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Development of An Integrated GPS/Loran Prototype Navigation System for Business and General Aviation Applications

Development of An Integrated GPS/Loran Prototype Navigation System for Business and General Aviation Applications. by James Davis, Ph.D. and Steve Williams FreeFlight Systems (Waco, TX) Richard Ferrier and Linn Roth, Ph.D. Locus, Inc. (Madison, WI). GPS/WAAS Benefits vs. ILS.

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Development of An Integrated GPS/Loran Prototype Navigation System for Business and General Aviation Applications

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  1. ILA 32 (Boulder, CO) - Page 1

  2. Development of An Integrated GPS/Loran Prototype Navigation System for Business and General Aviation Applications by James Davis, Ph.D. and Steve Williams FreeFlight Systems (Waco, TX) Richard Ferrier and Linn Roth, Ph.D. Locus, Inc. (Madison, WI) ILA 32 (Boulder, CO) - Page 2

  3. GPS/WAAS Benefits vs. ILS • GPS/WAAS offers: • Primary means of navigation • More direct routes & lower MEAs • Some precision approach capability (with WAAS Classes 2 & 3) • Decommission of high cost, ground-based navigation equipment • Less onboard avionics • Increased airspace capacity ILA 32 (Boulder, CO) - Page 3

  4. Additional Benefits • Efficiency • Precision approach • Back-up for all current ILS approaches (250/¾) • Usable with advanced procedures LNAV/VNAV 350’ • WAAS RNP can provide lower minima at airport LPV 250’ ILS 200’ 3o ILA 32 (Boulder, CO) - Page 4

  5. GPS Vulnerability • Concern with GPS as sole means of navigation • “Like any radionavigation system, GPS is vulnerable to interference that can be reduced but not eliminated.” [Volpe Report (2001)] • Susceptible to unintentional disruption • Ionospheric effects, blockage from buildings, interference from narrow & wideband sources, etc. • Susceptible to intentional disruption • Jamming & spoofing of GPS signals • Disruption of GPS ground stations & satellites ILA 32 (Boulder, CO) - Page 5

  6. Mitigating GPS Vulnerability • “Utilization of backup systems and procedures to GPS in applications where the consequences of losing GPS are unacceptable will ensure optimum safety.” [Volpe Report (2001)] • Recommendations in Volpe Report: • Encourage development of aviation certifiable Loran-C receivers in the event Loran-C becomes a viable backup • Continue the FAA’s and USCG’s Loran-C modernization program until it is determined whether Loran-C has a role as a GPS backup system. • (Note: Much Loran infrastructure already in place) ILA 32 (Boulder, CO) - Page 6

  7. FAA Response • Team of academic, government, and industry personnel assembled to assess Loran • FAA Program Manager: Mitchell Narins • Determine if Loran can meet non-precision approach standards @ RNP 0.3 as well as stringent requirements for availability, integrity, and continuity • Fabrication of integrated GPS/Loran prototype navigation systems for FAA flight tests • Rockwell Collins and Locus, Inc. • FreeFlight Systems and Locus, Inc. ILA 32 (Boulder, CO) - Page 7

  8. Why Locus, Inc.? • Designs, supplies, and supports radionavigation products • SatMate is a digital, all-in-view Loran receiver • Adaptive filtering • Digital noise blanking • Realtime ASF corrections • Proprietary DSP techniques • Locus provides both E-field and H-field antennas • Combination GPS/H-field antenna for this program ILA 32 (Boulder, CO) - Page 8

  9. Why FreeFlight Systems? • Avionics products aimed primarily at aircraft other than air transport class (vs. Rockwell Collins) • FFS created in 2001 with the acquisition of the Business and Commuter Aircraft segment of Trimble Navigation • Choice supports goal of a GPS/Loran product aimed at GA aircraft, business aircraft, regional aircraft, etc. • Product range includes FAA-certified GPS/WAAS • WAAS Class 1: Non-precision approach (LNAV) • WAAS Class 2: LNAV/VNAV (VPL = 50 m) • WAAS Class 3: GLS (VPL = 12 m) ILA 32 (Boulder, CO) - Page 9

