In this work, a tensegrity structure with spatially curved members is applied as rolling locomotion system. The actuation of the structure allows a variation of the originally cylindrical shape to a conical shape. Moreover, the structure is equipped with internal movable masses to control the position of the center of mass of the structure. To control the locomotion system a reliable actuation strategy is required. Therefore, the kinematics of the system considering the nonholonomic constraints are derived in this paper. Based on the resulting insight in the locomotion behavior a feasible actuation strategy is designed to control the trajectory of the system. To verify this approach kinematic analyses are evaluated numerically. The simulati...
: This paper uses geometric methods to study basic problems in locomotion. We consider in detail the...
International audienceThis paper analyzes the kinematics of planar tensegrity ma-nipulators made of ...
To reveal the relationship between the center of mass (CoM) trajectory of a closed five-bow-shaped-b...
In this work, a tensegrity structure with spatially curved members is applied as rolling locomotion ...
This paper describes dynamic simulation of rolling locomotion of a tensegrity robot. Tensegrity is a...
This paper proposes an analytic method based on finite-element method (FEM) for the rolling gaits of...
This dissertation studies novel robotic systems based on tensegrity structures, with an emphasis on ...
Tensegrity structures can provide a new approach to the construction of mobile robots with different...
Rolling between rigid surfaces in space is a well-known nonholonomic system, whose mathematical mode...
Rolling between rigid surfaces in space is a well-known nonholonomic system, whose mathematical mode...
Soft spherical tensegrity robots are novel steerable mobile robotic platforms that are compliant, li...
A cylindrical rolling robot is developed that generates roll torque by changing the shape of its fle...
This paper focusses on shape changes of tensegritystructures. An optimization method is developed fo...
Tensegrity-based structures hold promise for the field of lightweight, compliant robots. However, mo...
The controlled motion of a rigid body in the horizontal plane is investigated in this article. Three...
: This paper uses geometric methods to study basic problems in locomotion. We consider in detail the...
International audienceThis paper analyzes the kinematics of planar tensegrity ma-nipulators made of ...
To reveal the relationship between the center of mass (CoM) trajectory of a closed five-bow-shaped-b...
In this work, a tensegrity structure with spatially curved members is applied as rolling locomotion ...
This paper describes dynamic simulation of rolling locomotion of a tensegrity robot. Tensegrity is a...
This paper proposes an analytic method based on finite-element method (FEM) for the rolling gaits of...
This dissertation studies novel robotic systems based on tensegrity structures, with an emphasis on ...
Tensegrity structures can provide a new approach to the construction of mobile robots with different...
Rolling between rigid surfaces in space is a well-known nonholonomic system, whose mathematical mode...
Rolling between rigid surfaces in space is a well-known nonholonomic system, whose mathematical mode...
Soft spherical tensegrity robots are novel steerable mobile robotic platforms that are compliant, li...
A cylindrical rolling robot is developed that generates roll torque by changing the shape of its fle...
This paper focusses on shape changes of tensegritystructures. An optimization method is developed fo...
Tensegrity-based structures hold promise for the field of lightweight, compliant robots. However, mo...
The controlled motion of a rigid body in the horizontal plane is investigated in this article. Three...
: This paper uses geometric methods to study basic problems in locomotion. We consider in detail the...
International audienceThis paper analyzes the kinematics of planar tensegrity ma-nipulators made of ...
To reveal the relationship between the center of mass (CoM) trajectory of a closed five-bow-shaped-b...