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1. Adamic–Adar similarity indexed Wald boost data classification for diabetic disease diagnosis with big data

Author

Ravichandran M, Saravanan Srinivasan, Sandeep Kumar Mathivanan, Hariharan Rajadurai, Benjula Anbu Malar M.B, Saurav Mallik, and Hong Qin

Subjects
Healthcare data, Diabetic disease diagnosis, Quadratic boost classification, Adamic–Adar similarity index, Information technology, T58.5-58.64, Electronic computers. Computer science, QA75.5-76.95
Abstract

Big data contains vast amounts of information that can be processed in the future, leading to improved prediction outcomes. In the realm of big healthcare data, analyzing and preventing hospital errors, along with disease prevention and cost savings, are crucial. Healthcare data analysts play a pivotal role in enhancing healthcare outcomes by gathering, integrating, and analyzing data from diverse sources. Disease diagnosis involves identifying the disease or condition underlying a person's symptoms and signs. Ensemble learning methods, utilized in science and technology, have introduced various classification and clustering techniques to achieve more accurate and time-efficient disease diagnosis. To address these challenges, we introduce the Adamic–Adar Similarity Indexed Wald Boost Data Classification (AASIWBDC) Technique. This technique conducts feature selection and data classification to enhance the efficiency of diabetic disease diagnosis. It utilizes the Adamic–Adar Similarity Index to gauge the similarity between features and their objectives. Leveraging selected features, the AASIWBDC Technique implements the Wald Boost Classification Process to categorize patient data into normal and abnormal groups with greater accuracy. As a result, it achieves effective diabetic disease diagnosis in an efficient manner. We evaluate the performance of the AASIWBDC Technique in terms of diabetic disease diagnosis accuracy, diagnosis time, and error rate using the Diabetes 130-US hospitals dataset from 1999–2008. Experimental results illustrate that the AASIWBDC Technique enhances diabetic disease diagnosis accuracy, reduces diagnosis time, and lowers error rates compared to conventional methods.

Published
2024
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3. Robust brain tumor classification by fusion of deep learning and channel-wise attention mode approach

Author

Balamurugan A.G, Saravanan Srinivasan, Preethi D, Monica P, Sandeep Kumar Mathivanan, and Mohd Asif Shah

Subjects
Brain tumor, Deep learning, ResNet101, CWAM, Attention mechanism, Medical technology, R855-855.5
Abstract

Abstract Diagnosing brain tumors is a complex and time-consuming process that relies heavily on radiologists’ expertise and interpretive skills. However, the advent of deep learning methodologies has revolutionized the field, offering more accurate and efficient assessments. Attention-based models have emerged as promising tools, focusing on salient features within complex medical imaging data. However, the precise impact of different attention mechanisms, such as channel-wise, spatial, or combined attention within the Channel-wise Attention Mode (CWAM), for brain tumor classification remains relatively unexplored. This study aims to address this gap by leveraging the power of ResNet101 coupled with CWAM (ResNet101-CWAM) for brain tumor classification. The results show that ResNet101-CWAM surpassed conventional deep learning classification methods like ConvNet, achieving exceptional performance metrics of 99.83% accuracy, 99.21% recall, 99.01% precision, 99.27% F1-score and 99.16% AUC on the same dataset. This enhanced capability holds significant implications for clinical decision-making, as accurate and efficient brain tumor classification is crucial for guiding treatment strategies and improving patient outcomes. Integrating ResNet101-CWAM into existing brain classification software platforms is a crucial step towards enhancing diagnostic accuracy and streamlining clinical workflows for physicians.

