• Title/Summary/Keyword: Pole Placement Controller

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Development of auto-tuning PID controller for Temperature Control systems and Its Application to Rapid Thermal Processor (온도제어용 자동동조 PID 제어기 설계와 RTP에의 적용)

  • 임재식;이영일
    • 제어로봇시스템학회:학술대회논문집
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    • 2000.10a
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    • pp.62-62
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    • 2000
  • An auto-tuning PID controller which is adequate for temperature control is developed based on relay-control and pole-placement Using the critical frequency which is obtained from relay-control parameters of assumed model are identified. Pole/zero-placement PID controller is designed for the identified model. The desired pole/zeros are determined so that the closed-loop has overshoot free step response. The developed auto-tuning PID controller was successfully applied to the temperature control of RTP.

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A study on the direct pole-placement PID self-tuner (직접 극배치 PID 자기 동조기에 관한 연구)

  • 이진원;송형근;윤인섭
    • 제어로봇시스템학회:학술대회논문집
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    • 1988.10a
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    • pp.452-456
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    • 1988
  • A PID controller must need not only good servo response but also little operation of a control valve. We suggest a direct pole-placement PID self-tuning algorithm using the structure of derivative-of-output controller and Bezout identity. This algorithm can much reduce the change of output of controller and well follow the desired trajectory.

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A Study on the Direct Pole Placement PID Self-Tuning Controller design for DC Servo Motor Control (직류 서어보 전동기 제어를 위한 직접 극배치 PID 자기동조 제어기의 설계)

  • Rhee, Kyu-Young;Nam, Moon-Hyun
    • Proceedings of the KIEE Conference
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    • 1989.11a
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    • pp.327-331
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    • 1989
  • This paper concerned about a study on the direct pole placement PID self-tuning controller design for Robot manipulator control system. The method of a direct pole placement self-tuning PID control for a DC motor of robot manipulator tracks a reference velocity in spite of the parameters uncertainties in nonminimum phase system. In this scheme, the parameters of controller are estimated by the recursive least square(RLS) identification algorithm, the pole placement method and diophantine equation. A series of simulation in which minimum phase system and nonminimum phase system are subjected to a pattern of system parameter changes is presented to show some of the features of the proposed control algorithm. The proposed control algorithm which shown are effective for the practical application, and experiments of DC motor speed control for Robot manipulator by a microcomputer IRH-PC/AT are performed and the results are well suited.

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Load effect improvement using fuzzy controller (퍼지제어기를 이용한 부하영향의 감소)

  • 김유경;최태호;전기준
    • 제어로봇시스템학회:학술대회논문집
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    • 1991.10a
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    • pp.156-161
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    • 1991
  • It is difficult to realize precise control by a fuzzy control scheme alone because control signals are derived from fuzzy inferences. On the other hand, pole-placement control can offer a precise control to a known system. In this paper, a VSC(variable structure control)scheme is proposed, which is an attempt to take merits of pole-placement control and fuzzy control. On the vicinity of the reference point the pole-placement control scheme takes over the role of the fuzzy controller to improve the set point response.

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Indirect Pole Placement Adaptive Controllers using a Nonlinear Feedback (비선형 궤환을 이용한 간접극배치 적응제어기)

  • 김홍필;양해원
    • The Transactions of the Korean Institute of Electrical Engineers
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    • v.38 no.11
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    • pp.922-933
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    • 1989
  • This paper deals with an indirect pole placement adaptive controller design problem for discrete-time plants with arbitrary zeros in the presence of unmodeled dynamics and/or disturbances. The plant and controller parameters are estimated by separate estimators. The nonlinear feedback is introduced so that the estimated plant has as high degree of controllability as possible. The nonlinear feedback will be used in a finite time, after which the control algorithm becomes a standard pole placement one.

