Committee |
Date Time |
Place |
Paper Title / Authors |
Abstract |
Paper # |
IA, IN (Joint) |
2016-12-15 14:30 |
Hiroshima |
Hiroshima city university |
Proposal and Evaluation of Suzaku, a Churn Resilient, Lookup-Efficient and Key-Order Preserving Structured Overlay Network Kota Abe (Osaka City Univ.), Yuuichi Teranishi (NICT) IA2016-65 |
A ``key-order preserving structured overlay network,'' which enables range queries, has various applications and thus be... [more] |
IA2016-65 pp.11-16 |
IA, IN (Joint) |
2016-12-15 16:45 |
Hiroshima |
Hiroshima city university |
Method of storing and providing traffic for representation of importance in Catalogue system Takeshi Sano, Fumio Teraoka, Kunitake Kaneko (Keio University) IN2016-75 |
A Catalogue system in which relations between contents are described by a graph structure has been developed in order to... [more] |
IN2016-75 pp.51-56 |
IE, CS, IPSJ-AVM, ITE-BCT [detail] |
2016-12-09 10:00 |
Ishikawa |
|
Performance Evaluation on Carousel-type ONU Control Method for Video Distribution System in PON Employing Dedicated Wavelength Broadcasting Hidekazu Shimizu, Tomohiro Taniguchi, Hisao Yoshinaga, Tomoki Sugawa (NTT) CS2016-56 IE2016-92 |
Recently, the spread of distribution services of ultra high-definition (UHD) video, such as 4K/8K, has been expected, an... [more] |
CS2016-56 IE2016-92 pp.65-70 |
CS |
2016-11-10 10:20 |
Hokkaido |
KKR Hakodate |
A Proposal and System Design of Carousel-type ONU Control Method for Video Distribution in PON employing Dedicated Wavelength Broadcasting Tomohiro Taniguchi, Hidekazu Shimizu, Hisao Yoshinaga, Tomoki Sugawa (NTT) CS2016-42 |
Recently, the spread of distribution services of ultra high-definition (UHD) video, such as 4K/8K, is expected, and a di... [more] |
CS2016-42 pp.13-17 |
IN, NV (Joint) |
2016-07-15 11:25 |
Hokkaido |
Matsumaecho Sougo Center |
Deployment of overlay network system by SDN technology Yoshiharu Ishiyama (NTT Communications) IN2016-27 |
We, NTT Communications, developed a system which realize the overlay network on the wide area network using SDN technolo... [more] |
IN2016-27 pp.25-30 |
ASN |
2016-05-12 17:20 |
Tokyo |
|
Data Storage and Collection Method using Peer-to-Peer Technology in Structured Sensor Networks Tatsunari Abe, Takuya Asaka (Tokyo Metropolitan Uni) ASN2016-11 |
Although the sensor network is huge amount of data is measured, but is not required for all measured data. Therefore, in... [more] |
ASN2016-11 pp.53-58 |
NS |
2016-04-22 10:10 |
Wakayama |
wakayama university |
Membership Vector Assignment considering Spacial Locality of Nodes in Skip Graph Takahiro Toda, Yosuke Tanigawa, Hideki Tode (Osaka Prefecture Univ.) NS2016-6 |
These days, more and more devices are connected to the Internet and types of those devices become various. Thus, P2P net... [more] |
NS2016-6 pp.25-30 |
IA, SITE, IPSJ-IOT [detail] |
2016-03-03 14:50 |
Saga |
Nijino-Matsubara Hotel (Karatsu-shi, Saga-prefecture) |
A Structured Overlay to Construct Routing Tables by Stochastic Entry Deleting Method Shuhei Mitsuyama, Masashi Hojo, Kazuyuki Shudo (Tokyo Tech) SITE2015-62 IA2015-94 |
Symphony is one of structured overlays, in which all nodes autonomously organize an application-level
network, delivery... [more] |
SITE2015-62 IA2015-94 pp.91-95 |
IA, SITE, IPSJ-IOT [detail] |
2016-03-03 15:15 |
Saga |
Nijino-Matsubara Hotel (Karatsu-shi, Saga-prefecture) |
FRT-Skip Graph: A Skip Graph-Style Strucutred Overlay based on Flexible Routing Tables Masashi Hojo (Tokyo Tech), Ryohei Banno (NTT), Kazuyuki Shudo (Tokyo Tech) SITE2015-63 IA2015-95 |
Structured overlays can perform to construct a network autonomously by a number of nodes and to search other nodes and d... [more] |
SITE2015-63 IA2015-95 pp.97-102 |
IA, SITE, IPSJ-IOT [detail] |
2016-03-03 15:40 |
Saga |
Nijino-Matsubara Hotel (Karatsu-shi, Saga-prefecture) |
Self-Refining Skip Graph: A Structured Overlay Approaching to Ideal Skip Graph Takafumi Kawaguchi, Ryohei Banno, Masashi Hojo, Kazuyuki Shudo (Tokyo Tech) SITE2015-64 IA2015-96 |
Structured overlays construct mathematical and logical structural networks. In Skip Graph, one of structured overlays, e... [more] |
