Detail publikace
Řídicí systém mobilního robotu
Szabó,I,Hammer,M. Král,R.
Český název
Řídicí systém mobilního robotu
Anglický název
Distributed control system for autonomous mobile robot
Typ
článek ve sborníku ve WoS nebo Scopus
Jazyk
en
Originální abstrakt
The presented paper deals with the control system design for experimental autonomous mobile robot (ALR) VUTBOT-2 for automatic attendance of manufacturing system, on which all of the experiments will be done for local and global navigation, too. Multiprocessor control systems that are characterised with high independency compose very important area of automation resources. Maintenance of the multiprocessor system priority requires fast, safe and reliable communication channel. Based on these requirements was used the CAN communication device. That control system enables non-deterministic control in real-time. The internal communication in frames of subsystem proceeds by the CAN communication channel. Communication between robot manufacturing system is secured by radio FM transfer. Mobile robot control system is segmented into several functional: communication module, sensor module, locomotive module,control module. Each block must contain the microcontroller, which is capable communicate with an arbitrary connected module and execute the given function. The robot is currently realised as the physical model. The achieved results of practical experiments warrant successful realisation of robot construction and its successful using in automatic utility system of manufacturing system.
Český abstrakt
Článek pojednává o řídicím systému mobilního robotu.
Anglický abstrakt
The presented paper deals with the control system design for experimental autonomous mobile robot (ALR) VUTBOT-2 for automatic attendance of manufacturing system, on which all of the experiments will be done for local and global navigation, too. Multiprocessor control systems that are characterised with high independency compose very important area of automation resources. Maintenance of the multiprocessor system priority requires fast, safe and reliable communication channel. Based on these requirements was used the CAN communication device. That control system enables non-deterministic control in real-time. The internal communication in frames of subsystem proceeds by the CAN communication channel. Communication between robot manufacturing system is secured by radio FM transfer. Mobile robot control system is segmented into several functional: communication module, sensor module, locomotive module,control module. Each block must contain the microcontroller, which is capable communicate with an arbitrary connected module and execute the given function. The robot is currently realised as the physical model. The achieved results of practical experiments warrant successful realisation of robot construction and its successful using in automatic utility system of manufacturing system.
Klíčová slova anglicky
Distributed control system, Autonomous mobile robot, CAN communication protocol
Rok RIV
2003
Vydáno
01.01.2002
Nakladatel
Budapest Polytechnic (BMF)
Místo
Budapest, Hungary
ISBN
963-7154-10-8
Kniha
Proceedings - RAAD 2002
Počet stran
5
BIBTEX
@inproceedings{BUT8807,
author="Miloš {Hammer} and Radek {Král},
title="Distributed control system for autonomous mobile robot",
booktitle="Proceedings - RAAD 2002",
year="2002",
month="January",
publisher="Budapest Polytechnic (BMF)",
address="Budapest, Hungary",
isbn="963-7154-10-8"
}