Time delay compensated disturbance observer-based sliding mode slave controller and neural network model for bilateral teleoperation system

IF 2.3 4区计算机科学 Q3 ROBOTICS Intelligent Service Robotics Pub Date : 2024-07-02 DOI:10.1007/s11370-024-00546-1

Naveen Kumar, Niharika Thakur, Yogita Gupta

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Abstract

With the advancement of robotics, mechatronic systems, and automation systems, bilateral teleoperation systems are utilized for performing tasks in remote environments based on commands provided by the master. In application domains like drilling, space operations, medical surgery, undersea exploration, and several other areas, remote task operations are performed using teleoperation systems. Good transparency based on the force feedback and position tracking is still challenging tasks among conventional teleoperation systems. Hence, in order to overcome the challenges, radial basis function neural network (RBFNN) and sliding mode slave teleoperation controller-based disturbance observer (SMSTC-DOB) are proposed in this research. Here, the role of the RBFNN is to estimate the environment parameter for the desired trajectory planning. Besides, the SMSTC-DOB-based slave design helps to synchronize the performance between the slave and master for obtaining stability and good transparency by considering issues like nonlinearities, uncertainties, passivity, and time delay. The implementation is employed in MATLAB/Simulink, which depicts the better transparency of the model in terms of force feedback and position tracking.

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基于时延补偿扰动观测器的滑模从动控制器和神经网络模型用于双边远程操纵系统

随着机器人技术、机电一体化系统和自动化系统的发展，双边远程操纵系统被用于根据主人提供的指令在远程环境中执行任务。在钻探、太空作业、医疗手术、海底勘探等应用领域，远程任务操作都是通过远程操作系统来完成的。在传统的远程操纵系统中，基于力反馈和位置跟踪的良好透明度仍然是一项具有挑战性的任务。因此，为了克服这些挑战，本研究提出了径向基函数神经网络（RBFNN）和基于扰动观测器的滑模从动遥控控制器（SMSTC-DOB）。其中，RBFNN 的作用是估计环境参数，以实现理想的轨迹规划。此外，考虑到非线性、不确定性、被动性和时间延迟等问题，基于 SMSTC-DOB 的从站设计有助于同步从站和主站之间的性能，从而获得稳定性和良好的透明度。在 MATLAB/Simulink 中进行了实施，结果表明该模型在力反馈和位置跟踪方面具有更好的透明度。

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来源期刊

Intelligent Service Robotics ROBOTICS-

CiteScore

5.70

自引率

4.00%

发文量

期刊介绍： The journal directs special attention to the emerging significance of integrating robotics with information technology and cognitive science (such as ubiquitous and adaptive computing,information integration in a distributed environment, and cognitive modelling for human-robot interaction), which spurs innovation toward a new multi-dimensional robotic service to humans. The journal intends to capture and archive this emerging yet significant advancement in the field of intelligent service robotics. The journal will publish original papers of innovative ideas and concepts, new discoveries and improvements, as well as novel applications and business models which are related to the field of intelligent service robotics described above and are proven to be of high quality. The areas that the Journal will cover include, but are not limited to: Intelligent robots serving humans in daily life or in a hazardous environment, such as home or personal service robots, entertainment robots, education robots, medical robots, healthcare and rehabilitation robots, and rescue robots (Service Robotics); Intelligent robotic functions in the form of embedded systems for applications to, for example, intelligent space, intelligent vehicles and transportation systems, intelligent manufacturing systems, and intelligent medical facilities (Embedded Robotics); The integration of robotics with network technologies, generating such services and solutions as distributed robots, distance robotic education-aides, and virtual laboratories or museums (Networked Robotics).