This article presents a modified zero vibration (ZV) input shaping technique to address the sensitivity and flexibility limitations of the classic ZV shapers commonly implemented in overhead crane applications. Starting with the classical ZV formulation, new parameters are introduced to optimize the control system performance according to a versatile objective function. The new shaper enhances the design flexibility and operational domain of the shaper, while it inherits the robustness properties and computational efficiency of the ZV scheme. Unlike the original ZV shaper, the proposed shaper allows for the point-to-point maneuver time to be fixed. The sensitivity analysis of the controller confirms that the new shaper effectively reduces t...
This paper proposes a Model Reference Command Shaping (MRCS) approach for an effective vibration and...
Abstract: Shaping command input is performed for reducing residual vibrations in motion control of d...
Since the overhead crane system is subject to under actuation system due to that overhead crane and ...
This paper presents an adaptive input shaping based on pole-zero cancellation (APZC) technique to su...
This paper presents comparative assessments of input shaping techniques using two different approach...
This paper presents development and implementation of a novel approach to produce an s-shaped comman...
This paper presents comparative assessments of input shaping techniques using two different approach...
This paper presents development and implementation of a novel approach to produce an s-shaped comman...
This paper proposes an improved input shaping for minimising payload swing of an overhead crane with...
This paper presents a robust input shaping control of an overhead 3D crane. Control of a crane in th...
The motion induced sway of oscillatory systems such as gantry cranes may decrease the efficiency of ...
Crane systems are the most widely used tools in the shipping yards and construction sites to transpo...
This paper proposes a Model Reference Command Shaping (MRCS) approach for an effective vibration and...
This paper investigates the performance of input shaping techniques for sway control of a rotary cra...
This paper proposes an improved input shaping schem e for an efficient sway control of a nonlinear t...
This paper proposes a Model Reference Command Shaping (MRCS) approach for an effective vibration and...
Abstract: Shaping command input is performed for reducing residual vibrations in motion control of d...
Since the overhead crane system is subject to under actuation system due to that overhead crane and ...
This paper presents an adaptive input shaping based on pole-zero cancellation (APZC) technique to su...
This paper presents comparative assessments of input shaping techniques using two different approach...
This paper presents development and implementation of a novel approach to produce an s-shaped comman...
This paper presents comparative assessments of input shaping techniques using two different approach...
This paper presents development and implementation of a novel approach to produce an s-shaped comman...
This paper proposes an improved input shaping for minimising payload swing of an overhead crane with...
This paper presents a robust input shaping control of an overhead 3D crane. Control of a crane in th...
The motion induced sway of oscillatory systems such as gantry cranes may decrease the efficiency of ...
Crane systems are the most widely used tools in the shipping yards and construction sites to transpo...
This paper proposes a Model Reference Command Shaping (MRCS) approach for an effective vibration and...
This paper investigates the performance of input shaping techniques for sway control of a rotary cra...
This paper proposes an improved input shaping schem e for an efficient sway control of a nonlinear t...
This paper proposes a Model Reference Command Shaping (MRCS) approach for an effective vibration and...
Abstract: Shaping command input is performed for reducing residual vibrations in motion control of d...
Since the overhead crane system is subject to under actuation system due to that overhead crane and ...