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TimeCast: real-time many-to-many ata-sharing in low-power wireless distributed systems
Publikationstyp
Journal Article
Date Issued
2023-07-17
Sprache
German
Journal
Volume
17
Issue
4
Start Page
5726
End Page
5737
Citation
IEEE Systems Journal17 (4): 5726-5737 (2023)
Publisher DOI
Scopus ID
Many-to-many/all-to-all sharing of data is one of the common requirements in any distributed/decentralized system. In low-power wireless distributed systems composed of highly resource-constrained devices, a many-to-many data-sharing strategy needs to be not only efficient but also sufficiently simple in nature. Advancements in the field of synchronous transmission (ST) have proliferated a number of efficient data-sharing strategies for low-power systems. In this work, we first identify the fundamental and simple possible approaches to accomplish the goal. Through extensive simulation-based comparison among them, we demonstrate the superiority of the approach adopted by a strategy called MiniCast where the desired task is achieved through pipelined execution of the one-to-many floods from the designated source nodes. However, through further in-depth study, we identify certain crucial flaws in MiniCast, which are mostly caused by its substandard realization through radio-event-triggered architecture. To circumvent the problems, we propose a new strategy TimeCast where the radio-event-triggered architecture of MiniCast is replaced by a time-triggered architecture. Through rigorous experimental studies in IoT-testbeds, we demonstrate that TimeCast substantially improves the robustness, and thus, due to lesser failures, it achieves all-to-all data-sharing up to 57.1% faster while consuming up to 63.6% lesser radio-on time compared to MiniCast.
Subjects
All-to-all data-sharing | capture effect (CE) | constructive interference (CI) | Internet of Things (IoT) | many-to-many data sharing | synchronous transmission (ST) | wireless sensor network (WSN)
DDC Class
600: Technology