Optimal Variable Amplitudes Input Shaping Control for Slew Maneuver of Flexible Spacecraft

A poorly designed control system can lead to excessive residual vibration and long setting time. This paper investigates the effect of input shaping on control efficiency. To perform this investigation, we design a PD controller combined with input shaping for an inertia plant. We then subject it to four standard types of inputs. The responses of the control systems are described by analytical expressions. The performances of PD control and PD combined with input-shaping control are thoroughly analyzed and compared. Simulation results show that PD feedback control enhanced with input shaping minimizes overshoot and setting time.

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A Cable-Passive Damper System for Sway and Skew Motion Control of a Crane Spreader

Shock and Vibration ◽

10.1155/2015/507549 ◽

2015 ◽

Vol 2015 ◽

pp. 1-11 ◽

Cited By ~ 1

Author(s):

La Duc Viet ◽

Youngjin Park

Keyword(s):

Motion Control ◽

Input Shaping ◽

Passive System ◽

Time Integral ◽

Passive Damper ◽

Optimal Damping ◽

Control Command ◽

System Energy ◽

Energy Dissipated ◽

Input Shaping Control

While the crane control problem is often approached by applying a certain active control command to some parts of the crane, this paper proposes a cable-passive damper system to reduce the vibration of a four-cable suspended crane spreader. The residual sway and skew motions of a crane spreader always produce the angle deflections between the crane cables and the crane spreader. The idea in this paper is to convert those deflections into energy dissipated by the viscous dampers, which connect the cables and the spreader. The proposed damper system is effective in reducing spreader sway and skew motions. Moreover, the optimal damping coefficient can be found analytically by minimizing the time integral of system energy. The numerical simulations show that the proposed passive system can assist the input shaping control of the trolley motion in reducing both sway and skew responses.

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INPUT SHAPING CONTROL TO REDUCE RESIDUAL VIBRATION OF A FLEXIBLE BEAM

Journal of Computer Science and Cybernetics ◽

10.15625/1813-9663/32/1/6765 ◽

2016 ◽

Vol 32 (1) ◽

pp. 75-90 ◽

Cited By ~ 1

Author(s):

Quoc Chi Nguyen ◽

Ha Quang Thinh Ngo

Keyword(s):

Control Algorithms ◽

Input Shaping ◽

Flexible Beam ◽

Residual Vibration ◽

Motion System ◽

Damped System ◽

Input Shaping Control

In this paper, three control algorithms based on input shaping method are developed to suppress the residual vibration of a flexible beam. The flexible beam is modeled as an under-damped system. Three input shapers, ZV, ZVD, and ZVDD, are used to control the flexible beam. The three control algorithms are implemented by using the Mechatrolink-III motion system. The experiments are performed to verify the effectiveness of the three control algorithms.

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