1 general aviation multi-view synthetic vision display for the quarterly review of the nasa/faa...
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General Aviation Multi-View Synthetic Vision Display
For the Quarterly Review of the NASA/FAA Joint UniversityProgram for Air Transportation Research
Friday, October 24th 2003
Jahnavi ChakrabartyMichael Braasch
Avionics Engineering CenterOhio University, Athens
Project Sponsor: NASA/FAA Joint University Program
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Introduction
• “Safe is not the equivalent of risk free.” U.S Supreme Court,1972.
• General Aviation instrumentation has undergone little change over the last 50 years.
• Wide variation between the commercial and GA fleet due to the following reasons:1. Large range of operations with reduced regulation and minimal infrastructure.2. Large discrepancy in training; flights predominantly single pilot.3. More take-offs and landings per hour; highest risk phases of any flight.4. Responsibility of safety primarily on the pilot.5. Spatial disorientation due to lack of situational awareness.
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Multi View Display ArchitectureConsists of:
1. GPS Unit a. GPS Antenna b. GPS Receiver2. AHRS3. Data Processing Computer4. Right Display System
a. Right Synthetic Vision System b. Terrain Database
5. Forward Display System a. Forward Synthetic Vision System
b. Terrain Database
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Equipment Installation
NovAtel GPS receiver capable of providing independent position and velocity estimates up to 20 times per second.
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The AHRS Unit
AHRS capable of providing roll, pitch, and yaw at 60 Hz.
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Data Processing Computer
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Forward Looking Display
Panel Mounted Display Panel Mounted Display Stowed
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Right Looking Display
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Panel Mounted vs Head-up Display
• Initial configuration was a Head-up Mounted Display
• Provided the Pilot with a “Out of the Window” View
• Changed to the Panel Mounted Display due to the following benefits:
a. Installation
b. Usability
c. Power consumption
d. Cost
e. Safety
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Peripheral Vision Horizon Display (PVHD)
• PVHD is an Expanded Artificial Horizon Line produced by Sweeping a Red Laser across the Instrument Panel in front of the Pilot
• Manufactured by Garrett Manufacturing Limited of Toronto, Canada.
• Reduction in the severity of the Spatial Disorientation.
• The Instrument Panel becomes the Stable Reference and the Artificial Horizon is regarded as the Moving Object.
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Advantages of the PVHD
• For the F-111, with plenty of instrument panel available, the PVHD appeared quite compatible
• Less Likelihood of the Perpetual Reversal of Roll Information from the Standard Artificial Horizon
• The PVHD would serve as an Orientation Device and Visual Workload Reduction Device
• Detection of the Aircraft Movements and bring the pilots’ attention to the Attitude Indicator (AI)
• Certain deviations in certain flight parameters (e.g., heading and rate of climb errors) were reduced with the PVHD
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Disadvantages of the PVHD
• Bright Dots are Substituted for the Horizon at Lower Power Settings
• For the F-15, there were Occasional Annoying Canopy Reflections
• PVHD did not show up when Projected onto Multifunction Display (MFD) Surfaces
• Was Useful Only as a Head-Down Display when Projected below the HUD Control Panel
• When aimed too low, the PVHD struck the Pilot’s Knees
• With the Upper Display Area, PVHD caused Major Reflection in the Pilots’ Eyes
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Disadvantages of the PVHD (Continued)
• For the RF-4C aircraft; too Dim for Effective use in any form of Daylight
• “Pendulum Effect” was Observed in the Roll if Display Repositioned in Pitch at other than its Center
• The PVHD uses a Red Laser. Red laser Signifies Danger
• Motion of the Display Unnecessarily drew the Pilot’s Attention
• Awareness of Peripheral Information was less likely under a High Workload
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Flight Tests
• Two Flight Tests Performed at the UNI Airport- Albany, Ohio
• First Flight Test was Conducted at 12.15 hrs on 10th September, 2003
• Forward Looking Display unreadable due to Glare Conditions in Sunlight
• Second Flight Test was Conducted on the 17th September, 2003
• Four Right Traffic Patterns were Flown to Evaluate the GASVD
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Flight Test (During Right Turn)
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Flight Test (During Low Approach)
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Right Looking Display (Downwind Leg of Right Traffic Pattern)
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Right Looking Display (Crosswind Leg of Right Traffic Pattern)
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Right Traffic Patterns Flown by the Piper Saratoga
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Pitch, Pseudo-Roll and Ground Track of the Flight Path
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Conclusions
• Provided Accurate Attitude Information and greatly increased Spatial Orientation
• Discrepancy in the Image Size in the Right Looking Display due to increased Peripheral Information
• Very Useful as a Secondary Instrument for Providing Situational and Spatial Awareness
• Parts of the Aircraft (i.e. nose, wing tip) could be included in the Display for Greater Adherence to the Real World
• Placement of LCD Screens within the Instrument Panel to Protect Against Glare from Outside Light Sources
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Future Work• To have a Left, Right, Forward Looking Display for Increased
Spatial Awareness
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Future Work (Continued)
• Possible Mounting of all the Three Displays on the Front Panel
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Future Work (Continued)
• Provision of a Bird’s-Eye-View.
