Xishuo Wang

Orcid: 0000-0002-9504-8888

According to our database1, Xishuo Wang authored at least 10 papers between 2021 and 2026.

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

Timeline

Legend:

Book  In proceedings  Article  PhD thesis  Dataset  Other 

Links

On csauthors.net:

Bibliography

2026
First Real-time Field Demonstration of Space-division Multiplexing Transmission Enabled by 1.2Tb/s/λ OTN and Multi-core Amplifier.
Proceedings of the Optical Fiber Communications Conference and Exhibition, 2026

Record 3 ms Switching Time Wavelength Selective Switch.
Proceedings of the Optical Fiber Communications Conference and Exhibition, 2026

Real-time Unrepeatered Transmission of 400G/800G/1.2T over 726.1km/611.9km/436.1km HCF only Using EDFA.
Proceedings of the Optical Fiber Communications Conference and Exhibition, 2026

Fast, Low-Loss, and Field-Deployable Splicing of Anti-Resonant Hollow-Core Fibers.
Proceedings of the Optical Fiber Communications Conference and Exhibition, 2026

2025
Field Trial of Multi-Datacenter Distributed Training for LLM Based on Bandwidth Convergence and Two Parallel Strategies over 120km High-reliability 800Gbit/s C+L OTN.
Proceedings of the Optical Fiber Communications Conference and Exhibition, 2025

Demonstration of 12.3-THz Wide-Bandwidth Tunable CFP2 Coherent Transceiver Operating at C6T+L6T Band.
Proceedings of the Optical Fiber Communications Conference and Exhibition, 2025

Low Power Consumption and Low Latency SFP112-LPO Transceiver with Real-Time 20 Km Transmission for Next-Generation Fronthaul Networks.
Proceedings of the European Conference on Optical Communications, 2025

Field Trial of Telecom-Grade Sub-50ms Protection in Wave-Length Switched Optical Networks for Lossless Large Language Model Multi-Datacenter Distributed Training.
Proceedings of the European Conference on Optical Communications, 2025

2022
Weighted Clustering Algorithm for Polar Coordinates Applied to FSO Systems Impaired by Atmospheric Turbulence.
IEEE Commun. Lett., 2022

2021
Machine-Learning-Aided Optical Fiber Communication System.
IEEE Netw., 2021


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