Abstract: The question on design of the insectomorphic robot motion on unstable obstacles is investigated. It was solved in model formulation the problem on robot displacement from a horizontal plane at an unfixed ball, next rolling it up to the another unfixed ball, after that climbing onto another one and then climbing down onto horizontal plane. It was found theoretically that the vertical spin of the ball arises inevitably if the robot's center of mass is displaced in perpendicular to the ball's velocity plane from the axis passing through the center of the ball. This makes it difficult to maneuver the robot on the ball.Note: Research direction:Theoretical and applied problems of mechanic
This work describes methods for advancing the state of the art in mobile robot navigation and physic...
Force and torque induced by the traveling motion of a mobile robot effect dynamically to the objects...
This paper deals with two novel structures for mobile robots. The original inspiration of the robots...
Friction drive systems are adopted for many robots of spherical locomotion type. Such systems have p...
Abstract: The theoretical mechanical model of the spherical robot with the flywheels locat...
Abstract: The theoretical mechanical model of the spherical robot with the fly-wheels loca...
In this work we investigate and derive a nonlinear control law for a spatial model of the underactua...
This paper discusses dynamic step-crossing capability of pendulum-driven ball-shaped robots. We intr...
This chapter reviews the problem of nonholonomic rolling in nonprehensile manipulation tasks through...
The theoretical mechanical model of the spherical robot with the flywheels located in a sphere is co...
The better application of crawl robots depends on their ability to adapt to unstructured environment...
This paper is concerned with obstacle avoidance of robots moving on a plane, based on a fluid mechan...
This paper presents the modeling and analysis of a novel moving mechanism "tumbling" for asteroid ex...
Based on the motion principle of bionic earthworms, we designed and fabricated a novel crawling robo...
ABSTRACT Due to the great advances in computing tools, simulation has become an important component ...
This work describes methods for advancing the state of the art in mobile robot navigation and physic...
Force and torque induced by the traveling motion of a mobile robot effect dynamically to the objects...
This paper deals with two novel structures for mobile robots. The original inspiration of the robots...
Friction drive systems are adopted for many robots of spherical locomotion type. Such systems have p...
Abstract: The theoretical mechanical model of the spherical robot with the flywheels locat...
Abstract: The theoretical mechanical model of the spherical robot with the fly-wheels loca...
In this work we investigate and derive a nonlinear control law for a spatial model of the underactua...
This paper discusses dynamic step-crossing capability of pendulum-driven ball-shaped robots. We intr...
This chapter reviews the problem of nonholonomic rolling in nonprehensile manipulation tasks through...
The theoretical mechanical model of the spherical robot with the flywheels located in a sphere is co...
The better application of crawl robots depends on their ability to adapt to unstructured environment...
This paper is concerned with obstacle avoidance of robots moving on a plane, based on a fluid mechan...
This paper presents the modeling and analysis of a novel moving mechanism "tumbling" for asteroid ex...
Based on the motion principle of bionic earthworms, we designed and fabricated a novel crawling robo...
ABSTRACT Due to the great advances in computing tools, simulation has become an important component ...
This work describes methods for advancing the state of the art in mobile robot navigation and physic...
Force and torque induced by the traveling motion of a mobile robot effect dynamically to the objects...
This paper deals with two novel structures for mobile robots. The original inspiration of the robots...