Your search keyword '"Ali Ghrayeb"' showing total 13 results

1. Self-Energized UAV-Assisted scheme for cooperative wireless relay networks

Author

Dushantha Nalin K. Jayakody, Ali Ghrayeb, Tharindu D. Ponnimbaduge Perera, and Mazen O. Hasna

Subjects

Decode-and-forward protocols, Computer Networks and Communications, Energy management, Computer science, Real-time computing, Cooperative relay communications, Aerospace Engineering, Throughput, Unmanned aerial vehicles (UAV), law.invention, Base station, RF energy harvesting, Relay, law, Inductive power transmission, Wireless, Maximum power transfer theorem, Information transmission, Wireless power transfer, Electrical and Electronic Engineering, Radio transmission, RF wireless, Cooperative communication, Information and power transfers, business.industry, Energy harvesting, Node (networking), Wireless power transfer (WPT), Finite difference method, Transmission (telecommunications), Single antenna interference cancellation, Mobile telecommunication systems, Energy transfer, Automotive Engineering, Antennas, business, End-to-end outage probabilities

Abstract

Unmanned aerial vehicles (UAVs) have recently been envisaged as an enabling technology of 5G. UAVs act as an intermediate relay node to facilitate uninterrupted, high quality communication between information sources and their destination. However, UAV energy management has been a major issue of consideration due to limited power supply, affecting flight duration. Thus, we introduce in this paper a unified energy management framework by resorting to wireless power transfer (WPT), simultaneous wireless information and power transfer (SWIPT) and self-interference (SI) energy harvesting (EH) schemes, in cooperative relay communications. In our new technique, UAVs are deployed as relays equipped with a decode and forward protocol and EH capability operating in a full-duplex (FD) mode. The UAV assists information transmission between a terrestrial base station and a user. The UAV's transmission capability is powered exclusively by the energy harvested from WPT, radio frequency signal transmitted from the source via time-switching SWIPT protocol and SI exploitation. We improve the overall system throughput by the use of FD based UAV-assisted cooperative system. In this proposed system, we formulate two optimization problems to minimize end-to-end outage probability, subject to UAV's power profile and trajectory for a DF relay scheme, respectively. The KKT conditions have been used to obtain closed-form solutions for the two formulated problems. Numerical simulation results validate all the theoretical results. We demonstrate that the performance of our proposed unified EH scheme outperforms that of existing techniques in the literature. Ministry of Human Resource Development Scopus

Published

2020

2. Bidirectional Optical Spatial Modulation for Mobile Users: Toward a Practical Design for LiFi Systems

Author

Harald Haas, Ali Ghrayeb, Majid Safari, Mohamed Amine Arfaoui, Iman Tavakkolnia, Chadi Assi, Mazen O. Hasna, and Mohammad Dehghani Soltani

Subjects

Signal Processing (eess.SP), Mobility model, Computer Networks and Communications, Computer science, Transmitter, 020206 networking & telecommunications, 02 engineering and technology, Spectral efficiency, Spatial modulation, mobility, Spatial multiplexing, blockage, optical wireless communication (OWC), spatial modulation (SM), random orientation, User equipment, FOS: Electrical engineering, electronic engineering, information engineering, 0202 electrical engineering, electronic engineering, information engineering, Benchmark (computing), Electronic engineering, Cellular network, Light fidelity (LiFi), Electrical and Electronic Engineering, Electrical Engineering and Systems Science - Signal Processing, Efficient energy use

Abstract

Among the challenges of realizing the full potential of light-fidelity (LiFi) cellular networks are user mobility, random device orientation and blockage. We study the impact of those challenges on the performance of LiFi in an indoor environment using measurement-based channel models. We adopt spatial modulation (SM), which has been shown to be energy efficient in many applications, including LiFi. We consider two configurations for placing the photodiodes (PDs) on the user equipment (UE). The first one is referred to as the screen receiver (SR) whereby all the PDs are located on one face of the UE, whereas the other one is a multi-directional receiver (MDR), in which the PDs are located on different sides of the UE. The latter configuration was motivated by the fact that SR exhibited poor performance in the presence of random device orientation and blockage. We show that MDR outperforms SR by over $10$ dB at BER of $3.8\times10^{-3}$. Moreover, an adaptive access point (AP) selection scheme for SM is considered where the number of APs are chosen adaptively in an effort to achieve the lowest energy requirement for a target BER and spectral efficiency. The user performance with random orientation and blockage in the whole room is evaluated for sitting and walking activities. For the latter, we invoke the orientation-based random waypoint (ORWP) mobility model. We also study the performance of the underlying system on the uplink channel where the same techniques are used for the downlink channel. Specifically, as the transmitted uplink power is constrained, the energy efficiency of SM is evaluated analytically. It is shown that the multi-directional transmitter (MDT) with adaptive SM is highly energy efficient. As a benchmark, we compare the performance of the proposed framework to that of the conventional spatial multiplexing system, and demonstrate the superiority of the proposed one., 30 pages, 14 figures, Journal paper

