Browse > Article
http://dx.doi.org/10.7465/jkdi.2013.24.1.23

A study on comparing response times between Wibro and wired internet using portals  

Ryu, Gui-Yeol (Department of Computer Science, SeoKyeong University)
Publication Information
Journal of the Korean Data and Information Science Society / v.24, no.1, 2013 , pp. 23-32 More about this Journal
Abstract
The object of study is to compare the response times between WiBro and wired internet in terms of users. We conducted experiments using six portal sites such as Naver, Daum, Google, Paran, Nate, and Yahoo. Because we could not receive all signal levels of WiBro at the same palace, we compared WiBro levels 1~3 and wired internet. We verified wired internet is significantly the fastest among wired internet and than WiBro levels 1~3. We could not find which level is the fastest among WiBro levels 1~3. On average, wired internet is faster than WiBro level 1, 2 and 3 about 5.05, 4.20, and 4.14 times, respectively. In addition to comparing WiBro levels 4~5 and wired internet, more researches on accelerating the response times are needed.
Keywords
Multiple comparison; response time; WiBro; wired internet;
Citations & Related Records
Times Cited By KSCI : 4  (Citation Analysis)
연도 인용수 순위
1 Joe T., John H. and Katia O. (1996). Analysis of HTTP performance, USC/ISI Research Report 98-463, 1-10.
2 Jeong, E. and Yoon, C. (2005). The analysis of the WiBro system with TCP traffic. Proceedings of Conference of Korea Society for Internet Information, 6, 281-284.
3 Kim, H. and Yoo, K. (2006). An efficient packetization method for the real-time internet video transmission. Journal of Korea Information and Communications Society, 31, 614-622.
4 NIA (2012). SLA terms of internet service providers, retrieved from http://speed.nia.or.kr.
5 Park, H. (2001). Design of experiment and ANOVA using SAS, Freedom Academy, Kyeonggi.
6 Park, S. and Kim, J. (2011). Modern design of experiments Using MINITAB, Min Young Sa, Seoul.
7 Ryu, G. (2011). A study on preferable contents depending on regions and terminal types for high speed mobile internet. Journal of the Korean Data & Information Science Society, 22, 701-715.
8 Ryu, G. (2012). A study on response time of WiBro depending on signal intensity. Journal of the Korean Data Analysis Society, 14, 1119-1128.
9 Kim, W. (2008). Mobile computing algorithm on IEEE 802.11b for ubiquitous computing. Journal of the Korean Data & Information Science Society, 19, 11-24.
10 Ko, D. and Kang, M. (2004). A design of effective packet format for real-time audio data transmission. Journal of Korean institute of Information Technology 2, 9-16.
11 Cho, J. and Yoo, K. (2003). A study on effect of some services on PSTN usage. Journal of the Korean Data & Information Science Society, 14, 605-614.
12 Korea Internet & Security Agency (2011). Korea internet white paper 2011 , KISA, Seoul.
13 Lee, J. and Cha, Y. (2012). Course evaluation model using standardized transformation by group in student evaluation of teaching. Journal of the Korean Data & Information Science Society, 23, 143-150.   DOI   ScienceOn
14 Lee, Y. (2002). Analysis of average waiting time and average turnaround time in web environment. Journal of Korea Information Processing Society, 9-C, 865-874.
15 Lee, Y. (2008). Mean response delay estimation for HTTP over SCTP in wireless internet. Journal of the Korea Contents Association, 8, 43-53.