SITE2015-64 IA2015-96 pp.103-108 |
NS, IN (Joint) |
2016-03-03 09:50 |
Miyazaki |
Phoenix Seagaia Resort |
Deployment of overlay network system by SDN technology Yoshiharu Ishiyama, Hiroaki Hata, Masashi Kaneko (NTT Communications) NS2015-174 |
We, NTT Communications, developed a system which realize the overlay network on the wide area network using SDN technolo... [more] |
NS2015-174 pp.37-42 |
HCGSYMPO (2nd) |
2015-12-16 - 2015-12-18 |
Toyama |
Toyama International Conference Center |
View Formulation: A Method for Information Overlay and Selective Visualization Using Phicon Saki Sakaguchi, Mitsunori Matsushita (Kansai Univ.) |
This paper presents a concept of ``view formulation'' which represents a method for information overlay and selective vi... [more] |
|
OFT |
2015-10-23 11:25 |
Mie |
Mie Univ. |
Data Overlay in Optical Networks through Level-Scalable Flexible Modulation and its Application in Multicast Overlay for WDM-PON Guo-Wei Lu (Tokai Univ.), Takahide Sakamoto, Tetsuya Kawanishi (NICT) OFT2015-38 |
We propose an optical data overlay scheme through level-scalable flexible modulation. Using this proposed scheme, Optica... [more] |
OFT2015-38 pp.57-58 |
MI |
2015-07-15 14:30 |
Hokkaido |
Sun Refle Hakodate |
Trial of Detection Surgical Instrument for Neurosurgical Microscope Image-Overlay System with Intraoperative Real-time Camera Calibration Shota Yamamoto, Ikuma Sato, Yuichi Fujino (FUN), Takashi Suzuki (JAAME), Yoshihiro Muragaki, Ken Masamune (TWMU) MI2015-44 |
In neurosurgery, surgeons need to compare the navigation monitor with the operative field to check the position informat... [more] |
MI2015-44 pp.69-72 |
CQ |
2015-07-06 13:00 |
Nara |
Nara Institute of Science and Technology |
[Poster Presentation]
Path Enumeration Algorithm Using Zero-Suppressed Binary Decision Diagram for Path Selection in Overlay Networks Koki Sonoda, Jun Kawahara, Masahiro Sasabe, Shoji Kasahara (NAIST) CQ2015-29 |
For end-to-end communication in overlay networks, we need to quickly select an appropriate path from the viewpoints of t... [more] |
CQ2015-29 pp.51-54 |
NS, IN (Joint) |
2015-03-02 11:20 |
Okinawa |
Okinawa Convention Center |
Overlay Multicast with Peak Traffic Constraints for Inter-Data Center Communication Motoki Kaneko (Osaka Univ.), Masahiro Sasabe (NAIST), Tetsuya Takine (Osaka Univ.) NS2014-205 |
Recently, service providers have been using data centers (DCs) to provide cloud services. When they use multiple DCs, wh... [more] |
NS2014-205 pp.161-166 |
NS, IN (Joint) |
2015-03-03 16:20 |
Okinawa |
Okinawa Convention Center |
Experimental Evaluation of the Application Level Link Aggregation System Akira Hidaka, Kazuhisa Fujimura (Kogakuin Univ.), Koichi Asatani (Nankai Univ), Osamu Mizuno (Kogakuin Univ.) NS2014-273 |
Link aggregation technology bundles multiple links on a single virtual links, enabling large-capacity data communication... [more] |
NS2014-273 pp.565-570 |
CQ |
2015-01-23 11:20 |
Tokyo |
|
A TCP Tunneling Method for Suppressing Duplicate TCP Retransmission by VM and vSwitch Kazuki Yamazaki, Ryota Kawashima, Shoichi Saito, Hiroshi Matsuo (NITech) CQ2014-106 |
Multi-tenancy datacenters provide independent virtual networks for each tenant. An edge-overlay model constructs the vir... [more] |
CQ2014-106 pp.113-118 |
NS |
2014-10-16 11:10 |
Shimane |
Matsue Terrsa |
[Encouragement Talk]
A New Application Level Link Aggregation and Evaluation for IEEE802.11n and LTE Akira Hidaka, Kazuhisa Fujimura (Kogakuin Univ.), Koichi Asatani (Nankai Univ), Osamu Mizuno (Kogakuin Univ.) NS2014-106 |
The link aggregation is a technology that bundles multiple links on a single virtual links, enabling large-capacity data... [more] |
NS2014-106 pp.25-30 |
CS, NS, IN (Joint) |
2014-09-11 13:25 |
Miyagi |
Tohoku Univ. Research Institute of Electrical Communication 2gokan |
[Invited Talk]
Issues of Cloud service and Implementation of OpenContrail Daisuke Nakajima (Juniper Networks) NS2014-85 IN2014-55 CS2014-43 |
There is a challenge to satisfy availability, scalability and flexibility for virtualized network for cloud services. In... [more] |
NS2014-85 IN2014-55 CS2014-43 pp.35-40(NS), pp.37-42(IN), pp.13-18(CS) |