Abstract — An efficient planning algorithm for the hexago-nal metamorphic self-reconfiguring system (SRS) is presented. Empirically, the algorithm achieves an time complexity of O(n) averaged over random problem instances. The planning algorithm is capable of solving approximately 97 % of planning tasks in the general state space of configurations containing less than 20,000 units. The state space is divided into two classes according to planning efficiency. The configurations belonging to the first class permit an Euler tour to be wrapped around the robotic aggregate. The existence of the Euler tour implies units are free to move around the perimeter of the SRS. Planning between configurations in this class can be performed in O(n) using a...
This thesis discusses mechanical design and control algorithms for enhancing modular robot functiona...
Self-reconfiguring (SR) robots are modular systems that can autonomously change shape, or reconfigur...
<p>The power of modern computer systems is due in no small part to their fantastic ability to adapt ...
Composed of multiple modular robotic units, self-reconfigurable modular robots are metamorphic syste...
Robots that can actively change morphology offer many advantages over fixed shape, or monolithic, ro...
UnrestrictedThe key feature of modular self-reconfigurable robots is their ability to deliberately c...
Abstract—Motion planning for a self-reconfigurable robot involves coordinating the movement and conn...
Abstract—Motion planning for a self-reconfigurable robot involves coordinating the movement and conn...
In this paper we address a reconfiguration planning method for lo-comotion of a homogeneous modular ...
A novel strategy for self-reconfiguration of chain-type unit-modular robots is introduced. The strat...
Self-reconfiguration is a hard problem due to the high dimensionality of self-reconfigurable modular...
In this paper we address a reconfiguration planning method for locomotion of a homogeneous modular r...
Abstract: This paper addresses motion planning of a homogeneous modular robotic system. The modules ...
In this paper, we examine the problem of dynamic selfreconfiguration of a modular robotic system (fr...
Abstract: This paper addresses motion planning of a homogeneous modular robotic system. The modules ...
This thesis discusses mechanical design and control algorithms for enhancing modular robot functiona...
Self-reconfiguring (SR) robots are modular systems that can autonomously change shape, or reconfigur...
<p>The power of modern computer systems is due in no small part to their fantastic ability to adapt ...
Composed of multiple modular robotic units, self-reconfigurable modular robots are metamorphic syste...
Robots that can actively change morphology offer many advantages over fixed shape, or monolithic, ro...
UnrestrictedThe key feature of modular self-reconfigurable robots is their ability to deliberately c...
Abstract—Motion planning for a self-reconfigurable robot involves coordinating the movement and conn...
Abstract—Motion planning for a self-reconfigurable robot involves coordinating the movement and conn...
In this paper we address a reconfiguration planning method for lo-comotion of a homogeneous modular ...
A novel strategy for self-reconfiguration of chain-type unit-modular robots is introduced. The strat...
Self-reconfiguration is a hard problem due to the high dimensionality of self-reconfigurable modular...
In this paper we address a reconfiguration planning method for locomotion of a homogeneous modular r...
Abstract: This paper addresses motion planning of a homogeneous modular robotic system. The modules ...
In this paper, we examine the problem of dynamic selfreconfiguration of a modular robotic system (fr...
Abstract: This paper addresses motion planning of a homogeneous modular robotic system. The modules ...
This thesis discusses mechanical design and control algorithms for enhancing modular robot functiona...
Self-reconfiguring (SR) robots are modular systems that can autonomously change shape, or reconfigur...
<p>The power of modern computer systems is due in no small part to their fantastic ability to adapt ...