S
Shivendra S. Panwar
Researcher at New York University
Publications - 332
Citations - 9246
Shivendra S. Panwar is an academic researcher from New York University. The author has contributed to research in topics: Wireless network & Network packet. The author has an hindex of 46, co-authored 322 publications receiving 8753 citations. Previous affiliations of Shivendra S. Panwar include Princeton University & Fujitsu.
Papers
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CoopMAC: A Cooperative MAC for Wireless LANs
TL;DR: It is demonstrated that cooperation among stations in a wireless LAN (WLAN) can achieve both higher throughput and lower interference, and a reduction in the signal-to-interference ratio in a dense deployment of 802.11 access points is demonstrated.
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Cooperative wireless communications: a cross-layer approach
TL;DR: In cooperative communications, multiple nodes in a wireless network work together to form a virtual antenna array to exploit the spatial diversity of the traditional MIMO techniques without each node necessarily having multiple antennas.
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Video transport over ad hoc networks: multistream coding with multipath transport
TL;DR: This paper proposes to combine multistream coding with multipath transport, to show that, in addition to traditional error control techniques, path diversity provides an effective means to combat transmission error in ad hoc networks.
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Connectivity properties of a packet radio network model
TL;DR: A model of a packet radio network in which transmitters with range R are distributed according to a two-dimensional Poisson point process with density D is examined and it is shown that pi R/sup 2/D, the expected number of nearest neighbors of a transmitter, must grow logarithmically with the area of the network.
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Full duplex cellular systems: will doubling interference prevent doubling capacity?
TL;DR: New tradeoffs in designing full duplex enabled radio networks are identified, and new scheduling algorithms and advanced interference cancellation techniques are discussed, which are essential to maximize the capacity gain and energy efficiency.