Object oriented design with applications
Object oriented design with applications
Numerical recipes in C (2nd ed.): the art of scientific computing
Numerical recipes in C (2nd ed.): the art of scientific computing
Goal-directed requirements acquisition
6IWSSD Selected Papers of the Sixth International Workshop on Software Specification and Design
The imperative future: principles of executable temporal logic
The imperative future: principles of executable temporal logic
Numerical Initial Value Problems in Ordinary Differential Equations
Numerical Initial Value Problems in Ordinary Differential Equations
Principles of component-based design of intelligent agents
Data & Knowledge Engineering
SDML: A Multi-Agent Language for Organizational Modelling
Computational & Mathematical Organization Theory
Dynamics of Organizations: Computational Modeling and Organization Theories
Dynamics of Organizations: Computational Modeling and Organization Theories
A Survey of Concurrent METATEM - the Language and its Applications
ICTL '94 Proceedings of the First International Conference on Temporal Logic
Diagnosis of the Dynamics within an Organization by Trace Checking of Behavioural Requirements
AOSE '01 Revised Papers and Invited Contributions from the Second International Workshop on Agent-Oriented Software Engineering II
A Meta-Model for the Analysis and Design of Organizations in Multi-Agent Systems
ICMAS '98 Proceedings of the 3rd International Conference on Multi Agent Systems
Temporal Development Methods for Agent-Based
Autonomous Agents and Multi-Agent Systems
Specification, analysis and simulation of the dynamics within an organisation
Applied Intelligence
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Within the areas of Computational Organisation Theory and Artificial Intelligence, techniques have been developed to simulate and analyse dynamics within organisations in society. Usually these modelling techniques are applied to factories and to the internal organisation of their process flows, thus obtaining models of complex organisations at various levels of aggregation. The dynamics in living cells are often interpreted in terms of well-organised processes, a bacterium being considered a (micro)factory. This suggests that organisation modelling techniques may also benefit their analysis. Using the example of Escherichia coli it is shown how indeed agent-based organisational modelling techniques can be used to simulate and analyse E.coli's intracellular dynamics. Exploiting the abstraction levels entailed by this perspective, a concise model is obtained that is readily simulated and analysed at the various levels of aggregation, yet shows the cell's essential dynamic patterns.