Jonathan Nadeau scite author profile

Jonathan Nadeau

5Publications

36Citation Statements Received

79Citation Statements Given

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Affiliations

Université de Sherbrooke, Natural Sciences and Engineering Research Council

Publications

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Collaborative control of a dual electro-hydraulic regenerative brake system for a rear-wheel-drive electric vehicle

Nadeau

Micheau

Boisvert

2018

Proceedings of the Institution of Mechanical Engineers, Part D:

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Within the field of electric vehicles, the cooperative control of a dual electro-hydraulic regenerative brake system using the foot brake pedal as the sole input of driver brake requests is a challenging control problem, especially when the electro-hydraulic brake system features on/off solenoid valves which are widely used in the automotive industry. This type of hydraulic actuator is hard to use to perform a fine brake pressure regulation. Thus, this paper focuses on the implementation of a novel controller design for a dual electro-hydraulic regenerative brake system featuring on/off solenoid valves which track an “ideal” brake force distribution. As an improvement to a standard brake force distribution, it can provide the reach of the maximum braking adherence and can improve the energy recovery of a rear-wheel-drive electric vehicle. This improvement in energy recovery is possible with the complete substitution of the rear hydraulic brake force with a regenerative brake force until the reach of the electric powertrain constraints. It is done by performing a proper brake pressure fine regulation through the proposed variable structure control of the on/off solenoid valves provided by the hydraulic platform of the vehicle stability system. Through road tests, the tracking feasibility of the proposed brake force distribution with the mechatronic system developed is validated.

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Ageing Estimation of Lithium-Ion Batteries Applied to a Three-Wheel PHEV Roadster

Nadeau

Dubois

Desrochers

et al. 2013

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Ideal regenerative braking torque in collaboration with hydraulic brake system

Nadeau

Micheau

Boisvert

2017

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Implementation of a Cooperative Strategy between a Vehicle's Mechanical and Regenerative Brake System

Nadeau¹,

Boisvert²,

Micheau³

2014

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Nonlinear LQG Slip Controller Based on an Empirical Model for a Three Wheel Hybrid Vehicle

Boisvert

Micheau

Nadeau

2014

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A three wheels recreational vehicle propelled by its unique rear wheel is studied for the purpose of regenerative braking control. To ensure the stability of the vehicle and the safety of the pilot, the slip ratio of the powered wheel must be limited during regenerative braking. In this study, a design of a LQG slip tracking algorithm is proposed. The non-linear model is based on experimental tests and the controller has been validated by simulations and road tests.

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Jonathan Nadeau

Collaborative control of a dual electro-hydraulic regenerative brake system for a rear-wheel-drive electric vehicle

Ageing Estimation of Lithium-Ion Batteries Applied to a Three-Wheel PHEV Roadster

Ideal regenerative braking torque in collaboration with hydraulic brake system

Implementation of a Cooperative Strategy between a Vehicle's Mechanical and Regenerative Brake System

Nonlinear LQG Slip Controller Based on an Empirical Model for a Three Wheel Hybrid Vehicle

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