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Main Authors: Pell, Samuel, Willig, Andreas
Format: Preprint
Published: 2024
Subjects:
Online Access:https://arxiv.org/abs/2404.01570
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author Pell, Samuel
Willig, Andreas
author_facet Pell, Samuel
Willig, Andreas
contents Recently, swarms or formations of drones have received increased interest both in the literature and in applications. To dynamically adapt to their operating environment, swarm members need to communicate wirelessly for control and coordination tasks. One fundamental communication pattern required for basic safety purposes, such as collision avoidance, is beaconing, where drones frequently transmit information about their position, speed, heading, and other operational data to a local neighbourhood, using a local broadcast service. In this paper, we propose and analyse a protocol stack which allows to use the recurring-beaconing primitive for additional purposes. In particular, we propose the VarDis (Variable Dissemination) protocol, which creates the abstraction of variables to which all members of a drone swarm have (read) access, and which can naturally be used for centralized control of a swarm, amongst other applications. We describe the involved protocols and provide a mainly simulation-based performance analysis of VarDis.
format Preprint
id arxiv_https___arxiv_org_abs_2404_01570
institution arXiv
publishDate 2024
record_format arxiv
spellingShingle DCP and VarDis: An Ad-Hoc Protocol Stack for Dynamic Swarms and Formations of Drones -- Extended Version
Pell, Samuel
Willig, Andreas
Networking and Internet Architecture
Recently, swarms or formations of drones have received increased interest both in the literature and in applications. To dynamically adapt to their operating environment, swarm members need to communicate wirelessly for control and coordination tasks. One fundamental communication pattern required for basic safety purposes, such as collision avoidance, is beaconing, where drones frequently transmit information about their position, speed, heading, and other operational data to a local neighbourhood, using a local broadcast service. In this paper, we propose and analyse a protocol stack which allows to use the recurring-beaconing primitive for additional purposes. In particular, we propose the VarDis (Variable Dissemination) protocol, which creates the abstraction of variables to which all members of a drone swarm have (read) access, and which can naturally be used for centralized control of a swarm, amongst other applications. We describe the involved protocols and provide a mainly simulation-based performance analysis of VarDis.
title DCP and VarDis: An Ad-Hoc Protocol Stack for Dynamic Swarms and Formations of Drones -- Extended Version
topic Networking and Internet Architecture
url https://arxiv.org/abs/2404.01570