E-Book, Englisch, Band 4496, 1068 Seiten, eBook
Grzech Agent and Multi-Agent Systems: Technologies and Applications
2007
ISBN: 978-3-540-72830-6
Verlag: Springer
Format: PDF
Kopierschutz: 1 - PDF Watermark
First KES International Symposium, KES-AMSTA 2007, Wroclaw, Poland, May 31-June 1, 2007, Proceedings
E-Book, Englisch, Band 4496, 1068 Seiten, eBook
Reihe: Lecture Notes in Computer Science
ISBN: 978-3-540-72830-6
Verlag: Springer
Format: PDF
Kopierschutz: 1 - PDF Watermark
st This volume contains papers selected for presentation at the 1 KES Symposium on Agent and Multi-Agent Systems – Technologies and Applications (KES-AMSTA 2007), held in Wroclaw, Poland, May 31 – June 1, 2007. The symposium was org- ized by the Institute of Information Science and Engineering, Wroclaw University of Technology, and KES International, as part of the KES Conference Series. The aim of the symposium was to provide an international forum for scientific - search in the technologies and applications of agent and multi-agent systems. Agents and multi-agent systems are related to the modern software which has long been r- ognized as a promising technology for constructing autonomous, complex and intel- gent systems. A key development in the field of agent and multi-agent systems has been the specification of agent communication languages and formalization of - tologies. Agent communication languages are intended to provide standard decla- tive mechanisms for agents to communicate knowledge and make requests of each other, whereas ontologies are intended for conceptualization of the knowledge - main.
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Weitere Infos & Material
Main Track: Methodological Aspects of Agent Systems.- Main Track: Agent-oriented Web Applications.- Main Track: Mobility Aspects of Agent Systems and Ontology Management.- Main Track: Multi-agent Resource Allocation.- Main Track: Negotiating Agents.- Main Track: Agents for Network Management.- Main Track: Agent Approaches to Robotic Systems.- Main Track: Market Agents and other Applications.- Doctoral Track.- Special Session: Mobile Agent Application and its Development.- Special Session: Agent on Networked Media and Its Applications on Next-Generation Convergence Network (ANM07).- Special Session: Intelligent and Secure Agent for Digital Content Management.
Agent–Based Approach for LabVIEW Developed Distributed Control Systems (p. 21-22)
Grzegorz Polaków and Mieczys³aw Metzger
Faculty of Automatic Control, Electronics and Computer Science, Silesian University of Technology, Akademicka 16, 44–100 Gliwice, Poland
Abstract. Idea of networked software agents is particularly popular in the field of information sciences dealing with distributed content, whereas in industrial automation its use is usually limited to manufacturing systems. This work presents a concept of multi–agent networked system for automation of continuous processes. Some properties of typical software agent (i.e. advanced high level languages and social skills) had to be dropped in exchange for determinism and satisfying time performance in negotiations between network– connected control components. The proposed environment is National Instruments LabVIEW, very popular solution for automation and measurement. LabVIEW is equipped with advanced data acquisition tools and is capable of artificial intelligence methods, although it lacks agentification mechanisms. A framework is presented, providing LabVIEW the required functionality. Keywords: multiagent–based networking, producer–distributor–consumer, distributed control systems, process control, systems integration.
1 Introduction
There is strong ongoing progress in the field of agent–based technologies. The theory proved its usefulness and commercial interest in its applications boosted rapidly, resulting in countless implementations, especially in the most popular environment of distributed content i.e. World Wide Web [1], [2]. However, process of adaptation and implementation of the original idea in automation and control science is not so successful and varies greatly depending on subject. On the one hand, natural entity based structure of software agencies reflects perfectly processes occurring in manufacturing systems and already proved its usability in that field, overtaking classical approaches [3]. On the other hand, in the automation of continuous processes it is hard to tie agents to non–discrete physical phenomena like flow of liquids, gases or heat. In this case agents have rather to be bound to logical structure of control system. Great implementation of such agent–based frameworks in continuous plants was done by van Breemen and de Vries [4]. Their works are a significant contribution inttroducing agents theory in the field of process automation, however they overlook important issue, that is implementation of theory in existing physical plants and systems. Solving this issue is significant and non–trivial, since while there is wide choice of frameworks for developing intelligent agents in abstract knowledge environments, there is no ready solution for agentification of spatially distributed control systems. Specific requirement, needed to be fulfilled by software to be usable in the field of data acquisition and control, is easy and unproblematic integration of logical software layer with physical hardware of control instrumentation. One of applications fulfilling this requirement, therefore suitable for the task, is National Instruments’ LabVIEW.
LabVIEW is a very popular software development solution for engineers. A programming language which LabVIEW implements is simple yet powerful graphical language based on functional block diagrams, often called a "G language". Capabilities of the NI LV are the same as capabilities of any other classical text– based programming language. It also includes a wide set of predefined function blocks providing functionalities useful in advanced software, i.e.:
- artificial intelligence tools (neural networks and fuzzy logic),
- basic functions of a desktop computer’s operational system’s network protocol stack,
- control instrumentation connectibility (using standards like OPC, and proprietary protocols like Logos),
- rich Human–Machine Interfaces and visualisation tools.
As it can be concluded from the above list, internal agent’s intelligence can easily be programmed by an end user using library of components supplied by default. However, it was necessary to design a protocol for agents communication and build a required framework supporting it. A new potential of continuous control systems gained by agentification at control loop layer turned out to be unprecedented, which was motivation to describe it in detail. Concept of networked multiagent system for continuous process control (including structure of the framework, communication protocols and language of agents) is an original contribution.
