Nonlinear Control of Electronic Throttle Based on Backstepping Approach
Junli Wan,
Quyang Zeng,
Shiyun Cheng,
Xianyong Wu
Issue:
Volume 4, Issue 1, September 2016
Pages:
1-7
Received:
16 August 2016
Accepted:
14 September 2016
Published:
20 October 2016
Abstract: In order to overcome the disadvantage of the non-linear attribute of electronic throttle and the deficiency of traditional PID controller, a control strategy is proposed based on backstepping method, in which the throttle position tracking is taken as control object, and the structure of the electronic throttle is analysed, a mathematical model of the electronic throttle is established. A backstepping controller is also designed based on Lyapunov stability theory. Step, slope and sine waves are taken as target signals respectively to complete tracking control simulation by two control strategies: PID and backstepping, the simulation result indicates that backstepping control has good dynamic characteristics, step response time is less than 100 ms and its control effect is significantly better than that of PID. In addition, PID simulation can not reflect the torque in actual system reset spring, the simulation is different with actual waveform, and the Backstepping simulation based on the control model of nonlinear system is more in line with the actual, this type of control can effectively solve the contradiction between fast response and large overshoot in time-varying non-linear system.
Abstract: In order to overcome the disadvantage of the non-linear attribute of electronic throttle and the deficiency of traditional PID controller, a control strategy is proposed based on backstepping method, in which the throttle position tracking is taken as control object, and the structure of the electronic throttle is analysed, a mathematical model of ...
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Z Transform and FDTD Method in Unmagnetized Plasma
Khitam Y. Elwasife,
Amal Y. Albatniji
Issue:
Volume 4, Issue 1, September 2016
Pages:
8-13
Received:
7 October 2016
Accepted:
28 October 2016
Published:
16 November 2016
Abstract: The Z transform is typically used in digital filtering and signal processing problems. The paper illustrates the use of the Z transform in implementing the FDTD method where it is useful to avoid dealing with convolution integral in the time domain by going immediately to Z domain. This work study the pulse propagation in free space that comes upon a plasma. Plasma is very interesting medium and the results illustrated that at low frequencies, it looks like a metal, and higher frequency, it become transparent just like a dielectric medium.
Abstract: The Z transform is typically used in digital filtering and signal processing problems. The paper illustrates the use of the Z transform in implementing the FDTD method where it is useful to avoid dealing with convolution integral in the time domain by going immediately to Z domain. This work study the pulse propagation in free space that comes upon...
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