Presentation is loading. Please wait.

Presentation is loading. Please wait.

1 11 1 Design Development of the General Aviation eHUD Flight Display For the Quarterly Review of the NASA/FAA Joint University Program for Air Transportation.

Published byHarold Malone Modified over 9 years ago

Similar presentations

Presentation on theme: "1 11 1 Design Development of the General Aviation eHUD Flight Display For the Quarterly Review of the NASA/FAA Joint University Program for Air Transportation."— Presentation transcript:

1 1 11 1 Design Development of the General Aviation eHUD Flight Display For the Quarterly Review of the NASA/FAA Joint University Program for Air Transportation Research Thursday January 10 th, 2002 Presented By: Douglas Burch Principal Investigator: Dr. Michael Braasch Avionics Engineering Center Ohio University, Athens Project Sponsor: Joint University Program

2 2 Introduction General Aviation Instrumentation has undergone little change in the past 50 years. In 1999, 73% of the fatal accidents were caused by night Instrument Meteorological Conditions (IMC). IFR traffic is expected to increase by 2.5 percent per year over the next decade. Increase in IFR traffic might lead to a possible increase in GA accidents.

3 3 Overview Motivation Behind eHUD Pseudo-Attitude Determination Current eHUD System Overview Flight Tests Data Comparison, 5 Hz vs. 20 Hz Pseudo-Attitude Demonstration Future Work

4 4 Motivation Behind eHUD Provide Visual Cues in IMC. Increase Situational Awareness in IMC. Reduce pilot training and recurrency requirements for flight in IMC. Keep the pilot looking out the window at the same time they are flying the instrument approach. Cost effective Head-Up Display.

5 5 Attitude Traditional Attitude: Three GPS Receivers, three Antennas. Expensive and Computationally Intensive. Pseudo-Attitude (Velocity Vector Based Attitude): Observable from a single GPS antenna. Cost effective to purchase and install. The Merriam-Webster Dictionary defines attitude as the position of an aircraft or spacecraft determined by the relationship between its axes and a reference datum.

6 6 Pseudo-Attitude Determination (Velocity Vector Based Attitude Determination) Developed at the Massachusetts Institute of Technology by: Dr. Richard P. Kornfeld Dr. R. John Hansman Dr. John J. Deyst The information on the following slides, regarding Velocity Based Attitude, was taken from “The Impact of GPS Velocity Based Flight Control on Flight Instrumentation Architecture” Report No. ICAT-99-5, June 1999.

7 7 Reference Frame (North, East and the Local Vertical Down.) F NED : Earth-Fixed locally level coordinate system. N E D N × E = DN × E = D Velocity Vector V g = (V gN, V gE, V gD )

8 8 Pseudo-Attitude γ ZbZb YbYb XbXb VgVg Local Horizontal Reference Plane Flight Path Angle : γ Pseudo-Roll Angle : φ F B: Body-fixed orthogonal axes set which has its origin at the aircraft center of gravity. φ GPS Antenna

9 9 Modifications to the eHUD Phase 1: Updated GPS Receiver to a Novatel OEM4 with 20 Hz position and velocity data. Collected 35 minutes of flight data with the new receiver. Phase 2: Velocity Vector Attitude Determination algorithm was rewritten. Phase 3: An alternative display processor was developed.

10 10 10 Current eHUD Configuration GPS Antenna Novatel 20Hz Receiver GPS DATA…. 600 MHz Laptop QNX OS Head-Up Display 700 MHz Laptop Windows 2000

11 11 11 Novatel GPS Receiver Novatel 20Hz Receiver 20 Hz Velocity Data 20 Hz Position Data RS-232 serial port GPS Receiver provides position and velocity information to the real-time processor for Pseudo-Attitude Determination.

12 12 12 Position and Velocity Strings Position (BESTPOSA) GPS Sec into the Week. Latitude Longitude Height Velocity (BESTVELA) GPS Sec into the Week. Horizontal Speed (m/s) Ground Track (degrees) Vertical Speed (m/s)

13 13 13 Real Time Processor GPS DATA…. Gateway 600 MHz Laptop QNX Real-Time OS PCMCIA Card Serial/Parallel Ports The real-time processor transforms the Velocity Data into the Velocity Vector, V g = (V gN, V gE, V gD ). This is used to calculate the Flight Path Angle and the Pseudo-Roll, which are sent to the display processor along with the position information.

