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Intelligent method for tuning H 2 PID controller of water hydraulic manipulator of CFETR blanket maintenances

Han, Manfen ; Wu, Huapeng ; Song, Yuntao ; [et al.]

Emerald ; 2016

In: Industrial Robot: An International Journal Vol. 43, No. 2 ( 2016-3-21), p. 164-171

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In: Industrial Robot: An International Journal, Emerald, Vol. 43, No. 2 ( 2016-3-21), p. 164-171

Abstract: – The purpose of this paper is to investigate an intelligent control for water hydraulic position servo system which is intent to be used in remote control robot for fusion reactor. The dynamic model of water hydraulic servo control system is built and proportional–integral–derivative (PID) controller is used. Design/methodology/approach – PID control is the most common control algorithm used in industry and has been a conventional tool used to operate closed-loop control system; however, it is very difficult to achieve high accuracy and fast response by using the traditional way to tune its perimeters. To improve the control performance, optimization algorithm can be applied to search the best parameters of PID. This paper presents a search algorithm using particle swarm with H 2 control standards objective function to optimize PID parameters. Findings – By comparing simulation and mock-up experiments’ results from different control methods, the particle swarm optimization algorithm presents better performance and is more effective for tuning PID parameters. Originality/value – This paper presents an effective way to ensure safety and efficiency for remote handling maintenances of China Fusion Engineering Test Reactor.

Type of Medium: Online Resource

ISSN: 0143-991X

URL: Article

DOI: 10.1108/IR-05-2015-0109

Language: English

Publisher: Emerald

Publication Date: 2016

detail.hit.zdb_id: 2025337-0

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Deformation modeling of remote handling EAMA robot by recurrent neural networks

Zhang, Tao ; Song, Yuntao ; Wu, Huapeng ; [et al.]

Emerald ; 2019

In: Industrial Robot: the international journal of robotics research and application Vol. 46, No. 2 ( 2019-03-18), p. 300-310

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In: Industrial Robot: the international journal of robotics research and application, Emerald, Vol. 46, No. 2 ( 2019-03-18), p. 300-310

Abstract: Remote handling (RH) manipulators have been widely studied for maintenance tasks in fusion reactors. Those tasks always require heavy load, high accuracy and large work space for manipulators. Traditionally, the maintenance of fusion devices always depends on manual RH. With the development of calculating ability, the intelligent automatic maintenance makes it possible for a fusion device instead of the previous manual operation. As the flexibility of arm and the deformation of manipulator will cause problems, which are mainly inaccuracy and lower efficiency. This paper aims to study an effective way to promote the arm behavior to solve these problems. Design/methodology/approach By making use of the experimental advanced superconducting tokamak articulated maintenance arm as a platform, a series of experiments is designed to measure errors of kinematics and to collect the database of the flexible arm. Through studying the data and the arm structure, recurrent neural network (RNN) method was adopted to estimate the deformation of flexible arm and eventually compensate deformation in robot control to achieve higher accuracy. Findings By means of delicate RNN modeling, errors of kinematics have been reduced to a smaller order than the RH mode. This intelligent maintenance method will also reduce complexity of operations in maintenance. Originality/value This paper presents the use of an artificial intelligent algorithm to solve a nonlinear deformation problem of the flexible arm. The results demonstrate that it is efficient in dealing with this problem in fusion application. The RNN’s successful application has also shown that intelligent algorithms can be widely applied in fusion maintenance.

Type of Medium: Online Resource

ISSN: 0143-991X , 0143-991X

URL: Article

DOI: 10.1108/IR-08-2018-0171

Language: English

Publisher: Emerald

Publication Date: 2019

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