) WAAS Integration Into Full Flight Management System (FMS) Capability Expected Within Three Years
Operational Implementation Existing Procedures: 57 LPVs 739 LNAV/VNAV 3,670 LNAV/GPS Procedure Production FY 05 Airport List Has Been Approved 214 Procedures Planned 122 Are at Non-ILS Runways 43 Provide Capability at Airports Where No Precision Approach Existed FY 06 341 Procedures Planned 258 Are at Non-ILS Runways 210 Provide Capability at Airports Where No Precision Approach Existed LNAV/VNAV 350’ LPV 250’ GLS 200’ 3o
WAAS Schedule 2005 2006 2007 2008 Item Commissioning (July 2003) Alaskan Site Installation Complete PanAmSat Launch Telesat Launch C & V Complete Software Performance Build Mexican Site Installation Canadian Site Installation PanAmSat Operational Telesat Operational TCS Complete Initial WRS Sites Operational JRC Decision on GLS Development Software O&M Enhancements Complete Full Integration 9/05 9/05 9/05 10/05 5/06 8/06 8/06 10/06 10/06 12/06 4/07 9/07 12/07 12/08
Potential WAAS Civil Applications Agriculture Aviation Maritime Highway Railroad Precision Timing Mining/Geology Surveying Banking Remote Sensing Power Telecommunications Law Enforcement Emergency Disaster Response Weather Construction Recreation Environmental Mgmt Mapping/Geodesy
Current WAAS/SBAS Civil Applications Agricultural Marine Outdoor Recreation Surveying Emergency Millions of Civil Users Today
GBAS/LAAS Status FY04 LAAS Was Directed to Research & Development Status Continuing Integrity Analysis for Category 1 LAAS LAAS Integrity Panel (LIP) to Resolve All Remaining Key Integrity Risks to Low/Medium Develop Integrated Prototype to Validate Integrity Requirements FAA Continues to Support Development of LAAS Technology However Budget Constraints Prevent Funding Development Activity At This Time Customer Support Air Carrier/Cargo & Manufacturer Support Continues
Operational Implementation LAAS Criteria for Straight in Approaches Developed LAAS Capabilities to Support Terminal Area Procedures (TAP) Demonstrated by WJHTC Implementation Activities Using LAAS Prototypes Being Investigated Rockwell Collins LAAS Capable Multi-Mode Receiver (MMR) available Boeing 737 GLS Certification Flights Completed AIRBUS GLS Certification Planned for 2005
International Activities Continue Support for RTCA/ICAO Requirements Process For GBAS CAT II/III Support Harmonization Between RTCA and EUROCAE Continue Support of International GBAS Initiatives Brazil Testing and Data Collection Air Services Australia GBAS/GRAS Development Activities Coordination with European GBAS Working Group, International Service Providers and Aircraft Manufacturers Eurocontrol Member States, Boeing, and Airbus
Summary: SBAS/WAAS Benefits All Classes Of Aviation Users Commissioned For IFR Use On July 10, 2003 Signal Enhances Navigation In All Phases Of Flight WAAS Enhances RNP And Performance Based NAS Enhances Safety And Efficiency Of NAS Aviation Receivers Available Today, More Coming To Market Over Next Three Years Will Be Improved Incrementally To Bring Added Capability Online As Soon As It Is Ready Demonstrates FAA Commitment To Improving Services For All Aviation Users
http://gps.faa.gov
Regional Cooperation New Sites
Latest GPS/SBAS Receivers For Non-Aviation Use Garmin StreetPilot 2620 Automotive Trimble R8 Magellan Road Mate Automotive Garmin Quest Automotive/Marine/Adventure John Deere StarFire iTC Agriculture Lowrance LCX-104C Marine Receiver
Current and Future LPV Approaches
Charting with LPV minimum line WAAS Channel Number Temperature Restriction Does Not Apply to WAAS Equipment WAAS Approach ID W=WAAS 24=Runway 24 A=1st WAAS Approach To Rwy 24 LPV Minimum Line