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Your search keyword '"Syed Thouheed Ahmed"' showing total 27 results
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27 results on '"Syed Thouheed Ahmed"'

1. Towards blockchain based federated learning in categorizing healthcare monitoring devices on artificial intelligence of medical things investigative framework

Author

Syed Thouheed Ahmed, T. R. Mahesh, E. Srividhya, V. Vinoth Kumar, Surbhi Bhatia Khan, Abdullah Albuali, and Ahlam Almusharraf

Subjects
Federated learning, Artificial intelligence of medical things, Healthcare systems, Device categorization, Device labeling, Medical technology, R855-855.5
Abstract

Abstract Categorizing Artificial Intelligence of Medical Things (AIoMT) devices within the realm of standard Internet of Things (IoT) and Internet of Medical Things (IoMT) devices, particularly at the server and computational layers, poses a formidable challenge. In this paper, we present a novel methodology for categorizing AIoMT devices through the application of decentralized processing, referred to as "Federated Learning" (FL). Our approach involves deploying a system on standard IoT devices and labeled IoMT devices for training purposes and attribute extraction. Through this process, we extract and map the interconnected attributes from a global federated cum aggression server. The aim of this terminology is to extract interdependent devices via federated learning, ensuring data privacy and adherence to operational policies. Consequently, a global training dataset repository is coordinated to establish a centralized indexing and synchronization knowledge repository. The categorization process employs generic labels for devices transmitting medical data through regular communication channels. We evaluate our proposed methodology across a variety of IoT, IoMT, and AIoMT devices, demonstrating effective classification and labeling. Our technique yields a reliable categorization index for facilitating efficient access and optimization of medical devices within global servers.

Published
2024
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2. Trained neural networking framework based skin cancer diagnosis and categorization using grey wolf optimization

Author

Amit Kumar K., Satheesha T.Y., Syed Thouheed Ahmed, Sandeep Kumar Mathivanan, Sangeetha Varadhan, and Mohd Asif Shah

Subjects
Skin cancer detection, Trained neural networks, Federated learning, Feature categorization, Medicine, Science
Abstract

Abstract Skin Cancer is caused due to the mutational differences in epidermis hormones and patch appearances. Many studies are focused on the design and development of effective approaches in diagnosis and categorization of skin cancer. The decisions are made on independent training dataset under limited editions and scenarios. In this research, the kaggle based datasets are optimized and categorized into a labeled data array towards indexing using Federated learning (FL). The technique is developed on grey wolf optimization algorithm to assure the dataset attribute dependencies are extracted and dimensional mapping is processed. The threshold value validation of the dimensional mapping datasets is effectively optimized and trained under the neural networking framework further expanded via federated learning standards. The technique has demonstrated 95.82% accuracy under GWO technique and 94.9% on inter-combination of Trained Neural Networking (TNN) framework and Recessive Learning (RL) in accuracy.

Published
2024
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3. Leveraging ANFIS with Adam and PSO optimizers for Parkinson's disease

Author

Akram Pasha, Syed Thouheed Ahmed, Ranjith Kumar Painam, Sandeep Kumar Mathivanan, Karthikeyan P, Saurav Mallik, and Hong Qin

Subjects
Artificial intelligence, Adaptive Neuro-fuzzy inference system (ANFIS), Particle swarm optimization (PSO), Parkinson's disease (PD), Neural networks, Machine learning, Science (General), Q1-390, Social sciences (General), H1-99
Abstract

Parkinson's disease (PD) is an age-related neurodegenerative disorder characterized by motor deficits, including tremor, rigidity, bradykinesia, and postural instability. According to the World Health Organization, about 1 % of the global population has been diagnosed with PD, and this figure is expected to double by 2040. Early and accurate diagnosis of PD is critical to slowing down the progression of the disease and reducing long-term disability. Due to the complexity of the disease, it is difficult to accurately diagnose it using traditional clinical tests. Therefore, it has become necessary to develop intelligent diagnostic models that can accurately detect PD. This article introduces a novel hybrid approach for accurate prediction of PD using an ANFIS with two optimizers, namely Adam and PSO. ANFIS is a type of fuzzy logic system used for nonlinear function approximation and classification, while Adam optimizer has the ability to adaptively adjust the learning rate of each individual parameter in an ANFIS at each training step, which helps the model find a better solution more quickly. PSO is a metaheuristic approach inspired by the behavior of social animals such as birds. Combining these two methods has potential to provide improved accuracy and robustness in PD diagnosis compared to existing methods. The proposed method utilized the advantages of both optimization techniques and applied them on the developed ANFIS model to maximize its prediction accuracy. This system was developed by using an open access clinical and demographic data. The chosen parameters for the ANFIS were selected through a comparative experimental analysis to optimize the model considering the number of fuzzy membership functions, number of epochs of ANFIS, and number of particles of PSO. The performance of the two ANFIS models: ANFIS (Adam) and ANFIS (PSO) focusing at ANFIS parameters and various evaluation metrics are further analyzed in detail and presented, The experimental results showed that the proposed ANFIS (PSO) shows better results in terms of loss and precision, whereas, the ANFIS (Adam) showed the better results in terms of accuracy, f1-score and recall. Thus, this adaptive neural-fuzzy algorithm provides a promising strategy for the diagnosis of PD, and show that the proposed models show their suitability for many other practical applications.

