Title :
Kinematic modeling of head-neck movements
Author :
Ouerfelli, Mohamed ; Kumar, Vijay ; Harwin, William S.
Author_Institution :
St. Clair Coll. of Appl. Arts & Technol., Windsor, Ont., Canada
fDate :
11/1/1999 12:00:00 AM
Abstract :
The main objective is to generate kinematic models for the head and neck movements. The motivation comes from our study of individuals with quadriplegia and the need to design rehabilitation aiding devices such as robots and teletheses that can be controlled by head-neck movements. It is then necessary to develop mathematical models for the head and neck movements. Two identification methods have been applied to study the kinematics of head-neck movements of able-body as well as neck-injured subjects. In particular, sagittal plane movements are well modeled by a planar two-revolute-joint linkage. In fact, the motion in joint space seems to indicate that sagittal plane movements may be classified as a single DOF motion. Finally, a spatial three-revolute-joint system has been employed to model 3D head-neck movements
Keywords :
handicapped aids; identification; motion control; physiological models; robot kinematics; handicapped aids; head-neck movements; identification; kinematic model; planar two-revolute-joint linkage; quadriplegia; rehabilitation; robots; sagittal plane movements; Art; Biological system modeling; Couplings; Mathematical model; Mobile robots; Neck; Orbital robotics; Rehabilitation robotics; Robot control; Robot kinematics;
Journal_Title :
Systems, Man and Cybernetics, Part A: Systems and Humans, IEEE Transactions on
DOI :
10.1109/3468.798064
