Multi-Agent Systems Applications in Energy Optimization Problems: A State-of-the-Art Review

Alfonso González-Briones,Juan Corchado,Fernando De La Prieta,Sigeru Omatu,Mohd Mohamad

doi:10.3390/en11081928

Alfonso González-Briones, Juan Corchado + Show 3 more

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https://doi.org/10.3390/en11081928

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Abstract

This article reviews the state-of-the-art developments in Multi-Agent Systems (MASs) and their application to energy optimization problems. This methodology and related tools have contributed to changes in various paradigms used in energy optimization. Behavior and interactions between agents are key elements that must be understood in order to model energy optimization solutions that are robust, scalable and context-aware. The concept of MAS is introduced in this paper and it is compared with traditional approaches in the development of energy optimization solutions. The different types of agent-based architectures are described, the role played by the environment is analysed and we look at how MAS recognizes the characteristics of the environment to adapt to it. Moreover, it is discussed how MAS can be used as tools that simulate the results of different actions aimed at reducing energy consumption. Then, we look at MAS as a tool that makes it easy to model and simulate certain behaviors. This modeling and simulation is easily extrapolated to the energy field, and can even evolve further within this field by using the Internet of Things (IoT) paradigm. Therefore, we can argue that MAS is a widespread approach in the field of energy optimization and that it is commonly used due to its capacity for the communication, coordination, cooperation of agents and the robustness that this methodology gives in assigning different tasks to agents. Finally, this article considers how MASs can be used for various purposes, from capturing sensor data to decision-making. We propose some research perspectives on the development of electrical optimization solutions through their development using MASs. In conclusion, we argue that researchers in the field of energy optimization should use multi-agent systems at those junctures where it is necessary to model energy efficiency solutions that involve a wide range of factors, as well as context independence that they can achieve through the addition of new agents or agent organizations, enabling the development of energy-efficient solutions for smart cities and intelligent buildings.

Highlights

An agent is a computer system situated in some environment that is capable of autonomous action in this environment in order to meet its design objectives
The purpose of the proposal is to validate the coupling of different technologies used in the three energy optimization areas reviewed in the state of the art
Multi-Agent Systems (MASs) has monitored the electrical consumption, learned each person’s timetables at home and recorded the outdoor temperature (◦ C), indoor temperature (◦ C) and lighting on the dwelling of each day to generate the cases used by the Case-based reasoning (CBR)

Summary

Introduction

An agent is a computer system situated in some environment that is capable of autonomous action in this environment in order to meet its design objectives. Self-coordination refers to the way in which the agents that make up the system cooperate to reach the objective of consuming less resources. This is where communication comes into play, and it is an essential element of MAS. These basic principles of communication and self-organisation are maintained from their first definitions. One of these first definitions of agent can be found in the proposal of Wooldridge [2],

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