Inverse Dynamic and Control of a Hybrid Parallel Robot

Abstract: In this paper, a new methodology for the development of the dynamic formulation for a hybrid parallel robot is introduced. The robot includes a tripod that is serially connected on top of a hexapod in order to increase its overall workspace, while maintaining sufficient accuracy and stiffness in motion. The robot will have applications involving gripping and manipulation of large aerospace components such as a wingbox structures and panels. The dynamic formulation of the system, based on Newton-Euler and inver… Show more

“…Different aspects regarding inverse kinematics of the double hexapod structure are treated in conference paper [6] at simulation level only. Related concerns, including dynamic aspects and intelligent control algorithms are reported more recently in the conference papers [7] and [8]. The HEXAGENT research project (Hexapod robotic system with extended mobility for intelligent actuation in limited spaces or hostile environments (2017-2018) has offered the opportunity to materialize the concept presented above and to test its performances.…”

Complex and Robust Motion Performed in Extended Workspace with a Double Hexapod Robotic System

“…Different aspects regarding inverse kinematics of the double hexapod structure are treated in conference paper [6] at simulation level only. Related concerns, including dynamic aspects and intelligent control algorithms are reported more recently in the conference papers [7] and [8]. The HEXAGENT research project (Hexapod robotic system with extended mobility for intelligent actuation in limited spaces or hostile environments (2017-2018) has offered the opportunity to materialize the concept presented above and to test its performances.…”

Complex and Robust Motion Performed in Extended Workspace with a Double Hexapod Robotic System

Conceptual Design and Kinematic Analysis of Hybrid Parallel Robot for Accurate Position and Orientation