14 14 14 Processing GPS Data Input Buffer Read When Serial Com Interrupt is Received Incoming String is Parsed According to Type If Incoming Time-stamp Correlates to Previous GPS String’s Time-stamp Then Velocity Vector is Processed Flight Data is Sent to the Display Processor

15 15 15 Flight Data Parameters 1.Time-stamp (GPS Seconds into the Week) 2.Latitude 3.Longitude 4.Height (meters) 5.Ground Speed (m/s) 6.Ground Track (degrees) 7.Flight Path Angle (degrees) 8.Pseudo-Roll (degrees)

16 16 16 Display Processor 700 MHz Laptop Running Windows 2000 Display Written in Visual Basic Graphics Produced Using Revolution 3D Three-Dimensional representation of the outside world

17 17 17 Data Collection Flight Test Flight Test Conducted 18 Nov, 2001 Consisted of Four Touch-and-Go Landings on UNI Runway 25, Followed by Banking Maneuvers GPS Antenna Mounted Approximately Above Aircraft Center of Gravity BESTPOSA and BESTVELA GPS Strings Collected at 20Hz

18 18 18 Real-time Flight Test Conducted on 2 Jan 2002. OEM-4 GPS Receiver Connected to 600 MHz Laptop. GPS Seconds, Pseudo-Roll, and Flight Path Angle Displayed on Screen in Text Format at 5 Hz. Velocity Vector Processed Real-time.

19 19 19 Data Collection Flight Path

20 20 20 Pseudo-Attitude

21 21 21 Closer Look at the Pseudo-Roll

22 22 22 GPS Data, 5 Hz vs. 20 Hz

23 23 23 Resolution Comparison

24 24 24 Flight Test Demonstration

25 25 25 Concerns Vertical Error Inherent With GPS Augmenting System With Accurate Height Information Display Perspective The Many Human Factors Associated With Head-Up Displays

26 26 26 Future Work Keep the development of the eHUD completely in- house. Use tools that will allow us to personally develop graphical displays, projection, etc. and not depend on others to make modifications. Augment System with reliable height information. Update the Pilot Display to a modern implementation of a Head-Up Display.

27 27 27 Contact Information Research Associate: Douglas Burch douglasburch@ieee.org Principal Investigator: Dr. Michael Braasch mbraasch@oucsace.cs.ohiou.edu

28 28 28 References Kornfeld, R.P., Hansman, R.J., Deyst, J.J., The Impact of GPS Velocity Based Flight Control on Flight Instrumentation Architecture. MIT International Center for Air Transportation, Cambridge, MA. Report No. ICAT-99- 5, June 1999. Eric Theunissen. Integrated Design of Man-Machine Interface for 4-D Navigation (1997) Delft University Press, Mekelweg 4 2628 CD Delft, The Eric’s Web page: www.tunnel-in-the-sky.tudelft.nl.

Download ppt "1 11 1 Design Development of the General Aviation eHUD Flight Display For the Quarterly Review of the NASA/FAA Joint University Program for Air Transportation."

Similar presentations

1 Flight Test Instrumentation of the Ohio University Delphin Turbo Jet For the Quarterly Review of the NASA/FAA Joint University Program for Air Transportation.

1 Flight Test Instrumentation of the Ohio University Delphin Turbo Jet For the Quarterly Review of the NASA/FAA Joint University Program for Air Transportation.
1 Flight Test Instrumentation Package for the L-29 Delfin Turbojet For the Quarterly Review of the NASA/FAA Joint University Program for Air Transportation.

1 Flight Test Instrumentation Package for the L-29 Delfin Turbojet For the Quarterly Review of the NASA/FAA Joint University Program for Air Transportation.
© 2011 Autodesk Freely licensed for use by educational institutions. Reuse and changes require a note indicating that content has been modified from the.

