Publication | Closed Access
Knowledge-based control of grasping in robot hands using heuristics from human motor skills
104
Citations
16
References
1993
Year
Robot KinematicsHuman-robot Collaborative AssemblyRobotic SystemsEngineeringRobot PlanningDexterous ManipulationIntelligent RoboticsMotor ControlObject ManipulationIntelligent SystemsGrasp PosturesRobot HandsMultifingered Robot HandsSystems EngineeringRobot LearningKinematicsHealth SciencesRobot ManipulationKnowledge-based ControlMechatronicsDesignRobot DexterityRobot ControlAutomationMechanical SystemsHuman Motor SkillsRoboticsGrasp Planner
The development of a grasp planner for multifingered robot hands is described. The planner is knowledge-based, selecting grasp postures by reasoning from symbolic information on target object geometry and the nature of the task. The ability of the planner to utilize task information is based on an attempt to mimic human grasping behavior. Several task attributes and a set of heuristics derived from observation of human motor skills are included in the system. The paper gives several examples of the reasoning of the system in selecting the appropriate grasp mode for spherical and cylindrical objects for different tasks.< <ETX xmlns:mml="http://www.w3.org/1998/Math/MathML" xmlns:xlink="http://www.w3.org/1999/xlink">></ETX>
| Year | Citations | |
|---|---|---|
Page 1
Page 1