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2020 – today
- 2024
[c47]Tatsuya Aida, So Hasegawa, Maki Arai, Ryosuke Isogai, Yozo Shoji, Mikio Hasegawa:
Optimization of End-to-End Throughput on Piggyback Network with drone-to-drone millimeter-wave communications. ICOIN 2024: 751-755- 2023
- [j21]Taichi Tsuru, Mikio Hasegawa
, Yozo Shoji, Kien Nguyen, Hiroo Sekiya:
An implementation and evaluation of MPTCP-based IoT router. Multim. Tools Appl. 82(18): 28389-28404 (2023) - [c46]Ryosuke Isogai, Satoshi Yasuda, Nobuyasu Shiga, Yozo Shoji:
Extremely High-accuracy Automatic Following between Mobilities Using Wireless Two-way Interferometry. CCNC 2023: 829-833 - [c45]Yoshito Watanabe, Yozo Shoji:
An Application of DAG-based Distributed Ledger to Manage Content Whereabouts for Beyond 5G Networks. CCNC 2023: 903-904 - 2022
- [j20]Daisuke Yamamoto, Honami Furukawa, Aohan Li, Yusuke Ito, Koya Sato, Koji Oshima, So Hasegawa, Yoshito Watanabe, Yozo Shoji, Song-Ju Kim, Mikio Hasegawa:
Performance Evaluation of Reinforcement Learning Based Distributed Channel Selection Algorithm in Massive IoT Networks. IEEE Access 10: 67870-67882 (2022) - 2021
- [c44]Honami Furukawa, Aohan Li, Yozo Shoji, Yoshito Watanabe, Song-Ju Kim, Koya Sato, Yiannis Andreopoulos, Mikio Hasegawa:
A Channel Selection Algorithm Using Reinforcement Learning for Mobile Devices in Massive IoT System. CCNC 2021: 1-2 - [c43]So Hasegawa, Yoshito Watanabe, Mikio Hasegawa, Yozo Shoji:
Piggy-back Network to Enable Beyond 5G Society Supported by Autonomous Mobilities: Application of MAB Algorithm for Data Synchronization Between Distributed Collaborative Robots. WPMC 2021: 1-5 - [c42]Kazuki Kuwata, Yozo Shoji, Mikio Hasegawa, Yusuke Ito, Yoshito Watanabe, Aohan Li, So Hasegawa:
Piggy-back Network to enable Beyond 5G Society supported by Autonomous Mobilities: : Evaluation of End-to-End Throughput on Optimized Piggy-back Networks. WPMC 2021: 1-5 - [c41]Yozo Shoji, Kiyohide Nakauchi, Yoshito Watanabe, So Hasegawa, Mikio Hasegawa:
Piggy-back Network to enable Beyond5G Society supported by Autonomous Mobilities: Concept, Key technologies & Prototyping on a Service Robot Platform. WPMC 2021: 1-6 - [c40]Yoshito Watanabe, So Hasegawa, Mikio Hasegawa, Yozo Shoji:
Piggy-back Network to Enable Beyond 5G Society Supported by Autonomous Mobilities: Transaction Record Management with DAG-based Distributed Ledger. WPMC 2021: 1-6 - 2020
- [j19]Yoshito Watanabe, Yozo Shoji:
An RSSI-Based Low-Power Vehicle-Approach Detection Technique to Alert a Pedestrian. Sensors 20(1): 118 (2020) - [j18]Wei Liu, Yozo Shoji:
DeepVM: RNN-Based Vehicle Mobility Prediction to Support Intelligent Vehicle Applications. IEEE Trans. Ind. Informatics 16(6): 3997-4006 (2020) - [j17]Yoshito Watanabe, Wei Liu, Yozo Shoji:
Machine-Learning-Based Hazardous Spot Detection Framework by Mobile Sensing and Opportunistic Networks. IEEE Trans. Veh. Technol. 69(11): 13646-13657 (2020) - [j16]Wei Liu, Yoshito Watanabe, Yozo Shoji:
Vehicle-Assisted Data Delivery in Smart City: A Deep Learning Approach. IEEE Trans. Veh. Technol. 69(11): 13849-13860 (2020) - [c39]So Hasegawa, Song-Ju Kim, Yozo Shoji, Mikio Hasegawa:
Performance Evaluation of Machine Learning Based Channel Selection Algorithm Implemented on IoT Sensor Devices in Coexisting IoT Networks. CCNC 2020: 1-5 - [c38]So Hasegawa, Ryoma Kitagawa, Takumi Ito, Takashi Nakajima, Song-Ju Kim, Yozo Shoji, Mikio Hasegawa:
