Add to ORKGWe consider the orthogonal multiple relay channel at the low SNR regime.The source transmits to the destination and all the possible relays in one channel and the relays transmit in different and orthogonal channels making use of the transmission received from the source. This cooperative strategy achieves diversity gains at a high cost in bandwidth efficiency, due to the orthogonality of the transmissions. However, it has the desired benefit of allowing all the nodes in the network to behave as in a point to point channel. Based on the max-flow min-cut upper bound for relay networks, we explore the capacity limits of this kind of communication, obtaining an upper bound on the capacity when full channel state information (CSI) is available ...
Cooperative communications by pooling available resources—for example, power and bandwidth—across th...
A fundamental problem in wireless networks is determining the broadcast capacity, i.e., the maximum ...
Communication over wireless channels is affected by fading, i.e., fast random variations of the rece...
We consider the orthogonal multiple relay channel at the low SNR regime.The source transmits to the...
In modern communication networks, relays play a vital role in cooperative communication. Different ...
Summarization: Cooperative communications is a rapidly evolving research area. Most of the cooperati...
Abstract — In slow fading scenarios, cooperation between nodes can increase the amount of diversity ...
A wireless relay network with one source, one relay and one destination is considered, where nodes c...
A wireless relay network with one source, one relay and one destination is considered, where nodes c...
The upper bound on the capacity of a 3-node discrete memoryless relay channel is considered, where a...
The aim of this paper is to study the impact of channel state information on the design of cooperati...
Summarization: Cooperative protocols attempt to create spatial diversity in slow flat fading scenari...
We consider a wireless relay network with one source, one relay and one destination, where communica...
Capacity gain from transmitter and receiver cooperation are compared in a relay network where the co...
Ever evolving bandwidth hungry applications present a gigantic challenge and an unprecedented opport...
Cooperative communications by pooling available resources—for example, power and bandwidth—across th...
A fundamental problem in wireless networks is determining the broadcast capacity, i.e., the maximum ...
Communication over wireless channels is affected by fading, i.e., fast random variations of the rece...
We consider the orthogonal multiple relay channel at the low SNR regime.The source transmits to the...
In modern communication networks, relays play a vital role in cooperative communication. Different ...
Summarization: Cooperative communications is a rapidly evolving research area. Most of the cooperati...
Abstract — In slow fading scenarios, cooperation between nodes can increase the amount of diversity ...
A wireless relay network with one source, one relay and one destination is considered, where nodes c...
A wireless relay network with one source, one relay and one destination is considered, where nodes c...
The upper bound on the capacity of a 3-node discrete memoryless relay channel is considered, where a...
The aim of this paper is to study the impact of channel state information on the design of cooperati...
Summarization: Cooperative protocols attempt to create spatial diversity in slow flat fading scenari...
We consider a wireless relay network with one source, one relay and one destination, where communica...
Capacity gain from transmitter and receiver cooperation are compared in a relay network where the co...
Ever evolving bandwidth hungry applications present a gigantic challenge and an unprecedented opport...
Cooperative communications by pooling available resources—for example, power and bandwidth—across th...
A fundamental problem in wireless networks is determining the broadcast capacity, i.e., the maximum ...
Communication over wireless channels is affected by fading, i.e., fast random variations of the rece...