Your search keyword '"Jamil, Sonain"' showing total 19 results

1. Learning-driven lossy image compression: A comprehensive survey

Author

Jamil, Sonain, Piran, Md. Jalil, Rahman, MuhibUr, and Kwon, Oh-Jin

Published

2023

2. An efficient and robust Phonocardiography (PCG)-based Valvular Heart Diseases (VHD) detection framework using Vision Transformer (ViT)

Author

Jamil, Sonain and Roy, Arunabha M.

Published

2023

3. Next-Gen Dynamic Hand Gesture Recognition: MediaPipe, Inception-v3 and LSTM-Based Enhanced Deep Learning Model.

Author

Yaseen, Kwon, Oh-Jin, Kim, Jaeho, Jamil, Sonain, Lee, Jinhee, and Ullah, Faiz

Subjects

DEEP learning, APPLICATION software, VIRTUAL reality, GESTURE, ALGORITHMS, AUGMENTED reality, COMPUTER vision

Abstract

Gesture recognition is crucial in computer vision-based applications, such as drone control, gaming, virtual and augmented reality (VR/AR), and security, especially in human–computer interaction (HCI)-based systems. There are two types of gesture recognition systems, i.e., static and dynamic. However, our focus in this paper is on dynamic gesture recognition. In dynamic hand gesture recognition systems, the sequences of frames, i.e., temporal data, pose significant processing challenges and reduce efficiency compared to static gestures. These data become multi-dimensional compared to static images because spatial and temporal data are being processed, which demands complex deep learning (DL) models with increased computational costs. This article presents a novel triple-layer algorithm that efficiently reduces the 3D feature map into 1D row vectors and enhances the overall performance. First, we process the individual images in a given sequence using the MediaPipe framework and extract the regions of interest (ROI). The processed cropped image is then passed to the Inception-v3 for the 2D feature extractor. Finally, a long short-term memory (LSTM) network is used as a temporal feature extractor and classifier. Our proposed method achieves an average accuracy of more than 89.7%. The experimental results also show that the proposed framework outperforms existing state-of-the-art methods. [ABSTRACT FROM AUTHOR]

Published

2024

4. Introducing PneumNet—A Groundbreaking Dual Version Deep Learning Model for Pneumonia Disease Detection.

Author

Aurangzeb, Khursheed, Jamil, Sonain, and Alhussein, Musaed

Subjects

*CONVOLUTIONAL neural networks, *DEEP learning, *CONGREGATE housing, *FEATURE extraction, *COMMUNICABLE diseases

Abstract

The Internet of Medical Things (IoMT) has revolutionized healthcare, particularly in ambient assisted living (AAL). Deep learning has emerged as a powerful tool for identifying disorders and making health‐related decisions. Pneumonia, a dangerous and contagious disease, has a significant global impact. Prompt and accurate diagnosis is crucial, but traditional methods are time‐consuming and require specialized expertise. This research introduces PneumNet, a novel deep‐learning model. PneumNet consists of two versions: PneumNet v1.0 and PneumNet v2.0. The comparative analysis demonstrates PneumNet's exceptional performance. The top model achieves 99.84% accuracy, 99.87% F1‐score, 99.74% sensitivity, 100% specificity, 100% positive predictive value (PPV), and 99.58% negative predictive value (NPV). PneumNet outperforms other methods, accurately diagnosing pneumonia and improving treatment outcomes. By leveraging deep convolutional neural networks (D‐CNNs), PneumNet provides an efficient and accurate solution for pneumonia detection. These findings highlight the significance of D‐CNNs, particularly the proposed PneumNet model, in enhancing pneumonia detection accuracy and reducing mortality rates. IoMT and deep learning pave the way for transformative advancements in healthcare. [ABSTRACT FROM AUTHOR]

Published

2024

5. Review of Image Quality Assessment Methods for Compressed Images.

Author

Jamil, Sonain

Subjects

IMAGE compression, RESEARCH personnel, SPEED measurements

Abstract

The compression of images for efficient storage and transmission is crucial in handling large data volumes. Lossy image compression reduces storage needs but introduces perceptible distortions affected by content, compression levels, and display environments. Each compression method generates specific visual anomalies like blocking, blurring, or color shifts. Standardizing efficient lossy compression necessitates evaluating perceptual quality. Objective measurements offer speed and cost efficiency, while subjective assessments, despite their cost and time implications, remain the gold standard. This paper delves into essential research queries to achieve visually lossless images. The paper describes the influence of compression on image quality, appropriate objective image quality metrics (IQMs), and the effectiveness of subjective assessment methods. It also provides an overview of the existing literature, surveys, and subjective and objective image quality assessment (IQA) methods. Our aim is to offer insights, identify challenges in existing methodologies, and assist researchers in selecting the most effective assessment approach for their needs. [ABSTRACT FROM AUTHOR]

