KINEMATIC DESIGN OF A HYBRID LOCOMOTION MOBILE MANIPULATOR FOR AGRICULTURAL APPLICATIONS
Abstract
In agriculture, one of the future solutions to eliminate the negative effect on the environment of the classical machineries is to use mobile robots (MRs). Small groups of MRs will interact with each other in order to inspect, to process or to harvest crops. These robots will have to work in a changing environment, in terms of terrain or road surfaces, the light of the ambient, animals, etc., aspects that will pose challenges for mobile robots. To facilitate the use of robots in agriculture, they must have a simple construction, be extremely reliable, flexible and, last but not least, cheap. These aspects have as effect new challenges for robot manufacturers to find technical solutions to meet the mentioned requirements. In this paper, a conceptual design of a mobile manipulator, which may be used in agriculture for applications, such as tilling, seeding, fertilization, weeding, harvesting, etc, will be discussed.
Full Text:
PDFReferences
Pecka A, Osadcuks, V, Conceptual Design of Modular Multi Functional Agricultural Mobile Robot, Research for rural development 1: 202-206, 1918.
Kim K-O, Kim J-C, Ban K-J, Kim E-K, Jang M-S, U-IT based greenhouse environment monitoring system, Proceedings of the 2011 5th FTRA International Conference on Multimedia and Ubiquitous Engineering pp. 203–206, 2011.
Grossi N, Fontanelli M, Garramone E, et.al., Autonomous mower saves energy and improves quality of tall fescue lawn, HortTechnology 26(6): 825–830, 2016.
Wolfert S, Ge L, Verdouw C, Bogaardt M-J, Big Data in Smart Farming – A review, Agricultural Systems 153: 69–80, 2017.
Reddy N-V, Reddy A-V, Pranavadithya S, Kumar J-J, A critical review on agricultural robots, International Journal of Mechanical Engineering and Technology 7 (4): 183–188, 2016.
Hirose S, Fukuda Y, Yoneda K, Nagakubo A, Tsukagoshi H, Arikawa K, Endo G, Doi T, Hodoshima R, Quadruped Walking Robots at Tokyo Institute of Technology, IEEE Robotics and Automation Magazine 16: 104–114, 2009
Conduraru A, Doroftei I, Conduraru I, An Overview on the Design of Mobile Robots with Hybrid Locomotion, Advanced Materials Research 837: 555-560, 2013.
Doroftei I, Ion I, Design and Locomotion Modes of a Small Wheel-Legged Robot, Nature-Inspired Mobile Robotics, pp. 609-616, 2013.
Conduraru (Slatineanu) A, Doroftei I, Conduraru I, Design and Kinematic Aspects of a Hybrid Locomotion Robot, Advanced Materials Research 1036: 764-769, 2014.
Nishida M, Tanaka K, Wang H-O, Development and Control of a Micro Biped Walking Robot using Shape Memory Alloys, Proceedings of the IEEE International Conference on Robotics and Automation, pp. 1604–1609, 2006.
Refbacks
- There are currently no refbacks.