Article: Development of anti-lock braking traction and control systems of the Advanced Technology Demonstrator II using DADS simulation code Journal: International Journal of Vehicle Design (IJVD) 1996 Vol.17 No.3 pp.295 - 317 Abstract: The Advanced Technology Demonstrator II is an enhanced military five-tonne truck. Fully independent suspension, anti-lock braking, traction control and automatic transmission are just some modifications made to improve the vehicle|s performance. The objective of this study was to develop a computer model of the Advanced Technology Demonstrator II using the DADS simulation code. The model consisted of kinematic and controls parts. The kinematic part ensured model assembly which provided proper motion between the bodies. This motion was achieved and presented through suspension and steering designs. The control part of the model regulated motion of the bodies. The anti-lock braking system (ABS), traction control system (ATC), steering system control, regular brakes and regular traction are available control algorithms in the model. Analysis of the model focused on improvements made by implementing ABS and ATC. By controlling wheel slip near the peak of a µ vs. wheel slip curve, braking manoeuvres with active ABS showed improvements in stopping distance and time. The operating wheel slip in the desired range during traction manoeuvres provided maximum traction effort. The model with ATC system active reached a desired velocity in a much shorter time-frame than the one equipped with the regular traction system. On low µ surfaces, the advantage of ATC is even more emphasized. Inderscience Publishers - linking academia, business and industry through research

Title: Development of anti-lock braking traction and control systems of the Advanced Technology Demonstrator II using DADS simulation code

Authors: W.W. Olson, D. Milacic

Addresses: Michigan Technological University, College of Engineering, Dept. of Mechanical Engineering and Engineering Mechanics, Houghton, Michigan 49931, USA. ' Michigan Technological University, College of Engineering, Dept. of Mechanical Engineering and Engineering Mechanics, Houghton, Michigan 49931, USA

Abstract: The Advanced Technology Demonstrator II is an enhanced military five-tonne truck. Fully independent suspension, anti-lock braking, traction control and automatic transmission are just some modifications made to improve the vehicle|s performance. The objective of this study was to develop a computer model of the Advanced Technology Demonstrator II using the DADS simulation code. The model consisted of kinematic and controls parts. The kinematic part ensured model assembly which provided proper motion between the bodies. This motion was achieved and presented through suspension and steering designs. The control part of the model regulated motion of the bodies. The anti-lock braking system (ABS), traction control system (ATC), steering system control, regular brakes and regular traction are available control algorithms in the model. Analysis of the model focused on improvements made by implementing ABS and ATC. By controlling wheel slip near the peak of a µ vs. wheel slip curve, braking manoeuvres with active ABS showed improvements in stopping distance and time. The operating wheel slip in the desired range during traction manoeuvres provided maximum traction effort. The model with ATC system active reached a desired velocity in a much shorter time-frame than the one equipped with the regular traction system. On low µ surfaces, the advantage of ATC is even more emphasized.

Keywords: antilock braking systems; ABS; braking force; traction force; computer modelling; traction control; wheel slip; vehicle design; military trucks; heavy vehicles; automatic transmission; simulation; steering control.

DOI: 10.1504/IJVD.1996.061963

International Journal of Vehicle Design, 1996 Vol.17 No.3, pp.295 - 317

Published online: 28 May 2014 *

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Title: Development of anti-lock braking traction and control systems of the Advanced Technology Demonstrator II using DADS simulation code

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