Published
2024
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4. Detection of Parkinson disease using multiclass machine learning approach

Author

Saravanan Srinivasan, Parthasarathy Ramadass, Sandeep Kumar Mathivanan, Karthikeyan Panneer Selvam, Basu Dev Shivahare, and Mohd Asif Shah

Subjects
Machine learning, Feed-forward neural network, RandomizedSearchCV, SMOTE, Voice signal feature, Medicine, Science
Abstract

Abstract Parkinson’s Disease (PD) is a prevalent neurological condition characterized by motor and cognitive impairments, typically manifesting around the age of 50 and presenting symptoms such as gait difficulties and speech impairments. Although a cure remains elusive, symptom management through medication is possible. Timely detection is pivotal for effective disease management. In this study, we leverage Machine Learning (ML) and Deep Learning (DL) techniques, specifically K-Nearest Neighbor (KNN) and Feed-forward Neural Network (FNN) models, to differentiate between individuals with PD and healthy individuals based on voice signal characteristics. Our dataset, sourced from the University of California at Irvine (UCI), comprises 195 voice recordings collected from 31 patients. To optimize model performance, we employ various strategies including Synthetic Minority Over-sampling Technique (SMOTE) for addressing class imbalance, Feature Selection to identify the most relevant features, and hyperparameter tuning using RandomizedSearchCV. Our experimentation reveals that the FNN and KSVM models, trained on an 80–20 split of the dataset for training and testing respectively, yield the most promising results. The FNN model achieves an impressive overall accuracy of 99.11%, with 98.78% recall, 99.96% precision, and a 99.23% f1-score. Similarly, the KSVM model demonstrates strong performance with an overall accuracy of 95.89%, recall of 96.88%, precision of 98.71%, and an f1-score of 97.62%. Overall, our study showcases the efficacy of ML and DL techniques in accurately identifying PD from voice signals, underscoring the potential for these approaches to contribute significantly to early diagnosis and intervention strategies for Parkinson’s Disease.

Published
2024
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5. Enhancing cervical cancer detection and robust classification through a fusion of deep learning models

Author

Sandeep Kumar Mathivanan, Divya Francis, Saravanan Srinivasan, Vaibhav Khatavkar, Karthikeyan P, and Mohd Asif Shah

Subjects
Cervical cancer, Classification, Pap smear, Deep neural network, Machine learning, Medicine, Science
Abstract

Abstract Cervical cancer, the second most prevalent cancer affecting women, arises from abnormal cell growth in the cervix, a crucial anatomical structure within the uterus. The significance of early detection cannot be overstated, prompting the use of various screening methods such as Pap smears, colposcopy, and Human Papillomavirus (HPV) testing to identify potential risks and initiate timely intervention. These screening procedures encompass visual inspections, Pap smears, colposcopies, biopsies, and HPV-DNA testing, each demanding the specialized knowledge and skills of experienced physicians and pathologists due to the inherently subjective nature of cancer diagnosis. In response to the imperative for efficient and intelligent screening, this article introduces a groundbreaking methodology that leverages pre-trained deep neural network models, including Alexnet, Resnet-101, Resnet-152, and InceptionV3, for feature extraction. The fine-tuning of these models is accompanied by the integration of diverse machine learning algorithms, with ResNet152 showcasing exceptional performance, achieving an impressive accuracy rate of 98.08%. It is noteworthy that the SIPaKMeD dataset, publicly accessible and utilized in this study, contributes to the transparency and reproducibility of our findings. The proposed hybrid methodology combines aspects of DL and ML for cervical cancer classification. Most intricate and complicated features from images can be extracted through DL. Further various ML algorithms can be implemented on extracted features. This innovative approach not only holds promise for significantly improving cervical cancer detection but also underscores the transformative potential of intelligent automation within the realm of medical diagnostics, paving the way for more accurate and timely interventions.

