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All Technical Committee Conferences (Searched in: All Years)
| Committee | Date Time | Place | Paper Title / Authors | Abstract | Paper # | |
| PN | 2022-08-30 11:40 |
Hokkaido | (Primary: On-site, Secondary: Online) |
Queue read control method that guarantees jitter on the order of µs Hikaru Yamaguchi, Makaki Murakami, Yutaka Nasu, Takashi Kurimoto, Satoru Okamoto, Naoaki Yamanaka (Keio Univ.)  PN2022-20 |
In this paper, we propose a per-packet queue read control method to reduce latency and jitter in order to achieve μs-cla... [more] | PN2022-20 pp.65-72 |
| PN | 2021-03-02 13:00 |
Online | Online | Study of packet control technology aiming at realizing µs order jitter Yutaka Nasu, Takashi Kurimoto, Satoru Okamoto, Naoaki Yamanaka (Keio Univ.) PN2020-54 |
One of the main performances provided in the 5th Generation mobile communication (5G) is "ultra-low latency", and many a... [more] | PN2020-54 pp.70-75 |
| IA, IN (Joint) |
2020-12-14 13:05 |
Online | Online | A Study on a Method of Estimating QoS for an In-Vehicle Network with Multistage SPQ Switches Chisa Kobayashi, Yoshihiro Ito (Nitech) IA2020-24 |
This paper studies a method for estimating QoS of an Ethernet- base in-vehicle network with SPQ switches, which is one o... [more] | IA2020-24 pp.1-4 |
| IA, IN (Joint) |
2020-12-14 13:30 |
Online | Online | Evaluation of the QoS with SPQ, FRER and FP for In-Vehicle Network Masato Hayakawa, Yoshihiro Ito (NITech) IA2020-25 |
This paper evaluates QoS of the next-generation in-vehicle networks which use Ethernet in combination with three control... [more] | IA2020-25 pp.5-8 |
| IA, IN (Joint) |
2020-12-14 13:55 |
Online | Online | Study on Effect of GCL Allocation of Time-Aware Shaper on QoS Rui Nakayama, Yoshihiro Ito (Nitech) IA2020-26 |
This paper evaluates the effect of the Gate Control List (GCL) on QoS over an Ethernet-based in-vehicle network which us... [more] | IA2020-26 pp.9-12 |
| IN | 2020-01-24 10:50 |
Aichi | WINC AICHI | QoS Evaluation of Video Stream over IEEE802.1 TSN Network Rui Nakayama, Yoshihiro Ito (NITech) IN2019-74 |
This paper evaluates the QoS of audio/video stream over IEEE802.1 TSN network. The authors prepare two kinds of switches... [more] | IN2019-74 pp.53-56 |
| CS, CQ (Joint) |
2019-04-18 11:10 |
Osaka | Osaka Univ. Library | FPGA prototype of autonomous Time Aware Shaper for low-latency layer 2 switch Kazuto Nishimura, Masaki Hirota, Takafumi Terahara, Hideki Matsui (Fujitsu) CS2019-5 |
In 5th Generation mobile communication, it is considered that Mobile Front Haul (MFH) network is integrated to Layer 2 n... [more] | CS2019-5 pp.25-30 |
| CAS, CS | 2019-03-08 14:25 |
Kanagawa | Shonan Institute of Technology | A Time Synchronization Scheme on Grandmaster Switching for IEEE802.1AS Taichi Sakaue, Osamu Toyama, Daisuke Osagawa, Teruaki Ito (Mitsubishi Electric) CAS2018-144 CS2018-112 |
Recently, IEEE802.1 TSN (Time Sensitive Networking) is being applied for industrial networks which is used in automotive... [more] | CAS2018-144 CS2018-112 pp.33-37 |
| IN, NS, CS, NV (Joint) |
2018-09-06 16:55 |
Miyagi | Research Institute of Electrical Communication, Tohoku Univ. | [Invited Lecture]
Low-latency layer 2 switch technology for mobile front haul Kazuto Nishimura, Masaki Hirota, Takafumi Terahara, Hideki Matsui (Fujitsu) NS2018-95 IN2018-29 CS2018-48 |
In 5th Generation mobile communication, it is considered that Mobile Front Haul (MFH) network is integrated to Layer 2 n... [more] | NS2018-95 IN2018-29 CS2018-48 pp.41-46 |
| CS | 2018-07-12 10:38 |
Okinawa | Eef Information Plaza (Kumejima Is.) | Proposal on partition type priority control for scale free traffic Tsukasa Kodama, Tetsuya Yokotani, Hiroaki Mukai (KIT) CS2018-17 |
This paper proposes Cut-through mechanism with new preemptive priority control, referred to as "Copy mechanism". Scale f... [more] | CS2018-17 pp.31-36 |
| CQ, CS (Joint) |
2018-04-20 15:05 |
Hiroshima | Hiroshima Institute of Technology | Prototype of low-latency layer 2 switch for mobile front haul Kazuto Nishimura, Masaki Hirota (Fujitsu), Yoshikazu Sabetto (Fujitsu QNET) CS2018-8 |
In 5th Generation mobile communication, it is considered that Mobile Front Haul (MFH) network is integrated to Layer 2 n... [more] | CS2018-8 pp.41-46 |
| 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 |
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