International audienceWe address the problem of rotational velocity and acceleration estimation from incremental encoders in the presence of sensor imperfections. In the area of motion control, measurements of shaft velocity and acceleration are often affected by large disturbances with a period of one revolution that arise from sensor imperfections and degrade the performance of most closed-loop control algorithms. We present an algorithm to identify and remove such periodic perturbations online, without the need of error compensation look-up tables, and without assuming constant velocity. The proposed algorithm is evaluated via open-loop experimental tests, and its implementation in closed-loop control applications is investigated via num...
A DC motor velocity control in feedback systems usually requires a velocity sensor, which increases...
Our recently developed patented instrument, the Incremental Motion Encoder (IME), is able to monitor...
Precise motion control requires high-accuracy and high-bandwidth feedback speed information, often c...
International audienceWe address the problem of rotational velocity and acceleration estimation from...
International audienceWe address the problem of rotational velocity and acceleration estimation from...
International audienceIn the area of traction and brake control, measurements of the rotational velo...
This work studies the incremental optical encoder sensor and its impact on motor motion. The small-s...
The problem of the estimation of rotating speed is a very important problem, specially for systems t...
This paper proposes a new algorithm using signals from an incremental encoder for estimating a rotat...
Motion control is an important task in several areas, such as robotics where the angular position an...
The trade-off between the noise-sensitivity and the performance of disturbance estimation is well-kn...
Traditionally two different algorithms are used for the estimation of angular velocity with an incre...
A DC motor velocity control in feedback systems usually requires a velocity sensor, which increases...
Our recently developed patented instrument, the Incremental Motion Encoder (IME), is able to monitor...
Precise motion control requires high-accuracy and high-bandwidth feedback speed information, often c...
International audienceWe address the problem of rotational velocity and acceleration estimation from...
International audienceWe address the problem of rotational velocity and acceleration estimation from...
International audienceIn the area of traction and brake control, measurements of the rotational velo...
This work studies the incremental optical encoder sensor and its impact on motor motion. The small-s...
The problem of the estimation of rotating speed is a very important problem, specially for systems t...
This paper proposes a new algorithm using signals from an incremental encoder for estimating a rotat...
Motion control is an important task in several areas, such as robotics where the angular position an...
The trade-off between the noise-sensitivity and the performance of disturbance estimation is well-kn...
Traditionally two different algorithms are used for the estimation of angular velocity with an incre...
A DC motor velocity control in feedback systems usually requires a velocity sensor, which increases...
Our recently developed patented instrument, the Incremental Motion Encoder (IME), is able to monitor...
Precise motion control requires high-accuracy and high-bandwidth feedback speed information, often c...