Performance Evaluation of Machine Learning Based Channel Selection Algorithm Implemented on IoT Sensor Devices and Its Application to Wireless Sensor Network for Building Monitoring System. ICAIIC 2020: 161-166 - [c37]Yoshito Watanabe, Wei Liu, Alhabib Abbas, Yiannis Andreopoulos, Mikio Hasegawa, Yozo Shoji:
Verifiable Event Record Management for a Store-Carry-Forward-Based Data Delivery Platform by Blockchain. PIMRC 2020: 1-6 - [c36]Yozo Shoji, Wei Liu, Yoshito Watanabe:
Community-based "Piggy-back Network" utilizing Local Fixed & Mobile Resources supported by Heterogeneous Wireless & AI-based Mobility Prediction. VTC Spring 2020: 1-5
2010 – 2019
- 2019
- [j15]Wei Liu, Yozo Shoji:
Edge-Assisted Vehicle Mobility Prediction to Support V2X Communications. IEEE Trans. Veh. Technol. 68(10): 10227-10238 (2019) - [c35]Yoshito Watanabe, Yozo Shoji:
A Vehicle-Approach Alert System Based on the Neighbor Discovery Protocol for Pedestrian Safety. GIoTS 2019: 1-6 - [c34]Yozo Shoji, Kiyohide Nakauchi, Wei Liu, Yoshito Watanabe, Kazuhiro Maruyama, Kouji Okamoto:
A Community-Based IoT Service Platform to Locally Disseminate Socially-Valuable Data : Best effort local data sharing network with no conscious effort? WF-IoT 2019: 724-728 - [c33]Wei Liu, Yoshito Watanabe, Yozo Shoji:
Mobility and Terrain-aware Data Delivery in Urban Vehicular Networks. WiMob 2019: 1-6 - [c32]Yoshito Watanabe, Wei Liu, Yozo Shoji:
A Demonstrative Study on the Potential of Store-Carry-Forward-Based Contents Delivery by a Beverage Supplier's Logistics Network. WiMob 2019: 65-70 - 2018
- [j14]Wei Liu, Kiyohide Nakauchi, Yozo Shoji:
A Neighbor-Based Probabilistic Broadcast Protocol for Data Dissemination in Mobile IoT Networks. IEEE Access 6: 12260-12268 (2018) - [c31]Yoshito Watanabe, Yozo Shoji:
A Community-Based Cooperative Anomaly Detection System by the Synergy of Mobile Sensing and Delay Tolerant Networks. ICT 2018: 202-206 - [c30]Wei Liu, Yozo Shoji:
Applying Deep Recurrent Neural Network to Predict Vehicle Mobility. VNC 2018: 1-6 - 2017
- [c29]Wei Liu, Kiyohide Nakauchi, Yozo Shoji:
A location-aided flooding mechanism in community-based IoT networks. CCWC 2017: 1-6 - [c28]Yoshito Watanabe, Yozo Shoji:
A Study on Packet Repetition Format for Advertising-Based IoT Data Transmission System. GLOBECOM Workshops 2017: 1-7 - [c27]Yoshito Watanabe, Yozo Shoji:
RSSI-Based Attention Target Approach Detection for a Vehicle Reminder System with Beaconing Devices. VTC Fall 2017: 1-5 - [c26]Wei Liu, Yozo Shoji, Ryoichi Shinkuma:
Human mobility prediction based on a hierarchical interest model. WPMC 2017: 422-427 - 2016
- [c25]Yozo Shoji, Kiyohide Nakauchi, Wei Liu:
Community-based wireless IoT infrastructure using ubiquitous vending machines. CIoT 2016: 1-5 - [c24]Kiyohide Nakauchi, Yozo Shoji:
vBS on the move: Migrating a virtual network for nomadic mobility in WiFi networks. INFOCOM Workshops 2016: 277-282 - [c23]Kiyohide Nakauchi, Francesco Bronzino, Yozo Shoji, Ivan Seskar, Dipankar Raychaudhuri:
vMCN: virtual mobile cloud network for realizing scalable, real-time cyber physical systems. DCC@PODC 2016: 2:1-2:6 - 2015
- [j13]Suyong Eum, Yozo Shoji, Masayuki Murata, Nozomu Nishinaga:
Design and implementation of ICN-enabled IEEE 802.11 access points as nano data centers. J. Netw. Comput. Appl. 50: 159-167 (2015) - [j12]Kiyohide Nakauchi, Yozo Shoji:
