Abstract
Many authors proposed various criteria and concepts to assess manipulability of the robotic system. In this article an isotropy criterion is applied for investigation and synthesis of turning mechanism of a walking robot. Isotropy conditions were derived for the walking robot with orthogonal-type propellers and on its basis the optimal configurations of the robot in terms of force and motion transmission are defined. Solutions of the isotropy equations were found and on the basis of the analysis of isotropic solutions, optimal metric parameters of the robot were found. An experimental prototype of the legged robot is developed.
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