Paper Title : REDUCED ENERGY CONSUMPTION OF DATA TRANSMISSION FOR TCP DOWNLOAD/UPLOADS

ISSN : 2394-2231
Year of Publication : 2022

10.5281/zenodo.6410056

Authors: Mr.S.Sambasivam,M.C.A..,M.Phil.., S.Suriya Sugan

         



MLA Style: REDUCED ENERGY CONSUMPTION OF DATA TRANSMISSION FOR TCP DOWNLOAD/UPLOADS " Mr.S.Sambasivam,M.C.A..,M.Phil.., S.Suriya Sugan " Volume 9 - Issue 2 International Journal of Computer Techniques (IJCT) ,ISSN:2394-2231 , www.ijctjournal.org

APA Style: REDUCED ENERGY CONSUMPTION OF DATA TRANSMISSION FOR TCP DOWNLOAD/UPLOADS " Mr.S.Sambasivam,M.C.A..,M.Phil.., S.Suriya Sugan " Volume 9 - Issue 2 International Journal of Computer Techniques (IJCT) ,ISSN:2394-2231 , www.ijctjournal.org

Abstract
Energy consumption caused by wireless data transmission on smart phones is increasing rapidly with the growing popularity of applications that require network connectivity. This results in shrinking battery life, as the development of battery technology is unable to keep up with the energy demand of applications. While waiting for breakthroughs in battery technology, we can try and make the networked applications more energy-efficient. Wireless data transmission consumes a significant part of the overall energy consumption of smart phones, due to the popularity of Internet applications. This project investigates the energy consumption characteristics of data transmission over Wi-Fi, focusing on the effect of Internet flow characteristics and network environment. The author presents deterministic models that describe the energy consumption of Wi-Fi data transmission with traffic burstiness, network performance metrics like throughput and retransmission rate, and parameters of the power saving mechanisms in use. These models are practical because their inputs are easily available on mobile platforms without modifying low-level software or hardware components. This project demonstrates the practice of model-based energy profiling on Maemo, Symbian, and Android phones, and evaluate the accuracy with physical power measurement of applications including file transfer, web browsing, video streaming, and instant messaging. Their experimental results show that our models are of adequate accuracy for energy profiling and are easy to apply.

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Keywords
— REDUCED ENERGY CONSUMPTION OF DATA TRANSMISSION FOR TCP DOWNLOAD/UPLOADS