\u3cp\u3eConventional PID-like SISO controllers are still the most common in industry, but with performance requirements becoming tighter there is a growing need for advanced controllers. For the positioning devices in IC-manufacturing, plant interaction is a major performance-limiting factor. MIMO control can be invoked to attack this problem. A practically feasible procedure is presented to design MIMO feedback controllers for electromechanical positioning devices, using H μ techniques. Weighting filters are proposed to straightforwardly and effectively impose performance and uncertainty specifications. Experiments show that MIMO control can considerably improve upon the performance with multiloop SISO control. Some problems are highlight...
This work discusses rejection of disturbances with known directions in multivariable motion systems....
This paper focuses on the design method of the optimal multiple inputs and multiple outputs (MIMO) p...
Abstract:- In order to overcome the vital resonant frequencies of high speed and high precision stag...
Abstract — This presentation gives an overview of the results of an exploratory study on multivariab...
Structural deformations resulting from exogenous disturbances limit the control performance in high-...
The multivariable tracking accuracy on an automotive vibration test rig can be improved by extending...
This presentation gives an overview of an exploratory study on the application of multivariable cont...
This paper discusses the approximation and feedback relevant parametric identification of a position...
Due to ever increasing demands in industry, the number of applications of multiple input multiple ou...
\u3cp\u3eMotion systems with multiple control loops often run at a single sampling rate for simplici...
This paper proposes a two degree of freedom control using a combined feedforward/feedback architect...
The rapid growth in the complexity of modern process plants both in terms of material flow and energ...
Within the framework of tracking controller design for an automotive vibration test rig, a new contr...
This work discusses rejection of disturbances with known directions in multivariable motion systems....
This work discusses rejection of disturbances with known directions in multivariable motion systems....
This paper focuses on the design method of the optimal multiple inputs and multiple outputs (MIMO) p...
Abstract:- In order to overcome the vital resonant frequencies of high speed and high precision stag...
Abstract — This presentation gives an overview of the results of an exploratory study on multivariab...
Structural deformations resulting from exogenous disturbances limit the control performance in high-...
The multivariable tracking accuracy on an automotive vibration test rig can be improved by extending...
This presentation gives an overview of an exploratory study on the application of multivariable cont...
This paper discusses the approximation and feedback relevant parametric identification of a position...
Due to ever increasing demands in industry, the number of applications of multiple input multiple ou...
\u3cp\u3eMotion systems with multiple control loops often run at a single sampling rate for simplici...
This paper proposes a two degree of freedom control using a combined feedforward/feedback architect...
The rapid growth in the complexity of modern process plants both in terms of material flow and energ...
Within the framework of tracking controller design for an automotive vibration test rig, a new contr...
This work discusses rejection of disturbances with known directions in multivariable motion systems....
This work discusses rejection of disturbances with known directions in multivariable motion systems....
This paper focuses on the design method of the optimal multiple inputs and multiple outputs (MIMO) p...
Abstract:- In order to overcome the vital resonant frequencies of high speed and high precision stag...