K
Kun Tan
Researcher at Huawei
Publications - 169
Citations - 7852
Kun Tan is an academic researcher from Huawei. The author has contributed to research in topics: Wireless network & Network packet. The author has an hindex of 37, co-authored 162 publications receiving 7000 citations. Previous affiliations of Kun Tan include China Agricultural University & Microsoft.
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Journal ArticleDOI
Dcell: a scalable and fault-tolerant network structure for data centers
TL;DR: Results from theoretical analysis, simulations, and experiments show that DCell is a viable interconnection structure for data centers and can be incrementally expanded and a partial DCell provides the same appealing features.
Proceedings ArticleDOI
A Compound TCP Approach for High-Speed and Long Distance Networks
TL;DR: A novel Compound TCP (CTCP) approach, which is a synergy of delay-based and loss-based approach, and provides very good bandwidth scalability with improved RTT fairness, and at the same time achieves good TCP-fairness, irrelevant to the windows size is proposed.
Proceedings ArticleDOI
BeepBeep: a high accuracy acoustic ranging system using COTS mobile devices
TL;DR: The design, implementation, and evaluation of BeepBeep is presented, a high-accuracy acoustic-based ranging system that operates in a spontaneous, ad-hoc, and device-to-device context without leveraging any pre-planned infrastructure.
Journal ArticleDOI
Sora: high-performance software radio using general-purpose multi-core processors
TL;DR: Sora combines the performance and fidelity of hardware SDR platforms with the programmability and flexibility of general-purpose processor (GPP) SDRplatforms to address the challenges of using PC architectures for high-speed SDR.
Proceedings Article
Sora: high performance software radio using general purpose multi-core processors
Kun Tan,Jiansong Zhang,Ji Fang,He Liu,Yusheng Ye,Shen Wang,Yongguang Zhang,Haitao Wu,Wei Wang,Geoffrey M. Voelker +9 more
TL;DR: Sora as discussed by the authors is a fully programmable software radio platform on commodity PC architectures, which combines the performance and fidelity of hardware SDR platforms with the programmability and flexibility of general-purpose processor (GPP) platforms.