Wireless network coding for multi-hop two-way relay channels (MH-TRC) has been proven to achieve a significantly improved network throughput than non- network coding (Non-NC) schemes. Our previous work showed that the multi-hop compute-and-forward (MH- CPF) scheme for the MH-TRC with fixed two transmission time intervals was unable to outperform Non-NC in the MH-TRC with an arbitrary number of nodes. In view of this fact, we propose an I-time- interval (I-TI) MH-CPF scheme (I represents the number of transmission time intervals) for the MH- TRC with arbitrary numbers of nodes and messages. By converting the transmission pattern to a corresponding characteristic matrix, the outage probability of the I-TI MH-CPF scheme is derived. We investig...
In this paper, a new two-way relaying scheme based on compute-and-forward (CMF) framework and relay ...
In this paper, we analyze the performance of one-hop network coding in multi-hop networks and optimi...
This paper investigates the performance of practical physical layer network coding (PLNC) schemes fo...
Due to the overwhelming complexity of multihop transmission and intermessage interference, only a li...
The compute-and-forward (CaF) relaying strategy recently proposed by Nazer and Gastpar has been prov...
The compute-and-forward (CPF) relaying strategy proposed by Nazer and Gastpar has been proven to ach...
We investigate the performance of analog network coding (ANC) for multi-hop networks in this paper. ...
We investigate the performance of analog network coding (ANC) for multi-hop networks in this letter....
Two-way wireless communication has regained significant attention recently over relay channels and n...
Wireless network coding has attracted significant attention recently over relay channels. In this pa...
Abstract—This paper investigates the performance of practical physical-layer network coding (PNC) sc...
In this paper, we propose a novel multihop transmission scheme using selective network coding (NC) a...
Compute-and-Forward (CoF) is an innovative physical layer network coding strategy, designed to enabl...
In this paper, we apply the classical Alamouti coding technique in a distributed and cascaded fashio...
In wireless two-way (TW) relay channels, denoise-and-forward (DNF) network coding (NC) is a promisin...
In this paper, a new two-way relaying scheme based on compute-and-forward (CMF) framework and relay ...
In this paper, we analyze the performance of one-hop network coding in multi-hop networks and optimi...
This paper investigates the performance of practical physical layer network coding (PLNC) schemes fo...
Due to the overwhelming complexity of multihop transmission and intermessage interference, only a li...
The compute-and-forward (CaF) relaying strategy recently proposed by Nazer and Gastpar has been prov...
The compute-and-forward (CPF) relaying strategy proposed by Nazer and Gastpar has been proven to ach...
We investigate the performance of analog network coding (ANC) for multi-hop networks in this paper. ...
We investigate the performance of analog network coding (ANC) for multi-hop networks in this letter....
Two-way wireless communication has regained significant attention recently over relay channels and n...
Wireless network coding has attracted significant attention recently over relay channels. In this pa...
Abstract—This paper investigates the performance of practical physical-layer network coding (PNC) sc...
In this paper, we propose a novel multihop transmission scheme using selective network coding (NC) a...
Compute-and-Forward (CoF) is an innovative physical layer network coding strategy, designed to enabl...
In this paper, we apply the classical Alamouti coding technique in a distributed and cascaded fashio...
In wireless two-way (TW) relay channels, denoise-and-forward (DNF) network coding (NC) is a promisin...
In this paper, a new two-way relaying scheme based on compute-and-forward (CMF) framework and relay ...
In this paper, we analyze the performance of one-hop network coding in multi-hop networks and optimi...
This paper investigates the performance of practical physical layer network coding (PLNC) schemes fo...