5 results on '"ElHalawany, Basem M."'
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2. D2D Communication for Enabling Internet-of-Things: Outage Probability Analysis.
- Author
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ElHalawany, Basem M., Ruby, Rukhsana, and Kaishun Wu
- Subjects
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PROBABILITY theory , *INTERNET of things , *COMMUNICATION , *SIMULATION methods & models , *INTERFERENCE (Telecommunication) - Abstract
This paper considers an analytical approach to evaluate the outage behavior of the device-to-device (D2D) communication, which is underlaid with cellular networks, as an enabling technology for Internet-of-Things (IoTs). In such an architecture, a group of IoT devices (IoTDs) communicate with an IoT gateway by reusing the resources of cellular users (CUEs) to enhance the spectral efficiency of the fifth-generation networks. Two interference management schemes are widely used in the literature for the sharing of D2D spectrum, namely the fixed-power margin (FPM) and the cooperative pairing (CooP) schemes. We investigate and compare the performance of the two schemes from the perspective of outage probability (OP). While satisfying the minimal performance of the system, the OP of an arbitrary pair (i.e., one IoTD and one CUE) under both schemes are derived in closed form in terms of hyper-geometric functions via the Mellin transform technique. Moreover, for the CooP scheme, an iterative alternating Dinkelbach algorithm is proposed as an outage-optimal power allocation scheme. Analytical and simulation results reveal that the CooP scheme is the outage optimum for the high SNR regime while the FPM scheme is the optimal one for the low SNR regime. Simulation results also show that the suitable power margin of the FPM scheme lies in between 2 and 3 dB. Under these two interference management schemes, the accuracy of the analytical results is verified through numerical simulation and it turns out that these are well matched. [ABSTRACT FROM AUTHOR]
- Published
- 2019
- Full Text
- View/download PDF
3. Performance Analysis of Dual-Hop Hybrid RF-UOWC NOMA Systems.
- Author
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Samir, Ahmed, Elsayed, Mohamed, El-Banna, Ahmad A. Aziz, Shafique Ansari, Imran, Rabie, Khaled, and ElHalawany, Basem M.
- Subjects
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MONTE Carlo method , *SYMBOL error rate , *OPTICAL communications , *RADIO frequency , *WIRELESS communications , *PROBABILITY theory - Abstract
The hybrid combination between underwater optical wireless communication (UOWC) and radio frequency (RF) is a vital demand for enabling communication through the air–water boundary. On the other hand, non-orthogonal multiple access (NOMA) is a key technology for enhancing system performance in terms of spectral efficiency. In this paper, we propose a downlink NOMA-based dual-hop hybrid RF-UOWC with decode and forward (DF) relaying. The UOWC channels are characterized by exponential-generalized Gamma (EGG) fading, while the RF channel is characterized by Rayleigh fading. Exact closed-form expressions of outage probabilities and approximated closed-form expressions of ergodic capacities are derived, for each NOMA individual user and the overall system as well, under the practical assumption of imperfect successive interference cancellation (SIC). These expressions are then verified via Monte-Carlo simulation for various underwater scenarios. To gain more insight into the system performance, we analyzed the asymptotic outage probabilities and the diversity order. Moreover, we formulated and solved a power allocation optimization problem to obtain an outage-optimal performance. For the sake of comparison and to highlight the achievable gain, the system performance is compared against a benchmark orthogonal multiple access (OMA)-based system. [ABSTRACT FROM AUTHOR]
- Published
- 2022
- Full Text
- View/download PDF
4. Performance of NOMA-Based Dual-Hop Hybrid Powerline-Wireless Communication Systems.
- Author
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Samir, Ahmed, Elsayed, Mohamed, El-Banna, Ahmad A. Aziz, Wu, Kaishun, and ElHalawany, Basem M.
- Subjects
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DECODE & forward communication , *TELECOMMUNICATION systems , *ADDITIVE white Gaussian noise , *CARRIER transmission on electric lines , *SYMBOL error rate , *BINOMIAL distribution , *LOGNORMAL distribution - Abstract
The mixture of wireless and power line communications (PLC) is vital for implementing new applications in smart grid and vehicular communications. In this work, we investigate the performance of non-orthogonal multiple access (NOMA) based dual-hop hybrid communication systems with decode-and-forward relay. The wireless channel is characterized by Nakagami-m fading under an additive white Gaussian noise (AWGN), while the PLC channels are characterized by Log-normal distribution with Bernoulli Gaussian noise including both background and impulsive noise components. New closed-form expressions for the outage probability, the asymptotic outage probability and ergodic capacity are derived and verified via extensive representative simulations. For more insights on the outage performance, we analyze the diversity order. Additionally, we proposed a power allocation optimization technique to achieve an outage-optimal performance. The results show that the system outage probability improves as the impulsive noise index and the arrival probability of the impulsive component of the PLC additive noise decrease, while their effect is negligible on the ergodic capacity. Finally, the performance of the proposed system is compared against a benchmark OMA-based system. [ABSTRACT FROM AUTHOR]
- Published
- 2022
- Full Text
- View/download PDF
5. When NOMA Multiplexing Meets Symbiotic Ambient Backscatter Communication: Outage Analysis.
- Author
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Elsayed, Mohamed, Samir, Ahmad, El-Banna, Ahmad A. Aziz, Li, Xingwang, and ElHalawany, Basem M.
- Subjects
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WIRELESS communications , *MOBILE communication systems , *MULTIPLEXING , *RADIO transmitter fading , *BACKSCATTERING , *MATHEMATICAL optimization - Abstract
Non-orthogonal multiple access (NOMA) and ambient backscatter communication (AmBC) have gained a lot of interest as key enabling technologies in wireless communications systems. NOMA is a key player for enhancing spectrum utilization either by multiplexing multiple messages for the same user or allowing multi-users access, while AmBC shows great potential for enhancing both spectrum and energy efficiency for battery-limited devices. In this paper, the performance of a downlink NOMA multiplexing based symbiotic-radio ($SR$) AmBC system is analyzed over Nakagami-m fading channels. New closed-form expressions for the exact and asymptotic outage probabilities are derived. Moreover, we analyze the diversity order and the influence of the system parameters on the outage performances. Besides, we proposed a power allocation optimization technique to achieve an outage-optimal performance. Through representative Monte-Carlo simulations, we have verified the analytical results. Finally, we compared the performance of the proposed system against a benchmark OMA-based system. [ABSTRACT FROM AUTHOR]
- Published
- 2022
- Full Text
- View/download PDF
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