| 1. | Calculation for speed of braking vehicle with abs
汽车防抱制动系统制动时的车速计算 |
| 2. | Application and development of the anti - lock break system
汽车防抱制动系统的应用及发展 |
| 3. | Simulation research on abs self - optimizing control method
防抱制动系统自寻优控制的仿真研究 |
| 4. | Simulation of hydraulic anti - lock braking system based on pc
液压防抱制动系统计算机模拟试验研究 |
| 5. | Rwal rear wheel anti - lock brake
防抱制动 |
| 6. | Antilock braking performance and test procedure for motor vehicles and their trailers
机动车和挂车防抱制动性能和试验方法 |
| 7. | The dynamics model which is built in this thesis is helpful for the vehicle design and abs developing
同时,在此基础上可以进一步对该车型的防抱制动系统进行开发研究。 |
| 8. | In this dissertation , fuzzy control theory application on automotive anti - lock system is studied , based on combination of automotive theory and fuzzy control theory
本文从车辆理论和模糊控制理论入手,将两者相结合,对模糊控制理论在汽车防抱制动系统( abs )上的应用进行了研究。 |
| 9. | Through the computer simulation , compares braking performance with and without abs , discusses the main factors which influence the performance of abs , finds suitable control logic , threshold values for this kind of vehicle
通过计算模拟,比较了常规制动与防抱制动的不同效果,探讨了影响abs性能的主要因素,找出了适合该车的控制逻辑、门限值。 |
| 10. | Anti - lock braking system ( abs ) is a kind of equipment , which can adjust the braking force automatically , avoiding the lock - up of wheels . it can provide directional stability and steer ability of vehicles and also enhance the braking safety
防抱制动系统( abs )是一种在制动时能自动调节制动管路压力,使车轮不致抱死,以提高汽车行驶稳定性和制动安全性的制动力调节系统。 |
