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All Technical Committee Conferences (Searched in: All Years)
| Committee | Date Time | Place | Paper Title / Authors | Abstract | Paper # | |
| NS, ICM, CQ, NV (Joint) |
2022-11-24 13:00 |
Fukuoka | Humanities and Social Sciences Center, Fukuoka Univ. + Online (Primary: On-site, Secondary: Online) |
Proposed control of infection control communication suitable for inter-drones relay in the pollination system Tatsuya Kurosawa (NIT), Tomotaka Kimura (Doshisha Univ.), Nobuhiko Itoh, Hiroyuki Shimizu, Takefumi Hiraguri (NIT)  CQ2022-50 |
The development of a system that pollinates tomato flowers using small drones instead of bee swarms is underway. As one ... [more] | CQ2022-50 pp.19-22 |
| IA, CQ, MIKA (Joint) |
2022-09-16 10:00 |
Hokkaido | Hokkaido Citizens Actives Center (Primary: On-site, Secondary: Online) |
High efficiency of epidemic communications for drones swarm flight Tatsuya Kurosawa (NIT), Tomotaka Kimura (Doshisha Univ.), Hiroyuki Shimizu, Takefumi Hiraguri (NIT) CQ2022-38 |
In this study, we are developing the pollination system using small drones. This proposed system is use epidemic communi... [more] | CQ2022-38 pp.80-84 |
| CQ, IMQ, MVE, IE (Joint) [detail] |
2022-03-11 10:20 |
Online | Online (Zoom) | An Information Distribution Control Method based on Information Floating Considered to Information Freshness Yuko Ikeda, Hiroyasu Obata (Hiroshima City Univ.), Jiquan Xie, Tutomu Murase (Nagoya Univ.), Kenji Ishida (Hiroshima City Univ.) CQ2021-128 |
A few researchers have proposed an information floating distributing the information without functioning communication i... [more] | CQ2021-128 pp.154-159 |
| CQ | 2021-08-02 11:10 |
Online | Online | Development of epidemic communication system for drones implementation Kyosuke Yanagida, Naoki Yamada, Tatsuya Kurosawa (NIT), Tomotaka Kimura (Doshisha Univ.), Nobuhiko Itoh, Takuya Shindo, Hiroyuki Shimizu, Takefumi Hiraguri (NIT) CQ2021-23 |
We are conducting study to collect information by flying small drones. To collect information, epidemic communications m... [more] | CQ2021-23 pp.10-13 |
| RCS, IN, NV (Joint) |
2021-05-27 13:00 |
Online | Online | Characteristic Evaluation of Information Staying Time Limited Information Floating in Terms of Time to Information Staying Time and Error Diffusion Rate Yuko Ikeda, Hiroyasu Obata, Kenji Ishida (Hiroshima City Univ.) IN2021-1 |
As a communication without infrastructures, an epidemic communication has been proposed. Some researchers have proposed ... [more] | IN2021-1 pp.1-6 |
| IN, NS (Joint) |
2019-03-05 09:20 |
Okinawa | Okinawa Convention Center | Transmission controlling Method based on Remaining Battery for Delay Tolerant Networking Yoshitaka Koitabashi, Yuki Inoue, Syota Uchiyama, Osamu Mizuno (Kogakuin Univ) IN2018-106 |
Delay Tolerant Networking(DTN) has proposed as a communication method using only mobile terminals.Since existing routing... [more] | IN2018-106 pp.133-138 |
| IA | 2018-09-03 16:00 |
Hokkaido | Hokkaido Univ. Conference Hall | An Improvement of Replica Delivery Method by Short Distance Communications among Mobile Terminals Yusuke Ishibayashi, Shinji Sugawara (CIT) IA2018-20 |
This report proposes an efficient data transmission method by direct and short-range communications with mobile terminal... [more] | IA2018-20 pp.29-34 |
| ICTSSL | 2018-07-18 10:50 |
Tokyo | NTT Musashino R&D Center | [Memorial Lecture]
A study on information floating and traffic control Kazuyuki Miyakita, Keisuke Nakano (Niigata Univ.) ICTSSL2018-24 |
In epidemic communication, information is spread by direct wireless communication between mobile nodes and movement of m... [more] | ICTSSL2018-24 pp.45-50 |
| ICTSSL | 2017-07-14 11:15 |
Kagawa | Kagawa Univ. | Development and Experimental Evaluation of an Information Floating System Naoyuki Karasawa, Kento Nakayachi, Motoshi Gamo, Kazuyuki Miyakita, Keisuke Nakano (Niigata Univ.), Hiroshi Tamura (Chuo Univ.) ICTSSL2017-27 |
Information floating permits mobile nodes to transmit information only in the target area. By doing this, information fl... [more] | ICTSSL2017-27 pp.55-60 |
| ICTSSL | 2017-05-30 13:00 |
