Your search keyword '"Mohanad M. Al-Wani"' showing total 4 results

1. Interference Cancellation via D2D CSI Sharing for MU-MISO-NOMA System With Limited Feedback

Author

Sumaya D. Awad, Asem A. Salah, Zhiguo Ding, Mohanad M. Al-Wani, Shaiful Jahari Hashim, Aduwati Sali, Chee Yen Leow, and Nor Kamariah Noordin

Subjects

Beamforming, Computer Networks and Communications, Computer science, Aerospace Engineering, medicine.disease, Precoding, Noma, Single antenna interference cancellation, Channel state information, Automotive Engineering, Telecommunications link, Electronic engineering, medicine, Bit error rate, Electrical and Electronic Engineering, Performance metric, Computer Science::Information Theory

Abstract

In downlink non-orthogonal multiple access (NOMA) with multiuser clustering, a single beamforming (BF) vector precodes the superimposed signal of strong and weak users. This precoding results in an imperfect inter-cluster interference (ICI) cancellation at weak users since the BF vectors are designed based on strong users’ channels. Also, the ICI is highly increased with the number of transmit antennas, causing severe degradation in the performance of weak users and total system. In this paper, first , a new cooperative NOMA is introduced, in which weak user beam-matching (WBM) equalizer is proposed to remove the ICI at weak users by matching weak users’ channels with the designed BF vectors. The process of WBM is accomplished with the aid of device-to-device (D2D) channel state information (CSI) sharing between the nearby strong and weak users. Second , based on WBM principle, strong user beam-matching (SBM) equalizer is proposed to eliminate the generated ICI at strong users in the case of limited feedback. Third , a new power allocation strategy is proposed to improve weak users’ performance by considering the gained throughput from interference cancellation. Finally , besides the sum-rate, which is adopted as the performance metric by most of the existing NOMA works, the bit error rate (BER) of NOMA users in cooperative NOMA is calculated and compared with those in other schemes. Simulation results show that our cooperative NOMA with the proposed equalizers achieves significant sum-rate and BER improvements over other non-cooperative schemes with both perfect and limited feedback scenarios.

Published

2021

2. Beamforming and Scheduling Techniques for Multibeam DVB-S2X Over Rainy Fading Satellite Channel

Author

Ali M. Al-Saegh, Raja Syamsul Azmir Raja Abdullah, Mohanad M. Al-Wani, Sumaya D. Awad, Aduwati Sali, and Mandeep Singh Jit Singh

Subjects

Beamforming, DVB-S2X, atmospheric impairments, General Computer Science, Computer science, Throughput, 02 engineering and technology, Precoding, 0203 mechanical engineering, Digital Video Broadcasting, 0202 electrical engineering, electronic engineering, information engineering, Electronic engineering, General Materials Science, Fading, Superframe, Amplitude and phase-shift keying, precoding, 020301 aerospace & aeronautics, BER, tropical satellite channel, General Engineering, 020206 networking & telecommunications, multibeam satellite, Modulation, Bit error rate, lcsh:Electrical engineering. Electronics. Nuclear engineering, lcsh:TK1-9971, Communication channel

Abstract

The extension of the digital video broadcasting second generation standard (DVB-S2X) for transmission over satellite has been introduced recently with its novel superframe structure, which is a key enabler for applying interference management techniques, such as precoding, to multibeam high throughput geosynchronous (GEO) satellite systems operating in the Ka-band. This paper presents the first full design of DVB-S2X system with multi-user-multiple-input-single-output (MU-MISO DVB-S2X), with most of its modulation and coding schemes (MODCODs), over rainy fading channels. The atmospheric impairments on the Ka-band satellite channel are considered, especially the rainfall effect, which is the most effective atmospheric impairment that degrades the system performance. Two rainy fading channels are designed, one for tropical region and the other for temperate region, using real rain data from these areas. In addition, the user scheduling influence on the bit error rate (BER) performance of MU-MISO DVB-S2X system is tested and compared with the conventional MISO DVB-S2X system. Simulation results show that the proposed system can achieve a significant improvement in terms of BER performance with at least 20 dB for 128 amplitude and phase shift keying (128APSK) MODCOD over the tropical channel and 14 dB for 32APSK MODCOD over temperate channel when the number of users is six. The enhancement in error rates proves that MU-MISO DVB-S2X system with scheduling can be the key solution for DVB-S2X system performance degradation in fading channels, especially rainy fading channels.

