Real-Time Energy Management Strategy Based on Driver-Action-Impact MPC for Series Hybrid Electric Vehicles

&
Complexity 2020:1-15 (2020)
  Copy   BIBTEX

Abstract

Precise prediction of future vehicle information can improve the control efficiency of hybrid electric vehicles. Nowadays, most prediction models use previous information of vehicles to predict future driving velocity, which cannot reflect the impact of the driver and the environment. In this paper, a real-time energy management strategy based on driver-action-impact MPC is proposed for series hybrid electric vehicles. The proposed EMS consists of two modules: the velocity prediction module and the real-time MPC module. In the velocity prediction module, a long short-term memory neural network model, which is trained by the traffic data derived from a VR-based driving simulator, is adopted to predict the future driving information by using driver action information and current vehicle’s velocity. The obtained future driving velocity is treated as the inputs of the real-time MPC module, which outputs the control variables to act on the underlying controllers of power components by solving a standard quadratic programming problem. Compared with the rule-based strategy, a 5.6% average reduction of fuel consumption is obtained. The effectiveness of real-time computation of the EMS is validated and verified through a hardware-in-the-loop test platform.

Categories

Keywords

Reprint years

DOI

10.1155/2020/8843168

Links

PhilArchive



    Upload a copy of this work     Papers currently archived: 93,779

External links

Setup an account with your affiliations in order to access resources via your University's proxy server

Through your library

My notes

Similar books and articles

Power Prediction-Based Model Predictive Control for Energy Management in Land and Air Vehicle with Turboshaft Engine.Zhengchao Wei, Yue Ma, Changle Xiang & Dabo Liu - 2021 - Complexity 2021:1-24.
Data-Driven Reinforcement Learning''“Based Real-Time Energy Management System for Plug-In Hybrid Electric Vehicles.Qi Xuewei, Wu Guoyuan, Boriboonsomsin Kanok, J. Barth Matthew & Gonder Jeffrey - unknown
Predicting short-term bus passenger demand using a pattern hybrid approach.Zhenliang Ma, Jianping Xing, Mahmoud Mesbah & Luis Ferreira - 2014 - .
A Hybrid Prediction Method for Stock Price Using LSTM and Ensemble EMD.Yang Yujun, Yang Yimei & Xiao Jianhua - 2020 - Complexity 2020:1-16.
Intelligent Supply Chain Management Modules Enabling Advanced Manufacturing for the Electric-Mechanical Equipment Industry.Chun-Hua Chien, Po-Yen Chen, Amy J. C. Trappey & Charles V. Trappey - 2022 - Complexity 2022:1-20.
Perception Analysis and Early Warning of Home-Based Care Health Information Based on the Internet of Things.Yi Mao, Lei Zhang & Xin Wu - 2021 - Complexity 2021:1-10.
Neural Adaptive Sliding-Mode Control of a Bidirectional Vehicle Platoon with Velocity Constraints and Input Saturation.Maode Yan, Jiacheng Song, Panpan Yang & Lei Zuo - 2018 - Complexity 2018:1-11.
Prediction of Future State Based on Up-To-Date Information of Green Development Using Algorithm of Deep Neural Network.Liyan Sun, Li Yang & Junqi Zhu - 2021 - Complexity 2021:1-10.
Optimal Charging Scheduling and Management with Bus-Driver-Trip Assignment considering Mealtime Windows for an Electric Bus Line.Yang Jiang & Tong He - 2022 - Complexity 2022:1-19.
Model Predictive Control of Nonlinear System Based on GA-RBP Neural Network and Improved Gradient Descent Method.Youming Wang & Didi Qing - 2021 - Complexity 2021:1-14.

Analytics

Added to PP
2020-12-22

Downloads
14 (#991,618)

6 months
10 (#384,490)

Historical graph of downloads
How can I increase my downloads?

Citations of this work

No citations found.

Add more citations

References found in this work

No references found.

Add more references