Published

2019

3. Discrete Input Signaling for Secure MISO VLC Systems with Randomly Located Eavesdroppers

Author

Chadi Assi, Mohamed Amine Arfaoui, Mazen O. Hasna, and Ali Ghrayeb

Subjects

Beamforming, VLC, Computer science, 05 social sciences, Transmitter, Visible light communication, 050801 communication & media studies, 020206 networking & telecommunications, 02 engineering and technology, Function (mathematics), Topology, 0508 media and communications, 0202 electrical engineering, electronic engineering, information engineering, Stochastic geometry, Discrete input signaling, Computer Science::Cryptography and Security, Computer Science::Information Theory, Communication channel

Abstract

We study in this paper the secrecy performance of the multiple-input single-output (MISO) visible light communication (VLC) channel in the presence of randomly located eavesdroppers. We consider a system model comprising a transmitter, equipped with multiple fixtures of LEDs, one legitimate receiver equipped with a single photo-diode (PD) and a group of randomly located (and colluding) eavesdroppers, each equipped with a single PD. We derive a closed-form expression for the average achievable secrecy rate as a function of the beamforming vector, the input distribution, and the location density of the eavesdroppers using stochastic geometry. We then investigate the optimal beamformer that maximizes the average achievable secrecy rate. We corroborate the analytical results through Monte Carlo simulations and we demonstrate substantial improvements provided by the proposed scheme over existing ones. ? 2018 IEEE. This publication was made possible by the sponsorship agreement in support of research and collaboration by Ooredoo, Doha, Qatar, by Qatar National Research Fund under NPRP Grant NPRP8-052-2-029, by FQRNT and by Concordia University, Montreal, Canada. The statements made herein are solely the responsibility of the authors. Scopus

Published

2018

4. On the Achievable Secrecy Diversity of Cooperative Networks with Untrusted Relays

Author

Chadi Assi, Mazen O. Hasna, Mohaned Chraiti, and Ali Ghrayeb

Subjects

FOS: Computer and information sciences, Interference alignment, Engineering, Computer Science - Cryptography and Security, Reliability (computer networking), Computer Science - Information Theory, Jamming, 02 engineering and technology, Data_CODINGANDINFORMATIONTHEORY, Computer security, computer.software_genre, Cooperative networks, Untrusted relays, 0203 mechanical engineering, Secure communication, Alice and Bob, secrecy diversity, Secrecy, 0202 electrical engineering, electronic engineering, information engineering, Cooperative relaying, Electrical and Electronic Engineering, Achievable secrecy rates, Cooperative communication, business.industry, Information Theory (cs.IT), Antenna transmitters, Transmitter, 020206 networking & telecommunications, 020302 automobile design & engineering, Cooperative diversity, Artificial noise, Antennas, Numerical methods, business, Communication reliabilities, computer, Cryptography and Security (cs.CR), Computer network

Abstract

Cooperative relaying is often deployed to enhance the communication reliability (i.e., diversity order) and consequently the end-to-end achievable rate. However, this raises several security concerns when the relays are untrusted, since they may have access to the relayed message. In this paper, we study the achievable secrecy diversity order of cooperative networks with untrusted relays. In particular, we consider a network with an N -antenna transmitter (Alice), K single-antenna relays, and a single-antenna destination (Bob). We consider the general scenario, where there is no relation between N and K , and therefore, K can be larger than N. Alice and Bob are assumed to be far away from each other, and all communication is done through the relays, i.e., there is no direct link. Providing secure communication while enhancing the diversity order has been shown to be very challenging. In fact, it has been shown in the literature that the maximum achievable secrecy diversity order for the adopted system model is one (while using artificial noise jamming). In this paper, we adopt a nonlinear interference alignment scheme that we have proposed recently to transmit the signals from Alice to Bob. We analyze the proposed scheme in terms of the achievable secrecy rate and secrecy diversity order. Assuming Gaussian inputs, we derive an explicit expression for the achievable secrecy rate and show analytically that a secrecy diversity order of up to \min (N,K)-1 can be achieved using the proposed technique. We provide several numerical examples to validate the obtained analytical results and demonstrate the superiority of the proposed technique to its counterparts that exist in the literature. Qatar Foundation;Qatar National Research Fund;Natural Sciences and Engineering Research Council of Canada;Concordia University Scopus

