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VIT University, Chennai

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Presentation on theme: "VIT University, Chennai"— Presentation transcript:

1 VIT University, Chennai
Performance Enhancement of Electronic Differential in Electric Vehicles Using a Novel Wavelet Controller Anish Bahri, Aditya Gupta, Febin Daya J L VIT University, Chennai Presented by: Aditya Gupta IEEE - ICVES 2014

2 OUTLINE OF THE TALK Introduction Brushless DC Drive
IEEE - ICVES 2014 OUTLINE OF THE TALK Introduction Brushless DC Drive Electronic Differential Wavelet Controller Results and Discussions Conclusion References

3 INTRODUCTION IEEE - ICVES 2014 1. Differential: prevents vehicle from slipping on curved roads. 2. Electronic differential: Advanced Differential for: *better stability *better control on curved roads.

4 IEEE - ICVES 2014 3. Electronic differential- Control of PID controlled BLDC Drives 4. In this work- Replacement of PID with Wavelet controller. Comparison of simulation results through MATLAB/Simulink.

5 Fig. Block Diagram of BLDC Drive
IEEE - ICVES 2014 BRUSHLESS DC DRIVE Fig. Block Diagram of BLDC Drive

6 ELECTRONIC DIFFERENTIAL
IEEE - ICVES 2014 ELECTRONIC DIFFERENTIAL

7 Inputs to Electronic Differential - Angular velocity of vehicle
IEEE - ICVES 2014 Inputs to Electronic Differential - Angular velocity of vehicle - Steering angle Outputs of Electronic Differential - Angular velocity of right wheel - Angular velocity of left wheel

8 ELECTRONIC DIFFERENTIAL MODELLING
IEEE - ICVES 2014 ELECTRONIC DIFFERENTIAL MODELLING

9 IEEE - ICVES 2014 WAVELET CONTROLLER Discrete Wavelet Transform (DWT) : -> Time scale representation of a digital signal.

10 IEEE - ICVES 2014 WAVELET SELECTION * Simulations were carried out with different wavelets like Haar, Daubechies etc. * The Daubechies wavelet gave the best results. * The Minimum Description Length criterion is used for selection of wavelets.

11 WAVELET CONTROLLER Error signal: 1. Decomposed to-
IEEE - ICVES 2014 WAVELET CONTROLLER Error signal: 1. Decomposed to- -Detailed coefficients (high frequency) Approximation coefficients (low frequency) 2. Scaled by respective gain values 3. Added to generate control signal (u) kd1,kd2.. – gains for tuning high and medium frequency components Ka - gain for tuning low frequency components

12 SCHEMATIC OF WAVELET CONTROL
IEEE - ICVES 2014 SCHEMATIC OF WAVELET CONTROL

13 RESULTS AND DISCUSSIONS
IEEE - ICVES 2014 RESULTS AND DISCUSSIONS Case: Straight road followed by curved road Time Vector (s) : [ ] Speed Input (km/hr): [ ] Steering Angle Input (deg): [0° 30° 30°]

14 IEEE - ICVES 2014 Using PID Controller: Fig. Results of Left and Right Wheel Speed using PID Controller

15 Using Wavelet Controller:
IEEE - ICVES 2014 Using Wavelet Controller: Fig. Results of Left and Right Wheel Speed using Wavelet Controller IEEE - ICVES 2014

16 IEEE - ICVES 2014 RESULT COMPARISON

17 Peak overshoot reduction- 0.69% Settling Time reduction- 6.12%
IEEE - ICVES 2014 Peak overshoot reduction- 0.69% Settling Time reduction- 6.12%

18 IEEE - ICVES 2014 CONCLUSION -Results with Electronic differential and wavelet controlled BLDC Drives have improved. -Better stability -Better control during turns -Simulations showed that the wavelet controller performed better in both static and dynamic states thus ensuring high accuracy in the drive wheel speeds.

19 REFERENCES IEEE - ICVES 2014 [1] Ricardo Pinto de Castro, Hugo Santos Oliveira, Jos Ricardo Soares, Nuno Miguel Cerqueira and R. E. Araujo, A new FPGA based control system for electrical propulsion with electronic Differential. [2] Guillermo A. Magallan, Cristian H. De Angelo, Guillermo Bisheimer and Guillermo Garcia, A Neighborhood Electric Vehicle with Electronic Differential Traction Control. [3] Y. E. Zhao, J. W. Zhang and X. Q. Guan. Modeling and Simulation of Electronic Differential System for an Electric Vehicle with Two-Motor-Wheel Drive. [4] Azeddine Draou, Electronic Differential Speed Control for Two in wheels Motors Drive Vehicle in 4th International Conference on Power Engineering, Energy and Electrical Drives Istanbul, Turkey, May [5] G. Stang and T. Nguyen, Wavelets and Wavelet Filter Banks. Wellesley, MA: Wellesley-Cambridge Press, [6] E. Y. Hamid and Z. I. Kawasaki, Wavelet based data compression of power system disturbances using the minimum description length criterion, IEEE Trans. Power Del., vol. 17, no. 2, pp , Apr

20 THANK YOU IEEE - ICVES 2014

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