In the present world, a new development in technology every other year is anticipated. Robots and motion stages in the high-tech sector are required to work at higher speeds being stable, more precise, and power-efficient. Linear controllers have served well but are falling short to continue with the trend. Reset elements can enhance the performance of linear filters like PID by overcoming the bounds of linear control. As the name implies, reset elements reset their state/ states, thus induce nonlinearity. This nonlinearity provides reduced phase lag with similar magnitude behaviour as linear elements. With such behaviour or by adding linear filters with reset elements, both the steady-state and transient response can be improved. The track...
Reset control aims at enhanced performance that cannot be obtained by linear controllers. The conven...
The performance of linear control is limited by the waterbed effect, while the performance demands o...
In dealing with inherent limitations during stage control design, the possibilities of a second-orde...
This article addresses nonlinearity in reset elements and its effects. Reset elements are known for ...
PID is a widely used linear controller in industry field. However, PID is not sufficient enough to m...
It is well-appreciated that Bode\u27s gain-phase relationship places a hard limitation on performanc...
The development of the high-tech industry has pushed the requirements of motion applications to extr...
Using the describing function method, engineers in the 1950?s and 1960?s conceived of novel nonlinea...
The most widely applied feedback controller is PID. This controller gains its popularity because of ...
The high-tech industry is pushing the motion system technology towards faster, more precise and more...
In the past three decades, linear time-invariant (LTI) control design techniques have been developed...
An intelligent vehicle must face a wide variety of situations ranging from safe and comfortable to m...
PID is the most commonly used technique in industrial motion control. It consists of three component...
Floor vibrations are a common problem in high tech engineering where good tracking, precision and ba...
Linear time invariant (LTI) control design is the most widely applied control design technique. But ...
Reset control aims at enhanced performance that cannot be obtained by linear controllers. The conven...
The performance of linear control is limited by the waterbed effect, while the performance demands o...
In dealing with inherent limitations during stage control design, the possibilities of a second-orde...
This article addresses nonlinearity in reset elements and its effects. Reset elements are known for ...
PID is a widely used linear controller in industry field. However, PID is not sufficient enough to m...
It is well-appreciated that Bode\u27s gain-phase relationship places a hard limitation on performanc...
The development of the high-tech industry has pushed the requirements of motion applications to extr...
Using the describing function method, engineers in the 1950?s and 1960?s conceived of novel nonlinea...
The most widely applied feedback controller is PID. This controller gains its popularity because of ...
The high-tech industry is pushing the motion system technology towards faster, more precise and more...
In the past three decades, linear time-invariant (LTI) control design techniques have been developed...
An intelligent vehicle must face a wide variety of situations ranging from safe and comfortable to m...
PID is the most commonly used technique in industrial motion control. It consists of three component...
Floor vibrations are a common problem in high tech engineering where good tracking, precision and ba...
Linear time invariant (LTI) control design is the most widely applied control design technique. But ...
Reset control aims at enhanced performance that cannot be obtained by linear controllers. The conven...
The performance of linear control is limited by the waterbed effect, while the performance demands o...
In dealing with inherent limitations during stage control design, the possibilities of a second-orde...