Proportional Integral Derivative (PID) controllers dominate the industry and are used in more than 90 percent of machines in this era. One of the reason for the popularity of these controllers is the existence of easy to use frequency-domain analysis tools such as loop-shaping for this type of controller. Due to the advancement of technology in recent decades, industry needs machines with higher speed and precision. Thus, an advanced industry-compatible control capable of a simultaneous increase in precision and speed is needed. Unfortunately, linear controllers, including integer and fractional order controllers, cannot satisfy this requirement of industry because of fundamental limitations such as the “water-bed" effect. In other words, p...
Reset controllers have the potential to enhance the performance of high-precision industrial motion ...
PID is the most commonly used technique in industrial motion control. It consists of three component...
This article introduces a closed-loop frequency analysis tool for reset control systems. To begin wi...
Proportional Integral Derivative (PID) controllers dominate the industry and are used in more than 9...
Constant in gain Lead in phase (CgLp) compensators, which are a type of reset elements, have shown h...
This paper presents a novel 'Constant in gain Lead in phase' (CgLp) element using nonlinear reset te...
The development of the high-tech industry has pushed the requirements of motion applications to extr...
This paper presents the tuning of a reset-based element called “Constant in gain and Lead in phase” ...
The high-tech industry is pushing the motion system technology towards faster, more precise and more...
PID is the most popular controller in the industry. PID controllers are linear, and thus have fundam...
This paper addresses the main goal of using reset control in precision motion control systems, break...
Floor vibrations are a common problem in high tech engineering where good tracking, precision and ba...
This paper addresses the main goal of using reset control in precision motion control systems, break...
PID is a widely used linear controller in industry field. However, PID is not sufficient enough to m...
The potential of reset controllers to improve the transient performance of linear (motion) systems h...
Reset controllers have the potential to enhance the performance of high-precision industrial motion ...
PID is the most commonly used technique in industrial motion control. It consists of three component...
This article introduces a closed-loop frequency analysis tool for reset control systems. To begin wi...
Proportional Integral Derivative (PID) controllers dominate the industry and are used in more than 9...
Constant in gain Lead in phase (CgLp) compensators, which are a type of reset elements, have shown h...
This paper presents a novel 'Constant in gain Lead in phase' (CgLp) element using nonlinear reset te...
The development of the high-tech industry has pushed the requirements of motion applications to extr...
This paper presents the tuning of a reset-based element called “Constant in gain and Lead in phase” ...
The high-tech industry is pushing the motion system technology towards faster, more precise and more...
PID is the most popular controller in the industry. PID controllers are linear, and thus have fundam...
This paper addresses the main goal of using reset control in precision motion control systems, break...
Floor vibrations are a common problem in high tech engineering where good tracking, precision and ba...
This paper addresses the main goal of using reset control in precision motion control systems, break...
PID is a widely used linear controller in industry field. However, PID is not sufficient enough to m...
The potential of reset controllers to improve the transient performance of linear (motion) systems h...
Reset controllers have the potential to enhance the performance of high-precision industrial motion ...
PID is the most commonly used technique in industrial motion control. It consists of three component...
This article introduces a closed-loop frequency analysis tool for reset control systems. To begin wi...