This paper proposes an optimized performance of an intelligent H∞ robust controller of a single axis positioning system. The objective is to achieve wider bandwidth, better resolution, and robustness to modeling uncertainties. The main contribution is the combination of intelligent uncertainty weighting function and optimized weighting function in an H∞ robust controller design. The main distinguishing features of this approach are: the accurate, fast identification of the uncertainty bounds using an adaptive neuro fuzzy inference system and the automatic tuning of the performance weighting function in accordance to performance requirements. v-gap measure is utilized to validate the intelligent identified uncertainty bounds for wider stabil...
This paper presents a structural design method of robust motion controllers for high-accuracy positi...
AbstractThis paper addresses the problem of designing a robust control for a laboratory 3DOF helicop...
In this paper, design and implementation of an intelligent disturbance weighting function for H�-...
This paper proposes an optimized performance of an intelligent H∞ robust controller of a single axis...
This paper addresses an intelligent uncertainty function to improve the robust stability and perform...
This paper presents the design of two different H∞ robust controllers for a single axis positioning ...
Identification of uncertainty bounds in robust control design is known to be a critical issue that a...
Robust controller design requires a proper definition of uncertainty bounds. These uncertainty bound...
In this paper a new intelligent identification method of uncertainty bound utilizes an adaptive neur...
In this paper, we present a robust control design and analysis for a single axis servo positioning ...
Active magnetic bearings is known to be inherently unstable systems that have a widespread applicat...
This paper describes the design, analysis and comparison of two ∞ H controllers that use two differe...
In this paper, a systematic robust control design and analysis for a single axis precise positioner ...
Modern mechanical systems, such as machine tools, microelectronics manufacturing equipment, are of...
Robust control has been studied in recent years as an efficient methodology for the design of highly...
This paper presents a structural design method of robust motion controllers for high-accuracy positi...
AbstractThis paper addresses the problem of designing a robust control for a laboratory 3DOF helicop...
In this paper, design and implementation of an intelligent disturbance weighting function for H�-...
This paper proposes an optimized performance of an intelligent H∞ robust controller of a single axis...
This paper addresses an intelligent uncertainty function to improve the robust stability and perform...
This paper presents the design of two different H∞ robust controllers for a single axis positioning ...
Identification of uncertainty bounds in robust control design is known to be a critical issue that a...
Robust controller design requires a proper definition of uncertainty bounds. These uncertainty bound...
In this paper a new intelligent identification method of uncertainty bound utilizes an adaptive neur...
In this paper, we present a robust control design and analysis for a single axis servo positioning ...
Active magnetic bearings is known to be inherently unstable systems that have a widespread applicat...
This paper describes the design, analysis and comparison of two ∞ H controllers that use two differe...
In this paper, a systematic robust control design and analysis for a single axis precise positioner ...
Modern mechanical systems, such as machine tools, microelectronics manufacturing equipment, are of...
Robust control has been studied in recent years as an efficient methodology for the design of highly...
This paper presents a structural design method of robust motion controllers for high-accuracy positi...
AbstractThis paper addresses the problem of designing a robust control for a laboratory 3DOF helicop...
In this paper, design and implementation of an intelligent disturbance weighting function for H�-...