Tom De Wolf scite author profile

A clear terminology is essential in every research discipline. In the context of ESOA, a lot of confusion exists about the meaning of the terms emergence and self-organisation. One of the sources of the confusion comes from the fact that a combination of both phenomena often occurs in dynamical systems. In this paper a historic overview of the use of each concept as well as a working definition, that is compatible with the historic and current meaning of the concepts, is given. Each definition is explained by supporting it with important characteristics found in the literature. We show that emergence and self-organisation each emphasise different properties of a system. Both phenomena can exist in isolation. The paper also outlines some examples of such systems and considers the combination of emergence and self-organisation as a promising approach in complex multi-agent systems.

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Design Patterns for Decentralised Coordination in Self-organising Emergent Systems

Wolf

Holvoet

2007

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Abstract. There is little or no guidance to systematically design a self-organising emergent solution that achieves the desired macroscopic behaviour. This paper describes decentralised coordination mechanisms such as gradient fields as design patterns, similar to patterns used in mainstream software engineering. As a consequence, a structured consolidation of best practice in using each coordination mechanism becomes available to guide engineers in applying them, and to directly decide which mechanisms are promising to solve a certain problem. As such, self-organising emergent solutions can be engineered more systematically, which is illustrated in a packet delivery service application.

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Towards autonomic computing: agent-based modelling, dynamical systems analysis, and decentralised control

Wolf

Holvoet

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Development of Self-organising Emergent Applications with Simulation-Based Numerical Analysis

Wolf¹,

Holvoet²,

Samaey

2006

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The goal of engineering self-organising emergent systems is to acquire a macroscopic system behaviour solely from autonomous local activity and interaction. Due to the non-deterministic nature of such systems, it is hard to guarantee that the required macroscopic behaviour is achieved and maintained. Before even considering a self-organising emergent system in an industrial context, e.g. for Automated Guided Vehicle (AGV) transportation systems, such guarantees are needed. An empirical analysis approach is proposed that combines realistic agentbased simulations with existing scientific numerical algorithms for analysing the macroscopic behaviour. The numerical algorithm itself obtains the analysis results on the fly by steering and accelerating the simulation process according to the algorithm's goal. The approach is feasible, compared to formal proofs, and leads to more reliable and valuable results, compared to mere observation of simulation results. Also, the approach allows to systematically analyse the macroscopic behaviour to acquire macroscopic guarantees and feedback that can be used by an engineering process to iteratively shape a self-organising emergent solution.

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A Taxonomy for Self- Properties in Decentralized Autonomic Computing

Wolf¹,

Holvoet²

2006

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Tom De Wolf

Emergence Versus Self-Organisation: Different Concepts but Promising When Combined

Design Patterns for Decentralised Coordination in Self-organising Emergent Systems

Towards autonomic computing: agent-based modelling, dynamical systems analysis, and decentralised control

Development of Self-organising Emergent Applications with Simulation-Based Numerical Analysis

A Taxonomy for Self- Properties in Decentralized Autonomic Computing

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