@inproceedings{9d4af94b4bc744b1b0f2e8034ab25f86,
title = "Adaptive Control of Uncertain Systems with Input Delay Based on Active Inference",
abstract = "Active inference as a theory involving both perception and control has been popular for its advantages in fast learning, control accuracy and computational efficiency in the field of unmanned system control. This work firstly implement the active inference control (AIFC) framework for adaptive control of uncertain unmanned systems with input delay for trajectory tracking. Compared with radial basis function neural network control (RBFNNC), AIFC can achieve better control performance in both convergence speed and task accuracy. Secondly, considering the non-negligible input delay of a practical unmanned system, the predictive state of the current state is introduced into the active inference framework to design a delay feedback AIFC for the uncertain system with delay. The delay feedback AIFC is applied to a trajectory tracking problem for an unmanned car. The simulation results validate our claimed advantages of the AIFC on convergence speed and tracking accuracy with various delay size.",
keywords = "Active inference, Input delay, Predictive state, RBFNN",
author = "Mingyue Ji and Yang Lyu and Quan Pan and Guozhi Wei and Donghui Wei",
note = "Publisher Copyright: {\textcopyright} 2023, Beijing HIWING Sci. and Tech. Info Inst.; International Conference on Autonomous Unmanned Systems, ICAUS 2022 ; Conference date: 23-09-2022 Through 25-09-2022",
year = "2023",
doi = "10.1007/978-981-99-0479-2_260",
language = "英语",
isbn = "9789819904785",
series = "Lecture Notes in Electrical Engineering",
publisher = "Springer Science and Business Media Deutschland GmbH",
pages = "2810--2822",
editor = "Wenxing Fu and Mancang Gu and Yifeng Niu",
booktitle = "Proceedings of 2022 International Conference on Autonomous Unmanned Systems, ICAUS 2022",
}