A switched model predictive control with parametric weights-based mode transition strategy for a novel parallel hybrid electric vehicle

IF 5.4 2区 计算机科学 Q1 AUTOMATION & CONTROL SYSTEMS
Julin Hu , Hongwen He , Zexing Wang , Shuang Ji , Zhihui Duan
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引用次数: 0

Abstract

In a novel parallel hybrid electric vehicle (HEV) configuration, the transition from pure electric mode to hybrid mode encompasses critical operations such as engine startup, coordinated control of motor and engine torque, and engagement of the clutch. Addressing the intricate challenges associated with enhancing speed tracking performance during and after mode transition, mitigating jerk during mode transition, and minimizing mode transition time, this paper conducts a meticulous analysis of the vehicle configuration and mode transition process. The mode transition process is systematically delineated into four stages, with each stage characterized by the establishment of dynamic models. Subsequently, a mode transition strategy is proposed, leveraging switched model predictive control with parametric weights (SMPC-PW). This controller framework includes the design of two model predictive controllers (MPC) tailored for two pivotal stages, the formulation of a parametric weights pattern based on pre-transition acceleration, and the development of a stage switching strategy to ensure seamless switches between controllers. The efficacy of the proposed strategy is validated through co-simulations in the Simulink and GT-Power environment. The fine-tuning of MPC parameters is grounded in multiple sets of prediction horizons and sampling time simulation results. In comparison to strategies based on MPC and PID under various acceleration scenarios, the SMPC-PW strategy consistently maintains acceleration control below 10 m/s3. It not only achieves superior speed tracking during and after mode transition but also reduces mode switch time by 0.1 s-0.3 s. These compelling results unequivocally demonstrate that the proposed mode transition strategy significantly elevates the quality of mode transition for this specific parallel HEV configuration.
针对新型并联式混合动力电动汽车的基于参数权重模式转换策略的开关式模型预测控制
在新型并联式混合动力电动汽车(HEV)配置中,从纯电动模式到混合动力模式的过渡包含发动机启动、电机和发动机扭矩的协调控制以及离合器接合等关键操作。为了解决在模式转换期间和之后提高速度跟踪性能、减轻模式转换期间的颠簸以及最大限度地缩短模式转换时间等相关的复杂挑战,本文对车辆配置和模式转换过程进行了细致分析。系统地将模式转换过程划分为四个阶段,每个阶段都以建立动态模型为特征。随后,利用带参数权重的开关模型预测控制(SMPC-PW),提出了一种模式转换策略。该控制器框架包括为两个关键阶段量身定制的两个模型预测控制器(MPC)的设计、基于过渡前加速度的参数权重模式的制定,以及确保控制器之间无缝切换的阶段切换策略的开发。通过在 Simulink 和 GT-Power 环境中进行联合仿真,验证了所提策略的有效性。MPC 参数的微调以多套预测视野和采样时间模拟结果为基础。在各种加速度情况下,与基于 MPC 和 PID 的策略相比,SMPC-PW 策略始终能将加速度控制在 10 m/s3 以下。这些令人信服的结果清楚地表明,所提出的模式转换策略大大提高了这种特定并联混合动力汽车配置的模式转换质量。
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来源期刊
Control Engineering Practice
Control Engineering Practice 工程技术-工程:电子与电气
CiteScore
9.20
自引率
12.20%
发文量
183
审稿时长
44 days
期刊介绍: Control Engineering Practice strives to meet the needs of industrial practitioners and industrially related academics and researchers. It publishes papers which illustrate the direct application of control theory and its supporting tools in all possible areas of automation. As a result, the journal only contains papers which can be considered to have made significant contributions to the application of advanced control techniques. It is normally expected that practical results should be included, but where simulation only studies are available, it is necessary to demonstrate that the simulation model is representative of a genuine application. Strictly theoretical papers will find a more appropriate home in Control Engineering Practice''s sister publication, Automatica. It is also expected that papers are innovative with respect to the state of the art and are sufficiently detailed for a reader to be able to duplicate the main results of the paper (supplementary material, including datasets, tables, code and any relevant interactive material can be made available and downloaded from the website). The benefits of the presented methods must be made very clear and the new techniques must be compared and contrasted with results obtained using existing methods. Moreover, a thorough analysis of failures that may happen in the design process and implementation can also be part of the paper. The scope of Control Engineering Practice matches the activities of IFAC. Papers demonstrating the contribution of automation and control in improving the performance, quality, productivity, sustainability, resource and energy efficiency, and the manageability of systems and processes for the benefit of mankind and are relevant to industrial practitioners are most welcome.
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