This volume presents a collection of original research works by leading specialists focusing on novel and promising approaches in which the multi-agent system paradigm is used to support, enhance or replace traditional approaches to solving difficult optimization problems. The editors have invited several well-known specialists to present their solutions, tools, and models falling under the common denominator of the agent-based optimization. The book consists of eight chapters covering examples of application of the multi-agent paradigm and respective customized tools to solve difficult optimization problems arising in different areas such as machine learning, scheduling, transportation and, more generally, distributed and cooperative prob...
A multi-agent approach for solving optimization problems involving expensive resource
International audienceMultiDisciplinary Optimization (MDO) problems represent one of the hardest and...
Complex systems generally have many components and it is difficult to understand the whole system on...
Research on optimization in multi-agent systems (MASs) has contributed with a wealth of techniques t...
Research on optimization in multi-agent systems (MASs) has contributed with a wealth of techniques t...
Agent based models (ABM) have been recently applied to solve optimization problems whose domains pre...
Research on optimization in multi-agent systems (MASs) has contributed with a wealth of techniques t...
The strengths and weaknesses of agent-based approaches and classical optimization techniques are ana...
There is an increased interest in multi-agent systems (MASs) for comput-ing robust solutions to comp...
This special issue focuses on optimization in multi-agent systems (OptMASs), a sub-field of MASs res...
This book contains three well-written research tutorials that will allow the reader to easily get to...
Several papers in the literature employ agent-based modeling approach for providing reasonable solut...
This article presents a review and a comparative analysis between frameworks for solving optimizatio...
In many decision making problems, a decision maker needs computer support in finding a good compromi...
We propose a general solution method framework based on a Collaborative Agent Teams (CAT) architectu...
A multi-agent approach for solving optimization problems involving expensive resource
International audienceMultiDisciplinary Optimization (MDO) problems represent one of the hardest and...
Complex systems generally have many components and it is difficult to understand the whole system on...
Research on optimization in multi-agent systems (MASs) has contributed with a wealth of techniques t...
Research on optimization in multi-agent systems (MASs) has contributed with a wealth of techniques t...
Agent based models (ABM) have been recently applied to solve optimization problems whose domains pre...
Research on optimization in multi-agent systems (MASs) has contributed with a wealth of techniques t...
The strengths and weaknesses of agent-based approaches and classical optimization techniques are ana...
There is an increased interest in multi-agent systems (MASs) for comput-ing robust solutions to comp...
This special issue focuses on optimization in multi-agent systems (OptMASs), a sub-field of MASs res...
This book contains three well-written research tutorials that will allow the reader to easily get to...
Several papers in the literature employ agent-based modeling approach for providing reasonable solut...
This article presents a review and a comparative analysis between frameworks for solving optimizatio...
In many decision making problems, a decision maker needs computer support in finding a good compromi...
We propose a general solution method framework based on a Collaborative Agent Teams (CAT) architectu...
A multi-agent approach for solving optimization problems involving expensive resource
International audienceMultiDisciplinary Optimization (MDO) problems represent one of the hardest and...
Complex systems generally have many components and it is difficult to understand the whole system on...