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COMMISSIONING THE WIDE AREA AUGMENTATION SYSTEM. Jimmy R. Snow. OVERVIEW. WAAS System/Procedures WAAS Commissioning Considerations Ohio University Study MITRE Computer Modeling MITRE/Flight Inspection Validation WAAS Receiver WAAS Limitations Future Challenges.
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COMMISSIONING THE WIDE AREA AUGMENTATION SYSTEM Jimmy R. Snow
OVERVIEW • WAAS System/Procedures • WAAS Commissioning Considerations • Ohio University Study • MITRE Computer Modeling • MITRE/Flight Inspection Validation • WAAS Receiver • WAAS Limitations • Future Challenges
GNSS RNAV PROCEDURES LPV Takes Advantage of WAAS Capability Equivalent to Localizer Lateral With Vertical Between ILS and LNAV/VNAV, HAT 250 ft & Up LNAV/VNAVVertically Guided Approach With Decreasing Vertical Obstruction Clearance, HAT 350 ft and Up LNAVNon-Precision Approach With 250 ft ROC, Smaller Protected Area Than VOR, No Vertical Guidance CIRCLING Approach Procedure to a runway and then Maneuver to Land on Another Runway
Status Of FAA GPS Procedures (9/22/03) Year97 98 99 00 01 0203 GPS Proc Published 573 516 531 504 447 618 510 TOTAL LPV 7 LNAV/VNAV Published 613 LNAV Published 3,237 Military/Specials 237 GPS Proc Published 4,094
WAAS COMMISSIONINGCONSIDERATIONS • WAAS Commissioning Date Established Approximately Two Years in Advance • Scheduled on Procedures Publication Date, July 10, 2003 • Estimated Over 600 LNAV/VNAV Approaches Published for FMS Baro VNAV Operations • Over 3,000 LNAV Approaches Published for TSO C-129 Receivers • Very Limited WAAS Flight Inspection Capability (Prototype MMR Receiver in Lear 60) • Technical Center WAAS Coverage Chart and Outage Records Used to Restrict Certain LNAV/VNAV Approaches • Numerous Discussions With Certification and Flight Standards
WAAS COMMISSIONING OPTIONS • No Flight Inspection or Evaluation of Procedures • Evaluate Each Procedure on Next Periodic (One and Half Years or Longer to Evaluate All) • Surge Effort After WAAS IOC (up to 1,000 Flight Hours) • Non-Traditional Evaluation of Existing Procedures
OHIO UNIVERSITY SUPPORT • Initiated Discussions With Ohio University, Avionics Engineering Center May 2001 • Established Procedure Parameters With FAA Working Group • Held Discussions With Ohio University to Evaluate WAAS Requirements • Established a Technical Task Directive With Ohio University July 2001 to Evaluate WAAS Commissioning Requirements • Study Delivery Not Later Than Nine Months After Task Signed
FLIGHT INSPECTION COMPARISON • GPS/Baro VNAV • Obstacle Evaluation • Standard Instrument Approach Procedure (Section 214) • Procedure Design (Database, Waypoints, Accuracy) • Electromagnetic Spectrum (RFI) • WAAS LNAV/VNAV • Obstacle Evaluation • Standard Instrument Approach Procedure • Procedure Design • Electromagnetic Spectrum • Geosynchronous Satellite Signal
OHIO UNIVERSITY CONCLUSIONS • Result • Inspection of GPS/Baro VNAV Procedures Should Accomplish All Anticipated WAAS LNAV/VNAV Requirements • EXCEPT Ensuring Adequate GEOSAT Signal Coverage • GEOSAT • Provides Integrity Information, and Differential Corrections • Without, WAAS Receiver Reverts to LNAV Only Capability • Thus, LNAV/VNAV Procedures Can Not Be Conducted
OHIO UNIVERSITY STUDY ASSUMPTIONS • Assumptions • The inherent WAAS monitoring is capable of detecting system faults within the required time-to-alarm • The WAAS receiver reverts to a GPS-only capability in the absence of a GEOSAT signal • The FAA has authorized WAAS for supporting LNAV/VNAV approach procedures • The SIAP procedure has been previously commissioned for GPS/Baro VNAV • The availability of GPS/Baro VNAV and WAAS LNAV/VNAV is at least 95 percent • The descent altitude is the same for the WAAS LNAV/VNAV and GPS/Baro VNAV procedures • There is a high-correlation between predicted (monitoring) and actual WAAS system performance
STUDY CONCLUSIONS • ~ 600 GPS/Baro VNAV Procedures Expected to be Commissioned Before WAAS IOC • Inspection of GPS/Baro VNAV Procedures Should Accomplish All Anticipated WAAS LNAV/VNAV Requirements EXCEPT Ensuring Adequate GEOSAT Signal Coverage • Computer-based GEOSAT Coverage Screening Models May be Used to Streamline Flight Inspection Process (To determine if GEOSAT is shadowed on final approach segment)
STUDY RECOMMENDATIONS (1) • The Comparison of GPS/Baro VNAV and WAAS LNAV/VNAV Flight Inspection Requirements Should Be Repeated Once Formal Criteria Are Available in FAA Order 8200 • The Feasibility and Benefit of Developing a Screening Model for Assessing GEOSAT Signal Coverage Should Be Assessed Further • Low Confidence Cases, the WAAS LNAV/VNAV Procedure Should Be Flight Inspected Before Being Authorized for Use,Low Priority
