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Bibliographic Details
Main Authors: Das, Sumanta Kumar, Mukherjee, Sumant
Format: Preprint
Published: 2019
Subjects:
Online Access:https://arxiv.org/abs/1905.01358
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author Das, Sumanta Kumar
Mukherjee, Sumant
author_facet Das, Sumanta Kumar
Mukherjee, Sumant
contents This paper presents algorithms of decision making agents for an integrated air defense (IAD) system. The advantage of using agent based over conventional decision making system is its ability to automatically detect and track targets and if required allocate weapons to neutralize threat in an integrated mode. Such approach is particularly useful for futuristic network centric warfare. Two agents are presented here that perform the basic decisions making tasks of command and control (C2) like detection and action against jamming, threat assessment and weapons allocation, etc. The belief-desire-intension (BDI) architectures stay behind the building blocks of these agents. These agents decide their actions by meta level plan reasoning process. The proposed agent based IAD system runs without any manual inputs, and represents a state of art model for C2 autonomy.
format Preprint
id arxiv_https___arxiv_org_abs_1905_01358
institution arXiv
publishDate 2019
record_format arxiv
spellingShingle Agent based decision making for Integrated Air Defense system
Das, Sumanta Kumar
Mukherjee, Sumant
Multiagent Systems
Applications
This paper presents algorithms of decision making agents for an integrated air defense (IAD) system. The advantage of using agent based over conventional decision making system is its ability to automatically detect and track targets and if required allocate weapons to neutralize threat in an integrated mode. Such approach is particularly useful for futuristic network centric warfare. Two agents are presented here that perform the basic decisions making tasks of command and control (C2) like detection and action against jamming, threat assessment and weapons allocation, etc. The belief-desire-intension (BDI) architectures stay behind the building blocks of these agents. These agents decide their actions by meta level plan reasoning process. The proposed agent based IAD system runs without any manual inputs, and represents a state of art model for C2 autonomy.
title Agent based decision making for Integrated Air Defense system
topic Multiagent Systems
Applications
url https://arxiv.org/abs/1905.01358