Global ETD Search

11	Biodynamic Modeling and Analysis of Motor Vehicle Rollover Occupants Zhang, Yong 01 July 2004 (has links) No description available. Engineering, Mechanical Biodynamic Modeling Vehicle Occupants Rollover
12	A study of the properties that influence vehicle rollover propensity Whitehead, Randall John Bevly, David M. January 2005 (has links) (PDF) Thesis(M.S.)--Auburn University, 2005. / Abstract. Includes bibliographic references.
13	A study of vehicle properties that influence rollover and their effect on electronic stability controllers Lambert, Kenneth Drew, Bevly, David M. January 2007 (has links) (PDF) Thesis(M.S.)--Auburn University, 2007. / Abstract. Vita. Includes bibliographic references.
14	Y2K AND GPS WNRO: A FITTING FINALE TO THE SECOND MILLENNIUM Claflin, Ray, III 10 1900 (has links) International Telemetering Conference Proceedings / October 23-26, 2000 / Town & Country Hotel and Conference Center, San Diego, California / This paper discusses the successful passage past the Year 2000 (Y2K) Rollover and GPS 1999 (Week Number Roll Over) WNRO. The reasons the glitches seen at those events were relatively minor and the lessons learned to help enter the Third Millennium with careful optimism are reviewed. Y2K Millennium Rollover GPS Week Number Roll Over WNRO
15	The Simulation and Analysis of Steering Performance of a Tricycle for the Disabled Wu, Wen-Jie 19 July 2007 (has links) This study investigated the rollover behaviors in turning of the tricycle with two front wheels and one rear wheel by neural paralysis. According to the analysis, the researcher fixed radius of gyration and made ride in steady-state turning to obtain the rollover threshold speed of the tricycle. Then we drew different parts of the rollover behaviors with a compuer program, Solidworks. We also decided the steering mechanisms sizes with VB.NET. In Automatic Dynamic Analysis, the researcher identified the rollover problems of the tricycle with the of Mechanical System software (ADAMS). During the researcher, we obtained the highest rollover threshold speed value of the sampling tricycle, and then we adjusted the width, the length of the tricycle. Later on, we adjusted the mass center height of human sizes and the initial rollover threshold speed the tricycle. After getting the best range of rollover threshold speed of the tricycle, the researcher decided appropriate length and height of the bicycle. Finally, we compared rollover behaviors of several different size of new tricycles with the sampling tricycle. neural paralysis rollover behaviors steering mechanisms Adams tricycle
16	Omrol van veldvoertuie Uys, Barend Petrus. January 2007 (has links) Thesis (M.Eng. (Mechanical and Aeronautical Engineering)) -- University of Pretoria, 2008. / Includes bibliographical references.
17	Struktuurintegriteit van bakkie-kappies tydens omrolongelukke Honiball, E. J. January 1999 (has links) Thesis (M. Eng. (Mechanical))--Universiteit van Pretoria, 1999. / Summaries in English and Afrikaans. Includes bibliographical references.