STUDY RECOMMENDATIONS (2) • Marginal Confidence Cases, the WAAS LNAV/VNAV Procedure Should Be Flight Inspected Before Being Authorized for Use, High Priority • High Confidence Cases, WAAS LNAV/VNAV Operations Authorized and Inspection Performed During Next Periodic Inspection of GPS/Baro VNAV Procedure • For WAAS Procedures Authorized Prior to Formal Flight Inspection, Authorization Should Be Withdrawn if a “Problem Report” Is Received
SECOND PHASECOMPUTER MODELING • FAA Contacted MITRE, Center for Advanced Aviation System Development For Assistance (CAASD) • MITRE Advised They Could Modify an Existing Software Program to Do What Ohio University Recommended • Meetings Were Scheduled to Discuss: • Establishing an Agreement Between FAA and MITRE • Delivery Schedules • Evaluation Requirements • Data Requirements
FAA-MITRE AGREEMENT • AVN Would Provide MITRE the Following: • Airport Identifier • Airport Reference Point (latitude/Longitude) • Airport Elevation • Airport Priority for Screening • If Available Airport Name and Location • MITRE Will Evaluate Each Airport Using the Following Criteria: • Evaluate a point 250 ft Above the ARP From 090 to 270 Degrees • At Least One WAAS GEO is More Than 10 Degrees Above the Horizon • No Terrain Within 40 nm of the ARP More Than 5-deg Elevation Angle Viewed From 250 ft Above the ARP • MITRE Would Use Worst-case WAAS GEO Positions • MITRE Would Validate the Computer Model and Peer Review Results
TERRAIN MASKING:Forty Nautical Miles Geo Mount Ranier (14,400 ft) 10° (minimum) ARP (Sea Level) FAF (Sea Level) 4.5° 10 nm 30 nm
TERRAIN MASKING:Results • An Airport Passing the Screening Test Will Not Have Geo Masking Due to Terrain and Should Not Require Re-flight Check For Terrain • A detailed look at the airport is not required • Failure of the Screening Does Not Necessarily Imply That GEO Masking Will Occur During an Approach to that Airport • Failure implies that a closer look at the airport is warranted • Availability of LNAV/VNAV Approaches Was Not Addressed
VALIDATION EFFORTS • AVN Airport Database Entries Were Compared With Jeppesen and Other Databases • GEO Angles Were Computed by Several Methods With No Significant Differences Between Methods • Terrain Masking Code Was Checked Independently • Terrain Results Were Spot Checked With Sectional Charts • AVN Will Spot Check Some Airports During a Later Validation Check
AIRPORT GROUP ONESummary • 223 Total Airports With RNAV (LNAV/VNAV) Approaches Developed by AVN • 215 Airports Passed Screening • GEO > 10 Degrees Elevation and • Terrain to South < 5 Degrees Elevation • 8 Airports Failed Screening • 3 Failed for Terrain • 5 Failed for GEO Elevation • 3 in Northern Alaska
AIRPORT GROUP TWOSummary • 155 Total Airports With RNAV (LNAV/VNAV) Approaches Planned by AVN • 142 Airports Passed Screening • GEO > 10 Degrees Elevation and • Terrain to South < 5 Degrees Elevation • 13 Airports Failed Screening • 12 Failed for Terrain • 1 Failed for GEO Elevation
AVN VALIDATION • MITRE Evaluated 378 Airports/AVN Flight Inspected 65 Airports To Validate MITRE results • 11 of the 21 Identified by MITRE Did Not Have GEO Coverage • 2 Additional Airports of the 65 Would Not Support VNAV For Geo Coverage • AVN Accepted the Results As Satisfactory
WAAS MMR RECEIVER • Have Six Collins MMR Receivers With WAAS and LAAS • Two Lear 60s Have WAAS Capability • Due to No TSO Receiver and No STC, Aircraft in Experimental Status • Currently in a MOPS “Beta” Configuration • With the FMS We Must Change the MMR Into “Delta” Configuration, Estimate 2 Years • LPV and LAAS Have FAS Datablock That the AFIS Reads • Aircraft Flying LNAV/VNAV While AFIS Evaluates LPV • New Contract Let to Complete VFR STC (estimate completion January 05)
LPV FLIGHT INSPECTION RESULTS
ILS vs WAAS LPV Flight Inspection Comparison ILS Glideslope WAAS Approach
WAAS LIMITATIONS • Inverse W on RNAV Approach Charts/Limitations • Indicates WAAS Outages May Occur Daily (32 airports) • WAAS NOTAMS Are Not Provided For the Procedure • Use LNAV Minima For Flight Planning (Destination or • Alternate) • If Receiver Indicates LNAV/VNAV or LPV Available • Guidance May Be Used • If WAAS Is Lost Revert to LNAV Minima If Receiver • Allows or LNAV Data Is Available • WAAS VNAV NA on RNAV Charts That Did Not Pass MITRE Modeling and Flight Inspection
INMARSAT 3 POR 178°E INMARSAT 3 AOR/W 54°W INMARSAT III COVERAGE
Jimmy Snow NAVIGATION CONSULTANT 405-249-4329 cjsnow@cox.net