Add to ORKGIn this paper, we investigate the performance of time division broadcast protocol (TDBC) with incremental relaying (IR) when there are multiple available relays. Opportunistic relaying (OR), i.e., the “best” relay is select for transmission to minimize the system’s outage probability, is proposed. Two OR schemes are presented. The first scheme, termed TDBC-OIR-I, selects the “best” relay from the set of relays that can decode both flows of signal from the two sources successfully. The second one, termed TDBC-OIR-II, selects two “best” relays from two respective sets of relays that can decode successfully each flow of signal. The performance, in terms of outage probability, expected rate (ER), and diversity-multiplexing tradeoff (DMT), of th...
In this paper we consider a cooperative communication system where some a priori information of wire...
The scarcity of radio resources coupled with the high data rate demands in the last few years, induc...
Abstract—In this work, we present a successive opportunistic relaying protocol with an inter-relay i...
In this paper, we investigate the performance of time division broadcast protocol (TDBC) with increm...
Abstract—Time division broadcasting (TDBC) is a well-known bidirectional protocol. In this protocol,...
In this study, the authors propose two high spectral efficient relaying protocols with low communica...
Relay communication systems have recently been gaining momentum as an alternative to cellular archit...
In this letter, we examine in detail a cooperative network with multiple relays. We investigate prot...
Two-path successive relaying (TPSR) improves spectral efficiency of relay under half-duplex constrai...
We propose two high spectral efficient relaying protocols with low overhead including: the priority ...
This paper investigates a novel relaying strategy for cooperative networks over Nakagami-m fading ch...
In this paper the broadcast relay channel, where the source communicates with multiple destinations ...
Incremental relaying (IR) is shown to improve the end-to-end throughput of multi-hop relay networks....
Opportunistic cooperation (OC) dynamically switches between a cooperative mode (CM, using direct and...
In this paper the broadcast relay channel (BRC) is studied. In the BRC model, the source communicate...
In this paper we consider a cooperative communication system where some a priori information of wire...
The scarcity of radio resources coupled with the high data rate demands in the last few years, induc...
Abstract—In this work, we present a successive opportunistic relaying protocol with an inter-relay i...
In this paper, we investigate the performance of time division broadcast protocol (TDBC) with increm...
Abstract—Time division broadcasting (TDBC) is a well-known bidirectional protocol. In this protocol,...
In this study, the authors propose two high spectral efficient relaying protocols with low communica...
Relay communication systems have recently been gaining momentum as an alternative to cellular archit...
In this letter, we examine in detail a cooperative network with multiple relays. We investigate prot...
Two-path successive relaying (TPSR) improves spectral efficiency of relay under half-duplex constrai...
We propose two high spectral efficient relaying protocols with low overhead including: the priority ...
This paper investigates a novel relaying strategy for cooperative networks over Nakagami-m fading ch...
In this paper the broadcast relay channel, where the source communicates with multiple destinations ...
Incremental relaying (IR) is shown to improve the end-to-end throughput of multi-hop relay networks....
Opportunistic cooperation (OC) dynamically switches between a cooperative mode (CM, using direct and...
In this paper the broadcast relay channel (BRC) is studied. In the BRC model, the source communicate...
In this paper we consider a cooperative communication system where some a priori information of wire...
The scarcity of radio resources coupled with the high data rate demands in the last few years, induc...
Abstract—In this work, we present a successive opportunistic relaying protocol with an inter-relay i...