Published

2018

5. Precoded spatial modulation for the wiretap channel with relay selection and cooperative jamming

Author

Athanasios Stavridis, Zied Bouida, Harald Haas, Ali Ghrayeb, and Mazen O. Hasna

Subjects

Computer science, Jamming, 02 engineering and technology, Computer security, computer.software_genre, Relay-selection, law.invention, 0203 mechanical engineering, Relay, law, Secrecy outage probability, 0202 electrical engineering, electronic engineering, information engineering, Physical layer security, business.industry, Node (networking), Physical layer, 020302 automobile design & engineering, 020206 networking & telecommunications, Spatial modulation, Precoded spatial modulation, Bit error rate, Secrecy rate, business, computer, Computer network, Communication channel

Abstract

We propose in this paper a physical layer security (PLS) scheme for dual-hop cooperative networks in an effort to enhance the communications secrecy. The underlying model comprises a transmitting node (Alice), a legitimate node (Bob) and an eavesdropper (Eve). It is assumed that there is no direct link between Alice and Bob, and the communication between them is done through trusted relays over two phases. In the first phase, precoded spatial modulation (PSM) is employed, owing to its low interception probability, while simultaneously transmitting a jamming signal from Bob. In the second phase, the selected relay detects and transmits the intended signal, whereas the remaining relays transmit just the jamming signal received from Bob. We analyze the performance of the proposed scheme in terms of the ergodic secrecy capacity (ESC) and secrecy outage probability (SOP) where we obtain closed form expressions for those metrics. We also optimize the performance with respect to the power allocation among the participating relays in the second phase. We provide examples with numerical and simulations results through which we demonstrate the effectiveness of the proposed scheme. We also provide a comparison of the bit error rate (BER) at Bob and Eve by simulation. Scopus

Published

2017

6. A minorization-maximization algorithm for an-based mimome secrecy rate maximization

Author

Issa Khalil, Ali Ghrayeb, Prabhu Babu, Mazen O. Hasna, and Mudassir Masood

Subjects

Beamforming, Mathematical optimization, Optimization problem, algorithm, Computer science, Transmitter, 020206 networking & telecommunications, Jamming, 02 engineering and technology, Maximization, Data_CODINGANDINFORMATIONTHEORY, an-based mimome secrecy rate, 0202 electrical engineering, electronic engineering, information engineering, Benchmark (computing), Artificial noise, Algorithm, Computer Science::Cryptography and Security, Computer Science::Information Theory, Communication channel

Abstract

We consider the problem of secrecy rate maximization in a multi-input multi-output multi-eavesdropper (MIMOME) wiretap channel and present an exact solution. A general system model with a multi-antenna eavesdropper and a multi-antenna full-duplex receiver is considered. In particular, we perform joint beamforming and artificial noise optimization in an effort to maximize the achievable secrecy rate. The optimization is performed in the presence of artificial noise generated by both transmitter and legitimate receiver. The resulting optimization problem is non-convex and difficult to solve. We develop a minorization-maximization algorithm to solve the problem. It is iterative in nature and guaranteed to converge to a locally optimal solution. The results can therefore be used to benchmark existing methods. Numerical results are presented to demonstrate the efficacy of the proposed approach. This work was made possible by NPRP grant NPRP 8-052-2-029 from the Qatar National Research Fund (a member of Qatar Foundation). The statements made herein are solely the responsibility of the authors. Scopus

