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Analytical model for mean web object transfer latency estimation in the narrowband IoT environment
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 Title & Authors
Analytical model for mean web object transfer latency estimation in the narrowband IoT environment
Lee, Yong-Jin;
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 Abstract
This paper aims to present the mathematical model to find the mean web object transfer latency in the slow-start phase of TCP congestion control mechanism, which is one of the main control techniques of Internet. Mean latency is an important service quality measure of end-user in the network. The application area of the proposed latency model is the narrowband environment including multi-hop wireless network and Internet of Things(IoT), where packet loss occurs in the slow-start phase only due to small window. The model finds the latency considering initial window size and the packet loss rate. Our model shows that for a given packet loss rate, round trip time and initial window size mainly affect the mean web object transfer latency. The proposed model can be applied to estimate the mean response time that end user requires in the IoT service applications.
 Keywords
Web object transfer latency;Congestion control;Packet loss;IoT service;
 Language
English
 Cited by
 References
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