Published

2020

3. Optimal Energy Efficiency Based Power Adaptation for Downlink Multi-Cell Massive MIMO Systems

Author

Borhanuddin Mohd Ali, Oussama Messadi, Raja Syamsul Azmir Raja Abdullah, Aduwati Sali, Vahid Khodamoradi, Mohanad M. Al-Wani, and Asem A. Salah

Subjects

Mathematical optimization, Power transmission, quality of service (QoS), General Computer Science, Computer science, MIMO, General Engineering, base station (BS) transmit power, 020206 networking & telecommunications, 02 engineering and technology, Effective radiated power, Transmitter power output, Power (physics), Base station, Telecommunications link, massive MIMO, 0202 electrical engineering, electronic engineering, information engineering, 020201 artificial intelligence & image processing, General Materials Science, lcsh:Electrical engineering. Electronics. Nuclear engineering, lcsh:TK1-9971, Energy efficiency (EE), Computer Science::Information Theory, Communication channel, Efficient energy use

Abstract

In this paper, the power transmission and energy efficiency (EE) in downlink multi-cell massive multiple-input-multiple-output (MIMO) systems are investigated and optimized. Most of the existing works do not take into account different user's quality of service (QoS) requirements. These models also depend on a fixed transmit power consumption, which cannot reflect the actual EE levels concerning QoS. Therefore, in this paper, a new base station (BS) transmit power adaptation is firstly introduced, termed the BSTPA method. The transmitted power is adapted to channel condition and user-level QoS including data rate requirement and maximum allowable outage probability to minimize the total BS radiated power. An analytical closed-form expression of the average BS transmit power adaptation is derived. Then, a corresponding iterative optimization algorithm is proposed to maximize the average EE per BS and obtain the optimal design parameters. The proposed optimization algorithm aims to globally achieve the optimal EE value with the optimal amount of data rate, the number of BS antennas, and users. Simulation results are demonstrated to verify our analytical findings. For a wide range of different design parameters, the results indicate that the proposed method obtains remarkably higher EE levels compared to the conventional scenario, particularly if per-antenna circuit power is very small. The optimization results show that the case with lower per-antenna circuit power can achieve about 4.5 times better EE gain than the case with higher per-antenna circuit power with 13.3% optimum data rate improvement.

Published

2020

4. On Short Term Fairness and Throughput of User Clustering for Downlink Non-Orthogonal Multiple Access System

Author

Borhanuddin Mohd Ali, Keivan Navaie, Aduwati Sali, Chee Yen Leow, Asem A. Salah, Nor Kamariah Noordin, Shaiful Jahari Hashim, and Mohanad M. Al-Wani

Subjects

Beamforming, business.industry, Computer science, 020206 networking & telecommunications, 020302 automobile design & engineering, Throughput, 02 engineering and technology, Transmitter power output, Multiplexing, Term (time), 0203 mechanical engineering, Telecommunications link, 0202 electrical engineering, electronic engineering, information engineering, business, Throughput (business), Computer network

Abstract

Non-orthogonal multiple access (NOMA) with power-domain user multiplexing has been considered as one of the potential candidates of the fifth-Generation (5G) systems. In this paper, a two-stage user selection algorithm is proposed based on proportional fairness for downlink NOMA with zero-forcing beamforming (PF-NOMA-ZFBF) in order to improve the throughput-fairness trade-off for NOMA system. We focus on short term fairness, where short term refers to the minimum time window in which a specified fairness is guaranteed and evaluated using Jain's index. A transmit power allocation then applied to enhance the throughput of NOMA system. Simulation results show that the proposed PF-NOMA-ZFBF significantly improves user fairness index with at least 38.96% over conventional NOMA-ZFBF while maintaining the total system sum-rate (near maximum).

Published

2019