A reliable and scalable striping protocol
Conference proceedings on Applications, technologies, architectures, and protocols for computer communications
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ICIP '95 Proceedings of the 1995 International Conference on Image Processing (Vol. 1)-Volume 1 - Volume 1
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Improving aggregated channel performance through decentralized channel monitoring
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Multiple description coding using pairwise correlating transforms
IEEE Transactions on Image Processing
Striping within the network subsystem
IEEE Network: The Magazine of Global Internetworking
On effectively exploiting multiple wireless interfaces in mobile hosts
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A multipath routing mechanism in optical networks with extremely high bandwidth requests
GLOBECOM'09 Proceedings of the 28th IEEE conference on Global telecommunications
On cloud-centric network architecture for multi-dimensional mobility
Proceedings of the first edition of the MCC workshop on Mobile cloud computing
On cloud-centric network architecture for multi-dimensional mobility
ACM SIGCOMM Computer Communication Review - Special october issue SIGCOMM '12
Journal of Network and Computer Applications
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Multihomed, mobile wireless computing and communication devices can spontaneously form communities to logically combine and share the bandwidth of each other's wide-area communication links using inverse multiplexing. But, membership in such a community can be highly dynamic, as devices and their associated WWAN links randomly join and leave the community. We identify the issues and trade-offs faced in designing a decentralized inverse multiplexing system in this challenging setting and determine precisely how heterogeneous WWAN links should be characterized and when they should be added to, or deleted from, the shared pool. We then propose methods of choosing the appropriate channels on which to assign newly arriving application flows. Using video traffic as a motivating example, we demonstrate how significant performance gains can be realized by adapting allocation of the shared WWAN channels to specific application requirements. Our simulation and experimentation results show that collaborative bandwidth aggregation systems are, indeed, a practical and compelling means of achieving high-speed Internet access for groups of wireless computing devices beyond the reach of public or private access points.