M. Schillo, and K. Fischer. Agents and Computational Autonomy, page 68--82. Berlin, Heidelberg, Springer Berlin Heidelberg, (2004)
Abstract
Starting from a general definition of how to model the organisation of multiagent systems with the aid of holonic structures, we discuss design parameters for such structures. These design parameters can be used to model a wide range of different organisational types. The focus of this contribution is to link these design parameters with a taxonomy of different types of autonomy relevant in multiagent organisation. We also discuss the constraining effect of autonomy on the recursive nesting of multiagent organisation. As the domain for applying multiagent systems we choose a general view on multiagent task-assignment.
%0 Conference Paper
%1 schillo2004taxonomy
%A Schillo, Michael
%A Fischer, Klaus
%B Agents and Computational Autonomy
%C Berlin, Heidelberg
%D 2004
%E Nickles, Matthias
%E Rovatsos, Michael
%E Weiss, Gerhard
%I Springer Berlin Heidelberg
%K agent autonomy delegation holonic mas multi system task taxonomy
%P 68--82
%T A Taxonomy of Autonomy in Multiagent Organisation
%X Starting from a general definition of how to model the organisation of multiagent systems with the aid of holonic structures, we discuss design parameters for such structures. These design parameters can be used to model a wide range of different organisational types. The focus of this contribution is to link these design parameters with a taxonomy of different types of autonomy relevant in multiagent organisation. We also discuss the constraining effect of autonomy on the recursive nesting of multiagent organisation. As the domain for applying multiagent systems we choose a general view on multiagent task-assignment.
%@ 978-3-540-25928-2
@inproceedings{schillo2004taxonomy,
abstract = {Starting from a general definition of how to model the organisation of multiagent systems with the aid of holonic structures, we discuss design parameters for such structures. These design parameters can be used to model a wide range of different organisational types. The focus of this contribution is to link these design parameters with a taxonomy of different types of autonomy relevant in multiagent organisation. We also discuss the constraining effect of autonomy on the recursive nesting of multiagent organisation. As the domain for applying multiagent systems we choose a general view on multiagent task-assignment.},
added-at = {2020-04-15T10:41:09.000+0200},
address = {Berlin, Heidelberg},
author = {Schillo, Michael and Fischer, Klaus},
biburl = {https://www.bibsonomy.org/bibtex/28238302a16ca830ea99519f6f6beeabf/porta},
booktitle = {Agents and Computational Autonomy},
editor = {Nickles, Matthias and Rovatsos, Michael and Weiss, Gerhard},
interhash = {5ec3106e0faab9dfb1c3b63463668303},
intrahash = {8238302a16ca830ea99519f6f6beeabf},
isbn = {978-3-540-25928-2},
keywords = {agent autonomy delegation holonic mas multi system task taxonomy},
pages = {68--82},
publisher = {Springer Berlin Heidelberg},
timestamp = {2020-04-15T10:41:09.000+0200},
title = {A Taxonomy of Autonomy in Multiagent Organisation},
year = 2004
}