Towards a General-Purpose, Replicable, Swarm-Capable Unmanned Aircraft System
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Authors
Arnold, Ross
Kopeikin, Andrew
Abruzzo, Benjamin
Korpela, Christopher M.
Issue Date
2019-11
Type
proceedings-article
Language
Keywords
Software , Computer architecture , Robots , Aircraft , Government , Sensors , Payloads
Alternative Title
Abstract
This paper describes an effort to create a general-purpose Unmanned Aircraft System (UAS) swarm using entirely Commercial Off-the-Shelf (COTS) parts and a reusable swarming software architecture. The software architecture used in this research was originally designed for a UAS warfare competition in 2017 called the Service Academies Swarm Challenge (SASC), hosted by the Defense Advanced Research Projects Agency (DARPA). The SASC software is a multipurpose swarm-control software architecture that allows a swarm to be tailored to many different purposes by third-parties. However, the UASs used in the original SASC competition contain custom parts which have begun to deteriorate over years of use. A COTS UAS solution using the SASC swarm architecture is the next step towards expanding the usefulness of the swarm so that it can be deployed, replicated, modified, and generalized to suit many different needs in a variety of sectors to include homeland security and defense.
Description
Citation
R. Arnold, A. Kopeikin, B. Abruzzo and C. Korpela, "Towards a General-Purpose, Replicable, Swarm-Capable Unmanned Aircraft System," 2019 IEEE International Symposium on Technologies for Homeland Security (HST), Woburn, MA, USA, 2019, pp. 1-6, doi: 10.1109/HST47167.2019.9032896.
Publisher
IEEE