%0 Journal Article %1 rutvik_mehenge_2024_10674800 %A Mehenge, Rutvik %A Satoskar, Niket %A Shidhore, Anukool %A Arshath, N. Mohamed %D 2024 %J Global Journal of Engineering and Technology Advances %K Manipulator Mobile robot %N 1 %P 045–054 %R 10.30574/gjeta.2023.17.1.0202 %T Kinematic and optimal design of a three-wheeled holonomic omnidirectional robot platform for mobile manipulation tasks %U https://gjeta.com/content/kinematic-and-optimal-design-three-wheeled-holonomic-omnidirectional-robot-platform-mobile %V 17 %X Mobile manipulator robots are increasingly vital in industrial and service sectors, serving roles in assembly, inspection, and hazardous environments. The integration of a manipulator with a mobile robot base imposes unique demands on the vehicle's drive system. This paper introduces a three-wheel holonomic omnidirectional robot designed for mobile applications. It explores kinematic equations, electronic integration, and mechanical design for holonomic motion. This platform excels in mobility, capable of simultaneous translation and rotation, facilitating precise multidirectional motion. Its equilateral truncated triangular structure ensures stability, supporting up to 4 kg. With three omnidirectional wheels and DC motors, controlled by EMS 30A H-Bridge and Arduino Mega 2560, it offers an open platform for research and development. This robust platform aligns kinematic calculations with mathematical models, promising efficiency for diverse mobile manipulation robot applications.

@article{rutvik_mehenge_2024_10674800, abstract = {Mobile manipulator robots are increasingly vital in industrial and service sectors, serving roles in assembly, inspection, and hazardous environments. The integration of a manipulator with a mobile robot base imposes unique demands on the vehicle's drive system. This paper introduces a three-wheel holonomic omnidirectional robot designed for mobile applications. It explores kinematic equations, electronic integration, and mechanical design for holonomic motion. This platform excels in mobility, capable of simultaneous translation and rotation, facilitating precise multidirectional motion. Its equilateral truncated triangular structure ensures stability, supporting up to 4 kg. With three omnidirectional wheels and DC motors, controlled by EMS 30A H-Bridge and Arduino Mega 2560, it offers an open platform for research and development. This robust platform aligns kinematic calculations with mathematical models, promising efficiency for diverse mobile manipulation robot applications.}, added-at = {2024-03-17T02:09:14.000+0100}, author = {Mehenge, Rutvik and Satoskar, Niket and Shidhore, Anukool and Arshath, N. Mohamed}, biburl = {https://www.bibsonomy.org/bibtex/2c5ad3f475295f0be5e531c37e8c2413b/gjetajournal}, doi = {10.30574/gjeta.2023.17.1.0202}, interhash = {14c3f6e7bae67fbb0c6052b8fb0d9747}, intrahash = {c5ad3f475295f0be5e531c37e8c2413b}, issn = {2582-5003}, journal = {{Global Journal of Engineering and Technology Advances}}, keywords = {Manipulator Mobile robot}, month = feb, number = 1, pages = {045–054}, timestamp = {2024-03-17T02:09:14.000+0100}, title = {Kinematic and optimal design of a three-wheeled holonomic omnidirectional robot platform for mobile manipulation tasks}, url = {https://gjeta.com/content/kinematic-and-optimal-design-three-wheeled-holonomic-omnidirectional-robot-platform-mobile}, volume = 17, year = 2024 }