Add to ORKGSuppression of vibration is an important engineering problem. In this paper, control problem of a flexible system that includes a stretched string supported on a transporter is defined and solved. Such a system may be encountered in device manufacturing and process automation. Robust and adaptive control is designed to damp out transverse oscillation of the string via compensating for possible uncertainties in string dynamics and transporter motion. Standard robust control design based on a straightforward Lyapunov argument commonly seen in control design for rigid-body systems is extended to the flexible system. Asymptotically/exponentially and robustly stabilizing controls are found
10.1109/TCST.2013.2278279IEEE Transactions on Control Systems Technology2231088-1093IETT
In this paper, the control problem for flexible mechanical systems with input dead-zone nonlinearity...
Abstract: Input Shaping is a widely used method of suppressing residual vibrations in point-to-point...
Suppression of vibration is an important engineering problem. In this note, control problem of a fle...
Suppression of vibration is an important engineering problem. In this note, control problem of a fle...
In this paper, vibration control of a nonlinear string system is considered. The system consists of ...
In this paper vibration control of a nonlinear string system is considered. The system consists of a...
In this paper, a new boundary robust vibration control is designed for a nonlinear string system usi...
In this paper, a new boundary robust vibration control is designed for a nonlinear string system usi...
In this paper, iterative learning control technique is applied for the first time to a class of flex...
In this paper, the displacement of an axially moving string is regulated using a control force and a...
In this paper, the linear dynamics and active control of a string travelling with uniform velocity i...
In this study, we aim to construct the boundary robust adaptive control for weakening the vibration ...
10.1109/TCST.2010.2099230IEEE Transactions on Control Systems Technology20148-58IETT
[[abstract]]This paper proposes an adaptive boundary control to an axially moving string system whic...
10.1109/TCST.2013.2278279IEEE Transactions on Control Systems Technology2231088-1093IETT
In this paper, the control problem for flexible mechanical systems with input dead-zone nonlinearity...
Abstract: Input Shaping is a widely used method of suppressing residual vibrations in point-to-point...
Suppression of vibration is an important engineering problem. In this note, control problem of a fle...
Suppression of vibration is an important engineering problem. In this note, control problem of a fle...
In this paper, vibration control of a nonlinear string system is considered. The system consists of ...
In this paper vibration control of a nonlinear string system is considered. The system consists of a...
In this paper, a new boundary robust vibration control is designed for a nonlinear string system usi...
In this paper, a new boundary robust vibration control is designed for a nonlinear string system usi...
In this paper, iterative learning control technique is applied for the first time to a class of flex...
In this paper, the displacement of an axially moving string is regulated using a control force and a...
In this paper, the linear dynamics and active control of a string travelling with uniform velocity i...
In this study, we aim to construct the boundary robust adaptive control for weakening the vibration ...
10.1109/TCST.2010.2099230IEEE Transactions on Control Systems Technology20148-58IETT
[[abstract]]This paper proposes an adaptive boundary control to an axially moving string system whic...
10.1109/TCST.2013.2278279IEEE Transactions on Control Systems Technology2231088-1093IETT
In this paper, the control problem for flexible mechanical systems with input dead-zone nonlinearity...
Abstract: Input Shaping is a widely used method of suppressing residual vibrations in point-to-point...