Lesser, V. (1999), `Cooperative multiagent systems: A personal view of the state of the art', IEEE Transactions on Knowledge and Data Engineering 11(1), 133--142.  Home/Search   Document Details and Download   Summary   Related Articles   Check

....successful organization structures for designing MAS. The organizational perspective has been increasingly accepted within MAS community, and mathematical and computational methods have been progressively used to develop a better understanding of the fundamental principles of organizing MAS [36]. Among others, TAEMS (Task Analysis, Environment Modeling and Simulation) 11, 10] is a modeling framework for representing coordination problems in a formal, domain independent way. A TAEMS model can be used for both the analysis and simulation of coordination algorithms, and also to design ....

V. R. Lesser. Cooperative multiagent systems: a personal view of the state of the art. Transaction on Knowledge and Data Engineering, 11(1), 1999.

....successful organization structures for designing MAS. The organizational perspective has been increasingly accepted within MAS community, and mathematical and computational methods have been progressively used to develop a better understanding of the fundamental principles of organizing MAS [35]. Among others, TAEMS (Task Analysis, Environment Modeling and Simulation) 11, 10] is a modeling framework for representing coordination problems in a formal, domain independent way. A TAEMS model can be used for both the analysis and simulation of coordination algorithms, and also to design ....

V. R. Lesser. Cooperative multiagent systems: a personal view of the state of the art. Transaction on Knowledge and Data Engineering, 11(1), 1999.

....One emerging technique is the development of multiagent systems. There are a number of reasons a software developer may consider a multiagent system. In particular, multiagent systems can provide benefits such as processing speed up, reduced communication bandwidth, and increased reliability [10]. However, the academic community, as well as industry, is still trying to determine which problems call for a multiagent approach [8, 11] Once a designer has made the decision to use a multiagent design, a number of methodologies exist for building multiagent systems [2, 3, 4, 7, 14, 15, 19] ....

....Requirements, is related to the technical characteristics. For this category, the criteria for real time systems are not directly relevant. In order to derive a set of criteria, we turned to current research and identified a number of technical issues that relate to complex software systems [10, 16]. The issues selected are: Legacy System Integration (Leg) Distribution (Dis) Environment (Env) Dynamic System Structure (Struc) Interaction (Int) Scalability (Scal) Agility and Robustness (Agi) The first three issues in this category relate to constraints of the problem. ....

Lesser, V.R.: Cooperative Multiagent Systems: A Personal View of the State of the Art. IEEE Trans. on Knowledge and Data Engineering. 11 (1) (1999) 133-142

....One emerging technique is the development of multiagent systems. There are a number of reasons a software developer may consider a multiagent system. In particular, multiagent systems can provide benefits such as processing speedup, reduced communication bandwidth, and increased reliability [7]. However, the academic community, as well as industry, is still trying to determine which problems call for a multiagent approach [5, 8] Once the decision to use a multiagent design is made, a number of methodologies exist for building multiagent systems [4] The methodologies range from ....

....Requirements, is related to the technical characteristics. For this category, the criteria for real time systems are not directly relevant. In order to derive a set of criteria, we turned to current research and identified a number of technical issues that relate to complex software systems [7, 11]. The issues selected are: Legacy System Integration (Leg) Distribution (Dis) Environment (Env) Dynamic System Structure (Struc) Interaction (Int) Scalability (Scal) Agility and Robustness (Agi) The first three issues in this category relate to constraints of the problem. ....

Lesser, V.R., Cooperative Multiagent Systems: A Personal View of the State of the Art. IEEE Transactions on Knowledge and Data Engineering Vol 11, No 1 (Jan-Feb 1999), 133-142.

No context found.

Lesser, V. (1999), `Cooperative multiagent systems: A personal view of the state of the art', IEEE Transactions on Knowledge and Data Engineering 11(1), 133--142.

No context found.

V. Lesser. Cooperative multiagent systems: A personal view of the state of the art. IEEE Transactions on Knowledge and Data Engineering, 11(1), 1999.

No context found.

Victor R. Lesser. Cooperative multiagent systems: A personal view of the state of the art. Knowledge and Data Engineering, 11(1):133-142, 1999.

No context found.

V. Lesser. Cooperative multiagent systems: A personal view of the state of the art. IEEE Transactions on Knowledge and Data Engineering, 11(1), 1999.

No context found.

V. R. Lesser, "Cooperative multiagent systems: A personal view of the state of the art," IEEE Trans. Knowl. Data Eng., vol. 11, no. 1, pp. 133--142, 1999.

No context found.

Lesser, Victor R. "Cooperative Multiagent Systems: A Personal View of the State of the Art," IEEE Transactions on Knowledge and Data Engineering Vol 11, No 1: p. 133-142 (Jan-Feb 1999).

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