Published
2024
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4. TVFx – CoVID-19 X-Ray images classification approach using neural networks based feature thresholding technique

Author

Syed Thouheed Ahmed, Syed Muzamil Basha, Muthukumaran Venkatesan, Sandeep Kumar Mathivanan, Saurav Mallik, Najah Alsubaie, and Mohammed S. Alqahtani

Subjects
COVID-19, X-Ray image classification, Feature-alignment, Corona virus classification, COVID-19 detection, Medical technology, R855-855.5
Abstract

Abstract COVID-19, the global pandemic of twenty-first century, has caused major challenges and setbacks for researchers and medical infrastructure worldwide. The CoVID-19 influences on the patients respiratory system cause flooding of airways in the lungs. Multiple techniques have been proposed since the outbreak each of which is interdepended on features and larger training datasets. It is challenging scenario to consolidate larger datasets for accurate and reliable decision support. This research article proposes a chest X-Ray images classification approach based on feature thresholding in categorizing the CoVID-19 samples. The proposed approach uses the threshold value-based Feature Extraction (TVFx) technique and has been validated on 661-CoVID-19 X-Ray datasets in providing decision support for medical experts. The model has three layers of training datasets to attain a sequential pattern based on various learning features. The aligned feature-set of the proposed technique has successfully categorized CoVID-19 active samples into mild, serious, and extreme categories as per medical standards. The proposed technique has achieved an accuracy of 97.42% in categorizing and classifying given samples sets.

Published
2023
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5. Federated learning based futuristic biomedical big-data analysis and standardization.

Author

Afifa Salsabil Fathima, Syed Muzamil Basha, Syed Thouheed Ahmed, Sandeep Kumar Mathivanan, Sukumar Rajendran, Saurav Mallik, and Zhongming Zhao

Subjects
Medicine, Science
Abstract

Medical data processing and analytics exert significant influence in furnishing dependable decision support for prospective biomedical applications. Given the sensitive nature of medical data, specialized techniques and frameworks tailored for application-centric processing are imperative. This article presents a conceptualization for the analysis and uniformitarian of datasets through the implementation of Federated Learning (FL). The realm of medical big data stems from diverse origins, necessitating the delineation of data provenance and attribute paradigms to facilitate feature extraction and dependency assessment. The architecture governing the data collection framework is intricately linked to remote data transmission, thereby engendering efficient customization oversight. The operational methodology unfolds across four strata: the data origin layer, data acquisition layer, data classification layer, and data optimization layer. Central to this endeavor are multi-objective optimal datasets (MooM), characterized by attribute-driven feature cartography and cluster categorization through the conduit of federated learning models. The orchestration of feature synchronization and parameter extraction transpires across multiple tiers of neural networking, culminating in the provisioning of a steadfast remedy through dataset standardization and labeling. The empirical findings reflect the efficacy of the proposed technique, boasting an impressive 97.34% accuracy rate in the disentanglement and clustering of telemedicine data, facilitated by the operational servers within the ambit of the federated model.

Published
2023
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6. Neural Network Based Mental Depression Identification and Sentiments Classification Technique From Speech Signals: A COVID-19 Focused Pandemic Study

Author

Syed Thouheed Ahmed, Dollar Konjengbam Singh, Syed Muzamil Basha, Emad Abouel Nasr, Ali K. Kamrani, and Mohamed K. Aboudaif

Subjects
sentiment extraction, speech signal processing, COVID-19, mental depression, neural network, Public aspects of medicine, RA1-1270
Abstract

