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Aruna Balasubramanian
Researcher at Stony Brook University
Publications - 71
Citations - 7605
Aruna Balasubramanian is an academic researcher from Stony Brook University. The author has contributed to research in topics: Computer science & Web page. The author has an hindex of 21, co-authored 62 publications receiving 7085 citations. Previous affiliations of Aruna Balasubramanian include University of Washington & Microsoft.
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Proceedings ArticleDOI
MAUI: making smartphones last longer with code offload
Eduardo Cuervo,Aruna Balasubramanian,Dae-Ki Cho,Alec Wolman,Stefan Saroiu,Ranveer Chandra,Paramvir Bahl +6 more
TL;DR: MAUI supports fine-grained code offload to maximize energy savings with minimal burden on the programmer, and decides at run-time which methods should be remotely executed, driven by an optimization engine that achieves the best energy savings possible under the mobile device's current connectivity constrains.
Proceedings ArticleDOI
Energy consumption in mobile phones: a measurement study and implications for network applications
TL;DR: TailEnder is developed, a protocol that reduces energy consumption of common mobile applications and aggressively prefetches several times more data and improves user-specified response times while consuming less energy.
Proceedings ArticleDOI
DTN routing as a resource allocation problem
TL;DR: RAPID is presented, an intentional DTN routing protocol that can optimize a specific routing metric such as worst-case delivery latency or the fraction of packets that are delivered within a deadline and significantly outperforms existing routing protocols for several metrics.
Proceedings ArticleDOI
Augmenting mobile 3G using WiFi
TL;DR: A system, called Wiffler, to augments mobile 3G capacity in mobile environments and significantly reduces 3G usage, using two key ideas leveraging delay tolerance and fast switching -- to overcome the poor availability and performance of WiFi.
Journal ArticleDOI
Interactive wifi connectivity for moving vehicles
TL;DR: ViFi is developed, a protocol that opportunistically exploits basestation diversity to minimize disruptions and support interactive applications for mobile clients that doubles the number of successful short TCP transfers and doubles the length of disruption-free VoIP sessions compared to an existing WiFi-style handoff protocol.