The energy efficiency of mobile devices becomes very important, considering the development of mobile device technology starting to lead to smaller dimensions and with the higher processor speed of these mobile devices. Various studies have been conducted to grow energy-aware in hardware, middleware and application software. The step of optimizing energy consumption can be done at various layers of mobile communication network architecture. This study focuses on examining the energy consumption of mobile devices in the transport layer protocol, where the processor speed of the mobile devices used in this experiment is higher than the processor speed used in similar studies. The mobile device processor in this study has a speed of 1.5 GHz with 1 GHz RAM capacity. While in similar studies that have been carried out, mobile device processors have a speed of 369 MHz with a RAM capacity of less than 0.5 GHz. This study conducted an experiment in transmitting mobile data using TCP and UDP protocols. Because the video requires intensive delivery, so the video is the traffic that is being reviewed. Energy consumption is measured based on the amount of energy per transmission and the amount of energy per package. To complete the analysis, it can be seen the strengths and weaknesses of each protocol in the transport layer protocol, in this case the TCP and UDP protocols, also evaluated the network performance parameters such as delay and packet loss. The results showed that the UDP protocol consumes less energy and transmission delay compared to the TCP protocol. However, only about 22% of data packages can be transmitted. Therefore, the UDP protocol is only effective if the bit rate of data transmitted is close to the network speed. Conversely, despite consuming more energy and delay, the TCP protocol is able to transmit nearly 96% of data packets. On the other hand, when compared to mobile devices that have lower processor speeds, the mobile devices in this study consume more energy to transmit video data. However, transmission delay and packet loss can be suppressed. Thus, mobile devices that have higher processor speeds are able to optimize the energy consumed to improve transmission quality.

Key words: energy consumption, processor, delay, packet loss, transport layer protocol

Statista 2018, Number of Smartphone Users Worldwide 2014-2020, Teknologi.id.

Argo Dahono, Pekik., 2016, Menuju Layanan Telekomunikasi yang Hemat Energi dan Ramah Lingkungan, Engineer Weekly No.02 W. II.

Naik, K., 2013, A Survey of Software Based Energy Saving Methodologies forHandheld Wireless Communication Devices. Waterloo, Canada: Tech. Report No. 2010-13 Dept. of ECE, University of Waterloo.

Christine, J. E., & et al., 2001, A Survey of Energy Efficient Network Protocols for Wireless. Wireless Networks 7, Netherlands: Kluwer Academic Publisher.

Khalifa, T., 2014, Split- and Aggregated-Transmission Control Protocol (SA-TCP) for Smart Power Grid, IEEE Transactions on (Volume:5 , Issue: 1 ), pp. 381 – 391.

Chen, S., 2013, An energy-aware multipath-TCP-based content delivery scheme in heterogeneous wireless networks, Wireless Communications and Networking Conference (WCNC) IEEE 2013 (pp. 1291 - 1296).

Knowledge, G., 2006, The OSI Model: Understanding the Seven Layers of Computer Networks,Global Knowledge Training LLC.

Nainggolan, Yosua., Suherman, 2015, Studi Konsumsi Energi Perangkat Komunikasi Bergerak untuk Aplikasi Video Streaming, Singuda Ensikom, Vol. 12. No. 33.

Stuber, L. Gordon, 2012, Principles of Mobile Communication, 3rd ed.: Springer