Abstract: A new iterative feedback/feedforward tuning (IFFT) method is presented for multiple-input multiple output (MIMO) control systems that relies on efficient computation of the negative gradient of the controller cost function in the frequency domain. The iterative method is using only one experiment per iteration and it is therefore suitable for realtime implementation for periodic adjustment of the controller. The primary target application area of the presented method is self-tuning feedback control in active noise and vibration control (ANVC)
This thesis details the research undertaken to find new self-tuning and adaptive controllers for act...
International audienceIn recent papers adaptation algorithms taking in account the "positive" feedba...
Feedforward control is a popular strategy of active noise/vibration control. In well-damped noise/vi...
A new iterative feedback/feed-forward tuning (IFFT) method is presented for multiple-input multiple-...
A new gradient estimation method is proposed that relies on efficient computation of the negative gr...
A new ’model-free’ iterative controller tuning method is presented for multiple-inputmultiple output...
In this thesis a new adaptive control method, called Iterative Tuning in the Frequency Domain (FD-IT...
In this thesis a new adaptive control method, called Iterative Tuning in the Frequency Domain (FD-IT...
A general gradient estimation method is proposed that relies on the computation of system dynamics a...
In this contribution, we extend the Iterative Feedback Tuning (IFT) control method of [3, 4] to a mu...
In this paper, a model-free iterative feedback tuning method is presented to tune a frequency domain...
Abstract: The objective of this contribution is to discuss three basic control design methods for di...
A MIMO disturbance feedforward control strategy is presented to isolate an industrial active vibrati...
This paper proposes a multi-input multi-output (MIMO) disturbance feedforward controller to improve ...
This paper presents the development of a self-tuning controller design of minimum effort active nois...
This thesis details the research undertaken to find new self-tuning and adaptive controllers for act...
International audienceIn recent papers adaptation algorithms taking in account the "positive" feedba...
Feedforward control is a popular strategy of active noise/vibration control. In well-damped noise/vi...
A new iterative feedback/feed-forward tuning (IFFT) method is presented for multiple-input multiple-...
A new gradient estimation method is proposed that relies on efficient computation of the negative gr...
A new ’model-free’ iterative controller tuning method is presented for multiple-inputmultiple output...
In this thesis a new adaptive control method, called Iterative Tuning in the Frequency Domain (FD-IT...
In this thesis a new adaptive control method, called Iterative Tuning in the Frequency Domain (FD-IT...
A general gradient estimation method is proposed that relies on the computation of system dynamics a...
In this contribution, we extend the Iterative Feedback Tuning (IFT) control method of [3, 4] to a mu...
In this paper, a model-free iterative feedback tuning method is presented to tune a frequency domain...
Abstract: The objective of this contribution is to discuss three basic control design methods for di...
A MIMO disturbance feedforward control strategy is presented to isolate an industrial active vibrati...
This paper proposes a multi-input multi-output (MIMO) disturbance feedforward controller to improve ...
This paper presents the development of a self-tuning controller design of minimum effort active nois...
This thesis details the research undertaken to find new self-tuning and adaptive controllers for act...
International audienceIn recent papers adaptation algorithms taking in account the "positive" feedba...
Feedforward control is a popular strategy of active noise/vibration control. In well-damped noise/vi...