COVID-19 (SARS-CoV-2) was declared as a global pandemic by the World Health Organization (WHO) in February 2020. This led to previously unforeseen measures that aimed to curb its spread, such as the lockdown of cities, districts, and international travel. Various researchers and institutions have focused on multidimensional opportunities and solutions in encountering the COVID-19 pandemic. This study focuses on mental health and sentiment validations caused by the global lockdowns across the countries, resulting in a mental disability among individuals. This paper discusses a technique for identifying the mental state of an individual by sentiment analysis of feelings such as anxiety, depression, and loneliness caused by isolation and pauses to the normal chains of operations in daily life. The research uses a Neural Network (NN) to resolve and extract patterns and validate threshold trained datasets for decision making. This technique was used to validate 2,173 global speech samples, and the resulting accuracy of mental state and sentiments are identified with 93.5% accuracy in classifying the behavioral patterns of patients suffering from COVID-19 and pandemic-influenced depression.

Published
2021
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7. IMPROVING MEDICAL IMAGE PIXEL QUALITY USING MICQ UNSUPERVISED MACHINE LEARNING TECHNIQUE

Author

Syed Thouheed Ahmed, Sreedhar Kumar S, Nirmala S Guptha, Lavanya N L, Syed Muzamil Basha, and Afifa Salsabil Fathima

Subjects
General Computer Science
Abstract

Biomedical image processing and decision making is a growing research demand under global pandemic situation. The quality of medical images plays a vital role in streamlining remote diagnosis and processing via telemedicine platform, in providing unambiguous results and decision supports. This paper presents an improved Medical Image Content Quality (MICQ) technique and it aims to enrich the Magnetic Resonance (MR) image content or pixels based on semi supervised clustering technique for the process of deeper analysis and investigation to identify the normal and abnormal portions. The proposed (IMICQ) system is containing three stages namely pre-processing, clustering and validation respectively. In the pre-processing stage, the MICQ divides the MR image into finite number of non-overlapping blocks or vectors with size (2*2). Next stage, the proposed MICQ system iteratively partitions the MR image dataset or vector set into optimum number of highly relative dissimilar clusters based on K-Means clustering technique. In the last stage, the proposed system measures the quality of clustering result which obtained in the previous stage based on Effective Cluster Validation Measure (ECVM). Experimental results show that the MICQ is better suitable to improve MR image content quality for telemedicine platform and to predict the normal and abnormal portions over the image with higher accuracy ratio.

Published
2022

8. AN UNSUPERVISED MALWARE DETECTION SYSTEM FOR WINDOWS BASED SYSTEM CALL SEQUENCES

Author

Ragaventhiran J, Vigneshwaran P, Mallikarjun M Kodabagi, Syed Thouheed Ahmed, Prabu Ramadoss, and Prisma Megantoro

Subjects
General Computer Science
Abstract

Malware attacks have grown in prominence in recent years, posing severe security risks and resulting in significant financial losses. The ability to rapidly and reliably classify malware is vital to cybersecurity due to the exponential growth of malware variants. The role of artificial intelligence plays a significant role in cybersecurity industry. Recently, in the field of malware detection deep learning technique seeks more attention than the machine learning techniques due to the complexity of its behavior. Because the deep learning technique performs well than the machine learning techniques in terms of accuracy and it is well suited for large amount of data. The input attribute for the proposed model is windows-based system call sequence which is collected from NT mal detect project. In this work, the unsupervised deep learning technique used for text classification namely LSTM autoencoder and the performance of proposed model compares with existing DL methods such as CNN, RNN and LSTM with the performance parameters of accuracy, precision, recall and F1-measure.

Published
2022

9. Pneumonia Detection Using Human CT-Scan Images

Author

Sowmya Sundari L K, Anitha K, Syed Thouheed Ahmed, Amrita Dutta, Mekala Dhathri Vaishnavi, and Chandana R

Abstract

Pneumonia is a significant global health issue, causing substantial morbidity and mortality. Early and accurate diagnosis of pneumonia is crucial for effective treatment and patient management. The model is trained on a large dataset of labeled chest X-ray images, consisting of both pneumonia-positive and pneumonia-negative cases. To train the MobileNetV2 model, a transfer learning approach is adopted, where the pre-trained weights from a large-scale dataset are used as a starting point. Fine-tuning is performed by training the model on the pneumonia dataset using a combination of deep learning techniques, including data augmentation and regularization, to improve generalization and reduce overfitting. To evaluate the performance of the proposed pneumonia detection system, extensive experiments are conducted on an independent test dataset. The model's performance is assessed using various evaluation metrics, including accuracy, sensitivity, specificity, and area under the receiver operating characteristic curve (AUC-ROC). The results demonstrate the efficacy of the MobileNetV2 model in accurately detecting pneumonia from chest X-ray images, showcasing its potential for use in real-world clinical settings. In conclusion, this study presents a pneumonia detection system based on the MobileNetV2 model, offering a practical and efficient solution for automated pneumonia diagnosis. The proposed model's high accuracy and suitability for deployment on mobile devices make it a valuable tool for healthcare professionals, enabling timely and accurate diagnosis of pneumonia, thereby facilitating prompt treatment, and improving patient outcomes.&rdquo

