Azra Nazir scite author profile

PurposeThe trend of “Deep Learning for Internet of Things (IoT)” has gained fresh momentum with enormous upcoming applications employing these models as their processing engine and Cloud as their resource giant. But this picture leads to underutilization of ever-increasing device pool of IoT that has already passed 15 billion mark in 2015. Thus, it is high time to explore a different approach to tackle this issue, keeping in view the characteristics and needs of the two fields. Processing at the Edge can boost applications with real-time deadlines while complementing security.Design/methodology/approachThis review paper contributes towards three cardinal directions of research in the field of DL for IoT. The first section covers the categories of IoT devices and how Fog can aid in overcoming the underutilization of millions of devices, forming the realm of the things for IoT. The second direction handles the issue of immense computational requirements of DL models by uncovering specific compression techniques. An appropriate combination of these techniques, including regularization, quantization, and pruning, can aid in building an effective compression pipeline for establishing DL models for IoT use-cases. The third direction incorporates both these views and introduces a novel approach of parallelization for setting up a distributed systems view of DL for IoT.FindingsDL models are growing deeper with every passing year. Well-coordinated distributed execution of such models using Fog displays a promising future for the IoT application realm. It is realized that a vertically partitioned compressed deep model can handle the trade-off between size, accuracy, communication overhead, bandwidth utilization, and latency but at the expense of an additionally considerable memory footprint. To reduce the memory budget, we propose to exploit Hashed Nets as potentially favorable candidates for distributed frameworks. However, the critical point between accuracy and size for such models needs further investigation.Originality/valueTo the best of our knowledge, no study has explored the inherent parallelism in deep neural network architectures for their efficient distribution over the Edge-Fog continuum. Besides covering techniques and frameworks that have tried to bring inference to the Edge, the review uncovers significant issues and possible future directions for endorsing deep models as processing engines for real-time IoT. The study is directed to both researchers and industrialists to take on various applications to the Edge for better user experience.

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Idea plagiarism detection with recurrent neural networks and vector space model

Nazir

Mir

Qureshi

2021

IJICC

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PurposeNatural languages have a fundamental quality of suppleness that makes it possible to present a single idea in plenty of different ways. This feature is often exploited in the academic world, leading to the theft of work referred to as plagiarism. Many approaches have been put forward to detect such cases based on various text features and grammatical structures of languages. However, there is a huge scope of improvement for detecting intelligent plagiarism.Design/methodology/approachTo realize this, the paper introduces a hybrid model to detect intelligent plagiarism by breaking the entire process into three stages: (1) clustering, (2) vector formulation in each cluster based on semantic roles, normalization and similarity index calculation and (3) Summary generation using encoder-decoder. An effective weighing scheme has been introduced to select terms used to build vectors based on K-means, which is calculated on the synonym set for the said term. If the value calculated in the last stage lies above a predefined threshold, only then the next semantic argument is analyzed. When the similarity score for two documents is beyond the threshold, a short summary for plagiarized documents is created.FindingsExperimental results show that this method is able to detect connotation and concealment used in idea plagiarism besides detecting literal plagiarism.Originality/valueThe proposed model can help academics stay updated by providing summaries of relevant articles. It would eliminate the practice of plagiarism infesting the academic community at an unprecedented pace. The model will also accelerate the process of reviewing academic documents, aiding in the speedy publishing of research articles.

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Deflate‐inflate: Exploiting hashing trick for bringing inference to the edge with scalable convolutional neural networks

Nazir

Mir

Qureshi

2021

Concurrency and Computation

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With each passing year, the compelling need to bring deep learning computational models to the edge grows, as does the disparity in resource demand between these models and Internet of Things edge devices. This article employs an old trick from the book εdeflate and inflateε to bridge this gap. The proposed system uses the hashing trick to deflate the model. A uniform hash function and a neighborhood function are used to inflate the model at runtime. The neighborhood function approximates the original parameter space better than the uniform hash function according to experimental results. Compared to existing techniques for distributing the VGG-16 model over the Fog-Edge platform, our deployment strategy has a 1.7× -7.5× speedup with only 1-4 devices due to decreased memory access and better resource utilization.

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HRCT chest analysis for detection of pulmonary arterial hypertension in COVID-19 patients using convolutional neural networks

Nazir

Naaz

Qureshi

et al. 2022

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Urdu QA: Question Answering System for Urdu Language

Pandit

Nazir

2021

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Azra Nazir

Exploring compression and parallelization techniques for distribution of deep neural networks over Edge–Fog continuum – a review

Idea plagiarism detection with recurrent neural networks and vector space model

Deflate‐inflate: Exploiting hashing trick for bringing inference to the edge with scalable convolutional neural networks

HRCT chest analysis for detection of pulmonary arterial hypertension in COVID-19 patients using convolutional neural networks

Urdu QA: Question Answering System for Urdu Language

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