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Speed Planning and Prompting System for Commercial Vehicle Based on Real-Time Calculation of Resistance

Journal Article
02-12-03-0013
ISSN: 1946-391X, e-ISSN: 1946-3928
DOI: https://doi.org/10.4271/02-12-03-0013
Published June 25, 2019 by SAE International in United States
Speed Planning and Prompting System for Commercial Vehicle Based on Real-Time Calculation of Resistance
Sector:
Citation: Sun, Z., Li, Z., Xia, J., and Tan, G., "Speed Planning and Prompting System for Commercial Vehicle Based on Real-Time Calculation of Resistance," SAE Int. J. Commer. Veh. 12(3):165-172, 2019, https://doi.org/10.4271/02-12-03-0013.
Language: English

References

  1. Gang , X. Temperature Threshold Analysis of a Medium Freight Car Braking System Simulating Long Downhill Continuous Brake Journal of Wuhan University of Technology (Transportation Science and Engineering Edition) 05 1069 1072+1078 2015
  2. Wei , J. 2012 91
  3. Qin , X.S. , Wang , J.B. , and Han , S. Testing of the Braking Performance for the Middle Truck Driving through the Mountain Highway Long Downhill Slope Kunming, China Trans Tech Publications Ltd. 2014
  4. Jinsong , D. et al. Study on Calculation Method of Rolling Resistance and Air Resistance Coefficient Based on Road Test Traffic Information and Security 01 75 78 2009
  5. Zongqi , H. Study on Determination of Automobile Air Resistance Coefficient by Sliding Test Automotive Technology 05 24 27 2001
  6. Bouteldja , M. , Djemai , M. , and Fridman , L. Dynamics Observation and Parameters Identification of Heavy Vehicle via Second Order Sliding Mode Mexico City, Mexico Association for Computing Machinery (ACM) 2010
  7. Shraim , H. et al. Vehicle Parameter Estimation and Stability Enhancement Using Sliding Modes Techniques International Journal of Vehicle Design 48 3-4 230 254 2008
  8. Chunmei , C. 2009
  9. Hui , J. et al. Method for Slope Identification Based on Acceleration Interval Judgment China Journal of Highway and Transport 01 122 126 2010
  10. Xu , Y. et al. Real-Time Recognition Algorithm for Longitudinal Slope Based on Vehicle Dynamics and Acceleration Sensing Information Chinese Journal of Mechanical Engineering 18 98 104 2016
  11. Ping , X. et al. On-Vehicle Engine Brake Performance Measurement System Brake Colloquium & Exhibition 2017
  12. Zhihong , W. Research on Vehicle Energy-Saving Driving Technology and Vehicle Reminder Device Southwest Automotive Information: First Half of 2011 2011
  13. Regan , M.A. et al. Impact on Driving Performance of Intelligent Speed Adaptation, Following Distance Warning and Seatbelt Reminder Systems: Key Findings from the TAC SafeCar Project IEE Proceedings: Intelligent Transport Systems 153 1 51 62 2006
  14. Xiangjun , Z. and Beibei , Z. Vehicle Sliding Test and Vehicle Resistance Coefficient Determination Automotive Practical Technology 22013 03 24 27

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