This paper presents a multi-agent conceptual model for resource allocation in a manufacturing environment. To attain this purpose a framework called M-DRAP – Multi-agent Dynamic Resources Allocation Planning – was developed. Multi-agent systems have been employed as a solution for problems that require decentralization and distribution in both decision-making and execution process. This is a premise in many information systems where (i) the domain involves intrinsic distribution of data, problem-solving capabilities and responsibilities; (ii) it is necessary to maintain the autonomy of the subparts, without lost of organizational structure; and (iii) the problem solution cannot be completely described a priori due to the possibility of real-time perturbations in the environment (equipment failures, for example) and also as a consequence of the natural dynamics of the business process. The main contribution of this work is the proposition of a set of activities and models defining a framework to represent multi-agent systems for business process under an enterprise model perspective.
CITATION STYLE
Bastos, R. M., & de Oliveira, J. P. M. (2000). A conceptual modeling framework for multi-agent information systems. In Lecture Notes in Computer Science (including subseries Lecture Notes in Artificial Intelligence and Lecture Notes in Bioinformatics) (Vol. 1920, pp. 295–308). Springer Verlag. https://doi.org/10.1007/3-540-45393-8_22
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