Published

2017

7. An Adaptive Transmission Scheme for Two-Way Relaying with Asymmetric Data Rates

Author

Ali Ghrayeb, Mazen O. Hasna, and Xuehua Zhang

Subjects

Computer Networks and Communications, Computer science, Cooperative diversity, Aerospace Engineering, Throughput, 02 engineering and technology, Data_CODINGANDINFORMATIONTHEORY, law.invention, two-way communication, 0203 mechanical engineering, Relay, law, decode-and-forward (DF), 0202 electrical engineering, electronic engineering, information engineering, Computer Science::Networking and Internet Architecture, Electrical and Electronic Engineering, Throughput (business), Computer Science::Information Theory, business.industry, hierarchical network coding, 020206 networking & telecommunications, 020302 automobile design & engineering, Hierarchical modulation, Antenna diversity, Transmission (telecommunications), Modulation, Linear network coding, Automotive Engineering, Bit error rate, network coding (NC), opportunistic user selection (OUS), business, Computer network, Communication channel

Abstract

In this paper, we address the problem of asymmetric data rates in two-way communication systems. In particular, we propose an adaptive transmission scheme that combines network coding (NC) and opportunistic user selection (OUS) with a threshold that determines which transmission mode to use. The underlying system model comprises two source nodes communicating with each other through a relay node. The source nodes are assumed to have different data rate requirements; therefore, they employ different modulation schemes. As per the proposed scheme, if the end-to-end (E2E) signal-to-noise ratio (SNR) of both users are above a specified threshold, both sources transmit over orthogonal channels, and the relay node uses hierarchical modulation and NC to relay the combined signals to both sources in the third time slot. Otherwise, the user with the better E2E SNR transmits, whereas the other user remains silent. The advantage of the proposed scheme is that it compromises between throughput and reliability. That is, when both users transmit, the throughput improves, whereas when the better user transmits, multiuser diversity is achieved. Assuming asymmetric channels, we derive exact closed-form expressions for the E2E bit error rate (BER), access probability, and throughput for this scheme and compare its performance with existing schemes. We also investigate the asymptotic performance of the proposed scheme at high SNRs where we derive the achievable diversity order for both users. We show through analytical and simulation results that the proposed scheme improves the overall system throughput, the fairness between the two users, and the transmission reliability. This all comes while achieving full spatial diversity for both users. Scopus

Published

2016

8. Joint optimization of throughput and delay over PPP interfered relay networks

Author

Young Jin Chun, Simon L. Cotton, Mazen O. Hasna, and Ali Ghrayeb

Subjects

Future wireless networks, Computer science, Correlated interference, Geometry, Throughput, 02 engineering and technology, Interference (wave propagation), law.invention, 0203 mechanical engineering, Relay, law, Internet Protocol, 0202 electrical engineering, electronic engineering, information engineering, Stochastic geometry, Transmission probabilities, Internet protocols, Cooperative communication, Probability, Stochastic systems, Wireless network, business.industry, Radio communication, Relay control systems, 020206 networking & telecommunications, 020302 automobile design & engineering, Relay network, Transmission (telecommunications), Local delays, Cochannel interference, Closed-form expression, business, Poisson point process, Computer network

Abstract

Future wireless networks are expected to achieve higher data rates and ubiquitous coverage by seamless cooperation among diverse network technologies. However, it also increases the risk of co-channel interference and introduces the possibility of correlation in the aggregated interference. To address this problem, we adopt a stochastic geometry based approach by assuming that the interfering nodes are randomly distributed according to a Poisson point process (PPP). Using this approach, we derive closed-form expressions for the successful transmission probability and local delay in relay networks with correlated interference. Additionally, we find the optimal transmission probability p that jointly maximizes the successful transmission probability and minimizes the local delay. Numerical results are provided to confirm that the proposed joint optimization strategy achieves significant performance gains compared to conventional schemes. This work was supported in part by the Engineering and Physical Sciences Research Council (EPSRC) under Grant References EP/H044191/1 and EP/L026074/1, and in part by the NPRP Grant 4-1119-2-427 from the Qatar National Research Fund (a member of Qatar Foundation). Scopus

Published

2016

9. Doppler compensation for D-STBC coded time-varying underwater acoustic channels

Author

Saed Daoud, Bahattin Karakaya, and Ali Ghrayeb

Subjects

Block code, Orthogonal frequency-division multiplexing, business.industry, Computer science, Amplify-and-forward, Doppler scaling, Equalization (audio), intercarrier interference, Equalizer, Space–time block code, symbols.namesake, Single antenna interference cancellation, resampling, Frequency domain, symbols, Transceiver, Telecommunications, business, Doppler effect, Algorithm, equalization, Communication channel

