Add to ORKGThis paper addresses the problem of reducing the hysteresis found in the actuation of most smart materials. They are divided in two groups: systems with no saturation (e.g. piezoelectric actuators), and systems with saturation (e.g. Shape Memory Actuators). For the control of the first group the concept of phaser is introduced, an operator which shifts the phase of a periodic signal but keeps its magnitude unchanged. Since it is possible to approximate phasers with linear filters, it is possible to design practical compensators. The design of a phaser requires the knowledge of one parameter OE, easily identified from experimental transfer function estimates. For the second group, two phasers are used in a tandem connection. One phaser is d...
The thesis deals with the development of a new hysteresis model and the design of observers for syst...
The thesis deals with the development of a new hysteresis model and the design of observers for syst...
Abstract — Control of smart actuators is limited due to strong hysteresis effects which affect the a...
In this thesis, a controller design methodology to reduce hysteresis is introduced. Rate independent...
Abstract—This paper describes a method for the design of compensators able to reduce hysteresis in t...
This paper addresses the compensation of major and minor hysteresis loops using an operator termed a...
ABSTRACT: In many mechatronic applications actuators which are based on active materials are found a...
ABSTRACT: Actuators made from so-called smart materials have been proposed in the literature, for us...
A large class of emerging actuation devices and materials exhibit strong hysteresis characteristics ...
The hysteresis property in a smart structure has attracted much attention from researchers for sever...
Hysteresis widely exists in smart materials such as shape memory alloys (SMAs), piezoelectrics, magn...
ABSTRACT: This article presents a new modeling approach for the memory-dependent hys-teresis phenome...
Hysteresis in smart actuators presents a challenge in control of these actuators. A fundamental idea...
Hysteresis in smart materials hinders the wider applicability ofsuch materials in actuators. In this...
Hysteresis in smart materials hinders the wider applicability of such materials in actuators. In thi...
The thesis deals with the development of a new hysteresis model and the design of observers for syst...
The thesis deals with the development of a new hysteresis model and the design of observers for syst...
Abstract — Control of smart actuators is limited due to strong hysteresis effects which affect the a...
In this thesis, a controller design methodology to reduce hysteresis is introduced. Rate independent...
Abstract—This paper describes a method for the design of compensators able to reduce hysteresis in t...
This paper addresses the compensation of major and minor hysteresis loops using an operator termed a...
ABSTRACT: In many mechatronic applications actuators which are based on active materials are found a...
ABSTRACT: Actuators made from so-called smart materials have been proposed in the literature, for us...
A large class of emerging actuation devices and materials exhibit strong hysteresis characteristics ...
The hysteresis property in a smart structure has attracted much attention from researchers for sever...
Hysteresis widely exists in smart materials such as shape memory alloys (SMAs), piezoelectrics, magn...
ABSTRACT: This article presents a new modeling approach for the memory-dependent hys-teresis phenome...
Hysteresis in smart actuators presents a challenge in control of these actuators. A fundamental idea...
Hysteresis in smart materials hinders the wider applicability ofsuch materials in actuators. In this...
Hysteresis in smart materials hinders the wider applicability of such materials in actuators. In thi...
The thesis deals with the development of a new hysteresis model and the design of observers for syst...
The thesis deals with the development of a new hysteresis model and the design of observers for syst...
Abstract — Control of smart actuators is limited due to strong hysteresis effects which affect the a...