Abstract: The periodic disturbances caused by the inherent eccentricity and unbalancing in compact disc systems is one of the prominent radial-tracking problems in high-speed and high-density optical storage systems. To compensate these periodic disturbances, an adaptive feedforward compensation technique is presented and investigated with the aim to have cost-effective optical disc drive manufacturing. Computer simulations and experimental evaluation on a high speed CD-ROM product show that the proposed adaptive feedforward compensator is very effective and provides a way to significantly improve the radial tracking performance by reducing the radial error by 85%
There are many control methods to guarantee the robustness of a system. Among them, the disturbance ...
Abstract: In the next generation near-field optical data storage systems, higher data transfer rate ...
A method for performance assessment of a variable-gain control design for optical storage drives is ...
The periodic disturbances caused by the inherent eccentricity and unbalancing in compact disc system...
The periodic disturbances caused by the inherent eccentricity and unbalancing in compact disc system...
International audienceThis paper deals with the problem of adaptive suppression of disturbances on B...
Periodic disturbance occurs in various applications on the control of the rotational mechanical syst...
This study develops the foundation of a digitally implemented control system for the radial position...
A large spectrum of new technologies are being explored in the optical disk drive systems. Optics, l...
A frequency-shaped high-gain (FSHG) compensator is proposed and implemented for optical disk drive c...
A frequency-shaped high-gain (FSHG) compensator is proposed and implemented for optical disk drive c...
A compact disc (CD) player is an optical decoding device that reproduces high-quality audio from a d...
This paper deals with the control design for optical storage drives. A nonlinear design is suggested...
Optical disk drive systems require high tracking performance to comply with stricter specifications ...
Radial track following of a compact disc player servo mechanism is severely exposed to periodic dist...
There are many control methods to guarantee the robustness of a system. Among them, the disturbance ...
Abstract: In the next generation near-field optical data storage systems, higher data transfer rate ...
A method for performance assessment of a variable-gain control design for optical storage drives is ...
The periodic disturbances caused by the inherent eccentricity and unbalancing in compact disc system...
The periodic disturbances caused by the inherent eccentricity and unbalancing in compact disc system...
International audienceThis paper deals with the problem of adaptive suppression of disturbances on B...
Periodic disturbance occurs in various applications on the control of the rotational mechanical syst...
This study develops the foundation of a digitally implemented control system for the radial position...
A large spectrum of new technologies are being explored in the optical disk drive systems. Optics, l...
A frequency-shaped high-gain (FSHG) compensator is proposed and implemented for optical disk drive c...
A frequency-shaped high-gain (FSHG) compensator is proposed and implemented for optical disk drive c...
A compact disc (CD) player is an optical decoding device that reproduces high-quality audio from a d...
This paper deals with the control design for optical storage drives. A nonlinear design is suggested...
Optical disk drive systems require high tracking performance to comply with stricter specifications ...
Radial track following of a compact disc player servo mechanism is severely exposed to periodic dist...
There are many control methods to guarantee the robustness of a system. Among them, the disturbance ...
Abstract: In the next generation near-field optical data storage systems, higher data transfer rate ...
A method for performance assessment of a variable-gain control design for optical storage drives is ...