Srinivasa R. Eravelli
Qualcomm
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Publication
Featured researches published by Srinivasa R. Eravelli.
2012 International Conference on Computing, Networking and Communications (ICNC) | 2012
Dilip Krishnaswamy; Danlu Zhang; Samir S. Soliman; Bibhu Mohanty; Dirceu G. Cavendish; Weiyan Ge; Srinivasa R. Eravelli
Mobile client platforms have emerged with the ability to access and utilize multiple wireless networks concurrently. Aggregation can be performed using wireless modems on one device or cooperatively across devices within wireless proximity of each other. This paper explores various concurrent bandwidth aggregation schemes. The aggregation can be achieved on the application-layer, transport layer like MultipathTCP, or on layers below IP such as the RLC layer. These schemes are compared. In general, aggregation on the lower layer is closer to the client device and easier to adapt to the varying channel and loading conditions. However, lower layer aggregation needs more changes to wireless access stratum infrastructure. Aggregation above the IP layer is simpler to implement. A feasibility study of MultipathTCP aggregation over multiple WWANs is presented.
Journal of Communications | 2012
Dilip Krishnaswamy; Danlu Zhang; Dirceu G. Cavendish; Weiyan Ge; Samir S. Soliman; Bibhu Mohanty; Srinivasa R. Eravelli
Parallel Wireless Communications is an emerging area of research that enables mobile clients to access and utilize multiple wireless networks concurrently. This paper explores concurrent bandwidth aggregation techniques to enable parallel wireless communications on mobile devices. Concurrent aggregation can be performed using wireless modems on one device or cooperatively across devices within wireless proximity of each other.. The aggregation can be achieved on the application-layer, transport layer like MultipathTCP, or on layers below IP such as the RLC layer. These schemes are compared. In general, aggregation on the lower layer is closer to the client device and easier to adapt to the varying channel and loading conditions. However, lower layer aggregation needs more changes to wireless access stratum infrastructure. Aggregation above the IP layer is simpler to implement. A feasibility study of MultipathTCP aggregation over multiple WWANs is presented. The aggregation scheme on the RLC layer in evolved HSDPA is also presented, including protocol design and performance evaluation.
Archive | 2010
Dillip Krishnaswamy; Samir S. Soliman; Srinivasa R. Eravelli
Archive | 2011
Murtuza Taheri Chhatriwala; Srinivasa R. Eravelli; Hailiang Cai; Sumanth Govindappa; Liang Zhang; Sivaram Srivenkata Palakodety
Archive | 2011
Sumanth Govindappa; Srinivasa R. Eravelli; William Lloyd Atkinson; Liang Zhang; Hailiang Cai; Danlu Zhang
Archive | 2011
Dilip Krishnaswamy; Soumya Das; Samir S. Soliman; Srinivasa R. Eravelli
Archive | 2013
Srinivasa R. Eravelli; Murtuza Taheri Chhatriwala; Sivaram Srivenkata Palakodety
Archive | 2010
Srinivasa R. Eravelli; Yun Lin; Hailiang Cai
Archive | 2008
Srinivasa R. Eravelli; Hailiang Cai; Yun Lin
Archive | 2011
Srinivasa R. Eravelli; Hailiang Cai; William Lloyd Atkinson; Sumanth Govindappa; Sivaram Srivenkata Palakodety; Shenoy H. Gurudutt; Liang Zhang
