Committee |
Date Time |
Place |
Paper Title / Authors |
Abstract |
Paper # |
CQ |
2017-08-28 10:40 |
Tokyo |
Tokyo University of Science |
Time series analysis of failure rates of equipments for telecommunication networks.
-- State space model using Kalman filter -- Hiroyuki Funakoshi (NTT) CQ2017-50 |
The author has been predicted the failure rate of telecommunication network equipments by the state space model with Bay... [more] |
CQ2017-50 pp.1-6 |
CQ |
2017-08-28 11:05 |
Tokyo |
Tokyo University of Science |
Efficient Wireless Relay Placement for Fast Network Disaster Recovery Lei Zhong, Yusheng Ji (NII), Kiyoshi Takano (UTokyo), Shigeki Yamada (NII), Guoliang Xue (ASU) CQ2017-51 |
Network disaster recovery is one of the most important issues for Mobile Network Operators (MNOs) and first responders a... [more] |
CQ2017-51 pp.7-12 |
CQ |
2017-08-28 11:30 |
Tokyo |
Tokyo University of Science |
Performance Evaluation of Vehicular DTN Protocols for Anycast Vehicle-to-cloud Communications Zhaoyang Du, Celimuge Wu, Tsutomu Yoshinaga (UEC), Yusheng Ji (NII) CQ2017-52 |
Recently, the Delay Tolerant Networks (DTN) have been attracting interest due to having the ability to deliver messages ... [more] |
CQ2017-52 pp.13-18 |
CQ |
2017-08-28 11:55 |
Tokyo |
Tokyo University of Science |
Enabling high performance handover in IEEE 802.11p and LTE hybrid vehicular networks with SDN and MEC Ran Duo, Celimuge Wu, Tsutomu Yoshinaga (UEC), Yusheng Ji (NII) CQ2017-53 |
In Vehicular Ad-hoc Networks (VANETs), vehicles move with fast speed, causing frequent changes in network topology. Ther... [more] |
CQ2017-53 pp.19-23 |
CQ |
2017-08-28 13:20 |
Tokyo |
Tokyo University of Science |
[Tutorial Invited Lecture]
Massive Connect IoT: Multiple Access Method Using High Accuracy Time and Position Information Suguru Kameda (Tohoku Univ.) CQ2017-54 |
The next generation information network is expected to further develop as a social infrastructure in all fields such as ... [more] |
CQ2017-54 p.25 |
CQ |
2017-08-28 14:10 |
Tokyo |
Tokyo University of Science |
[Special Invited Talk]
Study of 3-dimensional drones for mesh network control Takefumi Hiraguri (NIT), Kentaro Nishimori (Niigata Univ.), Akihiro Nakao (Univ. of Tokyo), Megumi Kaneko (NII), Tomotaka Kimura (Tokyo University of Science), Takahiro Matsuda (Osaka univ.) CQ2017-55 |
[more] |
CQ2017-55 pp.27-30 |
CQ |
2017-08-28 15:10 |
Tokyo |
Tokyo University of Science |
[Special Invited Talk]
Study on Network Design and Control Based on Quality of Experience Takahiro Matsuda (Osaka Univ.) CQ2017-56 |
QoE (Quality of Experience) is a metric that depends on users’ experience or satisfaction with communication services an... [more] |
CQ2017-56 pp.31-36 |
CQ |
2017-08-28 16:10 |
Tokyo |
Tokyo University of Science |
[Special Invited Talk]
Elements of Stochastic Geometry Analysis of Cellular Networks Koji Yamamoto (Kyoto Univ.) CQ2017-57 |
Stochastic geometry, which is used to analyze the interference and signal-to-interference-plus-noise power ratio, is int... [more] |
CQ2017-57 pp.37-42 |
CQ |
2017-08-29 09:30 |
Tokyo |
Tokyo University of Science |
Node Correlation Influence on Information Spreading Processes in Undirected Graphs Masato Minamikawa, Shigeo Shioda (Chiba Univ.) CQ2017-58 |
[more] |
CQ2017-58 pp.43-48 |
CQ |
2017-08-29 09:55 |
Tokyo |
Tokyo University of Science |
A low-power reception method of emergency wake-up signal based on TMCC parity agreement for ISDB-T mobile television receivers Satoshi Takahashi (Hiroshima City Univ.) CQ2017-59 |
