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Your search keyword '"Alshawi, Tariq"' showing total 12 results
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12 results on '"Alshawi, Tariq"'

1. Machine Learning-Based Optical Performance Monitoring for Super-Channel Optical Networks.

Author

Saif, Waddah S., Ragheb, Amr M., Nebendahl, Bernd, Alshawi, Tariq, Marey, Mohamed, and Alshebeili, Saleh A.

Subjects
DISCRETE cosine transforms, PHASE shift keying, DISCRETE Fourier transforms, OPTICAL dispersion, SIGNAL-to-noise ratio
Abstract

In this paper, and for the first time in literature, optical performance monitoring (OPM) of super-channel optical networks is considered. In particular, we propose a novel machine learning OPM technique based on the use of transformed in-phase quadrature histogram (IQH) features and support vector regressor (SVR) to estimate different optical parameters such as optical signal-to-noise ratio (OSNR) and chromatic dispersion (CD). Two transformation methods, the two-dimensional (2D) discrete Fourier transform (DFT) and 2D discrete cosine transform (DCT), are applied to the IQH to extract features with a considerably reduced dimensionality. For the purpose of simulation, the OPM of a 7 × 20 Gbaud dual-polarization–quadrature phase shift keying (DP-QPSK) is considered. Simulations reveal that it can accurately estimate the various optical parameters (i.e., OSNR and CD) with a coefficient of determination value greater than 0.98. In addition, the effectiveness of proposed OPM scheme is examined under different values of polarization mode dispersion and frequency offset, as well as the utilization of different higher order modulation formats. Moreover, proof-of-concept experiments are performed for validation. The results show an excellent matching between the simulation and experimental findings. [ABSTRACT FROM AUTHOR]

Published
2022
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2. Performance Investigation of Modulation Format Identification in Super-Channel Optical Networks.

Author

Saif, Waddah S., Ragheb, Amr M., Nebendahl, Bernd, Alshawi, Tariq, Marey, Mohamed, and Alshebeili, Saleh A.

Abstract

The problem of automatic modulation format identification (MFI) is one of the main challenges in adaptive optical systems. In this work, we investigate MFI in super-channel optical networks. The investigation is conducted by considering the classification of seven multiplexed channels of 20 Gbaud, each with six commonly used modulation formats, including polarization division multiplexing (PDM)-BPSK, PDM-QPSK, and PDM-MQAM with (M = 8, 16, 32, 64). The classification performance is assessed under different values of optical signal-to-noise ratio (OSNR) and in the presence of channel interference, channel chromatic dispersion, phase noise, and $1^{st}$ polarization mode dispersion (PMD). Furthermore, the effect of fiber nonlinearity on the MFI accuracy is investigated. A well-established machine learning algorithm based on histogram features and a convolutional neural network has been used in this investigation. Results indicate that accurate identification accuracy can be achieved within the OSNR range of practical systems and that the MFI accuracy of side subcarriers outperforms that of middle subcarriers at a fixed value of OSNR. The results also show that the MFI accuracy of PDM-16QAM and PDM-64QAM are affected more by channel interference than the other modulation formats, especially when the ratio of the subcarrier bandwidth to subcarriers spacing is $\geq$ 1.4. Finally, laboratory experiments have been conducted for validation purposes. The experimental results were found in good agreement with those achieved by simulation. [ABSTRACT FROM AUTHOR]

Published
2022
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3. Optical Performance Monitoring in Mode Division Multiplexed Optical Networks.

Author

Saif, Waddah S., Ragheb, Amr M., Alshawi, Tariq A., and Alshebeili, Saleh A.

Abstract

This article considers, for the first time, optical performance monitoring (OPM) in few mode fiber (FMF)-based optical networks. 1-D features vector, extracted by projecting a 2-D asynchronous in-phase quadrature histogram (IQH), and the 2D IQH are proposed to achieve OPM in FMF-based network. Three machine learning algorithms are employed for OPM and their performances are compared. These include support vector machine, random forest algorithm, and convolutional neural network. Extensive simulations are conducted to monitor optical to signal ratio (OSNR), chromatic dispersion (CD), and mode coupling (MC) for dual polarization-quadrature phase shift keying (DP-QPSK) at 10, 12, 16, 20, and 28 Gbaud transmission speeds. Besides, M-ary quadrature amplitude modulation (M = 8 and 16) is considered. Also, the OPM accuracy is investigated under different FMF channel conditions including phase noise and polarization mode dispersion. Simulation results show that the proposed 1D projection features vector provides better OPM results than those of the widely used asynchronous amplitude histogram (AAH) features. Furthermore, it has been found that the 2D IQH features outperform the 1D projection features but require larger number of features samples. Additionally, the effect of fiber nonlinearity on the OPM accuracy is investigated. Finally, OPM using the 2D IQH features has been verified experimentally for 10 Gbaud DP-QPSK signal. The obtained results show a good agreement between both simulation and experimental findings. [ABSTRACT FROM AUTHOR]

Published
2021
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5. The role of visual saliency in the automation of seismic interpretation.