Published
2024
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6. BSDN-HMTD: A blockchain supported SDN framework for detecting DDoS attacks using deep learning method

Author

Parthasarathy Ramadass, Raja shree Sekar, Saravanan Srinivasan, Sandeep Kumar Mathivanan, Basu Dev Shivahare, Saurav Mallik, Naim Ahmad, and Wade Ghribi

Subjects
Software Defined Networking (SDN), Moving Target Defense (MTD), Authentication, Proactive MTD, Reactive MTD, Honeypot, Electronic computers. Computer science, QA75.5-76.95
Abstract

The surge in Distributed Denial of Service (DDoS) attacks within SDN environments demands more potent defense strategies. While Moving Target Defense (MTD) holds promise, current MTD approaches against DDoS suffer from security gaps due to overwhelming malicious traffic and static detection areas. In order to tackle these difficulties, we have implemented BSDN-HMTD, a combination of deep learning and blockchain technologies within SDN environments, as a framework. Our strategy starts by employing blockchain technology to authenticate users. We use the NTRU-based Nyberg Rueppel Digital Signature Algorithm for this purpose. This ensures that only authenticated user flows are allowed for validation and forwarding. Within the forwarding layer, Quantum Convolutional Neural Networks (QCNN) evaluate authentic flows by analyzing many characteristics, effectively differentiating between regular, malicious, and dubious flows. Utilizing an Enhanced Spotted Hyena Optimization (EHSO) method to activate switches in real-time modifies the vulnerable points of attack, so impeding attackers and simultaneously decreasing energy usage. The Forwarding Layer Organizer (FLO) oversees the detection of possible attacker surveillance activities and transmits the collected information to local controllers in the control layer. The controllers, functioning in a structured controller network, carry out proactive Moving Target Defense (MTD) techniques, such as host virtual IP hopping, which make attacker plans more complex and raise their operational expenses. Reactive MTD actions are implemented based on the results of flow validation. These actions utilize techniques such as secure honeypots and host virtual IP hopping to effectively prevent attacks. The blockchain securely logs all processed data related to packet validation, authentication, and honeypot activities to ensure the protection of data privacy. Our studies, conducted using Network Simulator-3.26 (NS-3.26), show that our proposed framework outperforms existing techniques in terms of several validation criteria.

Published
2024
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7. Multimodal Biomedical Image Segmentation using Multi-Dimensional U-Convolutional Neural Network

Author

Saravanan Srinivasan, Kirubha Durairaju, K. Deeba, Sandeep Kumar Mathivanan, P. Karthikeyan, and Mohd Asif Shah

Subjects
U-net, Multimodal convolutional neural network, Segmentation, Medical image, MDU-CNN, Medical technology, R855-855.5
Abstract

Abstract Deep learning recently achieved advancement in the segmentation of medical images. In this regard, U-Net is the most predominant deep neural network, and its architecture is the most prevalent in the medical imaging society. Experiments conducted on difficult datasets directed us to the conclusion that the traditional U-Net framework appears to be deficient in certain respects, despite its overall excellence in segmenting multimodal medical images. Therefore, we propose several modifications to the existing cutting-edge U-Net model. The technical approach involves applying a Multi-Dimensional U-Convolutional Neural Network to achieve accurate segmentation of multimodal biomedical images, enhancing precision and comprehensiveness in identifying and analyzing structures across diverse imaging modalities. As a result of the enhancements, we propose a novel framework called Multi-Dimensional U-Convolutional Neural Network (MDU-CNN) as a potential successor to the U-Net framework. On a large set of multimodal medical images, we compared our proposed framework, MDU-CNN, to the classical U-Net. There have been small changes in the case of perfect images, and a huge improvement is obtained in the case of difficult images. We tested our model on five distinct datasets, each of which presented unique challenges, and found that it has obtained a better performance of 1.32%, 5.19%, 4.50%, 10.23% and 0.87%, respectively.

