Euler-Maruyama算法在核应急安全中UGV路径和位置估计中的应用

IF 0.4 4区 工程技术 Q4 NUCLEAR SCIENCE & TECHNOLOGY
Kerntechnik Pub Date : 2023-04-27 DOI:10.1515/kern-2022-0102
H. Zaky, Mohamed G Abd Elfatah, S. El-Mongy, M. Abdel‐Rahman
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引用次数: 1

摘要

移动机器人(MR)目前用于各种不同的部门,并在军事,核和工业等应用。在无人系统中,远程操作传感器、导航仪器、控制系统和辐射传感器可以固定在MR上,以执行所需的任务,如放射扫描、识别和测量已暴露于辐射的污染环境。研究了移动机器人的位置估计和MR遥操作时延补偿的最优路径。由于磁流变遥操作具有随机性,运动学方程采用随机微分方程(SDEs)建模。然后,使用数值算法求解这些SDEs,如Euler-Maruyama算法,该算法借助于MATLAB近似求解SDEs。此外,对结果进行了讨论,并以表格和图表的形式进行了描述。最后,对该解进行了模拟,结果与模拟mr的理想路径高度吻合,这一结果对核应急响应和减灾具有重要意义。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Euler–Maruyama algorithm in estimating UGV path and location in nuclear emergency and security applications
Abstract Mobile Robots (MR) are currently used across a variety of different sectors and have military, nuclear and industrial applications among others. In unmanned systems, teleoperation sensors, navigation instruments, control systems and radiation sensors can be fixed on the MR to perform required tasks such as radiological scanning, identifying, and surveying the contaminated environment that has been exposed to radiation. In this work, an estimation of the mobile robot location and the optimum path for time-delay compensation for MR teleoperation are investigated. As the MR teleoperation has a stochastic nature, the kinematics equations are modeled using stochastic differential equations (SDEs). Afterwards, these SDEs are solved using Numerical algorithms such as Euler–Maruyama algorithm which is used to approximate SDEs solution with the aid of MATLAB. Additionally, the results are discussed and depicted in tables and figures. Finally, the simulated results for the solution are performed and are found to highly agree with the ideal path of the simulated MR. This result is of great importance to be used in the case of nuclear emergency response and mitigation.
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来源期刊
Kerntechnik
Kerntechnik 工程技术-核科学技术
CiteScore
0.90
自引率
20.00%
发文量
72
审稿时长
6-12 weeks
期刊介绍: Kerntechnik is an independent journal for nuclear engineering (including design, operation, safety and economics of nuclear power stations, research reactors and simulators), energy systems, radiation (ionizing radiation in industry, medicine and research) and radiological protection (biological effects of ionizing radiation, the system of protection for occupational, medical and public exposures, the assessment of doses, operational protection and safety programs, management of radioactive wastes, decommissioning and regulatory requirements).
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