Published

2024

6. A Comprehensive Survey on the Investigation of Machine-Learning-Powered Augmented Reality Applications in Education.

Author

Khan, Haseeb Ali, Jamil, Sonain, Piran, Md. Jalil, Kwon, Oh-Jin, and Lee, Jong-Weon

Subjects

AUGMENTED reality, MACHINE learning, OBJECT recognition algorithms, EVIDENCE gaps, CONVOLUTIONAL neural networks

Abstract

Machine learning (ML) is enabling augmented reality (AR) to gain popularity in various fields, including gaming, entertainment, healthcare, and education. ML enhances AR applications in education by providing accurate visualizations of objects. For AR systems, ML algorithms facilitate the recognition of objects and gestures from kindergarten through university. The purpose of this survey is to provide an overview of various ways in which ML techniques can be applied within the field of AR within education. The first step is to describe the background of AR. In the next step, we discuss the ML models that are used in AR education applications. Additionally, we discuss how ML is used in AR. Each subgroup's challenges and solutions can be identified by analyzing these frameworks. In addition, we outline several research gaps and future research directions in ML-based AR frameworks for education. [ABSTRACT FROM AUTHOR]

Published

2024

7. A Novel Multimedia Player for International Standard—JPEG Snack

Author

Jamil, Sonain, Kwon, Oh-Jin, Lee, Jinhee, Ullah, Faiz, Yaseen, and Afnan

Subjects

multimedia, JPEG Snack, international standard, short content, multimedia player

Abstract

The advancement in mobile communication and technologies has led to the usage of short-form digital content increasing daily. This short-form content is mainly based on images that urged the joint photographic experts’ group (JPEG) to introduce a novel international standard, JPEG Snack (International Organization for Standardization (ISO)/ International Electrotechnical Commission (IEC) IS, 19566-8). In JPEG Snack, the multimedia content is embedded into a main background JPEG file, and the resulting JPEG Snack file is saved and transmitted as a .jpg file. If someone does not have a JPEG Snack Player, their device decoder will treat it as a JPEG file and display a background image only. As the standard has been proposed recently, the JPEG Snack Player is needed. In this article, we present a methodology to develop JPEG Snack Player. JPEG Snack Player uses a JPEG Snack decoder and renders media objects on the background JPEG file according to the instructions in the JPEG Snack file. We also present some results and computational complexity metrics for the JPEG Snack Player.

Published

2023

8. A Comprehensive Survey of Digital Twins in Healthcare in the Era of Metaverse.

Author

Turab, Muhammad and Jamil, Sonain

Subjects

*DIGITAL twins, *MEDICAL care, *DEEP learning, *INTELLIGENT personal assistants, *ARTIFICIAL intelligence

Abstract

Digital twins (DTs) are becoming increasingly popular in various industries, and their potential for healthcare in the metaverse continues to attract attention. The metaverse is a virtual world where individuals interact with digital replicas of themselves and the environment. This paper focuses on personalized and precise medicine and examines the current application of DTs in healthcare within the metaverse. Healthcare practitioners may use immersive virtual worlds to replicate medical scenarios, improve teaching experiences, and provide personalized care to patients. However, the integration of DTs in the metaverse poses technical, regulatory, and ethical challenges that need to be addressed, including data privacy, standards, and accessibility. Through this examination, we aim to provide insights into the transformative potential of DTs in healthcare within the metaverse and encourage further research and development in this exciting domain. [ABSTRACT FROM AUTHOR]

Published

2023

9. A Comprehensive Survey of Transformers for Computer Vision.

Author

Jamil, Sonain, Jalil Piran, Md., and Kwon, Oh-Jin

Published

2023

10. Subjective Assessment of Objective Image Quality Metrics Range Guaranteeing Visually Lossless Compression.

Author

Afnan, Ullah, Faiz, Yaseen, Lee, Jinhee, Jamil, Sonain, and Kwon, Oh-Jin

Subjects

JPEG (Image coding standard), IMAGE compression, LOSSLESS data compression, CAMCORDERS, COMPUTER software testing, IMAGE transmission

