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http://dx.doi.org/10.3745/KTCCS.2016.5.11.411

BMT-Model Based Evaluation of Power Consumption of Mobile Context-Aware Application  

Jeon, Jaehong (아주대학교 전자공학과)
Baek, Dusan (아주대학교 전자공학과)
Kim, Kyung-Ah (명지전문대학 컴퓨터정보과)
Lee, Jung-Won (아주대학교 전자공학과)
Publication Information
KIPS Transactions on Computer and Communication Systems / v.5, no.11, 2016 , pp. 411-418 More about this Journal
Abstract
Context-aware application has a lot of power consumption because it creates context by using a number of smartphone's sensors. Furthermore, only few kinds of researches have been conducted that provide information for the evaluation result of power consumption in the aspect of applications. In addition, evaluation of power consumption do not consider user's usage pattern or provide only total amount of power consumption, and inform developers power consumption of sensors undistinguishable. It makes developers hard to develop a power consumption-considered application. If developers could get information for power consumption of context-aware application in detail, a development of power-considered context-aware applications would be possible. Consequently, this paper proposes a BMT(Bench Mark Test) model which is able to inform developers useful evaluation criteria and result about power consumption of smartphone's components and sensors with usage pattern considered.
Keywords
Context-Aware Application; Power Consumption; BMT; Testing; Mobile Context;
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  • Reference
1 Qualcomm, Designing Mobile Devices for Low Power and Thermal Efficiency, Qualcomm Technologies Report 1-13 (2013) [Internet], https://www.qualcomm.com/media/documents/files/designing-mobile-devices-for-low-power-and-thermal-efficiency.pdf.
2 J. Kim and S. Sim. "Present Status of Software Bench Mark Test(BMT)," Journal of KIISE, Vol.23, No.3, pp.33-38, 2005.
3 Pathak, Abhinav, Y. Charlie Hu, and Ming Zhang, "Bootstrapping energy debugging on smartphones: a first look at energy bugs in mobile devices," Proceedings of the 10th ACM Workshop on Hot Topics in Networks, ACM, 2011.
4 Pathak, Abhinav et al., "What is keeping my phone awake?: characterizing and detecting no-sleep energy bugs in smartphone apps," Proceedings of the 10th international conference on Mobile systems, applications, and services, ACM, 2012.
5 Carroll, Aaron and Gernot Heiser, "An Analysis of Power Consumption in a Smartphone," USENIX Annual Technical Conference, Vol.14, 2010.
6 J. Lee, H. Cho, and H. Kim, "Power Consumption Analysis of Smartphone Application," Proc. of the KIISE Fall Conference, Vol.39, No.2, pp.39-42, 2011.
7 Hye-Jung Jung, "Software Test Model for Mobile Device Management," The Journal of Korea Information And Communications Society, Vol.37D, No.3, pp.122-127. 2012.
8 T. Yang et al., "Service of Providing Power Consumption Information of Mobile Applications," Proc. of the 40th KIISE Fall Conference, pp.457-459, 2013.
9 Jemin Lee and Hyungshin Kim, "Framework for automated power estimation of android applications," Proceeding of the 11th annual international conference on Mobile systems, applications, and services, ACM, 2013.
10 Wonwoo Jung et al., "Powerlet: an active battery interface for smartphones," Proceedings of the 2014 ACM International Joint Conference on Pervasive and Ubiquitous Computing, ACM, 2014.
11 ISO/IEC, "ISO/IEC 9126-2 Software engineering -Product quality- part2: External metrics," 2002.
12 ISO/IEC, "ISO/IEC 25000 Systems and software Quality Requirements and Evaluation (SQuaRE)," 2014.
13 Meeyeon Lee, Deok-Ki Kim, and Jung-Won Lee, "Analysis of Characteristics of Power Consumption for Context-Aware Mobile Applications," Information, Vol.5, No.4, pp.612-621, 2014.   DOI