Enumeration of spatial manipulators by using the concept of Adjacency Matrix

TL;DR

This paper introduces a novel method for enumerating spatial robotic manipulators using adjacency matrices, covering various joint types and degrees of freedom, and provides a comprehensive list of possible manipulator configurations.

Contribution

It presents a new application of adjacency matrices to enumerate spatial manipulators with different joints and link configurations, expanding the tools for manipulator synthesis.

Findings

Enumerated 96 1-DOF manipulators of four links

Enumerated 641 2-DOF manipulators of five links

Identified 15 4-DOF manipulators of five links

Abstract

This study is on the enumeration of spatial robotic manipulators, which is an essential basis for a companion study on dimensional synthesis, both of which together present a wider utility in manipulator synthesis. The enumeration of manipulators is done by using adjacency matrix concept. In this paper, a novel way of applying adjacency matrix to spatial manipulators with four types of joints, namely revolute, prismatic, cylindrical and spherical joints, is presented. The limitations of the applicability of the concept to 3D manipulators are discussed. 1-DOF (Degree Of Freedom) manipulators of four links and 2-DOF, 3-DOF and 4-DOF manipulators of three links, four links and five links, are enumerated based on a set of conventions and some assumptions. Finally, 96 1-DOF manipulators of four links, 641 2-DOF manipulators of 5 links, 4 2-DOF manipulators of three links, 8 3-DOF manipulators of four links and 15 4-DOF manipulators of five links are presented.