In this paper, we present a robust control design and analysis for a single axis servo positioning system. A new method that is based on inequalities and bounded constrained optimization technique is developed for tuning the performance weighting function. The effect of parameter changes in the system model are treated as a set of parametric uncertainties. It is shown that the proposed method can simplify the design procedure of H� robust controller design. The developed controllers are implemented experimentally; high robustness, precision, and high bandwidth are achieved
The tuning method of controllers can be used for effectively determining the overall performance of ...
In this paper, a new technique in controller design is presented. Its aim is to force a linear plant...
A new approach to robust performance problems is proposed in this paper. The approach involves the o...
In this paper, we present a robust control design and analysis for a single axis servo positioning ...
In this paper, a systematic robust control design and analysis for a single axis precise positioner ...
This paper proposes an optimized performance of an intelligent H∞ robust controller of a single axis...
This paper presents a structural design method of robust motion controllers for high-accuracy positi...
This paper presents a robust feedback controller design for parametric uncertainty systems via cons...
This paper presents optimization-based technique to design robust control system in case of control ...
This paper presents the design of two different H∞ robust controllers for a single axis positioning ...
The presented paper introduces a relatively simple methodology for robust control system design in c...
A linear programming approach is proposed to tune fixed-order linearly parameterized controllers for...
A linear programming approach is proposed to tune fixed-order linearly parameterized controllers for...
The presented paper exploits optimization and simulation tools of the MATLAB environment to design a...
This paper addresses an intelligent uncertainty function to improve the robust stability and perform...
The tuning method of controllers can be used for effectively determining the overall performance of ...
In this paper, a new technique in controller design is presented. Its aim is to force a linear plant...
A new approach to robust performance problems is proposed in this paper. The approach involves the o...
In this paper, we present a robust control design and analysis for a single axis servo positioning ...
In this paper, a systematic robust control design and analysis for a single axis precise positioner ...
This paper proposes an optimized performance of an intelligent H∞ robust controller of a single axis...
This paper presents a structural design method of robust motion controllers for high-accuracy positi...
This paper presents a robust feedback controller design for parametric uncertainty systems via cons...
This paper presents optimization-based technique to design robust control system in case of control ...
This paper presents the design of two different H∞ robust controllers for a single axis positioning ...
The presented paper introduces a relatively simple methodology for robust control system design in c...
A linear programming approach is proposed to tune fixed-order linearly parameterized controllers for...
A linear programming approach is proposed to tune fixed-order linearly parameterized controllers for...
The presented paper exploits optimization and simulation tools of the MATLAB environment to design a...
This paper addresses an intelligent uncertainty function to improve the robust stability and perform...
The tuning method of controllers can be used for effectively determining the overall performance of ...
In this paper, a new technique in controller design is presented. Its aim is to force a linear plant...
A new approach to robust performance problems is proposed in this paper. The approach involves the o...