© 2011 Autodesk Freely licensed for use by educational institutions. Reuse and changes require a note indicating that content has been modified from the.
1 General Aviation Multi-View Synthetic Vision Display For the Quarterly Review of the NASA/FAA Joint University Program for Air Transportation Research.

1 General Aviation Multi-View Synthetic Vision Display For the Quarterly Review of the NASA/FAA Joint University Program for Air Transportation Research.
1 11 1 Airborne Platform for the Evaluation of Synthetic Vision Displays and Mounting Configurations For the Quarterly Review of the NASA/FAA Joint University.

Airborne Platform for the Evaluation of Synthetic Vision Displays and Mounting Configurations For the Quarterly Review of the NASA/FAA Joint University.
Advanced Flight Display For General Aviation Aircraft: A Cost-Effective Means to Enhance Safety J. Dubinsky, M. Braasch, M. Uijt de Haag Ohio University.

Advanced Flight Display For General Aviation Aircraft: A Cost-Effective Means to Enhance Safety J. Dubinsky, M. Braasch, M. Uijt de Haag Ohio University.
Ideal Projectile Motion

Ideal Projectile Motion
EGN Introduction to Aeronautical Engineering

EGN Introduction to Aeronautical Engineering
Radio Frequency Interference Measurement System

Radio Frequency Interference Measurement System
Aerodynamic Modeling for the Ohio University UAV For the Quarterly Review of the NASA/FAA Joint University Program for Air Transportation Research Wednesday.

Aerodynamic Modeling for the Ohio University UAV For the Quarterly Review of the NASA/FAA Joint University Program for Air Transportation Research Wednesday.
Navigational Elements. Warm-Up Questions CPS Questions 1-2 Chapter 4, Lesson 1.

Navigational Elements. Warm-Up Questions CPS Questions 1-2 Chapter 4, Lesson 1.
Come Fly with Me. Trustworthy Software is: Safe: Does no harm Reliable: No crash or hang. Secure: No Hacking Possible.

Come Fly with Me. Trustworthy Software is: Safe: Does no harm Reliable: No crash or hang. Secure: No Hacking Possible.
Better Positions and Improved Access to the National Spatial Reference System  Multi-Year CORS Solution  National Adjustment of 2011  New NGS Datasheet.

Better Positions and Improved Access to the National Spatial Reference System  Multi-Year CORS Solution  National Adjustment of 2011  New NGS Datasheet.
Antenna Baseline Measurement System 29 January 2010 Mark Phillips, Research Assistant Ohio University, Athens OH Research Intern Naval Research Laboratory.

Antenna Baseline Measurement System 29 January 2010 Mark Phillips, Research Assistant Ohio University, Athens OH Research Intern Naval Research Laboratory.
Lecture III Curvilinear Motion.

Lecture III Curvilinear Motion.
Introduction What is this ? What is this ? This project is a part of a scientific research in machine learning, whose objective is to develop a system,

Introduction What is this ? What is this ? This project is a part of a scientific research in machine learning, whose objective is to develop a system,
GTECH 201 Session 08 GPS.

GTECH 201 Session 08 GPS.
Survival guide Garmin G500 / GTN650 An introduction to “new generation” avionics. Royal West Aviation Club – 30 May 2015.

Survival guide Garmin G500 / GTN650 An introduction to “new generation” avionics. Royal West Aviation Club – 30 May 2015.
Wireless Data Acquisition for SAE Car Project by: J.P. Haberkorn & Jon Trainor Advised by: Mr. Steven Gutschlag.

Wireless Data Acquisition for SAE Car Project by: J.P. Haberkorn & Jon Trainor Advised by: Mr. Steven Gutschlag.
1 11 1 Aircraft Response to Control Input Data Collection System Presenter: Curtis Cutright Advisor: Dr. Michael Braasch Project Sponsor: JUP.

Aircraft Response to Control Input Data Collection System Presenter: Curtis Cutright Advisor: Dr. Michael Braasch Project Sponsor: JUP.

Similar presentations

Ads by Google