EMPC with adaptive APF of obstacle avoidance and trajectory tracking for autonomous electric vehicles

Hongjiu Yang; Zhengyu Wang; Yuanqing Xia; Zhiqiang Zuo

doi:10.1016/j.isatra.2022.09.018

EMPC with adaptive APF of obstacle avoidance and trajectory tracking for autonomous electric vehicles

Hongjiu Yang^*, Zhengyu Wang, Yuanqing Xia, Zhiqiang Zuo

^*Corresponding author for this work

School of Automation

Tianjin University

Research output: Contribution to journal › Article › peer-review

20 Citations (Scopus)

Abstract

In this paper, event-triggered model predictive control (EMPC) with adaptive artificial potential field (APF) is designed to realize obstacle avoidance and trajectory tracking for autonomous electric vehicles. An adaptive APF cost function is added to achieve obstacle avoidance and guarantee stability. The optimization problem for MPC is feasible by considering a special obstacle avoidance constraint. An event-triggered mechanism is proposed to reduce computational burden and ensure effectiveness of obstacle avoidance. Input and state constraints of autonomous electric vehicles are considered in both feasibility and stability by a robust terminal set. Effectiveness of both obstacle avoidance and trajectory tracking is shown by experimental results on autonomous electric vehicles.

Original language	English
Pages (from-to)	438-448
Number of pages	11
Journal	ISA Transactions
Volume	135
DOIs	https://doi.org/10.1016/j.isatra.2022.09.018
Publication status	Published - Apr 2023

Keywords

Adaptive APF
Autonomous electric vehicle
EMPC
Obstacle avoidance
Trajectory tracking

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10.1016/j.isatra.2022.09.018

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title = "EMPC with adaptive APF of obstacle avoidance and trajectory tracking for autonomous electric vehicles",

abstract = "In this paper, event-triggered model predictive control (EMPC) with adaptive artificial potential field (APF) is designed to realize obstacle avoidance and trajectory tracking for autonomous electric vehicles. An adaptive APF cost function is added to achieve obstacle avoidance and guarantee stability. The optimization problem for MPC is feasible by considering a special obstacle avoidance constraint. An event-triggered mechanism is proposed to reduce computational burden and ensure effectiveness of obstacle avoidance. Input and state constraints of autonomous electric vehicles are considered in both feasibility and stability by a robust terminal set. Effectiveness of both obstacle avoidance and trajectory tracking is shown by experimental results on autonomous electric vehicles.",

keywords = "Adaptive APF, Autonomous electric vehicle, EMPC, Obstacle avoidance, Trajectory tracking",

author = "Hongjiu Yang and Zhengyu Wang and Yuanqing Xia and Zhiqiang Zuo",

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year = "2023",

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T1 - EMPC with adaptive APF of obstacle avoidance and trajectory tracking for autonomous electric vehicles

AU - Yang, Hongjiu

AU - Wang, Zhengyu

AU - Xia, Yuanqing

AU - Zuo, Zhiqiang

PY - 2023/4

Y1 - 2023/4

N2 - In this paper, event-triggered model predictive control (EMPC) with adaptive artificial potential field (APF) is designed to realize obstacle avoidance and trajectory tracking for autonomous electric vehicles. An adaptive APF cost function is added to achieve obstacle avoidance and guarantee stability. The optimization problem for MPC is feasible by considering a special obstacle avoidance constraint. An event-triggered mechanism is proposed to reduce computational burden and ensure effectiveness of obstacle avoidance. Input and state constraints of autonomous electric vehicles are considered in both feasibility and stability by a robust terminal set. Effectiveness of both obstacle avoidance and trajectory tracking is shown by experimental results on autonomous electric vehicles.

AB - In this paper, event-triggered model predictive control (EMPC) with adaptive artificial potential field (APF) is designed to realize obstacle avoidance and trajectory tracking for autonomous electric vehicles. An adaptive APF cost function is added to achieve obstacle avoidance and guarantee stability. The optimization problem for MPC is feasible by considering a special obstacle avoidance constraint. An event-triggered mechanism is proposed to reduce computational burden and ensure effectiveness of obstacle avoidance. Input and state constraints of autonomous electric vehicles are considered in both feasibility and stability by a robust terminal set. Effectiveness of both obstacle avoidance and trajectory tracking is shown by experimental results on autonomous electric vehicles.

KW - Adaptive APF

KW - Autonomous electric vehicle

KW - EMPC

KW - Obstacle avoidance

KW - Trajectory tracking

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SN - 0019-0578

VL - 135

SP - 438

EP - 448

JO - ISA Transactions

JF - ISA Transactions

ER -

EMPC with adaptive APF of obstacle avoidance and trajectory tracking for autonomous electric vehicles

Abstract

Keywords

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