Miyagi | NEXCO EAST TOHOKU | On Networked Information Floating Keisuke Nakano, Kazuyuki Miyakita (Niigata Univ.) ICTSSL2017-11 |
Epidemic communication spatially spreads information by direct wireless communication between mobile nodes and mobility ... [more] | ICTSSL2017-11 pp.51-56 |
| ICTSSL | 2017-03-02 13:55 |
Niigata | Niigata University | A consideration on traffic control by information floating Kazuyuki Miyakita, Keisuke Nakano (Niigata Univ.) ICTSSL2016-70 |
In information floating (IF), information exchange between mobile nodes is restricted to a designated area (transmittabl... [more] | ICTSSL2016-70 pp.5-10 |
| CAS, NLP | 2016-10-28 11:00 |
Tokyo | [Invited Talk]
Basic Study on Mobile Network Problems
-- Performance Evaluation of Information Floating -- Kazuyuki Miyakita, Keisuke Nakano (Niigata Univ.) CAS2016-54 NLP2016-80 |
In epidemic wireless communication, information is spread by direct wireless communication between mobile nodes and move... [more] | CAS2016-54 NLP2016-80 pp.85-90 |
|
| IN, ICTSSL, NWS (Joint) |
2016-10-20 10:20 |
Osaka | Osaka Uinv. | A consideration on basic properties of information floating Kazuyuki Miyakita, Keisuke Nakano (Niigata Univ.) ICTSSL2016-22 |
Epidemic wireless communication delivers information to destination by spreading information by direct wireless communic... [more] | ICTSSL2016-22 pp.13-18 |
| IE, IMQ, MVE, CQ (Joint) [detail] |
2016-03-07 09:45 |
Okinawa | On Base Stations Placement for Cut-Through Links in Epidemic Broadcasting Yuki Kuriyama, Hiroyuki Ohsaki (Kwansei Gakuin Univ.) CQ2015-111 |
One of communication mechanisms in DTN is an epidemic broadcasting that performs information transmission from a cert... [more] |
CQ2015-111 pp.19-24 |
|
| NS, IN (Joint) |
2016-03-04 09:30 |
Miyazaki | Phoenix Seagaia Resort | Estimating a proper communication distance in epidemic routing using people flow data Akihiro Fujihara (Fukui Univ. Tech.) IN2015-124 |
In recent years, Proximity-based Services have been attracted attention as information-communication networking withou... [more] |
IN2015-124 pp.95-100 |
| CAS | 2016-01-29 11:30 |
Tokyo | Kikai-Shinko-Kaikan Bldg. | Behavior changes of mobile nodes and performance evaluation in information floating Keisuke Nakano, Kazuyuki Miyakita (Niigata Univ.) CAS2015-74 |
Epidemic wireless communication delivers information to destination by spreading information by direct wireless communic... [more] | CAS2015-74 pp.73-78 |
| CQ, IMQ, MVE, IE (Joint) [detail] |
2015-03-03 14:50 |
Tokyo | Seikei Univ. | Analysis of Performance Improvement with Cut-Through Links in Epidemic Broadcasting Kensuke Matsutani (Kwansei Gakuin Univ), Kazumine Ogura, Yasuhiro Yamasaki (NEC), Hiroyuki Ohsaki (Kwansei Gakuin Univ) CQ2014-120 |
One of communication mechanisms in DTN is an epidemic broadcasting that performs information transmission from a certain... [more] | CQ2014-120 pp.49-54 |
| CAS, MSS, IPSJ-AL [detail] | 2014-11-20 15:40 |
Okinawa | Nobumoto Ohama Memorial Hall (Ishigaki island) | A Consideration on Information Floating Considering Change of Mobility of Nodes in Delay Tolerant Networks Yuta Mifune, Kazuyuki Miyakita, Keisuke Nakano (Niigata Univ.) CAS2014-95 MSS2014-59 |
A network that enables us to exchange information by tolerating a long delay time is called a Delay Tolerant Network (DT... [more] | CAS2014-95 MSS2014-59 pp.69-74 |
| CAS | 2014-02-07 14:10 |
Kanagawa | Nippon Maru Training center | Analysis of Information Floating Considering Intersections in DTNs Yuta Mifune, Kazuyuki Miyakita, Keisuke Nakano (Niigata Univ.) CAS2013-89 |
A network that enables us to exchange information by tolerating a long delay time is called a Delay Tolerant Network (DT... [more] | CAS2013-89 pp.79-84 |
| SIP, CAS, MSS, VLD | 2013-07-12 14:30 |
Kumamoto | Kumamoto Univ. | Analysis of Control of Information Floating in Delay Tolerant Networks Shunsuke Hayatsu, Keisuke Nakano, Kazuyuki Miyakita (Niigata Univ.) CAS2013-30 VLD2013-40 SIP2013-60 MSS2013-30 |
Delay Tolerant Networks (DTNs) are networks that enable us to exchange information by tolerating a long delay time. In t... [more] | CAS2013-30 VLD2013-40 SIP2013-60 MSS2013-30 pp.165-170 |
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