In wireless networks, how to select transmit power that maximizes throughput is a challenging problem. On one hand, transmissions at a high power level could increase interference to others; on the other hand, transmissions at a low power level are prone to being interfered by others. Prior works consider this problem as a search for a fixed optimal power setting that maximizes communication spatial reuse. In this paper, we pursue a novel approach that combines power selection with a random medium access mechanism. For each transmission, a node randomly selects a transmit power from all available power levels to access the medium. In this way, all combinations of network power settings could be selected with some probability. Using a recent...
Opportunistic selection in multi-node wireless systems improves system performance by selecting the ...
International audienceWe develop a new metric for quantifying end-to-end throughput in multihop wire...
Random access schemes have used advanced capabilities of the physical layer to achieve reliable data...
We consider throughput-optimal power allocation in multi-hop wireless networks. The study of this pr...
In this thesis, we present several random access algorithms for medium access control in wireless ne...
This thesis studies the problem of optimal design of wireless networks whose operating points such a...
This thesis studies the problem of optimal design of wireless networks whose operating points such a...
Abstract—Random access has been studied for decades as a simple and practical wireless medium access...
This work presents a novel Medium Access Control (MAC) algorithm for single-hop distributed wireless...
Successive interference cancelation can resolve collisions involving multiple packets and, hence, im...
Abstract—This paper is concerned with the decentralized power allocation problem in random access sy...
In this dissertation, we study distributed resource allocation techniques in full reuse multicell ne...
The paper focuses on competitively optimal power-control and signal-shaping for "ad-hoc" networks co...
This thesis studies the problem of optimal design of wireless networks whose operating points such a...
The use of existing network devices as relays has a potential to improve the overall network perform...
Opportunistic selection in multi-node wireless systems improves system performance by selecting the ...
International audienceWe develop a new metric for quantifying end-to-end throughput in multihop wire...
Random access schemes have used advanced capabilities of the physical layer to achieve reliable data...
We consider throughput-optimal power allocation in multi-hop wireless networks. The study of this pr...
In this thesis, we present several random access algorithms for medium access control in wireless ne...
This thesis studies the problem of optimal design of wireless networks whose operating points such a...
This thesis studies the problem of optimal design of wireless networks whose operating points such a...
Abstract—Random access has been studied for decades as a simple and practical wireless medium access...
This work presents a novel Medium Access Control (MAC) algorithm for single-hop distributed wireless...
Successive interference cancelation can resolve collisions involving multiple packets and, hence, im...
Abstract—This paper is concerned with the decentralized power allocation problem in random access sy...
In this dissertation, we study distributed resource allocation techniques in full reuse multicell ne...
The paper focuses on competitively optimal power-control and signal-shaping for "ad-hoc" networks co...
This thesis studies the problem of optimal design of wireless networks whose operating points such a...
The use of existing network devices as relays has a potential to improve the overall network perform...
Opportunistic selection in multi-node wireless systems improves system performance by selecting the ...
International audienceWe develop a new metric for quantifying end-to-end throughput in multihop wire...
Random access schemes have used advanced capabilities of the physical layer to achieve reliable data...