Add to ORKGRotary encoders and resolvers are by far the most common sensors to measure joint angles in articulated robots. Since various control approaches require angular rates as well, resolvers and encoders are also employed to derive angular rate signals. Due to the involved differentiation operation, however, quantization noise may be augmented significantly. Advanced filtering approaches can only partially overcome this drawback. Therefore, direct measurement of angular rates is desirable. Due to advancements in manufacturing technology and pushed by applications in entertainment devices, MEMS gyroscopes have become an attractive alternative for angular rate measurement. Unfortunately, they are affected by bias and other non-negligible disturban...
This dissertation investigates the design of control algorithms and calibration methods forMicroscal...
The paper proposes an angular velocity fusion method of the microelectromechanical system inertial m...
In recent years work into larger humanoid robotic systems and other highly dynamic legged robots has...
AbstractThis paper presents a control algorithm for vibrat-ing gyroscopes so that they can directly ...
Due to the character of the original source materials and the nature of batch digitization, quality ...
High speed rotary motion of complex joints were quantified with triaxial angular rate sensors. Angul...
This paper To get the angle value with a MEMS rate gyroscope in some specific field, the usual metho...
Cette thèse étudie l’estimation de vitesse de rotation d’un corps rigide à partir de mesures de dire...
Inertial motion capture relies on accurate sensor-to-segment calibration. When two segments are conn...
Principles of construction of a micromechanical angular-rate sensor on the basis of the wave solid-s...
Abstract-This paper presents the analysis for joint angle measurement on rigid body that is based on...
The article presents the possibilities of using popular MEMS inertial sensors in the object tilt ang...
A distributed set of accelerometers based on the minimum number of 12 accelerometers allows for comp...
In this paper, a novel approach for processing the outputs signal of the microelectromechanical syst...
This paper presents a single-axis angular rate sensor that is robust to variations in its operating ...
This dissertation investigates the design of control algorithms and calibration methods forMicroscal...
The paper proposes an angular velocity fusion method of the microelectromechanical system inertial m...
In recent years work into larger humanoid robotic systems and other highly dynamic legged robots has...
AbstractThis paper presents a control algorithm for vibrat-ing gyroscopes so that they can directly ...
Due to the character of the original source materials and the nature of batch digitization, quality ...
High speed rotary motion of complex joints were quantified with triaxial angular rate sensors. Angul...
This paper To get the angle value with a MEMS rate gyroscope in some specific field, the usual metho...
Cette thèse étudie l’estimation de vitesse de rotation d’un corps rigide à partir de mesures de dire...
Inertial motion capture relies on accurate sensor-to-segment calibration. When two segments are conn...
Principles of construction of a micromechanical angular-rate sensor on the basis of the wave solid-s...
Abstract-This paper presents the analysis for joint angle measurement on rigid body that is based on...
The article presents the possibilities of using popular MEMS inertial sensors in the object tilt ang...
A distributed set of accelerometers based on the minimum number of 12 accelerometers allows for comp...
In this paper, a novel approach for processing the outputs signal of the microelectromechanical syst...
This paper presents a single-axis angular rate sensor that is robust to variations in its operating ...
This dissertation investigates the design of control algorithms and calibration methods forMicroscal...
The paper proposes an angular velocity fusion method of the microelectromechanical system inertial m...
In recent years work into larger humanoid robotic systems and other highly dynamic legged robots has...