Agata Barciś scite author profile

Agata Barciś

5Publications

43Citation Statements Received

143Citation Statements Given

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119

143

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University of Klagenfurt

Publications

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Sandsbots: Robots That Sync and Swarm

Barciś

Bettstetter

2020

IEEE Access

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This article presents a multi-robot system that forms emergent space-time patterns. Inspired by the theory of swarmalators, in which synchronization and swarming of agents are mutually coupled, we propose a robot-suitable model for coordination in time and space. The approach is evaluated by simulations and demonstrated as proof-of-concept using small robots and drones. The novel building blocks comprise a time-discrete swarm aggregation model-which works robustly with low update rates in systems with communication delays-and specific functions that couple this spatial model to a discrete temporal coordination model, resulting in an overall discrete spatio-temporal coordination model.

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Information Distribution in Multi-Robot Systems: Utility-Based Evaluation Model

Barcis

Barciś

Hellwagner

2020

Sensors

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This work addresses the problem of information distribution in multi-robot systems, with an emphasis on multi-UAV (unmanned aerial vehicle) applications. We present an analytical model that helps evaluate and compare different information distribution schemes in a robotic mission. It serves as a unified framework to represent the usefulness (utility) of each message exchanged by the robots. It can be used either on its own in order to assess the information distribution efficacy or as a building block of solutions aimed at optimizing information distribution. Moreover, we present multiple examples of instantiating the model for specific missions. They illustrate various approaches to defining the utility of different information types. Finally, we introduce a proof of concept showing the applicability of the model in a robotic system by implementing it in Robot Operating System 2 (ROS 2) and performing a simple simulated mission using a network emulator. We believe the introduced model can serve as a basis for further research on generic solutions for assessing or optimizing information distribution.

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Beyond Sync: Distributed Temporal Coordination and Its Implementation in a Multi-Robot System

Barciś

Bettstetter

2019

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Information Distribution in Multi-Robot Systems: Generic, Utility-Aware Optimization Middleware

et al. 2021

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This work addresses the problem of what information is worth sending in a multi-robot system under generic constraints, e.g., limited throughput or energy. Our decision method is based on Monte Carlo Tree Search. It is designed as a transparent middleware that can be integrated into existing systems to optimize communication among robots. Furthermore, we introduce techniques to reduce the decision space of this problem to further improve the performance. We evaluate our approach using a simulation study and demonstrate its feasibility in a real-world environment by realizing a proof of concept in ROS 2 on mobile robots.

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Robots that Sync and Swarm: A Proof of Concept in ROS 2

Barciś¹,

Barcis²,

Bettstetter³

2019

Preprint

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A unified mathematical model for synchronisation and swarming has recently been proposed. Each system entity, called a "swarmalator", coordinates its internal phase and location with the other entities in a way that these two attributes are mutually coupled. This paper realises and studies, for the first time, the concept of swarmalators in a technical system. We adapt and extend the original model for its use with mobile robots and implement it in the Robot Operating System 2 (ROS 2). Simulations and experiments with small robots demonstrate the feasibility of the model and show its potential to be applied to real-world systems. All types of space-time patterns achieved in theory can be reproduced in practice. Applications can be found in monitoring, exploration, entertainment and art, among other domains.

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Agata Barciś

Sandsbots: Robots That Sync and Swarm

Information Distribution in Multi-Robot Systems: Utility-Based Evaluation Model

Beyond Sync: Distributed Temporal Coordination and Its Implementation in a Multi-Robot System

Information Distribution in Multi-Robot Systems: Generic, Utility-Aware Optimization Middleware

Robots that Sync and Swarm: A Proof of Concept in ROS 2

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