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Abstract
Due to the increase in embedded computing power, modern robotic systems are capable of running a wide range of perception and control algorithms simultaneously. This raises the question where to optimally allocate each robotic cognition process. In this paper, we present a concept for a novel load distribution approach. The proposed methodology adopts a decentralised approach towards the allocation of perception and control processes to different agents (unmanned vessels, fog or cloud services) based on an estimation of the communication parameters (bandwidth, latency, cost), the agent capabilities in terms of processing hardware (not only focusing on the CPU, but also taking into consideration the GPU, disk memory speed and size) and the requirements in terms of timely delivery of quality output data. The presented approach is extensively validated in a simulation environment and shows promising properties.
Original language | English |
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Title of host publication | 2019 22nd IEEE International Symposium on Measurement and Control in Robotics |
Subtitle of host publication | Robotics for the Benefit of Humanity, ISMCR 2019 |
Editors | Thomas L. Harman, Zafar Taqvi |
Publisher | Institute of Electrical and Electronics Engineers Inc. |
ISBN (Electronic) | 9781728148991 |
DOIs | |
Publication status | Published - Sept 2019 |
Event | 22nd IEEE International Symposium on Measurement and Control in Robotics, ISMCR 2019 - Houston, United States Duration: 19 Sept 2019 → 21 Sept 2019 |
Publication series
Name | 2019 22nd IEEE International Symposium on Measurement and Control in Robotics: Robotics for the Benefit of Humanity, ISMCR 2019 |
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Conference
Conference | 22nd IEEE International Symposium on Measurement and Control in Robotics, ISMCR 2019 |
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Country/Territory | United States |
City | Houston |
Period | 19/09/19 → 21/09/19 |
Keywords
- cloud robotics
- heterogeneous systems
- load balancing
- multi-robot systems
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Dive into the research topics of 'Optimized distributed scheduling for a fleet of heterogeneous unmanned maritime systems'. Together they form a unique fingerprint.Projects
- 1 Finished
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MarSur: Enhancing Maritime Situational Awareness with Unmanned Surface Vehicle Swarms in the Fight against Illegal Maritime Traffic
De cubber, G. (Promotor), Haelterman, R. (Promotor), De cubber, G. (Researcher), La Grappe, A. (Researcher), Le Flécher, E. (Researcher) & Pairet, B. (Researcher)
1/01/19 → 31/12/23
Project: Research