Published
2024
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8. A hybrid deep CNN model for brain tumor image multi-classification

Author

Saravanan Srinivasan, Divya Francis, Sandeep Kumar Mathivanan, Hariharan Rajadurai, Basu Dev Shivahare, and Mohd Asif Shah

Subjects
Brain tumor grading, Hybrid deep learning, Hybrid convolutional neural network, Grid search, Hyperparameters, Medical technology, R855-855.5
Abstract

Abstract The current approach to diagnosing and classifying brain tumors relies on the histological evaluation of biopsy samples, which is invasive, time-consuming, and susceptible to manual errors. These limitations underscore the pressing need for a fully automated, deep-learning-based multi-classification system for brain malignancies. This article aims to leverage a deep convolutional neural network (CNN) to enhance early detection and presents three distinct CNN models designed for different types of classification tasks. The first CNN model achieves an impressive detection accuracy of 99.53% for brain tumors. The second CNN model, with an accuracy of 93.81%, proficiently categorizes brain tumors into five distinct types: normal, glioma, meningioma, pituitary, and metastatic. Furthermore, the third CNN model demonstrates an accuracy of 98.56% in accurately classifying brain tumors into their different grades. To ensure optimal performance, a grid search optimization approach is employed to automatically fine-tune all the relevant hyperparameters of the CNN models. The utilization of large, publicly accessible clinical datasets results in robust and reliable classification outcomes. This article conducts a comprehensive comparison of the proposed models against classical models, such as AlexNet, DenseNet121, ResNet-101, VGG-19, and GoogleNet, reaffirming the superiority of the deep CNN-based approach in advancing the field of brain tumor classification and early detection.

Published
2024
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9. Detection and classification of brain tumor using hybrid deep learning models

Author

Baiju Babu Vimala, Saravanan Srinivasan, Sandeep Kumar Mathivanan, Mahalakshmi, Prabhu Jayagopal, and Gemmachis Teshite Dalu

Subjects
Medicine, Science
Abstract

Abstract Accurately classifying brain tumor types is critical for timely diagnosis and potentially saving lives. Magnetic Resonance Imaging (MRI) is a widely used non-invasive method for obtaining high-contrast grayscale brain images, primarily for tumor diagnosis. The application of Convolutional Neural Networks (CNNs) in deep learning has revolutionized diagnostic systems, leading to significant advancements in medical imaging interpretation. In this study, we employ a transfer learning-based fine-tuning approach using EfficientNets to classify brain tumors into three categories: glioma, meningioma, and pituitary tumors. We utilize the publicly accessible CE-MRI Figshare dataset to fine-tune five pre-trained models from the EfficientNets family, ranging from EfficientNetB0 to EfficientNetB4. Our approach involves a two-step process to refine the pre-trained EfficientNet model. First, we initialize the model with weights from the ImageNet dataset. Then, we add additional layers, including top layers and a fully connected layer, to enable tumor classification. We conduct various tests to assess the robustness of our fine-tuned EfficientNets in comparison to other pre-trained models. Additionally, we analyze the impact of data augmentation on the model's test accuracy. To gain insights into the model's decision-making, we employ Grad-CAM visualization to examine the attention maps generated by the most optimal model, effectively highlighting tumor locations within brain images. Our results reveal that using EfficientNetB2 as the underlying framework yields significant performance improvements. Specifically, the overall test accuracy, precision, recall, and F1-score were found to be 99.06%, 98.73%, 99.13%, and 98.79%, respectively.

Published
2023
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10. Detection and classification of adult epilepsy using hybrid deep learning approach

Author

Saravanan Srinivasan, Sundaranarayana Dayalane, Sandeep kumar Mathivanan, Hariharan Rajadurai, Prabhu Jayagopal, and Gemmachis Teshite Dalu

