Stage-oe-small.jpg

Inproceedings1265: Unterschied zwischen den Versionen

Aus Aifbportal
Wechseln zu:Navigation, Suche
K (Added from ontology)
 
(Eine dazwischenliegende Version desselben Benutzers wird nicht angezeigt)
Zeile 21: Zeile 21:
 
{{Inproceedings
 
{{Inproceedings
 
|Referiert=True
 
|Referiert=True
|Title=Towards a generic observer/controller architecture for Organic Computing
+
|Title=Towards a Generic Observer/Controller Architecture for Organic Computing
 
|Year=2006
 
|Year=2006
|Booktitle=INFORMATIK 2006 - Informatik für Menschen!
+
|Month=Oktober
 +
|Booktitle=INFORMATIK 2006 Informatik für Menschen!
 
|Editor=Christian Hochberger and Rüdiger Liskowsky
 
|Editor=Christian Hochberger and Rüdiger Liskowsky
 
|Pages=112-119
 
|Pages=112-119
 
|Publisher=Bonner Köllen Verlag
 
|Publisher=Bonner Köllen Verlag
|Series=GI-Edition - Lecture Notes in Informatics (LNI)
+
|Series=LNI
 
|Volume=P-93
 
|Volume=P-93
 
}}
 
}}
Zeile 34: Zeile 35:
 
|ISBN=978-3-88579-187-4
 
|ISBN=978-3-88579-187-4
 
|ISSN=1617-5468
 
|ISSN=1617-5468
|VG Wort-Seiten=26
+
|Projekt=QE
|Projekt=QE,
+
|Forschungsgruppe=Effiziente Algorithmen
|Forschungsgruppe=
 
 
}}
 
}}
 
{{Forschungsgebiet Auswahl
 
{{Forschungsgebiet Auswahl
 
|Forschungsgebiet=Organic Computing
 
|Forschungsgebiet=Organic Computing
 
}}
 
}}

Aktuelle Version vom 16. September 2009, 12:41 Uhr


Towards a Generic Observer/Controller Architecture for Organic Computing


Towards a Generic Observer/Controller Architecture for Organic Computing



Published: 2006 Oktober
Herausgeber: Christian Hochberger and Rüdiger Liskowsky
Buchtitel: INFORMATIK 2006 – Informatik für Menschen!
Ausgabe: P-93
Reihe: LNI
Seiten: 112-119
Verlag: Bonner Köllen Verlag

Referierte Veröffentlichung

BibTeX

Kurzfassung
Technical scenarios in areas like automotive or production systems will increasingly consist of a large number of components cooperating in potentially unlimited and dynamically changing networks to satisfy the functional requirements of their execution environment. Due to the high complexity it will be impossible to explicitly design the behaviour of the components for every potentially arising situation. Therefore, it will be necessary to leave an adequate degree of freedom allowing for a self-organised behaviour. Organic Computing (OC) has developed the vision of selforganising systems adapting robustly to dynamically changing environments without running out of control. This paper focuses on the design of a generic system architecture which allows for self-organisation but at the same time enables adequate reactions to control the, sometimes completely unexpected, emerging global behaviour of these self-organised technical systems.

ISBN: 978-3-88579-187-4
ISSN: 1617-5468

Projekt

QE



Forschungsgruppe

Effiziente Algorithmen


Forschungsgebiet

Organic Computing