Abstract
BackgroundComputer Networks have a tendency to grow at an unprecedented scale. Modern networks involve not only computers but also a wide variety of other interconnected devices ranging from mobile phones to other household items fitted with sensors. This vision of the "Internet of Things" (IoT) implies an inherent difficulty in modeling problems.PurposeIt is practically impossible to implement and test all scenarios for large-scale and complex adaptive communication networks as part of Complex Adaptive Communication Networks and Environments (CACOONS). The goal of this study is to explore the use of Agent-based Modeling as part of the Cognitive Agent-based Computing (CABC) framework to model a Complex communication network problem.MethodWe use Exploratory Agent-based Modeling (EABM), as part of the CABC framework, to develop an autonomous multi-agent architecture for managing carbon footprint in a corporate network. To evaluate the application of complexity in practical scenarios, we have also introduced a company-defined computer usage policy.ResultsThe conducted experiments demonstrated two important results: Primarily CABC-based modeling approach such as using Agent-based Modeling can be an effective approach to modeling complex problems in the domain of IoT. Secondly, the specific problem of managing the Carbon footprint can be solved using a multiagent system approach.
Highlights
Modern technological supply chains offer a rapid channel for consumer technology creation and adoption
The conducted experiments demonstrated two important results: Primarily Cognitive Agent-based Computing (CABC)-based modeling approach such as using Agent-based Modeling can be an effective approach to modeling complex problems in the domain of Internet of Things" (IoT)
We wanted to evaluate if the benefits offered by Multiagent System for Managing Carbon Footprint (MASMINC) would hold with a variation in the number of managed computers
Summary
Modern technological supply chains offer a rapid channel for consumer technology creation and adoption. Practical examples of concepts becoming reality include "PhoneBloks" a phone based on highly modular connected components [2], the Internet of Things (IoT) [3] and cloud computing [4, 5] These technologies have all become not just commonplace in the Information Technology industry and in various fields of scientific research. Modern networks involve computers and a wide variety of other interconnected devices ranging from mobile phones to other household items fitted with sensors. This vision of the "Internet of Things" (IoT) implies an inherent difficulty in modeling problems.
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