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A mobile robot with a two-degree-of-freedom suspension for traversing uneven terrain with minimal slip: Modeling, simulation and experiments

  • Published:2015-11 Issue: Volume:93 Page:83-97
  • ISSN:0094-114X
  • Container-title:Mechanism and Machine Theory
  • language:en
  • Short-container-title:Mechanism and Machine Theory

Author:

Appala Tharakeshwar,Ghosal Ashitava

Publisher

Elsevier BV

Subject

Computer Science Applications,Mechanical Engineering,Mechanics of Materials,Bioengineering

Reference26 articles.

1. Terrain adaptive vehicle;Waldron;ASME Trans. J. Mech. Des.,1995

2. Two wheels connected by an un-actuated variable length axle on uneven ground: kinematic modeling and experiments;Choi;ASME Trans. J. Mech. Des.,1999

3. Kinematics of wheeled mobile robots on uneven terrain;Chakraborty;Mech. Mach. Theory,2004

4. Dynamic modeling and simulation of wheeled mobile robot for traversing uneven terrain without slip;Chakraborty;ASME Trans. J. Mech. Des.,2005

5. A novel kinematic model for rough terrain robots;Auchter;Adv. Comput. Algorithm. Data Analy. Lect. Notes Electr. Eng.,2009

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1. Design and testing of double-wishbone suspension for enhanced outdoor maneuver stability of a six-wheeled mobile robot;Mechatronics;2024-11

2. A finite-time path-tracking control algorithm for nonholonomic mobile robots with unknown dynamics and subject to wheel slippage/skid disturbances;Proceedings of the Institution of Mechanical Engineers, Part I: Journal of Systems and Control Engineering;2024-03-13

3. Kinematic Analysis and Odometry-Based Navigation of an Omnidirectional Wheeled Mobile Robot on Uneven Surfaces;Journal of Intelligent & Robotic Systems;2023-05-25

4. Simulation and Strength Analysis of Flippable Mobile Ground Robot for Volcano Exploration and Monitoring Application;2022 IEEE 14th International Conference on Humanoid, Nanotechnology, Information Technology, Communication and Control, Environment, and Management (HNICEM);2022-12-01

5. Model Building and Simulation of the Suspension System for a Robotic Asparagus Harvester;Applied Mechanics and Materials;2018-08
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