Add to ORKG“Hyper-redundant” manipulators have a very large number of actuatable degrees of freedom. The benefits of hyper-redundant robots include the ability to avoid obstacles, increased robustness with respect to mechanical failure, and the ability to perform new forms of robot locomotion and grasping. The authors examine hyper-redundant manipulator design criteria and the physical implementation of one particular design: a variable geometry truss
AbstractThis paper puts forward a design concept of Variable length Hyper-redundant robot, consistin...
Hyper-redundant robots are highly articulated devices that present numerous technical challenges suc...
The manipulator design discussed here results from the examination of some of the reasons why redund...
“Hyper-redundant” manipulators have a very large number of actuatable degrees of freedom. The benefi...
A 30 degree-of-freedom (DOF) planar hyper-redundant manipulator is constructed in order to validate ...
Hyper-redundant robots have a large or infinite number of degrees of freedom. Such robots are analog...
Many tasks which manipulators must perform occur in the presence of obstacles. While a variety of a...
“Hyper-redundant” robots have a very large or infinite degree of kinematic redundancy. This paper de...
This paper presents novel and efficient kinematic modeling techniques for “hyper-redundant” robots. ...
This paper considers the kinematics of hyper-redundant (or “serpentine”) robot locomotion over uneve...
This paper considers the kinematics of hyper-redundant (or “serpentine”) robot locomotion over uneve...
Hyper-redundant robots are characterized by the presence of a large number of actuated joints, many ...
Hyper-redundant robots have a very large or infinite degree of kinematic redundancy. A generalized r...
Hyper-redundant robots are characterized by the presence of a large number of actuated joints, many ...
Hyper-redundant robots have a very large or infinite degree of kinematic redundancy. A generalized r...
AbstractThis paper puts forward a design concept of Variable length Hyper-redundant robot, consistin...
Hyper-redundant robots are highly articulated devices that present numerous technical challenges suc...
The manipulator design discussed here results from the examination of some of the reasons why redund...
“Hyper-redundant” manipulators have a very large number of actuatable degrees of freedom. The benefi...
A 30 degree-of-freedom (DOF) planar hyper-redundant manipulator is constructed in order to validate ...
Hyper-redundant robots have a large or infinite number of degrees of freedom. Such robots are analog...
Many tasks which manipulators must perform occur in the presence of obstacles. While a variety of a...
“Hyper-redundant” robots have a very large or infinite degree of kinematic redundancy. This paper de...
This paper presents novel and efficient kinematic modeling techniques for “hyper-redundant” robots. ...
This paper considers the kinematics of hyper-redundant (or “serpentine”) robot locomotion over uneve...
This paper considers the kinematics of hyper-redundant (or “serpentine”) robot locomotion over uneve...
Hyper-redundant robots are characterized by the presence of a large number of actuated joints, many ...
Hyper-redundant robots have a very large or infinite degree of kinematic redundancy. A generalized r...
Hyper-redundant robots are characterized by the presence of a large number of actuated joints, many ...
Hyper-redundant robots have a very large or infinite degree of kinematic redundancy. A generalized r...
AbstractThis paper puts forward a design concept of Variable length Hyper-redundant robot, consistin...
Hyper-redundant robots are highly articulated devices that present numerous technical challenges suc...
The manipulator design discussed here results from the examination of some of the reasons why redund...