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A Partial Pole Placement Method. (부분 극배치 기법)

  • 김성열;김진용;이정국;이금원
    • Proceedings of the Korea Institute of Convergence Signal Processing
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    • 2003.06a
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    • pp.188-192
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    • 2003
  • Pole placement method is widely used in controller design. For the stability of the closed loop system, user-specified desired locations including extra pole locations in the s-plane is chosen and by some procedure, feedback gain is obtained. In this paper, only desired pole location is used, and the calculation process is done for attaining linear quadratic stability. Similarly transformation is used for this. By computer simulations using MATLAB, the effectiveness is shown.

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Implementation of a pole-placement self-tuning adaptive controller for SCARA robot using TMS320C5X chip (TMS320C5X칩을 사용한 스카라 로봇의 극점배치 자기동조 적응제어기의 실현)

  • Bae, Gil-Ho;Han, Sung-Hyun;Lee, Min-Chul;Son, Kwon;Lee, Jang-Myung;Lee, Man-Hyung;Kim, Sung-Kwon
    • 제어로봇시스템학회:학술대회논문집
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    • 1996.10b
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    • pp.61-64
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    • 1996
  • This paper presents a new approach to the design of self-tuning adaptive control system that is robust to the changing dynamic configuration as well as to the load variation factors using Digital signal processors for robot manipulators. TMS32OC50 is used in implementing real-time adaptive control algorithms to provide advanced performance for robot manipulator. In this paper, an adaptive control scheme is proposed in order to design the pole-placement self-tuning controller which can reject the offset due to any load disturbance without a detailed description of robot dynamics. Parameters of discrete-time difference model are estimated by the recursive least-square identification algorithm, and controller parameters are determined by the pole-placement method. Performance of self-tuning adaptive controller is illustrated by the simulation and experiment for a SCARA robot.

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Implementation of Self-Tuning Speed Controller for DC Motor Drive System using RLS Algorithm and Pole-Placement Method (RLS 알고리즘과 극점배치방법을 이용한 DC전동기의 자기동조 속도제어기의 구현)

  • Cha, Eung-Seok;Ji, Jun-Keun
    • Proceedings of the KIEE Conference
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    • 1999.11c
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    • pp.488-490
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    • 1999
  • This paper describes the design of self-tuning speed controller for DC motor drive system using RLS(Recursive Least Squares) algorithm and Pole-Placement method. The model parameters, related to inertia and damping coefficient of motor, are estimated on-line by using RLS estimation algorithm. And a control signal is calculated by using pole placement method. Simulation and experimental results show that the proposed controller possesses excellent adaptation capability than a conventional PI/IP controller under parameter change.

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Position Control of the Trolley and Spreader Using Pole-placement Method (극점배치기법을 이용한 트롤리 및 스프레더의 위치제어)

  • Lee, Tae-Young;Kim, Myun-Hee;Choi, Won-Sik
    • Journal of the Korean Society of Industry Convergence
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    • v.2 no.2
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    • pp.165-172
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    • 1999
  • Crane operation for transporting heavy loads causes swinging motion at the loads. This sway causes the suspension ropes to leave their grooves and leads to possibility of serious damages. Generally crane is operated by expert's knowledge. Therefore, a satisfactory control method to supress object sway during transport is indispensible. The dynamic behavior of the crane shows nonlinear characteristics. when the length of the rope is changed the crane is time varying system and the design of anti-sway controller is very difficult. In this paper, the nonlinear dynamic model for the industrial overhead crane is derived. and the feedback gain matrix based on the pole-placement method is proposed to supress the swing motion and control the position of the crane. The performance of the controller for the crane model is simulated on the personal computer.

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Pole placement control of an inverted pendulus (도립진자의 극배치 제어)

  • Jang, Ki-Dong;Huh, Uk-Youl
    • Proceedings of the KIEE Conference
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    • 1989.11a
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    • pp.355-359
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    • 1989
  • An inverted pendulum is made practically and controlled by optimal controller and pole placement controller. An IBM PC/XT plays a part of the controller. The control algorithm is implemented with C language. An integrator is added to the controller to solve the high frequency problem. Experiment is performed according to the results of simulation.

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