Author

Shafiq, Muhammad Amir, Alshawi, Tariq, Long, Zhiling, and AlRegib, Ghassan

Subjects
SEISMIC prospecting, GEOPHYSICISTS, ALGORITHMS, ELECTRONIC data processing
Abstract

ABSTRACT: In this paper, we propose a workflow based on SalSi for the detection and delineation of geological structures such as salt domes. SalSi is a seismic attribute designed based on the modelling of human visual system that detects the salient features and captures the spatial correlation within seismic volumes for delineating seismic structures. Using this attribute we cannot only highlight the neighbouring regions of salt domes to assist a seismic interpreter but also delineate such structures using a region growing method and post‐processing. The proposed delineation workflow detects the salt‐dome boundary with very good precision and accuracy. Experimental results show the effectiveness of the proposed workflow on a real seismic dataset acquired from the North Sea, F3 block. For the subjective evaluation of the results of different salt‐dome delineation algorithms, we have used a reference salt‐dome boundary interpreted by a geophysicist. For the objective evaluation of results, we have used five different metrics based on pixels, shape, and curvedness to establish the effectiveness of the proposed workflow. The proposed workflow is not only fast but also yields better results as compared with other salt‐dome delineation algorithms and shows a promising potential in seismic interpretation. [ABSTRACT FROM AUTHOR]

Published
2018
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10. Design and Low-Complexity Implementation of Matrix-Vector Multiplier for Iterative Methods in Communication Systems.

Author

Alshawi, Tariq, Bentrcia, Abdelouahab, and Alshebeili, Saleh

Subjects
ITERATIVE methods (Mathematics), TELECOMMUNICATION systems, FIELD programmable gate arrays, GATE array circuits, MATRICES (Mathematics)
Abstract

Iterative methods are basic building blocks of communication systems and often represent a dominating part of the system, and therefore, they necessitate careful design and implementation for optimal performance. In this brief, we propose a novel field programmable gate arrays design of matrix–vector multiplier that can be used to efficiently implement widely adopted iterative methods. The proposed design exploits the sparse structure of the matrix as well as the fact that spreading code matrices have equal magnitude entries. Implementation details and timing analysis results are promising and are shown to satisfy most modern communication system requirements. [ABSTRACT FROM AUTHOR]

Published
2015
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11. FPGA-based implementation of channel-blind adaptive equalizers.

Author

Alrumaih, Saud, Alghaihab, Abdullah, Ragheb, Amr, Alshawi, Tariq, Alshebeili, Saleh, and Fathallah, Habib

Abstract

Inter-Symbol Interference (ISI) is a major obstacle for reliable communication over band-limited or multi-path channels as it results in overlapped symbols at the receiver, and therefore, elevated bit-error rate. This limitation reduces the potential performance gains of high order modulation schemes to be used in modern communication standards. Blind equalization algorithms can solve such problem without the reduction in data rate that is associated with data-aided equalizers. In this paper we propose a Field Programmable Gate Array (FPGA) implementation of adaptive fractionally spaced (FSE) blind equalizer, which is both efficient and scalable. The implementation results are provided and its real-time performance on a 2-by-2 Multi-Input Multi-Output (MIMO) channel using 16-QAM modulation is validated by measuring against simulation results. [ABSTRACT FROM PUBLISHER]

Published
2013
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12. Sky Imager-Based Forecast of Solar Irradiance Using Machine Learning.

Author

Al-lahham, Anas, Theeb, Obaidah, Elalem, Khaled, A. Alshawi, Tariq, and A. Alshebeili, Saleh

Subjects
MACHINE learning, RENEWABLE energy sources, MAXIMUM power point trackers, ESTIMATION theory, SKY, ALGORITHMS, FORECASTING
Abstract

Ahead-of-time forecasting of the output power of power plants is essential for the stability of the electricity grid and ensuring uninterrupted service. However, forecasting renewable energy sources is difficult due to the chaotic behavior of natural energy sources. This paper presents a new approach to estimate short-term solar irradiance from sky images. The proposed algorithm extracts features from sky images and use learning-based techniques to estimate the solar irradiance. The performance of proposed machine learning (ML) algorithm is evaluated using two publicly available datasets of sky images. The datasets contain over 350,000 images for an interval of 16 years, from 2004 to 2020, with the corresponding global horizontal irradiance (GHI) of each image as the ground truth. Compared to the state-of-the-art computationally heavy algorithms proposed in the literature, our approach achieves competitive results with much less computational complexity for both nowcasting and forecasting up to 4 h ahead of time. [ABSTRACT FROM AUTHOR]

Published
2020
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