Subjects
Medicine, Science
Abstract

Abstract The electroencephalogram (EEG) has emerged over the past few decades as one of the key tools used by clinicians to detect seizures and other neurological abnormalities of the human brain. The proper diagnosis of epilepsy is crucial due to its distinctive nature and the subsequent negative effects of epileptic seizures on patients. The classification of minimally pre-processed, raw multichannel EEG signal recordings is the foundation of this article’s unique method for identifying seizures in pre-adult patients. The new method makes use of the automatic feature learning capabilities of a three-dimensional deep convolution auto-encoder (3D-DCAE) associated with a neural network-based classifier to build an integrated framework that endures training in a supervised manner to attain the highest level of classification precision among brain state signals, both ictal and interictal. A pair of models were created and evaluated for testing and assessing our method, utilizing three distinct EEG data section lengths, and a tenfold cross-validation procedure. Based on five evaluation criteria, the labelled hybrid convolutional auto-encoder (LHCAE) model, which utilizes a classifier based on bidirectional long short-term memory (Bi-LSTM) and an EEG segment length of 4 s, had the best efficiency. This proposed model has 99.08 ± 0.54% accuracy, 99.21 ± 0.50% sensitivity, 99.11 ± 0.57% specificity, 99.09 ± 0.55% precision, and an F1-score of 99.16 ± 0.58%, according to the publicly available Children’s Hospital Boston (CHB) dataset. Based on the obtained outcomes, the proposed seizure classification model outperforms the other state-of-the-art method’s performance in the same dataset.

Published
2023
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11. An active learning machine technique based prediction of cardiovascular heart disease from UCI-repository database

Author

Saravanan Srinivasan, Subathra Gunasekaran, Sandeep Kumar Mathivanan, Benjula Anbu Malar M. B, Prabhu Jayagopal, and Gemmachis Teshite Dalu

Subjects
Medicine, Science
Abstract

Abstract Heart disease is a significant global cause of mortality, and predicting it through clinical data analysis poses challenges. Machine learning (ML) has emerged as a valuable tool for diagnosing and predicting heart disease by analyzing healthcare data. Previous studies have extensively employed ML techniques in medical research for heart disease prediction. In this study, eight ML classifiers were utilized to identify crucial features that enhance the accuracy of heart disease prediction. Various combinations of features and well-known classification algorithms were employed to develop the prediction model. Neural network models, such as Naïve Bayes and Radial Basis Functions, were implemented, achieving accuracies of 94.78% and 90.78% respectively in heart disease prediction. Among the state-of-the-art methods for cardiovascular problem prediction, Learning Vector Quantization exhibited the highest accuracy rate of 98.7%. The motivation behind predicting Cardiovascular Heart Disease lies in its potential to save lives, improves health outcomes, and allocates healthcare resources efficiently. The key contributions encompass early intervention, personalized medicine, technological advancements, the impact on public health, and ongoing research, all of which collectively work toward reducing the burden of CHD on both individual patients and society as a whole.

Published
2023
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12. A multi-dimensional hybrid CNN-BiLSTM framework for epileptic seizure detection using electroencephalogram signal scrutiny

Author

Aravind Britto K.R, Saravanan Srinivasan, Sandeep Kumar Mathivanan, Muthukumaran Venkatesan, Benjula Anbu Malar M.B, Saurav Mallik, and Hong Qin

Subjects
Electroencephalogram, Multi-dimensional convolutional network, Bi-long-short term memory, Epileptic seizure detection, Signal scrutiny, Information technology, T58.5-58.64, Electronic computers. Computer science, QA75.5-76.95
Abstract