• Integration of all the Software onto one Computer.
• Incorporation of the Forward-Looking Display on a Wearable Computer (e.g. Helmet Mounted Displays).
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References• 1999 Nall Report, AOPA Air Safety Foundation.
http://www.aopa.org/asf/publications/99nall.html
• Snow, M.P., Head Up synthetic Vision Displays for prevention of spatial disorientation, Air Force Research Laboratory. November, 2002.
http://www.spatiald.wpafb.af.mil/RecentTrends.aspx
• Hofsten, C.V., Eriksson, L., Using the peripheral visual field for spatial orientation. , FOA Defense Research Establishment, Uppsala University.http://www.spatiald.wpafb.af.mil/RecentTrends.aspx
• Policy and Procedures for Flight Operations, Avionics Engineering Centre, Ohio University, May, 2003.
• Hameluck, D., and Stager, P. (1987b). The Peripheral Vision Horizon Display: A Review. In R.S. Jensen (Ed.), Proceedings of the Fourth International Symposium on Aviation Psychology, (pp 51-57). Columbus, OH : The Ohio State University , Department of Aviation.
• McNaughton, G.B. (1983). Personal experience with the PVHD and opinion of situations in which a wide filed of view might be helpful. Proceedings of NASA Conference on Peripheral Vision Horizon Display (PVHD) – Corrected Copy (NASA CP -2306) (pp. 1-9) Edwards AFB, CA: Dryden Research Facility.
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References (Continued)
• Money, K.E. (1983). Theory underlying the peripheral vision horizon device. Proceedings of NASA Conference on Peripheral Vision Horizon Display (PVHD) – Corrected Copy (NASA CP -2306) (pp. 45-55) Edwards AFB, CA: Dryden Research Facility.
• Hameluck, D., and Stager, P. (1987a). Instrument Scanning and Subjective Workload with the Peripheral Vision Horizon Display. Report prepared for the Defense and Civil Institute of Environmental Medicine, Toronto, under Contract no. W7711-6-9116/01-SE from the Department of Supply and Services.
• Nims, D.F. (1983). Peripheral Vision Horizon Display on the Single seat Night Attack A-. Proceedings of NASA Conference on Peripheral Vision Horizon Display (PVHD) – Corrected Copy (NASA CP -2306) (pp. 89-96) Edwards AFB, CA: Dryden Research Facility.
• Hammond, L.B., Jr. (1983). Peripheral Vision Horizon Display testing in an RF-4C aircraft. Proceedings of NASA Conference on Peripheral Vision Horizon Display (PVHD) – Corrected Copy (NASA CP -2306) (pp. 97-102) Edwards AFB, CA: Dryden Research Facility.
• Assenhein, H.M., Peripheral Vision Displays – The Future. Proceedings of NASA Conference on Peripheral Vision Horizon Display (PVHD) – Corrected Copy (NASA CP -2306) (pp. 117-124) Edwards AFB, CA: Dryden Research Facility.
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References (Continued)• Burch, D., Braasch, M. , Multi -View Head – Up Synthetic Vision Display system.
2003 IEEE Aerospace Conference paper#1020, October 10, 2002.
• Burch, D., Braasch, M. , Enhanced Head-UP Display: Implementation of a Cost Effective Head-Up Display for General Aviation Aircraft, 2002 NASA Student Competition for the Small Aircraft Transportation System (SATS).
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Contact Information
• Graduate Research Associate:
Jahnavi Chakrabarty
• Principal Investigator:
Dr.Michael Braasch
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Questions