Mohammad Saquib scite author profile

Mohammad Saquib

5Publications

125Citation Statements Received

69Citation Statements Given

How they've been cited

446

124

How they cite others

119

Affiliations

The University of Texas at Dallas, Rutgers, The State University of New Jersey, Louisiana State University

Publications

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Decorrelating detectors for a dual rate synchronous DS/CDMA system

Saquib

Yates

Mandayam

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This paper addresses the use of decorraelating detectors for a dual rate DS/CDMA system that serves both low bit rate and high bit rate users. All users have tlie same BPSK modulation technique and the same chip rate. The differences in bit transmission rates result in different processing gains for each class of user. We assume that in an interval of duration TO, a low rate user transmits one bit while a high rate user transmits M bits. Applying a standard decorrelator to the iriterval of duration To yields an A4 bit processing delay for high rate users and a computational complexity that grows with M. In this paper, we propose a decorrelator that generates bit decisions for each high rate user in every subinterval of duration To/M. To decode a low rate user, a soft decodang rule is considered. The soft decoding rule will apply maximal ratio combining on M separate decorrelated outputs of each low rate user. The soft decoding dual ra,te decorrelaitor eliminates the bit processing delay for high rate users and also reduces the computational complexity of a standard decorrelator. The proposed soft decoding decorrelator is found to perform nearly as well as the standard decorrelator while retaining the near-far resistance property.

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DeepArrNet: An Efficient Deep CNN Architecture for Automatic Arrhythmia Detection and Classification From Denoised ECG Beats

2020

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In this paper, an efficient deep convolutional neural network (CNN) architecture is proposed based on depthwise temporal convolution along with a robust end-to-end scheme to automatically detect and classify arrhythmia from denoised electrocardiogram (ECG) signal, which is termed as 'DeepArrNet'. Firstly, considering the variational pattern of wavelet denoised ECG data, a realistic augmentation scheme is designed that offers a reduction in class imbalance as well as increased data variations. A structural unit, namely PTP (Pontwise-Temporal-Pointwise Convolution) unit, is designed with its variants where depthwise temporal convolutions with varying kernel sizes are incorporated along with prior and post pointwise convolution. Afterward, a deep neural network architecture is constructed based on the proposed structural unit where series of such structural units are stacked together while increasing the kernel sizes for depthwise temporal convolutions in successive units along with the residual linkage between units through feature addition. Moreover, multiple depthwise temporal convolutions are introduced with varying kernel sizes in each structural unit to make the process more efficient while strided convolutions are utilized in the residual linkage between subsequent units to compensate the increased computational complexity. This architecture provides the opportunity to explore the temporal features in between convolutional layers more optimally from different perspectives utilizing diversified temporal kernels. Extensive experimentations are carried out on two publicly available datasets to validate the proposed scheme that results in outstanding performances in all traditional evaluation metrics outperforming other state-of-the-art approaches.

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Novel Automatic Modulation Classification Using Cumulant Features for Communications via Multipath Channels

Saquib

Yun

2008

IEEE Trans. Wireless Commun.

263

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Performance Analysis of a Cognitive Network with Dynamic Spectrum Assignment to Secondary Users

Kannappa

Saquib

2010

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CovTANet: A Hybrid Tri-Level Attention-Based Network for Lesion Segmentation, Diagnosis, and Severity Prediction of COVID-19 Chest CT Scans

Mahmud

Alam

Chowdhury

et al. 2021

IEEE Trans. Ind. Inf.

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Rapid and precise diagnosis of COVID-19 is one of the major challenges faced by the global community to control the spread of this overgrowing pandemic. In this paper, a hybrid neural network is proposed, named CovTANet, to provide an end-to-end clinical diagnostic tool for early diagnosis, lesion segmentation, and severity prediction of COVID-19 utilizing chest computer tomography (CT) scans. A multi-phase optimization strategy is introduced for solving the challenges of complicated diagnosis at a very early stage of infection, where an efficient lesion segmentation network is optimized initially which is later integrated into a joint optimization framework for the diagnosis and severity prediction tasks providing feature enhancement of the infected regions. Moreover, for overcoming the challenges with diffused, blurred, and varying shaped edges of COVID lesions with novel and diverse characteristics, a novel segmentation network is introduced, namely Tri-level Attention-based Segmentation Network (TA-SegNet). This network has significantly reduced semantic gaps in subsequent encoding decoding stages, with immense parallelization of multi-scale features for faster convergence providing considerable performance improvement over traditional networks. Furthermore, a novel tri-level attention mechanism has been introduced, which is repeatedly utilized over the network, combining channel, spatial, and pixel attention schemes for faster and efficient generalization of contextual information embedded in the feature map through feature recalibration and enhancement operations. Outstanding performances have been achieved in all three-tasks through extensive experimentation on a large publicly available dataset containing 1110 chest CT-volumes that signifies the effectiveness of the proposed scheme at the current stage of the pandemic.

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Mohammad Saquib

Decorrelating detectors for a dual rate synchronous DS/CDMA system

DeepArrNet: An Efficient Deep CNN Architecture for Automatic Arrhythmia Detection and Classification From Denoised ECG Beats

Novel Automatic Modulation Classification Using Cumulant Features for Communications via Multipath Channels

Performance Analysis of a Cognitive Network with Dynamic Spectrum Assignment to Secondary Users

CovTANet: A Hybrid Tri-Level Attention-Based Network for Lesion Segmentation, Diagnosis, and Severity Prediction of COVID-19 Chest CT Scans

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