The proposed hybrid CNN-BiLSTM architecture aims to address the challenge of detecting epileptic seizures systematically from EEG signal analysis. The system consists of several stages, including preprocessing, feature extraction using multi-dimensional CNN, temporal feature processing using BiLSTM, and classification using fully connected layers. The first stage involves preprocessing and normalization of the raw EEG signal to prepare it for further analysis. This step helps in removing noise and standardizing the input for subsequent processing. Next, a multi-dimensional CNN is employed to effectively extract features from the preprocessed EEG sequence data. CNNs are known for their ability to capture spatial features, and in this case, they are utilized to extract relevant features from the EEG data. After the feature extraction stage, the BiLSTM component of the architecture is utilized to process the extracted features and capture temporal dependencies. BiLSTMs are well-suited for sequence modeling tasks and can effectively capture long-range dependencies in the data. By incorporating BiLSTM, the architecture aims to capture important temporal patterns related to epileptic seizures. Finally, the temporal feature values are fed into fully connected layers for classification. The system is designed to detect epileptic seizures and classify them into specific types using a 10-class classification approach. The proposed system reports high detection accuracy with an overall accuracy of 99.53% and an accuracy of 82.95% on the binary classification task. These results suggest that the system performs well in accurately identifying epileptic seizures from EEG signals. Furthermore, the proposed system demonstrates superior performance compared to other existing techniques such as K-nearest neighbor (KNN), support vector machine (SVM), and decision tree (DT) in terms of accuracy. It is important to note that the evaluation and comparison of the proposed system were performed on a publicly available epileptic seizures image database. Overall, the proposed hybrid CNN-BiLSTM architecture shows potential in enhancing the detection and classification of epileptic seizures from EEG signals, potentially improving the efficiency and accuracy of diagnosis and treatment in the early stages of these disorders.

Published
2023
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13. A Framework of Faster CRNN and VGG16-Enhanced Region Proposal Network for Detection and Grade Classification of Knee RA

Author

Saravanan Srinivasan, Subathra Gunasekaran, Sandeep Kumar Mathivanan, Prabhu Jayagopal, Muhammad Attique Khan, Areej Alasiry, Mehrez Marzougui, and Anum Masood

Subjects
rheumatoid arthritis, digital X-radiation image, consensus-based decision, faster-CNN, joint space narrowing, enhanced-region proposal network, Medicine (General), R5-920
Abstract

We developed a framework to detect and grade knee RA using digital X-radiation images and used it to demonstrate the ability of deep learning approaches to detect knee RA using a consensus-based decision (CBD) grading system. The study aimed to evaluate the efficiency with which a deep learning approach based on artificial intelligence (AI) can find and determine the severity of knee RA in digital X-radiation images. The study comprised people over 50 years with RA symptoms, such as knee joint pain, stiffness, crepitus, and functional impairments. The digitized X-radiation images of the people were obtained from the BioGPS database repository. We used 3172 digital X-radiation images of the knee joint from an anterior–posterior perspective. The trained Faster-CRNN architecture was used to identify the knee joint space narrowing (JSN) area in digital X-radiation images and extract the features using ResNet-101 with domain adaptation. In addition, we employed another well-trained model (VGG16 with domain adaptation) for knee RA severity classification. Medical experts graded the X-radiation images of the knee joint using a consensus-based decision score. We trained the enhanced-region proposal network (ERPN) using this manually extracted knee area as the test dataset image. An X-radiation image was fed into the final model, and a consensus decision was used to grade the outcome. The presented model correctly identified the marginal knee JSN region with 98.97% of accuracy, with a total knee RA intensity classification accuracy of 99.10%, with a sensitivity of 97.3%, a specificity of 98.2%, a precision of 98.1%, and a dice score of 90.1% compared with other conventional models.

Published
2023
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14. Grade Classification of Tumors from Brain Magnetic Resonance Images Using a Deep Learning Technique

Author

Saravanan Srinivasan, Prabin Selvestar Mercy Bai, Sandeep Kumar Mathivanan, Venkatesan Muthukumaran, Jyothi Chinna Babu, and Lucia Vilcekova

Subjects
local-binary grey level co-occurrence matrix, enhanced fuzzy c-means clustering, convolution recurrent neural network, magnetic resonance image, image classification, Medicine (General), R5-920
Abstract