Abstract

The usage of media such as images and videos has been extensively increased in recent years. It has become impractical to store images and videos acquired by camera sensors in their raw form due to their huge storage size. Generally, image data is compressed with a compression algorithm and then stored or transmitted to another platform. Thus, image compression helps to reduce the storage size and transmission cost of the images and videos. However, image compression might cause visual artifacts, depending on the compression level. In this regard, performance evaluation of the compression algorithms is an essential task needed to reconstruct images with visually or near-visually lossless quality in case of lossy compression. The performance of the compression algorithms is assessed by both subjective and objective image quality assessment (IQA) methodologies. In this paper, subjective and objective IQA methods are integrated to evaluate the range of the image quality metrics (IQMs) values that guarantee the visually or near-visually lossless compression performed by the JPEG 1 standard (ISO/IEC 10918). A novel "Flicker Test Software" is developed for conducting the proposed subjective and objective evaluation study. In the flicker test, the selected test images are subjectively analyzed by subjects at different compression levels. The IQMs are calculated at the previous compression level, when the images were visually lossless for each subject. The results analysis shows that the objective IQMs with more closely packed values having the least standard deviation that guaranteed the visually lossless compression of the images with JPEG 1 are the feature similarity index measure (FSIM), the multiscale structural similarity index measure (MS-SSIM), and the information content weighted SSIM (IW-SSIM), with average values of 0.9997, 0.9970, and 0.9970 respectively. [ABSTRACT FROM AUTHOR]

Published

2023

11. Automatic Sequential Stitching of High-Resolution Panorama for Android Devices Using Precapture Feature Detection and the Orientation Sensor.

Author

Yaseen, Kwon, Oh-Jin, Lee, Jinhee, Ullah, Faiz, Jamil, Sonain, and Kim, Jae Soo

Subjects

PANORAMAS, SMARTPHONES, CELL phones, IMAGE processing, DETECTORS

Abstract

Image processing on smartphones, which are resource-limited devices, is challenging. Panorama generation on modern mobile phones is a requirement of most mobile phone users. This paper presents an automatic sequential image stitching algorithm with high-resolution panorama generation and addresses the issue of stitching failure on smartphone devices. A robust method is used to automatically control the events involved in panorama generation from image capture to image stitching on Android operating systems. The image frames are taken in a firm spatial interval using the orientation sensor included in smartphone devices. The features-based stitching algorithm is used for panorama generation, with a novel modification to address the issue of stitching failure (inability to find local features causes this issue) when performing sequential stitching over mobile devices. We also address the issue of distortion in sequential stitching. Ultimately, in this study, we built an Android application that can construct a high-resolution panorama sequentially with automatic frame capture based on an orientation sensor and device rotation. We present a novel research methodology (called "Sense-Panorama") for panorama construction along with a development guide for smartphone developers. Based on our experiments, performed by Samsung Galaxy SM-N960N, which carries system on chip (SoC) as Qualcomm Snapdragon 845 and a CPU of 4 × 2.8 GHz Kyro 385, our method can generate a high-resolution panorama. Compared to the existing methods, the results show improvement in visual quality for both subjective and objective evaluation. [ABSTRACT FROM AUTHOR]

Published

2023

12. Distinguishing Malicious Drones Using Vision Transformer.

Author

Jamil, Sonain, Abbas, Muhammad Sohail, and Roy, Arunabha M.

Subjects

*ARTIFICIAL neural networks, *CONVOLUTIONAL neural networks, *VISION, *MILITARY service

Abstract

Drones are commonly used in numerous applications, such as surveillance, navigation, spraying pesticides in autonomous agricultural systems, various military services, etc., due to their variable sizes and workloads. However, malicious drones that carry harmful objects are often adversely used to intrude restricted areas and attack critical public places. Thus, the timely detection of malicious drones can prevent potential harm. This article proposes a vision transformer (ViT) based framework to distinguish between drones and malicious drones. In the proposed ViT based model, drone images are split into fixed-size patches; then, linearly embeddings and position embeddings are applied, and the resulting sequence of vectors is finally fed to a standard ViT encoder. During classification, an additional learnable classification token associated to the sequence is used. The proposed framework is compared with several handcrafted and deep convolutional neural networks (D-CNN), which reveal that the proposed model has achieved an accuracy of 98.3%, outperforming various handcrafted and D-CNNs models. Additionally, the superiority of the proposed model is illustrated by comparing it with the existing state-of-the-art drone-detection methods. [ABSTRACT FROM AUTHOR]

Published

2022

13. A Comprehensive Survey of Digital Twins and Federated Learning for Industrial Internet of Things (IIoT), Internet of Vehicles (IoV) and Internet of Drones (IoD).

