Abstract—In this paper, we present a new system to automat-ically estimate the rotational axis (orientation) of robotic joints relative to distributed accelerometers. We designed, implemented, and tested a method for the estimation of joint orientation. The method takes advantage of basic movement patterns of a robotic segment. The method uses considerably less input data compared to related methods for the estimation of joint orientation. As sensor input, it only needs the gravitational acceleration measured before and after a commanded joint rotation, dynamic acceleration components are not needed. We evaluated the implementation of the method on a Bioloid robot equipped with three Tactile Module prototypes. Our Tactile Modules are multim...
Reconfigurable robots and mountable measurement systems face attraction due to significant changes i...
Abstract-Knowledge of how a body is oriented relative to the world is frequently invaluable informat...
Demand for interactive wearable devices is rapidly increasing with the development of smart devices....
A method to find the orientation and position of a three degree-of-freedom (DOF) accelerometer mount...
A novel method to find the orientation and position of a triaxial accelerometer mounted on a six deg...
Quantitative assessment of human body movements includes the analysis of joint orientations. We prop...
The ability to capture joint kinematics in outside-laboratory environments is clinically relevant. I...
A method is presented to estimate relative orientations of human body segments directly from 3D acce...
A new method of estimating lower limbs orientations using a combination of accelerometers and gyrosc...
A new method of measuring joint angle using a combination of accelerometers and gyroscopes is presen...
Many systems for recording human movement need some reference from beacons near the subject, such as...
This contribution is concerned with joint angle calculation based on inertial measurement data in th...
This paper presents a novel orientation estimate approach named inertial guided visual sample consen...
Paper 130This work reports on the current state of a robotic joint sensor unit capable of estimating...
This paper presents a novel kinematic reconstruction of the human arm chain with five degrees of fre...
Reconfigurable robots and mountable measurement systems face attraction due to significant changes i...
Abstract-Knowledge of how a body is oriented relative to the world is frequently invaluable informat...
Demand for interactive wearable devices is rapidly increasing with the development of smart devices....
A method to find the orientation and position of a three degree-of-freedom (DOF) accelerometer mount...
A novel method to find the orientation and position of a triaxial accelerometer mounted on a six deg...
Quantitative assessment of human body movements includes the analysis of joint orientations. We prop...
The ability to capture joint kinematics in outside-laboratory environments is clinically relevant. I...
A method is presented to estimate relative orientations of human body segments directly from 3D acce...
A new method of estimating lower limbs orientations using a combination of accelerometers and gyrosc...
A new method of measuring joint angle using a combination of accelerometers and gyroscopes is presen...
Many systems for recording human movement need some reference from beacons near the subject, such as...
This contribution is concerned with joint angle calculation based on inertial measurement data in th...
This paper presents a novel orientation estimate approach named inertial guided visual sample consen...
Paper 130This work reports on the current state of a robotic joint sensor unit capable of estimating...
This paper presents a novel kinematic reconstruction of the human arm chain with five degrees of fre...
Reconfigurable robots and mountable measurement systems face attraction due to significant changes i...
Abstract-Knowledge of how a body is oriented relative to the world is frequently invaluable informat...
Demand for interactive wearable devices is rapidly increasing with the development of smart devices....