Congestion Control in Ant Like Moving Agent Systems

Alexander Scheidler, Daniel Merkle, Martin Middendorf

Publikation: Bidrag til tidsskriftKonferenceartikelForskningpeer review

Resumé

In this paper we study the problem of congestion in system where
agents move according to simple ant inspired movement rules. It is assumed
that the agents have to visit a service station to refill their energy storage.
After visiting the service station the ants can move randomly and fast. The
less energy an agent has the slower it becomes and the more it moves in direction of the service station. Different methods for self-organized congestion
control are proposed in this paper where the behavior of the agents compared
to the original is not changed or is changed only slightly without the need to
use any global information and without using additional sensory information.
The proposed systems are investigated with

Konference

KonferenceIFIP 20th World Computer Congress, Second IFIP TC 10 International Conference on Biologically-Inspired Collaborative Computing (BICC 2008)
Periode24/08/2010 → …

Fingeraftryk

Ants
Congestion control
Energy storage
Energy
Congestion

Bibliografisk note

Volumne: 268

Citer dette

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title = "Congestion Control in Ant Like Moving Agent Systems",
abstract = "In this paper we study the problem of congestion in system whereagents move according to simple ant inspired movement rules. It is assumedthat the agents have to visit a service station to refill their energy storage.After visiting the service station the ants can move randomly and fast. Theless energy an agent has the slower it becomes and the more it moves in direction of the service station. Different methods for self-organized congestioncontrol are proposed in this paper where the behavior of the agents comparedto the original is not changed or is changed only slightly without the need touse any global information and without using additional sensory information.The proposed systems are investigated with",
author = "Alexander Scheidler and Daniel Merkle and Martin Middendorf",
note = "Volumne: 268",
year = "2008",
language = "English",
pages = "33--43",
journal = "I F I P",
issn = "1571-5736",
publisher = "Springer",

}

Congestion Control in Ant Like Moving Agent Systems. / Scheidler, Alexander; Merkle, Daniel; Middendorf, Martin.

I: IFIP International Federation for Information Processing, 2008, s. 33-43.

Publikation: Bidrag til tidsskriftKonferenceartikelForskningpeer review

TY - GEN

T1 - Congestion Control in Ant Like Moving Agent Systems

AU - Scheidler, Alexander

AU - Merkle, Daniel

AU - Middendorf, Martin

N1 - Volumne: 268

PY - 2008

Y1 - 2008

N2 - In this paper we study the problem of congestion in system whereagents move according to simple ant inspired movement rules. It is assumedthat the agents have to visit a service station to refill their energy storage.After visiting the service station the ants can move randomly and fast. Theless energy an agent has the slower it becomes and the more it moves in direction of the service station. Different methods for self-organized congestioncontrol are proposed in this paper where the behavior of the agents comparedto the original is not changed or is changed only slightly without the need touse any global information and without using additional sensory information.The proposed systems are investigated with

AB - In this paper we study the problem of congestion in system whereagents move according to simple ant inspired movement rules. It is assumedthat the agents have to visit a service station to refill their energy storage.After visiting the service station the ants can move randomly and fast. Theless energy an agent has the slower it becomes and the more it moves in direction of the service station. Different methods for self-organized congestioncontrol are proposed in this paper where the behavior of the agents comparedto the original is not changed or is changed only slightly without the need touse any global information and without using additional sensory information.The proposed systems are investigated with

M3 - Conference article

SP - 33

EP - 43

JO - I F I P

JF - I F I P

SN - 1571-5736

ER -