In ISDB-T terrestrial digital television systems, it is possible to wake up television receivers with the special signal... [more] |
CQ2017-59 pp.49-52 |
CQ |
2017-08-29 10:20 |
Tokyo |
Tokyo University of Science |
Centralized base station sleep control via submodular optimization for green mmWave networks Akihiro Egami, Takayuki Nishio, Masahiro Morikura, Koji Yamamoto (Kyoto Univ.) CQ2017-60 |
This paper proposes a dynamic millimeter-wave (mmWave) base station (BS) sleep control scheme for green mmWave networks.... [more] |
CQ2017-60 pp.53-58 |
CQ |
2017-08-29 10:55 |
Tokyo |
Tokyo University of Science |
Experimental evaluation towards simple DoA estimation using 2 by 2 MIMO sensor with time correlation of receiving eigenvector Kento Sato, Kentaro Nishimori (Niigata Univ.), Naoki Honma (Iwate Univ.), Hideo Makino (Niigata Univ.) CQ2017-61 |
[more] |
CQ2017-61 pp.59-64 |
CQ |
2017-08-29 11:20 |
Tokyo |
Tokyo University of Science |
An Interference Graph-based Dynamic Small Cell Clustering Scheme for Interference Coordination in Massive MIMO Heterogeneous Network Wanming Hao, Osamu Muta (Kyushu Univ.), Haris Gacanin (Nokia Belgium), Hiroshi Furukawa (Kyushu Univ.) CQ2017-62 |
[more] |
CQ2017-62 pp.65-68 |
CQ |
2017-08-29 11:45 |
Tokyo |
Tokyo University of Science |
Graph-based Signal Restoration for Energy Harvesting Wireless Sensor Networks Megumi Kaneko, Gene Cheung (NII), Weng-Tai Su, Chia-Wen Lin (NTHU) CQ2017-63 |
[more] |
CQ2017-63 pp.69-74 |
CQ |
2017-08-29 12:10 |
Tokyo |
Tokyo University of Science |
Transmission Power Control Using Human Motion Classification in Daily Human Motion Scenarios for WBAN Sukhumarn Archasantisuk, Takahiro Aoyagi (Tokyo Tech) CQ2017-64 |
In this paper, transmission power control using human motion classification for wireless body area network (WBAN) is dev... [more] |
CQ2017-64 pp.75-80 |
CQ |
2017-08-29 13:35 |
Tokyo |
Tokyo University of Science |
A study of user separation technique without the propagation channel information Kazuma Ando, Kentaro Nishimori, Yoshiki Shirasawa (Niigata Univ.) CQ2017-65 |
[more] |
CQ2017-65 pp.81-86 |
CQ |
2017-08-29 14:00 |
Tokyo |
Tokyo University of Science |
Frame Aggregation Size Selection for Improving IEEE 802.11ac MU-MIMO Downlink Throughput Tomokazu Moriyama, Ryo Yamamoto, Satoshi Ohzahata, Toshihiko Kato (The Univ. of Electro-Commun.) CQ2017-66 |
In order to improve throughput over WLAN (Wireless Local Area Network), IEEE 802.11ac standard, which comes to be used r... [more] |
CQ2017-66 pp.87-92 |
CQ |
2017-08-29 14:35 |
Tokyo |
Tokyo University of Science |
A study of improving user experience in the future IoT service Naoki Higo, Toshimitsu Tsubaki, Yoshiko Sueda (NTT) CQ2017-67 |
[more] |
CQ2017-67 pp.93-98 |
CQ |
2017-08-29 15:00 |
Tokyo |
Tokyo University of Science |
Trial of bus location system using LoRa
-- Information terminal bus stop of Community bus “Notty” -- Mikiko Sode Tanaka (Kanazawa technical college), Yousuke miyanishi, Tomoki murakami, Ryoutarou hirazakura, Takao itou (KIT) CQ2017-68 |
It is reported that the information terminal bus stop for citizen support is effective for the purpose of improving citi... [more] |
CQ2017-68 pp.99-104 |
CQ |
2017-08-29 15:25 |
Tokyo |
Tokyo University of Science |
Improvement of Confidentiality over Multipath TCP Using Data Scrambling and Path Dispersion Shihan Cheng, Ryo Yamamoto, Satoshi Ohzahata, Toshihiko Kato (The Univ. of Electro-Commun.), Nobuo Suzuki (ATR) CQ2017-69 |
[more] |
CQ2017-69 pp.105-111 |