1,781 research outputs found
Towards Python-based Domain-specific Languages for Self-reconfigurable Modular Robotics Research
This paper explores the role of operating system and high-level languages in
the development of software and domain-specific languages (DSLs) for
self-reconfigurable robotics. We review some of the current trends in
self-reconfigurable robotics and describe the development of a software system
for ATRON II which utilizes Linux and Python to significantly improve software
abstraction and portability while providing some basic features which could
prove useful when using Python, either stand-alone or via a DSL, on a
self-reconfigurable robot system. These features include transparent socket
communication, module identification, easy software transfer and reliable
module-to-module communication. The end result is a software platform for
modular robots that where appropriate builds on existing work in operating
systems, virtual machines, middleware and high-level languages.Comment: Presented at DSLRob 2011 (arXiv:1212.3308
Applications of Biological Cell Models in Robotics
In this paper I present some of the most representative biological models
applied to robotics. In particular, this work represents a survey of some
models inspired, or making use of concepts, by gene regulatory networks (GRNs):
these networks describe the complex interactions that affect gene expression
and, consequently, cell behaviour
Bio-inspired Tensegrity Soft Modular Robots
In this paper, we introduce a design principle to develop novel soft modular
robots based on tensegrity structures and inspired by the cytoskeleton of
living cells. We describe a novel strategy to realize tensegrity structures
using planar manufacturing techniques, such as 3D printing. We use this
strategy to develop icosahedron tensegrity structures with programmable
variable stiffness that can deform in a three-dimensional space. We also
describe a tendon-driven contraction mechanism to actively control the
deformation of the tensegrity mod-ules. Finally, we validate the approach in a
modular locomotory worm as a proof of concept.Comment: 12 pages, 7 figures, submitted to Living Machine conference 201
A Model for Virtual Reconfigurable Modular Robots
This paper presents a model for virtual reconfigurable modular robots in order to evolve artificial creatures, able of self-adaptation to the environment as well as good adjustment to various given tasks. For this purpose, a simulator has been entirely developed with the assistance of a physics engine to represent force activities. One of the most crucial points in modular robot construction is the choice of module type, complexity and diversity. We took interest on existing elements to obtain realistic results but assume simplifications to focus on our main goal that is algorithmic
- …