WiFi Network Virtualization to Control the Connectivity of a Target Service. IEEE Trans. Netw. Serv. Manag. 12(2): 308-319 (2015) - [c22]Wei Liu, Yozo Shoji, Ryoichi Shinkuma:
An Indoor-Movement Simulator for Ambient Assisted Living Systems. GLOBECOM Workshops 2015: 1-6 - [c21]Wei Liu, Yozo Shoji, Ryoichi Shinkuma:
Logical correlation-based sleep scheduling for energy-efficient WSNs in smart homes. PIMRC 2015: 2026-2031 - 2014
- [j11]Manabu Ito, Kiyohide Nakauchi, Yozo Shoji, Nozomu Nishinaga, Yoshinori Kitatsuji:
Service-Specific Network Virtualization to Reduce Signaling Processing Loads in EPC/IMS. IEEE Access 2: 1076-1084 (2014) - [j10]Takeshi Usui, Yoshinori Kitatsuji, Hidetoshi Yokota, Kiyohide Nakauchi, Yozo Shoji, Nozomu Nishinaga:
An IMS Restoration System with Selective Storing of Session States. IEICE Trans. Commun. 97-B(9): 1853-1864 (2014) - [c20]Yozo Shoji, Lei Zhong, Manabu Ito, Yoshinori Kitatsuji, Kiyohide Nakauchi, Hidetoshi Yokota:
Bring your own network - A network management technique to mitigate the impact of signaling traffic on network resource utilization. CCNC 2014: 182-187 - [c19]Kiyohide Nakauchi, Zhong Lei, Yozo Shoji, Yoshinori Kitatsuji, Manabu Ito, Hidetoshi Yokota:
Bring your own network - Design and implementation of a virtualized WiFi network. CCNC 2014: 483-488 - [c18]Yozo Shoji, Takefumi Hiraguri:
Virtualization-capable multichannel WiFi system with a coordinated downlink transmission technique. CSNDSP 2014: 502-507 - [c17]Suyong Eum, Yozo Shoji, Masayuki Murata, Nozomu Nishinaga:
Design of ICN-enabled IEEE 802.11 wireless access points. EuCNC 2014: 1-5 - [c16]Lei Zhong, Yozo Shoji, Kiyohide Nakauchi, Suyong Eum:
BE-DCF: Barring-Enhanced Distributed Coordination Function for Machine Type Communications in IEEE 802.11 networks. ICC Workshops 2014: 467-471 - [c15]Lei Zhong, Kiyohide Nakauchi, Yozo Shoji:
Performance analysis of application-based QoS control in software-defined wireless networks. IWCMC 2014: 464-469 - [c14]Manabu Ito, Kiyohide Nakauchi, Yozo Shoji, Yoshinori Kitatsuji:
Mechanism of Reducing Signaling Processing Load in EPC/IMS Using Service-Specific Network Virtualization. NTMS 2014: 1-5 - 2013
- [j9]Suyong Eum, Kiyohide Nakauchi, Masayuki Murata, Yozo Shoji, Nozomu Nishinaga:
Potential based routing as a secondary best-effort routing for Information Centric Networking (ICN). Comput. Networks 57(16): 3154-3164 (2013) - [j8]Takeshi Usui, Kiyohide Nakauchi, Yozo Shoji, Yoshinori Kitatsuji, Hidetoshi Yokota, Nozomu Nishinaga:
A Session State Migration Architecture for Flexible Server Consolidation. IEICE Trans. Commun. 96-B(7): 1727-1741 (2013) - [c13]Suyong Eum, Kiyohide Nakauchi, Yozo Shoji, Masayuki Murata, Nozomu Nishinaga:
Staleness verification of caching data in ICN. ICTC 2013: 565-570 - 2012
- [j7]Suyong Eum, Kiyohide Nakauchi, Yozo Shoji, Nozomu Nishinaga, Masayuki Murata:
CATT: Cache aware target identification for ICN. IEEE Commun. Mag. 50(12): 60-67 (2012) - [j6]Yoshitoshi Yamashita, Eiji Okamoto, Yasunori Iwanami, Yozo Shoji, Morio Toyoshima, Yoshihisa Takayama:
A Markov-Based Satellite-to-Ground Optical Channel Model and Its Effective Coding Scheme. IEICE Trans. Commun. 95-B(1): 254-262 (2012) - [c12]Suyong Eum, Kiyohide Nakauchi, Masayuki Murata, Yozo Shoji, Nozomu Nishinaga:
CATT: potential based routing with content caching for ICN. ICN 2012: 49-54 - [c11]Kiyohide Nakauchi, Yozo Shoji, Nozomu Nishinaga:
