自动自组装编程范式:初步调查

Third IEEE International Workshop on Engineering of Autonomic & Autonomous Systems (EASE'06) Pub Date : 2006-03-27 DOI:10.1109/EASE.2006.3

Lin Li, N. Krasnogor, J. Garibaldi

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引用次数: 22

摘要

本文提出了一个模拟软件组件自组装过程的模型。本文提出了对自动自组装编程范式(ASAP2)的初步研究，其中软件组件被视为气体分子，它们在特定温度和压力约束的密闭区域内相互作用，从而产生各种程序架构。实验结果显示了不同因素如何影响软件自组装过程的效率和自组装程序的多样性。据我们所知，这是第一次将自组装——一种无处不在的自然现象——作为一种(潜在的)可行的替代方案提出，以替代其他自动化程序合成方法，例如遗传编程

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Automated Self-Assembly Programming Paradigm: Initial Investigations

This paper presents a model that simulates a self-assembly process for software components. Initial investigations on the automated self-assembly programming paradigm (ASAP2) is presented whereby software components are treated as a gas' molecules and their interactions, within a confined area with specific temperature and pressure constraints, give rise to a variety of program architectures. We present experimental results that show how different factors affect the efficiency of the software self-assembly process and the diversity of the self-assembled programs. To the best of our knowledge this is the first time that self-assembly - a ubiquitous natural phenomenon - has been proposed as a (potentially) viable alternative to other automated program synthesis methodologies like for example genetic programming

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Third IEEE International Workshop on Engineering of Autonomic & Autonomous Systems (EASE'06)

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