receding horizon
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2022 ◽  
Vol 2 ◽  
Author(s):  
Xiaohu Zhao ◽  
Yuanyuan Zou ◽  
Shaoyuan Li

This paper investigates the multi-agent persistent monitoring problem via a novel distributed submodular receding horizon control approach. In order to approximate global monitoring performance, with the definition of sub-modularity, the original persistent monitoring objective is divided into several local objectives in a receding horizon framework, and the optimal trajectories of each agent are obtained by taking into account the neighborhood information. Specifically, the optimization horizon of each local objective is derived from the local target states and the information received from their neighboring agents. Based on the sub-modularity of each local objective, the distributed greedy algorithm is proposed. As a result, each agent coordinates with neighboring agents asynchronously and optimizes its trajectory independently, which reduces the computational complexity while achieving the global performance as much as possible. The conditions are established to ensure the estimation error converges to a bounded global performance. Finally, simulation results show the effectiveness of the proposed method.


2022 ◽  
Vol 109 ◽  
pp. 13-31
Author(s):  
Pavanraj H. Rangegowda ◽  
Jayaram Valluru ◽  
Sachin C. Patwardhan ◽  
Siddhartha Mukhopadhyay

Actuators ◽  
2021 ◽  
Vol 10 (12) ◽  
pp. 314
Author(s):  
Jiayi Wang ◽  
Yonghu Luo ◽  
Xiaojun Tan

In this paper, an AGV path planning method fusing multiple heuristics rapidly exploring random tree (MH-RRT) with an improved two-step Timed Elastic Band (TEB) is proposed. The modified RRT integrating multiple heuristics can search a safer, optimal and faster converge global path within a short time, and the improved TEB can optimize both path smoothness and path length. The method is composed of a global path planning procedure and a local path planning procedure, and the Receding Horizon Planning (RHP) strategy is adopted to fuse these two modules. Firstly, the MH-RRT is utilized to generate a state tree structure as prior knowledge, as well as the global path. Then, a receding horizon window is established to select the local goal point. On this basis, an improved two-step TEB is designed to optimize the local path if the current global path is feasible. Various simulations both on static and dynamic environments are conducted to clarify the performance of the proposed MH-RRT and the improved two-step TEB. Furthermore, real applicative experiments verified the effectiveness of the proposed approach.


2021 ◽  
pp. 5073-5083
Author(s):  
Yongsheng Zhang ◽  
Jianliang He ◽  
Ruizhou Gao

2021 ◽  
pp. 2773-2787
Author(s):  
Pengpeng Yan ◽  
Yonghua Fan ◽  
Yuanlin Chen ◽  
Mingang Wang

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