@inproceedings{oai:ipsj.ixsq.nii.ac.jp:00087531,
 author = {Chunghan, Lee and Hirotake, Abe and Toshio, Hirotsu and Kyoji, Umemura and Chunghan, Lee and Hirotake, Abe and Toshio, Hirotsu and Kyoji, Umemura},
 book = {コンピュータシステム・シンポジウム論文集},
 month = {Nov},
 note = {It is known that aggregating parallel TCP flows have beneficial effect on sending large-size data over the Internet. Hacker et al. performed the empirical study on the effect in 2002, and Altman et al. proposed and verified its theoretical modeling in 2006. The key result of the studies was that aggregating 10 or more flows is meaningless because performance gain by adding another flow will saturate at 10 TCP flows. We re-performed the throughput measurements as Hacker et al did, but on the recent Internet environment. In this paper, we present the result of our measurements and discuss the difference we observed between Hacker's and ours., It is known that aggregating parallel TCP flows have beneficial effect on sending large-size data over the Internet. Hacker et al. performed the empirical study on the effect in 2002, and Altman et al. proposed and verified its theoretical modeling in 2006. The key result of the studies was that aggregating 10 or more flows is meaningless because performance gain by adding another flow will saturate at 10 TCP flows. We re-performed the throughput measurements as Hacker et al did, but on the recent Internet environment. In this paper, we present the result of our measurements and discuss the difference we observed between Hacker's and ours.},
 pages = {53--58},
 publisher = {情報処理学会},
 title = {Recent Empirical Evaluation of Aggregate Throughput using Parallel Transfers on the Internet},
 volume = {2012},
 year = {2012}
}