Faculty
- Taku Yamazaki, Associate Professor, Shibaura Institute of Technology
- Department of Electronic Information Systems
- Graduate School of Engineering and Science
taku [at] shibaura-it.ac.jp
Collaborative Professors and Researchers
- Takumi Miyoshi, Professor, Shibaura Institute of Technology
Department of Electronic Information Systems - Yoshihiro Niitsu, Professor Emeritus, Shibaura Institute of Technology
Graduate School of Engineering and Science - Yoshiaki Tanaka, Professor Emeritus, Waseda University
Department of Communications and Computer Engineering - Ryo Yamamoto, Associate Professor, The University of Electro-Communications
Graduate School of Informatics and Engineering - Hiroshi Katada, Research Associate, Waseda University
Global Education Center, Shimamoto Lab. - Shota Ono, Research Associate, The University of Tokyo
School of Engineering, Nakao Lab.
Collaborative Students
- Eri Hosonuma, Doctoral Course Student, The University of Tokyo
Sezaki Lab., Institute of Industrial Science
Graduate Students
Graduate School of Engineering and Science
- Shohei Yamamoto
- Ryota Hasegawa
- Kaito Watanabe
- Tatsuya Kase
- Junya Sato
- Kenta Hasegawa
Undergraduate Students
Department of Electronic Information Systems
- Mao Kawaguchi
- Tomoya Shinozuka
- Rikuto Shimizu
- Haruki Narabu
- Takahumi Fu
- Yoshiki Yamaguchi
- Hayato Okubo
Alumni
FY2023
Master, Systems Engineering and Science Course
Graduate School of Engineering and Science
- Yuta Kobayashi
“A Self-adaptive Multi-hop LPWA Sensing System” - Daiki Sugiyama
“Development of LPWA Sensing System for Plantations” - Takahiko Haraguchi (Arimoto Shiro Memorial Award)
“A UAV Traffic Control System Inspired by Packet-switched Networks” - Takuma Yamazaki
“Digital Twin-enabled Opportunistic Routing” - Naoto Watanabe
“A Traffic Anomaly Detection System Using Federated Learning”
Bachelor, Department of Electronic Information Systems,
College of Systems Engineering and Science
- Tatsuya Kase
“A Spatial Information Management Method in Gamified 3D Mobile Sensing” - Daisuke Sasaki
“Behavioral Analysis for Emulating Hovering Drones by Self-Standing Smart Poles” - Junya Sato
“Feature Analysis of Real-time Quality Estimation in 3D Point Cloud” - Soya Shimada
“Blockchain-based Federated Learning System for IoT Traffic Anomaly Detection” - Kenta Hasegawa
“A Dynamic Generation Method of Digital Twin in Gamified 3D Mobile Sensing” - Shun Mamiya
“Serverless Federated Learning Using Opportunistic Routing in Ad Hoc Networks” - Tomoki Yamaguchi
“Analysis of Communication Characteristics for Emulating Hovering Drones by Self-standing Smart Poles”
FY2022
Bachelor, Department of Electronic Information Systems,
College of Systems Engineering and Science
- Yuto Aoki
“A Selective P2P Group Conversation System Based on Gesture” - Kazuki Otake
“Blockchain-based Model Management of Federated Learning for IoT Gateways” - Yuki Kamio
“A Vehicle-to-pedestrian Warning System Based on Road Characteristics” - Koki Saida
“A Participatory Mobile Sensing System Using Gamification” - Nobuyuki Tanaka
“A Process Division and Allocation Method for Machine Learning Using Opportunistic Routing” - Tomoki Nishizawa
“Experiments of Self-stand Smart Poles for Low Altitude Sensing” - Ryota Hasegawa
“A Group Construction Method for Distributed Machine Learning with User Cooperation” - Naoki Maeda
“A Realtime Sharing System for 3D Point Cloud Maps Using Wireless Communication” - Kaito Watanabe
“A Regional Monitoring System by Agent-based IoT”
FY2021
Master, Systems Engineering and Science Course
Graduate School of Engineering and Science
- Eri Hosonuma (Shiro Arimoto Memorial Award)
“Block Transmission Method Considering Path Diversity for Ad Hoc Networks” - Takayuki Miura
“Event-driven VUI Control Method for Life Support”
Bachelor, Department of Electronic Information Systems,
College of Systems Engineering and Science
- Wataru Amishiro
“P2P Group Conversation System Based on Location and Direction” - Noritaka Kobayashi
“Opportunistic Routing Based on Privacy-preserved Location” - Yuta Kobayashi
“Characterization of LPWA Mesh Networking Realizing Parameter Control in Real Environments” - Takahiko Haraguchi (Valedictorian, Department of Electronic Information Systems)
“Traffic Management System Using Ground Beacons in Dense UAV Environments” - Tianyu Fan
“A Life Support System for People Living Alone Using Agent-based IoT” - Takuma Yamazaki
“Link Symmetry Confirmation towards Fast-convergence in Backoff-based Opportunistic Routing” - Shohei Yamamoto
“Neighbor Cooperative Packet Loss Recovery Control for Distributed Database” - Naoto Watanabe
“IoT Traffic Anomaly Detection for Smart Home Environments”
FY2020
Bachelor, Department of Electronic Information Systems,
College of Systems Engineering and Science
- Kotaro Iwama
“Stress Estimation Based on Various Factors Using Biometric Information by Wearable Devices” - Hiroki Uchida
“Multirate Opportunistic Routing Based on Estimated Number of Potential Forwarders” - Kazuma Obata
“A Distributed Download Method Using Multicast for Local Cooperative Data Offloading” - Junya Kaneko
“A Unified Control Method for IoT Devices Based on Natural Language Using LPWA and Voice Signal” - Yuta Kiguchi
“A Vehicle-to-pedestrian Warning System Considering Terminal Density with Location-based P2P” - Kyoshiro Hirasawa
“Traffic Analysis in Cloud Gaming for QoE Improvement” - Diego Shigetoshi Minowa Sanchez
“Analysis of LPWA Mesh Networking Towards Dynamic Parameter Control”
FY2019
Bachelor, Department of Electronic Information Systems,
College of Systems Engineering and Science
- Kenta Igarashi
“LPWA Mesh Networking with Opportunistic Routing in Indoor Environment” - Takato Oba
“A Routing Method Using Microwave and mmWave in Vehicle” - Fuga Kikuchi
“A Data Dissemination Method Using P2P and V2V Communications” - Ayumi Takemoto
“Stress Estimation Using Wearable Devices” - Eri Hosonuma
“Asymmetric Link-aware Backoff-based Opportunistic Routing” - Seiya Mizuno
“Area Expansion-aware Adaptive Distributed Download for Local Cooperative Data Offloading” - Tomoyuki Yokoyama
“A Packet Forwarding Method Using Concurrent Transmission Flooding and Opportunistic Routing”