Датчики в «интеллектуальных системах» автомобильной шины

Автор: Бойцев Андрей Владимирович

Журнал: Технико-технологические проблемы сервиса @ttps

Рубрика: Диагностика и ремонт

Статья в выпуске: 1 (31), 2015 года.

Бесплатный доступ

В работе рассмотрены существующие методы получения информации о состоянии пневматического колеса с помощью различных датчиков. Изложены требования к “интеллектуальным” системам шин.

Датчик, пневматическое колесо, системы управления, "интеллектуальная" система

Короткий адрес: https://sciup.org/148186212

IDR: 148186212

Список литературы Датчики в «интеллектуальных системах» автомобильной шины

  • Zhuang, J., Modern Vehicle Tyre Technology. 2001: Press of Beijing University of Technology.
  • Morinaga, H., Wakao, Y., Hanatsuka, Y., and Kobayakawa, A., The Possibility of Intelligent Tire (Technology of Contact Area Information Sensing), in FISITA. 2006.
  • APOLLO Project Report "Intelligent Tyre Systems -State of the Art and Potential Technologies Deliverable D7". Cyllik, A., Strothjohann, T., and Scholl, G., The 5. Mbgori, V., Magori, V.R., and Seitz, N., On-Line Determination of Tyre Deformation, a Novel Sensor Principle, in IEEE Ultrasonics Symposium 1998.
  • Tuononen, A., Optical Position Detection to Measure Tyre Carcass Deflections and Implementation for Vehicle State Estimation, in Department of Engineering Design and Production. 2009, Helsinki University of Technology: Helsinki.
  • Tuononen, A.J., Optical Position Detection to Measure Tyre Carcass Deflections. Vehicle System Dynamics, 2008. 46.
  • Yi, J., A Piezo-Sensor-Based "Smart Tire" System for Mobile Robots and Vehicles IEEE/ASME Transactions on Mechatronics, 2008. 13: p. 95-103.
  • Erdogan, G., Alexander, L., and Rajamani, R., A Novel Wireless Piezoelectric Tire Sensor for the Estimation of Slip Angle. Measurement Science and Technology, 2010. 21: p. 1-10.
  • Erdogan, G., New Sensors and Estimation Systems for the Measurement of Tire-Road Friction Coefficient and Tire Slip Variables. 2009, The University of Minnesota.
  • Cullen, J.D., Arvanitis, N., Lucas, J., and Al-Shamma'a, A.I., In-field Trials of A Tyre Pressure Monitoring System based on Segmented Capacitance Rings. Measurement, 2002. 32: p. 181-192.
  • Todoroki, A., Miyatani, S., and Shimamura, Y., Wireless Strain Monitoring using Electrical Capacitance Change of Tire: Part I-with Oscillating Circuit. Smart Materials and Structures, 2003. 12: p. 403-409.
  • Todoroki, A., Miyatani, S., and Shimamura, Y., Wireless Strain Monitoring using Electrical Capacitance Change of Tyre:Part II-Passive. Smart Materials and Structures, 2003. 12: p. 410-416.
  • Matsuzaki, R., Todoroki, A., Passive Wireless Strain Monitoring of Tyres using Capacitance and Tuning Frequency Changes. Smart Materials and Structures,2005. 14: p. 561-568.
  • Sergio, M., et al., On A Road Tire Deformation Measurement System using A Capacitive-Resistive Sensor. Smart Materials and Structures, 2006. 15: p. 1700-1706.
  • Miyoshi, A., Tsurita, T., and Kunii, M., System and Method for Determining Tyre Force, in Patent Application Publication. 2005: United States.
  • Braghin, F., et al., Measurement of Contact Forces and Patch Features by Means of Accelerometers Fixed Inside the Tire to Improve Future Car Active Control. Vehicle System Dynamics, 2006. 44,Supplement: p. 3 -13.
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