ABSTRACT We propose a two-way relay based spatial multiplexing technique for a cognitive radio re... more ABSTRACT We propose a two-way relay based spatial multiplexing technique for a cognitive radio relay network (CR). The relay coefficients and the transmission powers are optimized to maximize the worst-case user signal-to interference and noise ratio (SINR), while ensuring interference leakage from the relays to the primary users (PUs) in the network is below a threshold. We solve this problem through an iterative procedure that uses semidefinite and geometric programming along with bisection search method. We evaluate the performance of the proposed scheme in terms of the mean SINR for different number of relays and transmission power at the relays.
ABSTRACT The authors investigate a spectrum sharing peer-to-peer relay network where multiple sou... more ABSTRACT The authors investigate a spectrum sharing peer-to-peer relay network where multiple source nodes with multiple antennas communicate with their desired destination nodes with multiple antennas through a multiple-input and multiple-output (MIMO) relay. The authors establish the duality between uplink and downlink peer-to-peer MIMO channels with any number of antennas at each node and demonstrate mean square error (MSE) of a downlink peer-to-peer network can be achieved in a virtual uplink network with the same total network transmission power constraint. By applying this result, the authors develop an iterative algorithm to optimise the source, relay and receiver processing matrices such that the weighted MSE of the retrieved signal at the receivers is minimised. The simulation results demonstrate satisfactory performance of the proposed algorithm.
We consider a relay network with multiple users and propose a signal-to-interference and noise-ra... more We consider a relay network with multiple users and propose a signal-to-interference and noise-ratio (SINR) balancing based relay signal forwarding scheme. Each relay receives a combined signal from multiple sources and processes it using a complex valued scalar and transmits towards the destinations so that the SINR at the receiver of each user is maximised. We solve this problem using semidefinite and geometric programming along with bisection search methods. The performance of the proposed scheme has been studied in terms of worst case SINR for various numbers of users and relays.
In this paper, we consider a two-way amplify-and-forward relaying scheme, which consists of multi... more In this paper, we consider a two-way amplify-and-forward relaying scheme, which consists of multiple transceivers and r relay nodes. Assuming that both the transceivers and the relays are equipped with single antennas, we deploy a signal-to-interference and noise-ratio (SINR) balancing technique, where the smallest of the transceivers SINRs is maximized under a total transmit power constraint. We solve this problem through an iterative procedure that uses semidefinite and geometric programming along with bisection search methods. We evaluate the performance of the proposed scheme in terms of the mean SINR for various relays and power at the relays.
ABSTRACT We propose a two-way relay based spatial multiplexing technique for a cognitive radio re... more ABSTRACT We propose a two-way relay based spatial multiplexing technique for a cognitive radio relay network (CR). The relay coefficients and the transmission powers are optimized to maximize the worst-case user signal-to interference and noise ratio (SINR), while ensuring interference leakage from the relays to the primary users (PUs) in the network is below a threshold. We solve this problem through an iterative procedure that uses semidefinite and geometric programming along with bisection search method. We evaluate the performance of the proposed scheme in terms of the mean SINR for different number of relays and transmission power at the relays.
ABSTRACT The authors investigate a spectrum sharing peer-to-peer relay network where multiple sou... more ABSTRACT The authors investigate a spectrum sharing peer-to-peer relay network where multiple source nodes with multiple antennas communicate with their desired destination nodes with multiple antennas through a multiple-input and multiple-output (MIMO) relay. The authors establish the duality between uplink and downlink peer-to-peer MIMO channels with any number of antennas at each node and demonstrate mean square error (MSE) of a downlink peer-to-peer network can be achieved in a virtual uplink network with the same total network transmission power constraint. By applying this result, the authors develop an iterative algorithm to optimise the source, relay and receiver processing matrices such that the weighted MSE of the retrieved signal at the receivers is minimised. The simulation results demonstrate satisfactory performance of the proposed algorithm.
We consider a relay network with multiple users and propose a signal-to-interference and noise-ra... more We consider a relay network with multiple users and propose a signal-to-interference and noise-ratio (SINR) balancing based relay signal forwarding scheme. Each relay receives a combined signal from multiple sources and processes it using a complex valued scalar and transmits towards the destinations so that the SINR at the receiver of each user is maximised. We solve this problem using semidefinite and geometric programming along with bisection search methods. The performance of the proposed scheme has been studied in terms of worst case SINR for various numbers of users and relays.
In this paper, we consider a two-way amplify-and-forward relaying scheme, which consists of multi... more In this paper, we consider a two-way amplify-and-forward relaying scheme, which consists of multiple transceivers and r relay nodes. Assuming that both the transceivers and the relays are equipped with single antennas, we deploy a signal-to-interference and noise-ratio (SINR) balancing technique, where the smallest of the transceivers SINRs is maximized under a total transmit power constraint. We solve this problem through an iterative procedure that uses semidefinite and geometric programming along with bisection search methods. We evaluate the performance of the proposed scheme in terms of the mean SINR for various relays and power at the relays.
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Papers by Georgia Bournaka