2016 - IEEE Fellow For contributions to analysis of cross-layer interactions in cellular networks
His main research concerns Computer network, Distributed computing, Cellular network, Data mining and Real-time computing. His Computer network study typically links adjacent topics like File sharing. His Distributed computing research focuses on subjects like Application layer, which are linked to Internet protocol suite, Class of service, Enterprise private network and Quality of service.
His Data mining research includes elements of Sampling, Change detection, Traffic analysis and Internet traffic. His work investigates the relationship between Real-time computing and topics such as Android that intersect with problems in Network performance, Telecommunications link and LTE Advanced. His research in Peer-to-peer intersects with topics in Network traffic control, Traffic engineering and The Internet.
Subhabrata Sen mainly focuses on Computer network, Network packet, Real-time computing, Distributed computing and Data mining. His study in The Internet extends to Computer network with its themes. His work in the fields of Network packet, such as Network traffic control, intersects with other areas such as Surge.
His Real-time computing research incorporates elements of Reduction, Mobile device and Component. The study incorporates disciplines such as Routing table, IP forwarding, Cluster analysis, Network topology and Class of service in addition to Distributed computing. His research integrates issues of Sampling, Traffic generation model, Scalability and Internet traffic in his study of Data mining.
His primary areas of study are Computer network, Real-time computing, Cellular network, Video streaming and Scalability. His biological study spans a wide range of topics, including Exploit and Flexibility. His Real-time computing research incorporates themes from Video quality, Reduction and Mobile device.
The concepts of his Cellular network study are interwoven with issues in Algorithm, Streaming algorithm, Bandwidth and Scalable Video Coding. As a part of the same scientific family, he mostly works in the field of Scalability, focusing on JavaScript and, on occasion, Latency. His Network packet study incorporates themes from Sequence and Encryption.
His primary scientific interests are in Cellular network, Computer network, Reduction, Real-time computing and Bandwidth. His studies deal with areas such as PID controller, Overhead, Adaptive bitrate streaming and Average bitrate as well as Cellular network. His Overhead study combines topics in areas such as Control theory and The Internet.
His study in Computer network is interdisciplinary in nature, drawing from both Scalability, Cloud computing, Operating system, Web page and JavaScript. His studies in Web page integrate themes in fields like Feature, Key, Multipath propagation, Mobile device and Component. Subhabrata Sen has included themes like Variable bitrate, Constant bitrate, Proof of concept and Adaptation in his Bandwidth study.
This overview was generated by a machine learning system which analysed the scientist’s body of work. If you have any feedback, you can contact us here.
Analyzing peer-to-peer traffic across large networks
Subhabrata Sen;Jia Wang.
acm special interest group on data communication (2002)
Accurate, scalable in-network identification of p2p traffic using application signatures
Subhabrata Sen;Oliver Spatscheck;Dongmei Wang.
the web conference (2004)
A close examination of performance and power characteristics of 4G LTE networks
Junxian Huang;Feng Qian;Alexandre Gerber;Z. Morley Mao.
international conference on mobile systems, applications, and services (2012)
Class-of-service mapping for QoS: a statistical signature-based approach to IP traffic classification
Matthew Roughan;Subhabrata Sen;Oliver Spatscheck;Nick Duffield.
internet measurement conference (2004)
Sketch-based change detection: methods, evaluation, and applications
Balachander Krishnamurthy;Subhabrata Sen;Yin Zhang;Yan Chen.
internet measurement conference (2003)
ACAS: automated construction of application signatures
Patrick Haffner;Subhabrata Sen;Oliver Spatscheck;Dongmei Wang.
acm special interest group on data communication (2005)
Characterizing unstructured overlay topologies in modern P2P file-sharing systems
Daniel Stutzbach;Reza Rejaie;Subhabrata Sen.
IEEE ACM Transactions on Networking (2008)
An in-depth study of LTE: effect of network protocol and application behavior on performance
Junxian Huang;Feng Qian;Yihua Guo;Yuanyuan Zhou.
acm special interest group on data communication (2013)
Profiling resource usage for mobile applications: a cross-layer approach
Feng Qian;Zhaoguang Wang;Alexandre Gerber;Zhuoqing Mao.
international conference on mobile systems, applications, and services (2011)
Characterizing radio resource allocation for 3G networks
Feng Qian;Zhaoguang Wang;Alexandre Gerber;Zhuoqing Morley Mao.
internet measurement conference (2010)
Profile was last updated on December 6th, 2021.
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