Abstract

In this paper we investigate the performance of distributed space-time block coding (D-STBC) orthogonal frequency division multiplexing (OFDM) over underwater acoustic (UWA) channels. In particular, we consider a relaying system consisting of one source, two relays, and one destination. The relays operate in amplify-and-forward (AF) mode. The underlying channels are assumed to be time-varying frequency selective channels, where the only source of time variation is the relative motion between transceivers. Alamouti D-STBC scheme is used in the second hop, and a two stage receiver is adopted at the destination: in the first stage, multiple resampling (MR) preprocessing of the received signals is performed to minimize the effect of intercarrier interference (ICI), and in the second stage ICI equalization is performed in the frequency domain to further reduce the effect of the residual ICI. To further boost the performance, successive interference cancellation (SIC) is used, where the estimates of the signals at the output of the ICI equalizer are used as tentative decisions. Compared to the single resampling (SR) front end preprocessing, simulation results show the superiority of MR front-end receiver. Also, SIC further boosts the performance, but still, there is a significant gap with respect to the ICI-free limit, when the receiver has perfect knowledge of ICI coefficients and eliminates them completely. Scopus

Published

2016

10. Adaptive network coding for spectrum sharing systems

Author

Ali Ghrayeb, Mazen O. Hasna, and Young Jin Chun

Subjects

Spectrum sharing systems, Theoretical computer science, Cognitive radio, Co-operative diversity, Data_CODINGANDINFORMATIONTHEORY, Cognitive radio network, law.invention, Network coding, Relay, law, Adaptive system, Overhead (computing), Interference constraints, Electrical and Electronic Engineering, Radio resource management, Mathematics, Computer Science::Information Theory, Probability, Cognitive relay networks, Signal to noise ratio, Economic and social effects, Applied Mathematics, node grouping, Relay control systems, Codes (symbols), Computer Science Applications, Cooperative diversity, Encoding (symbols), Kernel (statistics), Linear network coding, End-to-end outage probabilities, Outage probability, Algorithm

Abstract

In this paper, we propose an adaptive network coding scheme for cognitive relay networks comprising multiple secondary sources communicating with a common destination in the presence of multiple primary users. Conventional network coding schemes developed for cognitive radio networks normally use global encoding kernels to achieve the minimum end-to-end outage probability. Finding the global kernel is computationally inefficient especially when the number of nodes in a network changes. To this end, we propose a network coding scheme that evenly groups the codewords into multiple subsets, linearly combines the network encoded codewords over the reduced subset, and dynamically adjusts the encoding set size to minimize the end-to-end outage probability. An advantage of the proposed network coding scheme is that it achieves lower end-to-end outage probability as compared to the conventional network coding scheme over the whole signal-to-noise ratio (SNR) range with a small additional overhead. We derive closed-form expressions for the link outage probability while taking the interference constraints into consideration. We also derive the exact end-to-end outage probability of the proposed scheme and compare its performance to that of conventional fixed network coding. We show that the proposed scheme provides a trade-off between the probability of relay cooperation and network coding gain. We demonstrate through numerical examples that the proposed adaptive network coding scheme achieves gains of more than 4 dB at a target outage probability of $10^{-2} $ as compared to conventional fixed network coding schemes.

Published

2015

11. Modeling Heterogeneous Cellular Networks Interference Using Poisson Cluster Processes

Author

Mazen O. Hasna, Ali Ghrayeb, and Young Jin Chun

Subjects

Mathematical optimization, Heterogeneous cellular networks, Computer Networks and Communications, Computer science, Geometry, Poisson distribution, Outages, symbols.namesake, Coverage probabilities, Stochastic geometry, Electrical and Electronic Engineering, Wireless networks, Probability, Poisson cluster process, Stochastic geometry models of wireless networks, Stochastic systems, business.industry, Cluster process, Node (networking), Femtocell, Aggregate interference, Heterogeneous network (HetNets), Transmitter power output, Telecommunication traffic, Mobile telecommunication systems, Cellular network, symbols, Heterogeneous networks, business, Outage probability, Heterogeneous network, Computer network

