Ryosuke Isogai

Orcid: 0009-0001-3743-4262

According to our database1, Ryosuke Isogai authored at least 12 papers between 2022 and 2026.

Collaborative distances:
  • Dijkstra number2 of five.
  • Erdős number3 of four.

Timeline

Legend:

Book  In proceedings  Article  PhD thesis  Dataset  Other 

Links

On csauthors.net:

Bibliography

2026
Leveraging Space-Time Synchronization for Ultra-Spot Detection in mmWave/THz UAV-to-UAV Communications.
CoRR, May, 2026

Experimental Trajectory Deviation Detection and Correction for UAV Passing through mmWave Ultra-Spot Using Space-Time Synchronization.
Proceedings of the 23rd Consumer Communications & Networking Conference, 2026

2025
Prediction of Ultra-High-Speed Spots Using RTK-GNSS Sensor Fusion for UAV-to-UAV mmWave/THz Communications.
IEEE Access, 2025

2024
The Development of a Measuring System for Intraoral SpO2.
Sensors, January, 2024

An efficient beaconing of bluetooth low energy by decision making algorithm.
Discov. Artif. Intell., 2024

Spot-Detection Technique for mmWave/THz UAV-UAV Communications based on Real-time Kinematic Sensor Fusion Positioning.
Proceedings of the 10th IEEE World Forum on Internet of Things, 2024

Space-Time Synchronized UAVs: Time- and Location-Traceable Multi-Angle Aerial Photography.
Proceedings of the 10th IEEE World Forum on Internet of Things, 2024

Spatial Diversity Effect of Wireless Two-way Interferometry for Spot Detection in mmWave Drone-to-drone Communication.
Proceedings of the 35th IEEE International Symposium on Personal, 2024

Optimization of End-to-End Throughput on Piggyback Network with drone-to-drone millimeter-wave communications.
Proceedings of the International Conference on Information Networking, 2024

Ultra-Spot Detection Using Multiple Wi-Wi Devices for mmWave/THz UAV-UAV Communications.
Proceedings of the 13th IEEE Global Conference on Consumer Electronics, 2024

2023
Extremely High-accuracy Automatic Following between Mobilities Using Wireless Two-way Interferometry.
Proceedings of the 20th IEEE Consumer Communications & Networking Conference, 2023

2022
A New Intraoral Six-Degrees-of-Freedom Jaw Movement Tracking Method Using Magnetic Fingerprints.
Sensors, 2022


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