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A Ground Vehicle Simulation Design To Study Driver Display Concepts (IVSS-2003-MAS-02) for: 3rd Annual Intelligent Vehicle Systems Symposium National Defense.

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Presentation on theme: "A Ground Vehicle Simulation Design To Study Driver Display Concepts (IVSS-2003-MAS-02) for: 3rd Annual Intelligent Vehicle Systems Symposium National Defense."— Presentation transcript:

1 A Ground Vehicle Simulation Design To Study Driver Display Concepts (IVSS-2003-MAS-02) for: 3rd Annual Intelligent Vehicle Systems Symposium National Defense Industrial Association June 9-12, 2003 AnnMarie Meldrum, Victor Paul, Al Reid, Harry J. Zywiol, Jr. US Army TACOM-TARDEC National Automotive Center (NAC) Ground Vehicle Simulation Laboratory (GVSL)

2 Background and Goal Simulation Design Requirements Simulation Design Features Conclusions Briefing Outline

3 Background -Increased fidelity and use of Driving Simulators -New vehicle designs are exploring advanced driving interfaces (displays, controls, information) Current Effort - Design a virtual motion simulation to enable - trade studies - supplement Crew station tech demos(e.g. FTTS, CAT) …that models the ground vehicle dynamics environment. Goal -Satisfy FCS, Objective Force mobility, human factors requirements -“operate on-the-move” (tele-ops, C2, increased op tempo) -“function without adverse physical effects” (mitigate sickness, info overload)

4 Simulation Design Requirements Displays – mimic two-man crew, head mounted & flat panel Motion – full 6 DOF Protocol – Design of Experiments (DOE) Console – wheeled vehicle with control loading Vehicle Dynamics – multi-body, Stryker design Database – turns, hills, cross-country Audio – own vehicle sounds Data Acquisition – to enable results of trades

5 Simulation Design Features Cab display Console Symbology Terrain/database 3-panel, 120x30 FOV, 21 inch Steering loader, brake, accel, gear Heading, speed, gear Integrated with display Roads, turns, features

6 Simulation Design Features (Cont’d) HMD Head Trackers(2) Vehicle Dynamics Motion Base, Audio COTS, Kaiser ProView™, XL 50, 40x30 FOV Multi-body, reacts to terrain and driver inputs COTS, InterSense InertiaCube™ Mounted on head and motion base Full 6-DOF, motion, audio cues

7 Experiment Protocol Design of Experiments Two fixed factors – HMD versus flat panel Analysis - Independent variables: Fixed factorial, repeated measures 2x4x2 (displays x vibration levels x course segments) Dependent variables: road following, speed, long and lat acceleration, steering wheel reversals, questionnaire ratings 12 subjects, civilian local population Separate Multivariate ANOVAs - Vibration and course segments Questionnaires(9) ANOVA Determine influence of displays, vibration, course on driver performance.

8 Conclusions Experiment not yet conducted (stay tuned) Simulation design set up for vehicle/crew-station trade studies -Effects of Active, Passive Suspension, hybrids on Crew Performance -Joystick, yoke, steering wheel controls…feed-through vibration, and road feel characteristic settings? -Optimum display design – what data & information to display, how to best render data – to make informed decisions -Optimize camera locations -Relatively? easy to modify simulation for tele-operations, UGV studies

9 For further information on this or any other GVSL products: Harry J. Zywiol, Jr. Team Leader, Motion Base Technologies TACOM-TARDEC 6501 E. Eleven Mile Road Warren, MI 48397-5000 AMSTA-TR-N MS: 157, Bldg 215 586-574-5032 zywiolh@tacom.army.mil http://www.tacom.army.mil/tardec/nac/teams/mbt/overview.htm

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