Published
2023
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10. Detection of Inauthentic Accounts on Twitter

Author

Syed Thouheed Ahmed, Adarsha V S, B Vikas, Prommoth V M, and Punithan P

Abstract

The proposed system is to identify and detect ‘bots’, ‘spam’ or ‘fake accounts’, referred to as inauthentic accounts that mimic how people use Twitter. While some spam accounts are automated, others are run by real people, making their detection challenging. Among other things, bots can follow and be followed by other users, tweet at people, and share tweets. On Twitter, scamming spam bots are routinely observed enticing users to transmit cryptocurrency, or digital currency, to online wallets in exchange for fictitious prizes

Published
2023
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11. Epileptic Seizure Classification and Prediction Model Using Fuzzy Logic-Based Augmented Learning

Author

Syeda Noor Fathima, K. Bhanu Rekha, null Safinaz S., and Syed Thouheed Ahmed

Subjects
General Computer Science
Abstract

Epileptic Seizure (ES) is an abnormality associated with discharging of continues electric impulses from the instance of normal activity. The period and time interval of occurrence is a challenging task to record and validate. In this article, a focus is made to classify and predict the occurrence ratio of seizer based on augmented learning and fuzzy rules. The Epileptic Seizure datasets are acquired from pre-trained and validated approaches further re-trained using interdependent attributes based on augmented learning and training approach. The outcome of training is further used by fuzzy rules to classify and categorize the Epileptic Seizure based on occurrences series of patterns and time. The proposed technique is a hybrid approach and novel as segmented based learning is used to predict the seizer. The technique has recorded 92.23% accuracy in seizure classification and 89.91% in reliable prediction.

Published
2022

12. Interdependent Attribute Interference Fuzzy Neural Network-Based Alzheimer Disease Evaluation

Author

Syed Thouheed Ahmed, Manjula Sanjay Koti, V. Muthukumaran, Rose Bindu Joseph, and null Satheesh Kumar S.

Subjects
General Computer Science
Abstract

Alzheimer’s disease is associated with a fragmental protein deposits termed as biomarkers. These biomarkers are studied and researched with various techniques in improving the performance and accuracy of diagnosis. In this research article, a technique is proposed to extract the attribute of brain MRI datasets. The attributes are processed and computed using a neural networking technique to categorize attribute mapping based on Interdependent Attribute Interference (IAI). The categorized data is teamed with a fuzzy logic to provide a reliable computation rule in decision making. The proposed technique has outperformed the accuracy of disease evaluation and diagnosis with a categorization sensitivity of 89.27% and an accuracy of 93.91%.

Published
2022

13. An IoT-Based Treatment Optimization and Priority Assignment Using Machine Learning

Author

Narayana SWAMY Ramaiah and Syed Thouheed Ahmed

Abstract

In India, the resources availability with respect to demand has a larger gap in reality. For data analytics and resource scheduling for optimized access using the Internet of Things (IoT) as a data frontend collector, a machine learning technique is discussed in this paper. Telemedicine was initially considered "futuristic" and "experimental," but telemedicine is the need of this time. Telemedicine applies in a number of fields: patient care, education, science, management, and public health. The present study describes launchpad's for patient compliance. The proposed approach is aimed at achieving an integrated IoT Unit, Machine Learning Unit, and Broadcasting Unit treatment platform using an interface medium. Methods: The proposed system is designed for data collection using MSP430 and RL200 Launchpads at the patient side under sensory operations. The processed data is extracted to servers for processing and thus providing an optimized machine learning technique for resource sharing, such as drug distribution, instrumental enhancement, and appointment allocation. Novelty: The proposed system architecture utilizes user group from various locations under both rural and urban categories installing the monitoring application as discussed under the IoT unit of for data acquisition and transmission. The hardware kit is aided with MSP430 and supporting Wi-Fi for connectivity to cloud servers. Findings: In the future stage of experiment and setup, MSP430 was replaced by RL200 with a built-in Wi-Fi module for easy connectivity and achieve compactness. The proposed technique has achieved satisfactory results for open datasets under the Hadoop environment.

Published
2022

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