18	Implementing and studying the effects of a roll stability system in heavy vehicles using a moving simulator / Implementering samt undersökning av nyttoeffekter av ett rollstabiliseringssystem hos tunga fordon i en rörelsesimulator Pettersson, Ulrika January 2010 (has links) This thesis presents the making and the implementation of a roll stability system for a simulator truck. The purpose of the system is to prevent rollover. The making of the system consists of three parts; calculating the roll angle, calculating a rollover index and constructing the control system. The roll angle was calculated using a one degree of freedom model of the truck with the measured lateral acceleration as input signal. Using the roll angle and the roll rate, a rollover index was calculated. The controller made the truck brake to avoid the impending rollover when the rollover index was at a critical point. The benefits of the system were measured by conducting a study in which test persons drove the simulator truck both with the stability system switched on and switched off. The scenario in the study was carefully constructed so that it would test the system thoroughly. The results were not unambiguous, in some situations the roll stability system prevented roll over, but in others it had the opposite effect. / I den här examensarbetesrapporten presenteras ett rollstabiliseringssystem för tunga fordon framtaget på VTIs (Statens väg- och transportforskningsinstitut) begäran. Systemet ska användas i VTIs simulator och det ska förhindra att fordonet välter. Utvecklingen av systemet kan delas in i tre större områden; beräkning av fordonets rollvinkel, framtagandet av ett rolloverindex samt skapandet av en regulator. Rollvinkeln är framtagen utifrån en lastbilsmodell med en frihestgrad, och skattades utifrån den mätta sidoaccelerationen. Rollhastigheten i sin tur skattades utifrån rollvinkeln. Ett rolloverindex som anger risken för vältning i varje ögonblick räknades fram med hjälp av rollvinkeln och rollhastigheten. Då indexet indikerar att vältning är nära aktiveras ett reglersystem. Detta system bromsar in lastbilen för att minska vältrisken. Examensarbetet avslutades med en studie utförd i simulatorn där försökspersoner körde både med och utan stabiliseringssytemet inkopplat. Scenariot i studien var speciellt utformat för att testa stabiliseringssystemet. Resultaten var inte entydiga, stabiliseringssystemet hjälpte i vissa situationer men i andra hade det motsatt effekt och fick lastbilen att välta snarare än att förhindra vältningen. Slutligen utvärderades nyttoeffekterna av det framtagna systemet. rollover roll stability simulator Information Systems
19	Evaluating the Effectiveness of Electronic Stability Systems in Reducing Truck Rollovers Donoughe, Kelly Marie 19 January 2011 (has links) The objective of this research is to develop a customized hardware-in-the-loop system that is used to test Electronic Stability Program (ESP) systems to prevent heavy truck rollovers when navigating horizontal roadway curves. While most of the published literature on electronic stability control focuses on the effectiveness of stability systems in passenger cars, very few researchers have considered its application as it pertains to commercial vehicles. Detailed crash data that have been extracted from the crashes that are represented in the Large Truck Crash Causation Study database have been used to draw conclusions regarding the main cause of the crashes and the geometry of the road upon which the crashes occurred. Those crash scenarios were run through a hardware-in-the-loop system that communicates between the TruckSim software, a vehicle dynamics based simulation program, and a real-time tractor-trailer braking rig. The simulations were first run without the ESP enabled to determine the critical speed which will cause the truck to roll, then the same simulation runs were executed with the Bendix stability system enabled to determine the difference in speeds in which a rollover is inevitable with and without the technology. A third speed that represents the lowest speed in which the stability system activates was also determined. As requested by the National Highway Traffic Safety Administration (NHTSA), this study also serves as a comparison between the Bendix system and the Meritor WABCO system which has already been tested by the University of Michigan Transportation Research Institute. / Master of Science electronic stability control hardware-in-the-loop truck rollover TruckSim
20	Design of a Portable Tire Test Rig and Vehicle Roll-Over Stability Control Fox, Derek Martin 21 January 2010 (has links) Vehicle modeling and simulation have fast become the easiest and cheapest method for vehicle testing. No longer do multiple, intensive, physical tests need be performed to analyze the performance parameters that one wishes to validate. One component of the vehicle simulation that is crucial to the correctness of the result is the tire. Simulations that are run by a computer can be run many times faster than a real test could be performed, so the cost and complexity of the testing is reduced. A computer simulation is also less likely to have human errors introduced with the caveat that the data input into the model and simulation is accurate, or as accurate as one would like their results to be. Simulation can lead to real tests, or back up tests already performed. The repeatability of testing is a non-issue as well. Tire models are the groundwork for vehicle simulations and accurate results cannot be conceived without an accurate model. The reason is that all of the forces transmitted to and from the vehicle to the ground must occur at the tire contact patches. This presents the problem of obtaining a tire model. Tire companies do not readily give out tire data since the tire industry is still as much "black art" as it is science. For tire data one must begin with a testing apparatus. The test rig must be accurate and must have been validated before results can be used. This thesis presents the process of the design and construction of a portable tire test rig. It then will discuss tire testing procedures and validation techniques. The resulting data shows good correlation between test data and known tire test data from flat track testing provided by a tire manufacturer. Then, a simple rollover study of a military truck will be compiled in TruckSim. Lastly, a control method for the rollover case will be designed and implemented. The results of the roll control simulation are positive. The study shows an increase in dynamic roll stability due to the implementation of the control algorithm. / Master of Science Vehicle Rollover Mitigation Techniques Portable Tire Test Rig

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