Analyze Cost-Efficient System for Small UAS Tracking Using Agent-Based Modeling

doi:https://doi.org/10.1016/j.procs.2015.07.240

Open AccessArticle10.1016/j.procs.2015.07.240

Analyze Cost-Efficient System for Small UAS Tracking Using Agent-Based Modeling

Sangmi Shin,Seongha Park,Yongho Kim,Eric T. Matson-2015-01-01-Procedia Computer Science

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TL;DRAbstract

Unmanned aerial systems (UAS) for recreational use, which are low-cost and easy-to-use, have begun to gain popularity recently. Flying those UAS in public areas, however, increases threats in terms of safety of people. To prevent people from such threats, we consider a design, modeling, and evaluation of a cost-efficient sensor system in order to detect and track UAS. In this research, we focus on discovering best configurations of deploying different types of sensors in a designated area, which provides reasonable detection rates and lowest costs as well. We set a condition that crowded areas should be covered more than other areas. Two types of sensors are considered to be deployed in the designated area to detect small UAS. Agent-Based Modeling (ABM) helps us analyze such configurations depending on the types and the number of radars in terms of cost-efficiency. The result of ABM simulation shows a list of candidate configurations that can be referred for the real deployment.

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Unmanned aerial systems (UAS) for recreational use, which are low-cost and easy-to-use, have begun to gain popularity recently. Flying those UAS in public areas, however, increases threats in terms of safety of people. To prevent people from such threats, we consider a design, modeling, and evaluation of a cost-efficient sensor system in order to detect and track UAS. In this research, we focus on discovering best configurations of deploying different types of sensors in a designated area, which provides reasonable detection rates and lowest costs as well. We set a condition that crowded areas should be covered more than other areas. Two types of sensors are considered to be deployed in the designated area to detect small UAS. Agent-Based Modeling (ABM) helps us analyze such configurations depending on the types and the number of radars in terms of cost-efficiency. The result of ABM simulation shows a list of candidate configurations that can be referred for the real deployment.

Keywords

Computer scienceSoftware deploymentFocus (optics)PopularityReal-time computingSet (abstract data type)Track (disk drive)Simulation

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