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Analysis of an all-terrain tracked robot with innovative suspension system

Angelo Ugenti, Rocco Galati, Giacomo Mantriota, Giulio Reina

2023Mechanism and Machine Theory47 citationsDOIOpen Access PDF

Abstract

Tracked robots are gaining interest in the current context of off-road mobile robotics, especially in soft-terrain applications, because they offer a large contact area with the ground, which provides better traction than wheels or legs. In this paper, a novel passively articulated tracked robot is introduced. On each side, Polibot features a rubber track wrapped around four independently suspended road wheels, an idler wheel, and the sprocket, and it can adapt to many kinds of terrain. An inverse kinematic model for the proposed architecture is also developed to predict the system configuration given the terrain topography. The analytical model is based on constraint equations and a quasi-static force analysis, and it is validated against results obtained from the real prototype, showing good agreement. It can also be used to evaluate the influence of the many suspension design parameters and operating conditions, proving that it can be a useful tool for the proper setup of the robot.

Topics & Concepts

TerrainSprocketRobotKinematicsRoboticsSimulationInverse kinematicsTraction (geology)Mobile robotComputer scienceContext (archaeology)Artificial intelligenceEngineeringControl engineeringComputer visionMechanical engineeringGeologyGeographyPhysicsPaleontologyClassical mechanicsCartographyRobotic Locomotion and ControlSoil Mechanics and Vehicle DynamicsControl and Dynamics of Mobile Robots
Analysis of an all-terrain tracked robot with innovative suspension system | Litcius