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A simple and efficient Distributed Trigger Counting algorithm based on local thresholdsopen accessA simple and efficient Distributed Trigger Counting algorithm based on local thresholds

Other Titles
A simple and efficient Distributed Trigger Counting algorithm based on local thresholds
Authors
Kim, SeokhyunFattori, GiorgiaPark, Yongsu
Issue Date
Aug-2024
Publisher
한국통신학회
Keywords
Distributed counting; Distributed system; Internet-of-Things; Sensor network
Citation
ICT Express, v.10, no.4, pp 895 - 901
Pages
7
Indexed
SCIE
SCOPUS
KCI
Journal Title
ICT Express
Volume
10
Number
4
Start Page
895
End Page
901
URI
https://scholarworks.bwise.kr/hanyang/handle/2021.sw.hanyang/195292
DOI
10.1016/j.icte.2024.05.005
ISSN
2405-9595
2405-9595
Abstract
Consider a large-scale distributed system in which each computing device is observing triggers from an external source. Distributed Trigger Counting (DTC) algorithm is used to detect the state of the system when the aggregated number of the observed triggers reaches a predefined value. In this paper, we propose a simple and efficient DTC algorithm: Cascading Thresholds (CT). We mathematically show that CT is an optimal DTC algorithm in terms of the total number of exchanged messages among the devices (message complexity). For the maximum number of received messages per device (MaxRcv), CT is sub-optimal. The average message complexity of CT is O(Nlog(W/N)), and MaxRcv of it is O(klog(W/N)+N), where W is the number of triggers to be detected, N is the number of devices, and k is the degree of a node in the tree-like structure. Compared to the previous optimal algorithm (TreeFill), CT is much simpler: in our implementation the code size is about 2.5 times smaller. Also, unlike TreeFill CT does not require complicated mechanisms including distributed locking. Experimental results show that CT has a lower message complexity and MaxRcv compared to the previous work (CoinRand and RingRand). Furthermore, CT and TreeFill show a similar performance. From its simplicity, CT is more practical than previous work including TreeFill, CoinRand and RingRand.
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