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This research was performed using a designed experiment to evaluate the loss of dry surface braking performance and stability that could be associated with the disablement of specific brake positions on a tractor-semitrailer. The experiment was intended to supplement and update previous research by Heusser, Radlinski, Flick, and others. It also sought to establish reasonable limits for engineering estimates on stopping performance degradation attributable to partial or complete brake failure of individual S-cam air brakes on a class 8 truck. Stopping tests were conducted from 30 mph and 60 mph, with the combination loaded to GCW (80,000 lb.), half-payload, and with the flatbed semitrailer unladen. Both tractor and semitrailer were equipped with antilock brakes. Along with stopping distance, brake pressures, longitudinal acceleration, road wheel speed, and steering wheel position and effort were also recorded.

Pedestrian vehicle accidents account for a considerable proportion of all automobile related injuries and deaths each year. Due to the large difference in mass between the pedestrian and the vehicle, pedestrian injury reduction is a formidable task. In spite of these difficulties, world attention is beginning to focus on pedestrian injuries and methods to quantitatively evaluate a vehicle for its pedestrian injury potential. This paper reviews the status of work in the United States on devices and methods for measuring pedestrian impact response. Where data is available test device response is summarized. The state of pedestrian accident research is also reviewed in the light of national and International interest in reducing pedestrian injuries.

This paper presents an overview of the evolution of computer simulations in vehicle collision and occupant kinematic reconstructions. The basic principles behind these simulations, the origin of these programs and the evolution of these programs from a basic analytical mathematical model to a sophisticated computer program are discussed. In addition, a brief computer development history is discussed to demonstrate how the evolution of computer assisted vehicle accident reconstruction becomes feasible for a reconstructionist. Possible future research in computer reconstruction is also discussed.