  10. FreeFlight Systems & Locus Effort • Development of a two-unit, prototype integrated GPS/Loran system using 3 principal components: • FreeFlight Model 2101 Approach Plus GPS/WAAS Navigation System • Locus Beta-2 prototype SatMate 1030 Loran Receiver System • AeroAntenna GPS patch antenna and a SatMate H-Field Loran antenna contained in an Bendix-King ADF radome for flight test • Also, software, integration, and test effort. ILA 32 (Boulder, CO) - Page 10

  11. Model 2101/SatMate Prototype ILA 32 (Boulder, CO) - Page 11

  12. SatMate modified to incorporate: Real-time ASF corrections for improved accuracy, availability, and continuity Automated GRI and navigation station selection Digital front-end to enable adaptation to changes in RF environment Model 2101 modified to: Provide front-panel GPS/SatMate control Accommodate SatMate output at 115 KBaud Provide WAAS-Class 1 accuracy Vert/Horiz CDI added for realtime, simultaneous monitoring & comparison of GPS and Loran cross-track course deviations H-field and GPS antennas in radome housing H- vs E-field: P-static immunity, higher SNR, lower ECD, no GND GPS/Loran Features ILA 32 (Boulder, CO) - Page 12

  13. Scatter Plot for Antenna Rotation • Loran scatter plot for antenna rotated 360o (vertical centerline) • Data relevant to aircraft turns • Black - Early antenna • Excursion~165 ft (max 240 ft) • Green-New GPS/H-field antenna • Loran preamp update, better H-field antenna tuning, and better QA of ferrite rod & cables • Excursion ~ 65 ft • If Loran chains better controlled, excursion < 12 ft ILA 32 (Boulder, CO) - Page 13

  14. Two-pass CW Auto Driving Test • Using GPS/H-field antenna • Yellow trace: GPS baseline • Black trace offset towards bottom of the plot: • Loran data w/o ASF corrections • Black trace more closely aligned with the GPS track: • Loran data corrected on-the-fly with ASF corrections stored on a flashcard inside the SatMate • ASF values previously gathered at Locus facility in Madison ILA 32 (Boulder, CO) - Page 14

  15. Future Effort (Phase II) • Proposal submitted to FAA on 22 August 2003 • GPS/WAAS and Loran combined in a single Dzus-mount enclosure (cf. Model 2101, but 1-7/8” higher) • Capability to simulate loss of WAAS coverage, loss of GPS integrity, and total loss of GPS enables assessment of Loran as a back-up to GPS • Multiple navigation solutions with goal of RNP 0.3 accuracy & integrity • GPS only • Loran only • Integration of GPS and Loran position & integrity data ILA 32 (Boulder, CO) - Page 15

  16. Acknowledgement • Contract DTFA01-98-C-00061 • Task Order #048 (currently at MOD 011) • “Development of Prototype H-Field Electronics and Software for Initial FAA Flight Tests” • Sponsorship • FAA Navigation & Landing IPT, AND-700 • FAA Navigation & Landing Team, AND-740 ILA 32 (Boulder, CO) - Page 16

  17. References • Enge and van Graas, “Chapter 6 - Integration of GPS and Loran-C”, Global Positioning System: Theory and Applications Vol. II (ed. by Parkinson, et.al.), AIAA (1996) pp. 169-186. • Roth, Doty, & Hwang, “GPS Safety Net”, GPS World, 14:5 (May 2003) pp. 36-40. • Roth et.al., “Performance of DSP-Loran/H-Field Antenna System And Implications For Complementing GPS”, Navigation, 49:2 (Summer 2002) pp. 81-90. ILA 32 (Boulder, CO) - Page 17

  18. FAA References • John A. Volpe National Transportation Systems Center, “Final Report - Vulnerability Assessment Of The Transportation Infrastructure Relying On The Global Positioning System” (August 29, 2001) 113 pages. (http://www.navcen.uscg.gov/archive/2001/Oct/FinalReport-v4.6.pdf) • FAA, “Executive Summary IRB on FAA’s WAAS” (January 18, 2001) 3 pages. ILA 32 (Boulder, CO) - Page 18

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