Acceleration Sets of Planar Manipulators. Part 1. Theory
Abstract
This report develops a systematic approach for determining the acceleration capability and the acceleration properties of the end-effector of a planar two degree-of-freedom manipulator. The acceleration of the end-effector at a given configuration of the manipulator is a linear function of the actuator torques and a (nonlinear) quadratic function of the joint-velocities. By decomposing the functional relationships between the inputs (actuator torques and joint velocities) and the output (acceleration of the end-effector into two fundamental mappings, a linear mapping between the actuator torque space and the acceleration space of the end-effector and a quadratic (nonlinear) mapping between the joint velocity space and the mapping acceleration space of the end- effector, and by deriving the properties of these two mappings, it is possible to determine the properties of all acceleration sets which are the images of the appropriate inputs sets under the two fundamental mappings. The determination of the properties of the quadratic mapping, a key feature of the present work, allows us to obtain analytic expressions relating important acceleration properties of the end-effector to all the manipulator parameters and input variables of interest.
Document Details
- Document Type
- Technical Report
- Publication Date
- Jul 01, 1989
- Accession Number
- ADA213162
Entities
People
- Subhas Desa
- Yong-yil Kim
Organizations
- Carnegie Mellon University