Author

Jamil, Sonain, Rahman, MuhibUr, and Fawad

Published

2022

14. A Novel Deep-Learning-Based Framework for the Classification of Cardiac Arrhythmia.

Author

Jamil, Sonain and Rahman, MuhibUr

Subjects

ARRHYTHMIA, CONVOLUTIONAL neural networks, WAVELET transforms, MYOCARDIAL infarction, INTEROCEPTION

Abstract

Cardiovascular diseases (CVDs) are the primary cause of death. Every year, many people die due to heart attacks. The electrocardiogram (ECG) signal plays a vital role in diagnosing CVDs. ECG signals provide us with information about the heartbeat. ECGs can detect cardiac arrhythmia. In this article, a novel deep-learning-based approach is proposed to classify ECG signals as normal and into sixteen arrhythmia classes. The ECG signal is preprocessed and converted into a 2D signal using continuous wavelet transform (CWT). The time–frequency domain representation of the CWT is given to the deep convolutional neural network (D-CNN) with an attention block to extract the spatial features vector (SFV). The attention block is proposed to capture global features. For dimensionality reduction in SFV, a novel clump of features (CoF) framework is proposed. The k-fold cross-validation is applied to obtain the reduced feature vector (RFV), and the RFV is given to the classifier to classify the arrhythmia class. The proposed framework achieves 99.84% accuracy with 100% sensitivity and 99.6% specificity. The proposed algorithm outperforms the state-of-the-art accuracy, F1-score, and sensitivity techniques. [ABSTRACT FROM AUTHOR]

Published

2022

15. Resource Allocation Using Reconfigurable Intelligent Surface (RIS)-Assisted Wireless Networks in Industry 5.0 Scenario.

Author

Jamil, Sonain, Rahman, MuhibUr, Abbas, Muhammad Sohail, and Fawad

Subjects

RESOURCE allocation, WIRELESS channels, TELECOMMUNICATION systems, NONLINEAR equations, QUALITY of service, RADIO networks

Abstract

Mobile communication networks evolved from first-generation (1G) to sixth-generation (6G) and the requirement for quality of services (QoS) and higher bandwidth increased. The evolvement of 6G can be deployed in industry 5.0 to fulfill the future industry requirement. However, deploying 6G in industry 6.0 is very challenging, and installing a reconfigurable intelligent surface (RIS) is an efficient solution. RIS contains the passive elements which are programmed for the tuning of a wireless channel. We formulate an optimization problem to allocate resources in the RIS-supported network. This article presents a mixed-integer non-linear programable problem (MINLP) considering the industry 5.0 scenario and proposes a novel algorithm to solve the optimization problem. We obtain the ϵ optimal solution using the proposed algorithm. The proposed algorithm is evaluated in energy efficiency (EE), throughput, latency, and channel allocation. We compare the performance of several algorithms, and the proposed algorithm outperforms all the algorithms. [ABSTRACT FROM AUTHOR]

Published

2022

16. A Dual-Stage Vocabulary of Features (VoF)-Based Technique for COVID-19 Variants' Classification.

Author

Jamil, Sonain and Rahman, MuhibUr

Subjects

FEATURE extraction, CONVOLUTIONAL neural networks, SARS-CoV-2, COVID-19, DEEP learning, X-ray imaging

Abstract

Novel coronavirus, known as COVID-19, is a very dangerous virus. Initially detected in China, it has since spread all over the world causing many deaths. There are several variants of COVID-19, which have been categorized into two major groups. These groups are variants of concern and variants of interest. Variants of concern are more dangerous, and there is a need to develop a system that can detect and classify COVID-19 and its variants without touching an infected person. In this paper, we propose a dual-stage-based deep learning framework to detect and classify COVID-19 and its variants. CT scans and chest X-ray images are used. Initially, the detection is done through a convolutional neural network, and then spatial features are extracted with deep convolutional models, while handcrafted features are extracted from several handcrafted descriptors. Both spatial and handcrafted features are combined to make a feature vector. This feature vector is called the vocabulary of features (VoF), as it contains spatial and handcrafted features. This feature vector is fed as an input to the classifier to classify different variants. The proposed model is evaluated based on accuracy, F1-score, specificity, sensitivity, specificity, Cohen's kappa, and classification error. The experimental results show that the proposed method outperforms all the existing state-of-the-art methods. [ABSTRACT FROM AUTHOR]

Published

2021

17. Bag of Features (BoF) Based Deep Learning Framework for Bleached Corals Detection.

Author

Jamil, Sonain, Rahman, MuhibUr, and Haider, Amir

Subjects

DEEP learning, BIODIVERSITY, CORAL reefs & islands, MARINE pollution, HEART diseases

