Committee |
Date Time |
Place |
Paper Title / Authors |
Abstract |
Paper # |
IA, IN (Joint) |
2017-12-14 15:35 |
Hiroshima |
Hiroshima City Univ. |
On Emulating Automotive IP Network with Network Virtualization Masahiro Kawaue, Ryo Nakamura, Yasuhiro Yamasaki, Hiroyuki Ohsaki (Kwansei Gakuin Univ.) IA2017-60 |
In recent years, because of development of the automated driving system called ADAS (Advanced Driver-Assistance System),... [more] |
IA2017-60 pp.43-48 |
NS |
2017-10-26 14:55 |
Osaka |
I-site nanba |
[Poster Presentation]
Preliminary investigation of approximation analysis about low-latency network architecture Takeshi Kimura (Hokkaido Univ.), Krittin Intharawijitr (Tokyo Tech.), Katsuyoshi Iida, Yoshiaki Takai (Hokkaido Univ.) NS2017-104 |
In cloud computing, geographic distance between data centres and user devices may not let the delay requirement be satis... [more] |
NS2017-104 pp.69-71 |
CS, CQ (Joint) |
2017-04-21 09:15 |
Hokkaido |
Chitose Institute of Science and Technology |
Study of low-latency layer 2 switch architecture for mobile front haul Kazuto Nishimura, Atsushi Kitada, Masaki Hirota, Hiroshi Tomonaga (FLAB) CS2017-8 |
In 5th Generation mobile communication, it is considered that Mobile Front Haul (MFH) network is integrated to Layer 2 n... [more] |
CS2017-8 pp.37-42 |
NS |
2016-10-21 11:35 |
Hyogo |
Himeji Nishi-Harima Area Jibasan Center |
A Study of Priority Control Method for Low-Latency Communications Kotaro Ono, Minoru Matsumoto, Naoki Takaya (NTT) NS2016-100 |
Next generation network architecture demands millisecond-order low latency. On the other hand, a part of new services us... [more] |
NS2016-100 pp.63-68 |
NS |
2016-05-20 10:55 |
Kanagawa |
Yokohama-shi kyouikukaikan |
[Encouragement Talk]
Latency Analysis in LTE Networks and QoS Control for Minimizing Latency Takuya Tojo, Horomi Hirai, Minoru Matsumoto, Naoki Takaya (NTT) NS2016-25 |
The Low-latency characteristic has been discussed as one of the most important factors in next generation networks such ... [more] |
NS2016-25 pp.65-68 |
CPSY, DC, IPSJ-SLDM, IPSJ-EMB, IPSJ-ARC (Joint) [detail] |
2016-03-25 14:30 |
Nagasaki |
Fukue Bunka Hall/Rodou Fukushi Center |
Design Evaluation of Low-Latency Handshake Join on FPGA Masato Yoshimi, Yasin Oge, Celimuge Wu, Tsutomu Yoshinaga (UEC) CPSY2015-155 DC2015-109 |
This work revisits the processing of sliding-window joins on FPGAs. In this paper, we propose an FPGA-based implementati... [more] |
CPSY2015-155 DC2015-109 pp.253-258 |
CQ, ICM, NS (Joint) |
2015-11-27 12:05 |
Niigata |
Niigata University |
Low-Latency Transport Protocol for Multipath Networks Takuya Tojo, Hiromi Hirai, Minoru Matsumoto, Naoki Takaya (NTT) NS2015-126 |
Tactile Internet has been proposed that human tactile perception is transmitted through networks. The network latency is... [more] |
NS2015-126 pp.87-92 |
VLD, DC, IPSJ-SLDM, CPSY, RECONF, ICD, CPM (Joint) [detail] |
2011-11-30 10:55 |
Miyazaki |
NewWelCity Miyazaki |
A 22-Gb/s and over-33-mega-frame/s throughput bridge-function unit in a low-latency OLT LSI for the coexistence of 10G-EPON and GE-PON Shoko Ohteru, Tomoaki Kawamura, Hiroki Suto, Masami Urano, Mamoru Nakanishi, Tsugumichi Shibata (NTT) CPM2011-166 ICD2011-98 |
A multifunctional bridge function unit and buffer function unit were developed for the OLT LSI for the coexistence of 10... [more] |
CPM2011-166 ICD2011-98 pp.91-96 |
CS, IN, NS (Joint) |
2008-09-11 13:00 |
Miyagi |
Tohoku University |
A Study on Low-Latency Wireless Networks using ARQ and Turbo Code Koji Yokota, Masahiro Fujii (Utsunomiya Univ.), Takeshi Kitahara, Hajime Nakamura (KDDI Lab.), Yu Watanabe (Utsunomiya Univ.) CS2008-19 |
For new services of wireless communication networks, the concern with
real-time data transmission services has recentl... [more] |
CS2008-19 pp.13-18 |
RCS, SIP (Joint) |
2006-01-26 09:40 |
Fukuoka |
Kyusyu Univ. |
A Feasibility Study on Realizing Ultra Low-Latency Mobile Networks Satoshi Konishi, Takeshi Kitahara, Xiaoqiu Wang, Hajime Nakamura (KDDI R&D Labs.), Masataka Ohta (TIT), Fumiaki Maehara (Waseda Univ.) |
Traffic demand for real-time services have recently been increasing as well as non real-time services because of the rap... [more] |
RCS2005-144 pp.119-124 |
RCS, SIP (Joint) |
2006-01-26 10:00 |
Fukuoka |
Kyusyu Univ. |
An Adaptive Error Correction Control Scheme for an Ultra-Low-Latency Mobile Network Xiaoqiu Wang, Satoshi Konishi, Takeshi Kitahara, Hajime Nakamura (KDDI R&D Labs.), Fumiaki Maehara (Waseda Univ.), Masataka Ohta (Tokyo Inst. of Tech.) |
The authors have been studying for realizing ultra-low-latency mobile networks, in which the End-to-End latency is quite... [more] |
RCS2005-145 pp.125-130 |
IE, SIP, ICD, IPSJ-SLDM |
2004-10-22 11:15 |
Yamagata |
|
Low-Latency and Small-Code-Size Microcontroller Core for Automotive, Industrial, and PC-Peripheral Applications Yasuo Sugure (Hitachi), Seiji Takeuchi (Renesas), Yuichi Abe, Hiromichi Yamada (Hitachi), Kazuya Hirayanagi, Akihiko Tomita, Kesami Hagiwara, Takeshi Kataoka (Renesas), Takanori Shimura (Hitachi) |
A 32-bit embedded RISC microcontroller core targeted for automotive, industrial, and PC-peripheral applications has been... [more] |
SIP2004-93 ICD2004-125 IE2004-69 pp.25-30 |