Resumo

MARIN ARCINIEGAS, Jairo José  e  VIVAS ALBAN, Oscar Andrés. Design and Construction of a Snake-Like Robot Implementing Rectilinear and Sidewinding Gait Motions. TecnoL. [online]. 2023, vol.26, n.56, e204.  Epub 13-Abr-2023. ISSN 0123-7799.  https://doi.org/10.22430/22565337.2412.

Bio-inspired robots offer locomotion versatility in a wide variety of terrains that conventional robots cannot access. One such bio-inspired platform is snake-like robots, which are mechanisms designed to move like biological snakes. The aim of this paper was to implement and validate, through comparison in real and simulation tests on flat terrain, the design of a snake robot that allows movements in two perpendicular planes, by the application of three-dimensional locomotion modes. The prototype robot had a modular and sequential architecture composed of eight 3D printed segments. The necessary torques for each motor are found by means of a simulation in Matlab - Simulink and the SimScape tool. The Webots mobile robotics simulator was used to create a parameterized virtual model of the robot, where two types of gaits were programmed: sidewinding and rectilinear. Results showed that the robot undertakes lower than 1 second in execution time to reach the total distance in each of the proposed marches when comparted to the simulation. In addition, mean differences of 6 cm for the distances during the sidewinding mode experiment and 1.2 cm in the deviation in the rectilinear mode on flat terrain were obtained. In conclusion, there is a great similarity between the simulation tests and those performed with the actual robot, and it was also possible to verify that the behavior of the prototype robot is satisfactory over short distances.

Palavras-chave : Robot control; simulation modeling; robot motion; biomimetic robot; snake robot.

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