Nonlinear control and optimization of hybrid electrical vehicle under sources limitation constraints

Benmouna, Amel; Becherif, Mohamed; Depernet, Daniel; Dépature, Clément; Boulon, Loïc

doi:10.1016/j.ijhydene.2018.12.227

Cited by 12 publications

(4 citation statements)

References 36 publications

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“…Then the overall block diagram to simulate the electric vehicle is depicted in Figure 3. It comprises of a fuel cell battery to supply the power using DC-DC converter and inverter and the electric motor is connected to EV [41][42][43][44][45]. The Figure 4 describes the speed control brushless DC motor using the adaptive neuro fuzzy interface system, Fuzzy PID and PI Controller.…”

Section: Motor Modelmentioning

confidence: 99%

Implementation of Adaptive Neuro Fuzzy Controller for Fuel Cell Based Electric Vehicles

Reddy¹,

Sharma²,

K³

2021

Gazi University Journal of Science

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The global concern for clean energy generation paved the way for technological inventions and provided scope for researchers. More prominently, integration of heterogeneous renewable sources, storage systems, and electric vehicles became the pioneer solutions. In this article, a soft computing based ANFIS method has been proposed to execute the rapid speed response in electric vehicle. Here, Brushless DC motor was used as a propulsion system to drive the vehicle. Electric Vehicle is basically a time variant system, whose operating parameters and road conditions vary continuously. To address these uncertainties, a novel control strategy is proposed. The fuel cell battery is used as the auxiliary power supply for the electric vehicle. To demonstrate the performance of the controllers, a case study has been considered with parameter uncertainties for an ECE-15 test cycle. To evaluate the proficiency of the proposed soft computing control method, the speed response results are evaluated and compared with existing methods like conventional PI and fuzzy based tuned PID controllers. In addition, the performance of proposed technique is benchmarked with other controllers reported in the literature.

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Section: Motor Modelmentioning

confidence: 99%

Implementation of Adaptive Neuro Fuzzy Controller for Fuel Cell Based Electric Vehicles

Reddy¹,

Sharma²,

K³

2021

Gazi University Journal of Science

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“…It is a question to find of optimal manner the battery and fuel cell currents tanking into account the battery and hydrogen state of charges according to the load demand. The optimal control problems in FC/Battery vehicle consist mainly: how to get to your destination as quickly as possible, how to minimize hydrogen consumption in cars, how to minimize stress in batteries according to its state of charge (). In order to guarantee the good operation and autonomy of the hybrid electric car, it is necessary to optimize the operation of embedded sources ().…”

Section: Proposed Optimal Controlmentioning

confidence: 99%

Combined passivity based control and optimal control for energy management of fuel cell/battery hybrid system

Benmouna

Becherif

2019

Asian Journal of Control

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The energy management of hybrid electric vehicles is becoming an interesting topic for many researchers. Furthermore, the wise choice of the energy management strategy allows not only the best distribution of the power between the used sources, but also it allows reduction of consumption, increase in the lifetime of the sources, and improves the autonomy of the hybrid electric vehicle.The autonomy is guaranteed by the optimization of the embedded sources. In this study, the hybrid system consists of combining the fuel cell as the main source with the battery as the auxiliary source. The novelty of the proposed energy management strategy for the studied hybrid system is the combination between interconnection and damping assignment-passivity based control and the Hamiltonian Jacobi Bellman method. The stability proof is given and the efficiency of the proposed strategy is proved by the experimental work, where the obtained results show the good and adequate results to the proposed scenario.

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“…The optimization effect of IQGA was also compared with conventional genetic algorithm, quantum genetic algorithm and found its supremacy. A new energy management strategy for HEV having fuel cell for supplying main requirements and auxiliary system having battery and super-capacitor was proposed in [34]. The Interconnection and Damping Assignment Passivity Based Control (IDA-PBC) and Hamilton-Jacobi Bellman (HJB) methods were combined for optimal flow of energy between the source.…”

Section: Modeling Of Hybrid Vehiclementioning

confidence: 99%

Fuel efficiency optimization Techniques in Hybrid Vehicle

Srivastava*¹,

Maurya²

2019

IJRTE

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The hybrid electric vehicle (HEV) has the potential of sufficing drive needs with better fuel efficiency. The complex nature of hybrid vehicle provides multiple opportunities for obtaining better fuel efficiency. The mathematical modeling is a necessity for understanding the behavior of HEV. The fuel efficiency is obtained through various means including the design of energy management system, component sizing, emission control, and other methods. In the present paper, a mathematical model of HEV is presented for a parallel HEV with a review of various methods used for fuel efficiency optimization.

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Nonlinear control and optimization of hybrid electrical vehicle under sources limitation constraints

Cited by 12 publications

References 36 publications

Implementation of Adaptive Neuro Fuzzy Controller for Fuel Cell Based Electric Vehicles

Implementation of Adaptive Neuro Fuzzy Controller for Fuel Cell Based Electric Vehicles

Combined passivity based control and optimal control for energy management of fuel cell/battery hybrid system

Fuel efficiency optimization Techniques in Hybrid Vehicle

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