Enhanced slip control performance using nonlinear passive suspension system

John, Samuel; Pedro, Jimoh O.; Pozna, Claudiu

doi:10.1109/aim.2011.6027054

Cited by 6 publications

(6 citation statements)

References 17 publications

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“…To overcome this drawback, the electronic brakeforce distribution (EBD) has been developed that assists the ABS to distribute the correct braking force to each wheel according to the weight it supports. Specifically, the EBD measures the difference between the speed of the vehicle and the rotation of each tire and tries to keep it within acceptable limits by properly controlling the brake valve of each wheel [29], [30].…”

Section: Introductionmentioning

confidence: 99%

Enhancing the Braking Performance of a Vehicle Through the Proper Control of the Active Suspension System

et al. 2021

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Section: Introductionmentioning

confidence: 99%

Enhancing the Braking Performance of a Vehicle Through the Proper Control of the Active Suspension System

et al. 2021

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“…In this regards, several control modes have been proposed by researchers and industry. Some popular controllers include: proportional-integral-derivative (PID) controller [8], [9]: the PID is extensively used in industry [10] and hence its application to ABS comes naturally. To enhance the robustness of the ABS some researches have proposed the sliding mode controller (SMC).…”

Section: Introductionmentioning

confidence: 99%

A comparative study of two control schemes for anti-lock braking systems

John

Pedro

2013

2013 9th Asian Control Conference (ASCC)

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The commercial Bang-Bang anti-lock braking system has several short-comings. Therefore, there is the need for continual improvement on the ABS control strategy. One of the problems associated with these short-comings includes the physical shock experienced by drivers through the brake petal pulsation, when the system is activated. A non-linear and a neural network-based alternative ABS control schemes are proposed and evaluated. The main goal is for the ABS controller to maintain optimal system performance in terms of slip regulation and minimising the vehicle stopping distance during hard-braking. A comparative analysis of the two ABS controllers based on simulation results, showed the neural network-based controller to be superior.

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“…These challenges therefore require a more robust non-linear control scheme. However, the Proportional Integral and Derivative (PID) controller, which is basically a linear controller, have been applied to ABS [5,1,6,7]. This is due to the fact that the PID controller has been a success story in industrial applications [8,9].…”

Section: Introductionmentioning

confidence: 99%

Hybrid Feedback Linearization Slip Control for Anti-lock Braking System

John

Pedro

2013

APH

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The Anti-lock braking system (ABS) is an active safety device in road vehicles, which during hard braking maximizes the braking force between the tyre and the road irrespective of the road conditions. This is accomplished by regulating the wheel slip around its optimum value. Due to the high non-linearity of the tyre and road interaction, and uncertainties from vehicle dynamics, a standard PID controller will not suffice. This paper therefore proposes a non-linear control design using input-output feedback linearization approach. To enhance the robustness of the non-linear controller, an integral feedback method was employed. The stability of the controller is analysed in the Lyapunov sense. To demonstrate the robustness of the proposed controller, simulations were conducted on two different road conditions. The results from the proposed method exhibited a more superior performance and reduced the chattering effect on the braking torque compared to the performance of the standard feedback linearization method.

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Enhanced slip control performance using nonlinear passive suspension system

Cited by 6 publications

References 17 publications

Enhancing the Braking Performance of a Vehicle Through the Proper Control of the Active Suspension System

Enhancing the Braking Performance of a Vehicle Through the Proper Control of the Active Suspension System

A comparative study of two control schemes for anti-lock braking systems

Hybrid Feedback Linearization Slip Control for Anti-lock Braking System

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