Add to ORKGContrary to the claims made in the comments to our paper, the passivity-based controller developed for induction motors has already been tested on the same demanding trajectories used for the input–output linearization controller. The experimental results show that the passivitybased controller provides closer tracking of the same mechanical trajectory, when compared with the input–output linearization controller
The paper develops a systematic comparison of two nonlinear models of induction machines in magnetic...
Nonlinear and Adaptive Control Design for Induction Motors is a unified exposition of the most impor...
Adequate control of the stator currents is a fundamental requirement for several high-performance in...
Contrary to the claims made in the comments to our paper, the passivity-based controller developed f...
A passivity-based controller, which takes into account saturation of the magnetic material in the ma...
Field-oriented control (FOC) for induction motors is widely used in industrial applications. By usin...
Abstract: We argue in this paper that the standard procedure used Passivity– Based Controller (PBC) ...
International audienceIn this paper, a sensorless output feedback controller is designed in order to...
In this letter, we propose several rules to tune the gains for a class of passivity-based controller...
This article proposes a new input–output feedback linearization control (FLC) technique o...
The current industrial standard for the control of the induction motor is the so called vector contr...
This paper deals with the flux estimation for sensorless induction motor drives. The linearized model...
The Induction motor has been widely used in industry and is considered as the best candidate for ele...
International audienceThis paper presents a robust control design procedure for induction motor driv...
Even if there exists remarkable applications of induction machines in variable speed drives and also...
The paper develops a systematic comparison of two nonlinear models of induction machines in magnetic...
Nonlinear and Adaptive Control Design for Induction Motors is a unified exposition of the most impor...
Adequate control of the stator currents is a fundamental requirement for several high-performance in...
Contrary to the claims made in the comments to our paper, the passivity-based controller developed f...
A passivity-based controller, which takes into account saturation of the magnetic material in the ma...
Field-oriented control (FOC) for induction motors is widely used in industrial applications. By usin...
Abstract: We argue in this paper that the standard procedure used Passivity– Based Controller (PBC) ...
International audienceIn this paper, a sensorless output feedback controller is designed in order to...
In this letter, we propose several rules to tune the gains for a class of passivity-based controller...
This article proposes a new input–output feedback linearization control (FLC) technique o...
The current industrial standard for the control of the induction motor is the so called vector contr...
This paper deals with the flux estimation for sensorless induction motor drives. The linearized model...
The Induction motor has been widely used in industry and is considered as the best candidate for ele...
International audienceThis paper presents a robust control design procedure for induction motor driv...
Even if there exists remarkable applications of induction machines in variable speed drives and also...
The paper develops a systematic comparison of two nonlinear models of induction machines in magnetic...
Nonlinear and Adaptive Control Design for Induction Motors is a unified exposition of the most impor...
Adequate control of the stator currents is a fundamental requirement for several high-performance in...