Abstract

Future mobile networks are converging toward heterogeneous multitier networks, where macro-, pico-, and femto-cells are randomly deployed based on user demand. A popular approach for analyzing heterogeneous networks (HetNets) is to use stochastic geometry and treat the location of BSs as points distributed according to a homogeneous Poisson point process (PPP). However, a PPP model does not provide an accurate model for the interference when nodes are clustered around highly populated areas. This motivates us to find better ways to characterize the aggregate interference when transmitting nodes are clustered following a Poisson cluster process (PCP) while taking into consideration the fact that BSs belonging to different tiers may differ in terms of transmit power, node densities, and link reliabilities. To this end, we consider K-tier HetNets and investigate the outage probability, the coverage probability, and the average achievable rate for such networks. We compare the performance of HetNets when nodes are clustered and otherwise. By comparing these two types of networks, we conclude that the fundamental difference between a PPP and a PCP is that, for a PPP, the number of simultaneously covered mobiles and the network capacity linearly increase with K. However, for a PCP, the improvements in the coverage and the capacity diminish as K grows larger, where the curves saturate at some point. Based on these observations, we determine the scenarios that jointly maximize the average achievable rate and minimize the outage probability. Qatar National Research Fund Scopus

Published

2015

12. Modeling and analysis of an infrastructure service request queue in multichannel V2I communications

Author

Mazen O. Hasna, Chadi Assi, Ali Ghrayeb, and Maurice Khabbaz

Subjects

Standards, Computer science, Distributed computing, Real-time computing, Context (language use), Throughput, infrastructure, Blocking (statistics), Communications system, Communication systems, Vehicle to infrastructure (V2I), Quality of service, Models, Performance measurement, IEEE 802.11p, Queueing theory, Mathematical models, Mathematical model, Mechanical Engineering, vehicular, Computer simulation, Computer Science Applications, performance evaluation, queueing, Automotive Engineering, Multichannel, IEEE 1609.4

Abstract

This paper presents a concise yet comprehensive description of a multichannel vehicle-to-infrastructure communication system. Existing mathematical models for such a system overlook some of its essential behavioral characteristics such as the reneging, force termination, and, ultimately, blocking of service requests (SRs). Thus, the reported performance results obtained from these models seem to be unrealistically overoptimistic. Accordingly, in this paper, a multiserver queueing model is proposed for the purpose of accurately capturing the dynamics of the aforementioned communication system and evaluating its performance. The proposed model is renowned for its complexity and the nonexistence of closed-form analytical expressions that characterize its fundamental performance metrics. Hence, approximations were exploited as a means to enhance this model's mathematical tractability. Simulations are conducted in the context of a realistic scenario with the objective of validating the proposed approximate model, verifying its accuracy, and characterizing the system's performance in terms of several new metrics. The simulations' results indicate a cataclysmic SR blocking probability in the range of 65%-85%. Scopus

Published

2014

13. Joint optimal threshold-based relaying and ml detection in network-coded two-way relay channels

Author

Mazen O. Hasna, Xiang Nian Zeng, and Ali Ghrayeb

Subjects

Engineering, Decoding, threshold-based relaying, Electric relays, ML detections, Topology, law.invention, Cooperative networks, Network coding, Relay, law, Electronic engineering, Computer Science::Networking and Internet Architecture, Discontinuous transmission, Electrical and Electronic Engineering, Computer Science::Information Theory, Decode - and - forwards, business.industry, Node (networking), Detector, Channel coding, Binary phase shift keying, Two-way relay channels, Error propagation, Mobile telecommunication systems, Bit error rate, Error analysis, Linear network coding, business, Relay channel, Phase-shift keying, Maximum likelihood

Abstract

In this paper, we address the problem of joint optimal threshold-based relaying and maximum likelihood (ML) detection in network-coded cooperative systems. The purpose of using threshold-based relaying is to circumvent the impact of error propagation, which could lead to degrading the system diversity. For simplicity, we consider a simple network comprising two source nodes and one relay node. The relay operates in the decode-and-forward (DF) mode and employs binary network coding. The communication between the two source nodes is bidirectional, resulting in a two-way relay channel. We assume binary phase shift keying (BPSK) signaling. For a given log-likelihood ratio (LLR)-based threshold used at the relay, we derive the ML detector at the destination assuming that the destination has full knowledge of the locations of the blocked bits at the relay. We then derive an expression for the corresponding end-to-end (E2E) bit error rate (BER) performance, which is used to find the optimal threshold. We also derive two practical discontinuous transmission detectors at the destination for the purpose of identifying whether the relay is forwarding or not. The performance of one of the detectors is similar to that when the destination knows the locations of the blocked bits, whereas the performance of the other detector suffers some performance degradation. We present several numerical examples that illustrate the efficacy of the proposed scheme as compared to existing schemes. Qatar Foundation; Qatar National Research Fund Scopus

Published

2012