A Study on Dynamically Recontigurable Robotic Systems : Recognition and Communication System of Cell-Structured Robot "CEBOT"
スポンサーリンク
概要
- 論文の詳細を見る
The dynamically recontigurable robotic system (DRRS) is a new kind of robotic system which is able to reconfigure itself to optimal structure depending on the purpose and environment. To realize this concept, we have proposed CEBOT (cellular robotics). Communication is needed in the CEBOT system as follows. When cells are separated, the communication master cell needs to know the other cel1's function and positions and determine the target cell for docking. Mobile cells should be able to coordinate with other mobile cells. When cells are docked, forming cell structure/module, a master cell should control the bending joint cell and know of which cells the construction is composed. In this paper, we propose a communication protocol for both the cases with an optical sensor applicable to CEBOT. Some experimental results are shown by realizing the proposed communication method between cells.
- 一般社団法人日本機械学会の論文
- 1991-06-15
著者
-
Fukuda Toshio
Nagoya University, Dept. of Mechano-Informatics and Systems
-
Buss Martin
Technical University Berlin
-
Buss Martin
Technical Univ
-
Fukuda T
Dept. Of Mechanical Engineering Nagoya University
-
Asama Hajime
Race University Of Tokyo
-
Asama H
Inst. Physical And Chemical Res. Jpn
-
Asama Hajime
Department Of Precision Engineering University Of Tokyo
-
Asama Hajime
The Physical And Chemical Research Institute
-
KAWAUCHI Yoshio
Toyo Engineering Corporation
-
Kawauchi Y
Toyo Engineering Corp. Chiba Jpn
-
Fukuda Toshio
Nagoya University
-
Fukuda Toshio
Nagoya univ.
関連論文
- Force Control of the Robot Manipulator with Collision Phenomena by Learning Control
- Knowledge acquisition and sharing among autonomous robots by intelligent data carriers
- Development of a control system for an omni-directional vehicle with step-climbing ability
- A system for self-diagnosis of an autonomous mobile robot using an internal state sensory system : fault detection and coping with the internal condition
- Mobile robot teleoperation system utilizing a virtual world
- Study of a self-diagnosis system for an autonomous mobile robot
- Handling of a large object by multiple autonomous mobile robots in coordination
- Handling of a large object by multiple autonomous mobile robots in coordination
- Local communication-based navigation in a multirobot environment
- Local communication-based navigation in a multirobot environment
- Self-Organizing Collective Robots with Morphogenesis in a Vertical Plane
- Self-Organizing Collective Robots with Morphogenesis in a Vertical Plane
- A multi-robot teleoperation system utilizing the Internet
- A multi-robot teleoperation system utilizing the Internet
- Realizing the exploration and rearrangement of multiple unknown objects by an actual mobile robot
- Cooperative transport in an unknown environment associated with task assignment
- A Study on Dynamically Recontigurable Robotic Systems : Recognition and Communication System of Cell-Structured Robot "CEBOT"
- Position/force control of robot manipulators for a geometrically unknown environment using fuzzy vectors
- A Study on a Dynamically Reconfigurable Robotic System : Self-organizing Distributed Intelligence System of Learning and Reasoning for Cellular Robotics "CEBOT"
- Communication Architecture for Cellular Robotic System
- Bilateral control system for laser micromanipulation by force feedback
- Selective manipulation of a microbe in a microchannel using a teleoperated laser scanning manipulator and dielectrrophoresis
- 268. A Study of 20α-hydroxysteroid Dehydrogenase Activity in Human Placenta
- Concept and Realization of Interactive Adaptation Interface Using Recursive Fuzzy Reasoning
- 2P1-B20 Transition Motion including the Error Adjustment for Real Environment with Touch Detection : Transition Motion from Biped Standing to Climbing Motion
- Control of Mobile Linked Flexible System
- Hybrid Control of Mechatronic Systems (ハイブリッドシステム--システム制御への新たな視点総合特集号)
- 1P1-C16 Oxygen Gas Assisted Nanofabrication and Nanoassembly of Carbon Nanotubes
- 2A2-M01 Platinum Nanowire Growth via Field Emission Controlled by Nanorobotic Manipulator
- 1A1-M12 Effects of Time Pressure on Working Performance
- 2A2-G18 Correction Method for Photoelastic Stress Distribution Visualization in Models of Vasculature
- 2A2-A05 Electron Emission Induced Multi-Materialized Nanowires Growth
- 3-D Image Recognition for Distorted and Cracked Objects : A Proposal of Six-Surface-Image Integrating Method
- 232. Analysis of Doppler Signals from the Fetal Heart
- 2A1-F10 Region Of Interest Detection and Evaluation by Mobile Robot with Moving Background Model