Abstract

Coral reefs are the sub-aqueous calcium carbonate structures collected by the invertebrates known as corals. The charm and beauty of coral reefs attract tourists, and they play a vital role in preserving biodiversity, ceasing coastal erosion, and promoting business trade. However, they are declining because of over-exploitation, damaging fishery, marine pollution, and global climate changes. Also, coral reefs help treat human immune-deficiency virus (HIV), heart disease, and coastal erosion. The corals of Australia’s great barrier reef have started bleaching due to the ocean acidification, and global warming, which is an alarming threat to the earth’s ecosystem. Many techniques have been developed to address such issues. However, each method has a limitation due to the low resolution of images, diverse weather conditions, etc. In this paper, we propose a bag of features (BoF) based approach that can detect and localize the bleached corals before the safety measures are applied. The dataset contains images of bleached and unbleached corals, and various kernels are used to support the vector machine so that extracted features can be classified. The accuracy of handcrafted descriptors and deep convolutional neural networks is analyzed and provided in detail with comparison to the current method. Various handcrafted descriptors like local binary pattern, a histogram of an oriented gradient, locally encoded transform feature histogram, gray level co-occurrence matrix, and completed joint scale local binary pattern are used for feature extraction. Specific deep convolutional neural networks such as AlexNet, GoogLeNet, VGG-19, ResNet-50, Inception v3, and CoralNet are being used for feature extraction. From experimental analysis and results, the proposed technique outperforms in comparison to the current state-of-the-art methods. The proposed technique achieves 99.08% accuracy with a classification error of 0.92%. A novel bleached coral positioning algorithm is also proposed to locate bleached corals in the coral reef images. [ABSTRACT FROM AUTHOR]

Published

2021

18. Energy Efficiency and Throughput Maximization Using Millimeter Waves–Microwaves HetNets.

Author

Jamil, Sonain, Rahman, MuhibUr, Tanveer, Jawad, and Haider, Amir

Subjects

ENERGY consumption, MILLIMETER waves, PARTICLE swarm optimization, APPROXIMATION algorithms, GENETIC algorithms, HALL effect, OCEAN waves

Abstract

The deployment of millimeter waves can fulfil the stringent requirements of high bandwidth and high energy efficiency in fifth generation (5G) networks. Still, millimeter waves communication is challenging because it requires line of sight (LOS). The heterogeneous network (HetNet) of millimeter waves and microwaves solves this problem. This paper proposes a millimeter -microwaves heterogeneous HetNet deployed in an indoor factory (InF). In InF, the manufacturing and production are performed inside big and small halls. We consider non standalone dual-mode base stations (DMBS) working on millimeter waves and microwaves. We analyze the network in terms of throughput and energy efficiency (EE). We formulate mixed-integer-non-linear-programming (MINLP) to maximize the throughput and EE of the network. The formulated problem is a complex optimization problem and hard to solve with exhaustive search. We propose a novel outer approximation algorithm (OAA) to solve this problem, and the proposed algorithm OAA achieves optimal solution at β = 10−3. At this β, the average throughput value obtained is approximately 50 Mbps, whereas the value of EE is 4.4 Mbits/J. We also compare the performance of OAA with the mesh-adaptive-direct-search-algorithm (NOMAD), and the experimental results verify that OAA outperforms NOMAD in terms of throughput and EE maximization. We also compare the performance of OAA with particle swarm optimization (PSO), genetic algorithm (GA), and many others optimization algorithms. Experimental results verify that OAA outperforms all other algorithms. [ABSTRACT FROM AUTHOR]

Published

2022

19. Malicious UAV Detection Using Integrated Audio and Visual Features for Public Safety Applications.

Author

Jamil, Sonain, Fawad, Rahman, MuhibUr, Ullah, Amin, Badnava, Salman, Forsat, Masoud, and Mirjavadi, Seyed Sajad

Subjects

*PUBLIC safety, *SUPPORT vector machines, *REMOTELY piloted vehicles, *DRONE aircraft, *THUNDERSTORMS

Abstract

Unmanned aerial vehicles (UAVs) have become popular in surveillance, security, and remote monitoring. However, they also pose serious security threats to public privacy. The timely detection of a malicious drone is currently an open research issue for security provisioning companies. Recently, the problem has been addressed by a plethora of schemes. However, each plan has a limitation, such as extreme weather conditions and huge dataset requirements. In this paper, we propose a novel framework consisting of the hybrid handcrafted and deep feature to detect and localize malicious drones from their sound and image information. The respective datasets include sounds and occluded images of birds, airplanes, and thunderstorms, with variations in resolution and illumination. Various kernels of the support vector machine (SVM) are applied to classify the features. Experimental results validate the improved performance of the proposed scheme compared to other related methods. [ABSTRACT FROM AUTHOR]

Published

2020