Airtime-based resource control in wireless LANs for wireless network virtualization. ICUFN 2012: 166-169 - [c10]Takeshi Usui, Kiyohide Nakauchi, Yozo Shoji, Nozomu Nishinaga, Yoshinori Kitatsuji, Hidetoshi Yokota:
Design of Session State Migration Middleware for Disruption-Free Services. NGMAST 2012: 93-99 - 2011
- [j5]Chang-Soon Choi, Yozo Shoji, Hiroyo Ogawa:
Implementation of an OFDM baseband with adaptive modulations to grouped subcarriers for millimeter-wave wireless indoor networks. IEEE Trans. Consumer Electron. 57(4): 1541-1549 (2011) - 2010
- [j4]Chang-Soon Choi, Yozo Shoji, Hiroki Ohta:
60-GHz Self-Heterodyne Through-Repeater Systems with Suppressed Third-Order Intermodulation Distortions. IEICE Trans. Electron. 93-C(1): 94-100 (2010) - [c9]Morio Toyoshima, Hideki Takenaka, Yozo Shoji, Yoshihisa Takayama, Yoshisada Koyama, Maki Akioka:
Small optical transponder for small satellites. CSNDSP 2010: 558-561 - [c8]Yozo Shoji, Yoshihisa Takayama, Morio Toyoshima, Hiroki Ohta:
Demonstration of the transportation of microwave environment over an optical 10 Gbps Ethernet based IP network. CSNDSP 2010: 688-692 - [c7]Yoshitoshi Yamashita, Eiji Okamoto, Yasunori Iwanami, Yozo Shoji, Morio Toyoshima, Yoshihisa Takayama:
An Efficient LDGM Coding Scheme for Optical Satellite-to-Ground Link Based on a New Channel Model. GLOBECOM 2010: 1-6
2000 – 2009
- 2008
- [c6]Ryota Kimura, Ryuhei Funada, Yoshinori Nishiguchi, Ming Lei, Tuncer Baykas, Chin-Sean Sum, Junyi Wang, Mohammad Azizur Rahman, Yozo Shoji, Hiroshi Harada, Shuzo Kato:
Golay sequence aided channel estimation for millimeter-wave WPAN systems. PIMRC 2008: 1-5 - [c5]Chin-Sean Sum, Ryuhei Funada, Junyi Wang, Tuncer Baykas, Ming Lei, Yoshinori Nishiguchi, Ryota Kimura, Yozo Shoji, Hiroshi Harada, Shuzo Kato:
Adjacent channel interference resistance of a multi-Gbps millimeter-wave WPAN system. PIMRC 2008: 1-5 - [c4]Ming Lei, Ismail Lakkis, Chin-Sean Sum, Tuncer Baykas, Junyi Wang, Mohammad Azizur Rahman, Ryota Kimura, Ryuhei Funada, Yozo Shoji, Hiroshi Harada, Shuzo Kato:
Hardware Impairments on LDPC Coded SC-FDE and OFDM in Multi-Gbps WPAN (IEEE 802.15.3c). WCNC 2008: 442-446 - 2007
- [c3]Ryuhei Funada, Hiroshi Harada, Yozo Shoji, Ryota Kimura, Yoshinori Nishiguchi, Ming Lei, Chang-Soon Choi, Fumihide Kojima, Chang Woo Pyo, Zhou Lan, Ismail Lakkis, Masahiro Umehira, Shuzo Kato:
A design of single carrier based PHY for IEEE 802.15.3c standard. PIMRC 2007: 1-5 - [c2]Katsuyoshi Sato, Hirokazu Sawada, Yozo Shoji, Shuzo Kato:
Channel Model for Millimeter Wave WPAN. PIMRC 2007: 1-5 - 2005
- [j3]Yozo Shoji, Yoshihiro Hashimoto, Hiroyo Ogawa:
Fiber-Optic Broadband Signal Distribution Link Based on a Millimeter-Wave Self-Heterodyne Transmission/Optical Remote Heterodyne Detection Technique. IEICE Trans. Electron. 88-C(7): 1465-1474 (2005) - 2001
- [j2]Yozo Shoji, Mamoru Nagatsuka, Kiyoshi Hamaguchi, Hiroyo Ogawa:
60 GHz band 64 QAM/OFDM terrestrial digital broadcasting signal transmission by using millimeter-wave self-heterodyne system. IEEE Trans. Broadcast. 47(3): 218-227 (2001) - [c1]Kiyoshi Hamaguchi, Yozo Shoji, Hiroyo Ogawa:
BER performance of coherent-QPSK transmissions affected by phase noise from frequency converters. VTC Fall 2001: 2281-2284 - 2000
- [j1]Yozo Shoji, Takahiro Hida, Katsutoshi Tsukamoto, Shozo Komaki:
Proposal of Asynchronous Time Division Multiple Access Radio Highway Using Chirp Multiplexing Transform. Wirel. Pers. Commun. 14(2): 183-197 (2000)
Coauthor Index
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