Browsing by Subject "Truck safety"

Now showing 1 - 3 of 3
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    Autonomous Vehicle Guidance Evaluation
    (Minnesota Department of Transportation, 1995-03) Shankwitz, Craig; Donath, Max
    This report provides an overview of autonomous vehicle technology, specifically focusing on sensing and control technologies. It resulted from safety issues at the Mn/ROAD high-load, low-volume pavement test facility. Appropriate technology helps ensure the safety of the truck driver that provides loads to the pavement and the safety of traffic on 1-94. Researchers currently are working to provide a semi tractor capable of driver-supervised autonomous operation at the Mn/ROAD facility. Such a driver-supervised system will allow the truck driver to monitor the operation of the automatic control system actively guiding the truck and will allow the driver to take control from the control computer when desired.
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    Collision Avoidance: Smart Trucks on Rural Roads
    (Minnesota Department of Transportation, 1995-03) Shankwitz, Craig; Donath, Max
    With interest in collision avoidance technology for highway vehicles on the rise, this report presents an overview of current collision avoidance technology, the technical work required to bring these systems to a commercially viable product, and the societal issues that need addressing before wide-scale deployment can occur. Many questions remain about the benefits of deploying such systems, the costs, the effect of these systems on drivers, and the steps necessary to effectively regulate vehicles equipped with such systems. In addition to technical aspects, the report also discusses the issues that society will face during development and deployment of these systems, which may prove bigger impediments to deployment than technical issues. The report also recommends a research plan to perform fair, unbiased evaluations of emerging collision avoidance technology.
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    Safetruck: Sensing and Control to Enhance Vehicle Safety
    (Minnesota Department of Transportation, 1997-12) Alexander, Lee; Bajikar, Sundeep; Lim, Heon-Min; Morellas, Vassilios; Morris, Ted; Donath, Max
    This report summarizes the work performed during the 18-month period ending in December 1997. Researchers investigated the use of differential global positioning systems (GPS), inertial measurement, and other sensing technologies as the basis of a system that would prevent crashes. Such a system attempts to control the vehicle if it leaves the lane because the driver is incapacitated. The report includes in its appendices related work on driver fatigue and a bibliography on the effect of drugs and alcohol on driving behavior. The long-term goal of this research involves development of a "driver-centered" vehicle control system capable of providing lane-keeping feedback to the driver, and, ifnecessary, of imposing aggressive intervention strategies to take over control of the vehicle, steer it to a safe position on the shoulder, and stop it. This research also targets the development of "driver assistive" technologies--such as Heads Up Display and torque feedback supplied by the steering wheel--which provide information to the driver without necessarily requiring computer control of the vehicle. The highlight achievement during this funding period has been the successful demonstration of a GPS-based automated lane-keeping mode of a tractor-trailer on the Minnesota Road Research Project (Mn/ROAD) test track. The report concludes with a strategy for pursuing future deployment.