To improve the accuracy of tumor identification, it is necessary to develop a reliable automated diagnostic method. In order to precisely categorize brain tumors, researchers developed a variety of segmentation algorithms. Segmentation of brain images is generally recognized as one of the most challenging tasks in medical image processing. In this article, a novel automated detection and classification method was proposed. The proposed approach consisted of many phases, including pre-processing MRI images, segmenting images, extracting features, and classifying images. During the pre-processing portion of an MRI scan, an adaptive filter was utilized to eliminate background noise. For feature extraction, the local-binary grey level co-occurrence matrix (LBGLCM) was used, and for image segmentation, enhanced fuzzy c-means clustering (EFCMC) was used. After extracting the scan features, we used a deep learning model to classify MRI images into two groups: glioma and normal. The classifications were created using a convolutional recurrent neural network (CRNN). The proposed technique improved brain image classification from a defined input dataset. MRI scans from the REMBRANDT dataset, which consisted of 620 testing and 2480 training sets, were used for the research. The data demonstrate that the newly proposed method outperformed its predecessors. The proposed CRNN strategy was compared against BP, U-Net, and ResNet, which are three of the most prevalent classification approaches currently being used. For brain tumor classification, the proposed system outcomes were 98.17% accuracy, 91.34% specificity, and 98.79% sensitivity.

Published
2023
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15. Local-Ternary-Pattern-Based Associated Histogram Equalization Technique for Cervical Cancer Detection

Author

Saravanan Srinivasan, Aravind Britto Karuppanan Raju, Sandeep Kumar Mathivanan, Prabhu Jayagopal, Jyothi Chinna Babu, and Aditya Kumar Sahu

Subjects
cervigram, associated histogram equalization technique, finite ridgelet transform, gray-level run-length matrices, morphological operation, enhanced local ternary pattern, Medicine (General), R5-920
Abstract

Every year, cervical cancer is a leading cause of mortality in women all over the world. This cancer can be cured if it is detected early and patients are treated promptly. This study proposes a new strategy for the detection of cervical cancer using cervigram pictures. The associated histogram equalization (AHE) technique is used to improve the edges of the cervical image, and then the finite ridgelet transform is used to generate a multi-resolution picture. Then, from this converted multi-resolution cervical picture, features such as ridgelets, gray-level run-length matrices, moment invariant, and enhanced local ternary pattern are retrieved. A feed-forward backward propagation neural network is used to train and test these extracted features in order to classify the cervical images as normal or abnormal. To detect and segment cancer regions, morphological procedures are applied to the abnormal cervical images. The cervical cancer detection system’s performance metrics include 98.11% sensitivity, 98.97% specificity, 99.19% accuracy, a PPV of 98.88%, an NPV of 91.91%, an LPR of 141.02%, an LNR of 0.0836, 98.13% precision, 97.15% FPs, and 90.89% FNs. The simulation outcomes show that the proposed method is better at detecting and segmenting cervical cancer than the traditional methods.

Published
2023
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16. Image Noise Removal in Ultrasound Breast Images Based on Hybrid Deep Learning Technique

Author

Baiju Babu Vimala, Saravanan Srinivasan, Sandeep Kumar Mathivanan, Venkatesan Muthukumaran, Jyothi Chinna Babu, Norbert Herencsar, and Lucia Vilcekova

Subjects
local speckle noise destruction, hybrid deep learning technique, logical-pool recurrent neural network, signal-to-noise ratio, spatial high-pass filter, glandular ultrasound image, Chemical technology, TP1-1185
Abstract

Rapid improvements in ultrasound imaging technology have made it much more useful for screening and diagnosing breast problems. Local-speckle-noise destruction in ultrasound breast images may impair image quality and impact observation and diagnosis. It is crucial to remove localized noise from images. In the article, we have used the hybrid deep learning technique to remove local speckle noise from breast ultrasound images. The contrast of ultrasound breast images was first improved using logarithmic and exponential transforms, and then guided filter algorithms were used to enhance the details of the glandular ultrasound breast images. In order to finish the pre-processing of ultrasound breast images and enhance image clarity, spatial high-pass filtering algorithms were used to remove the extreme sharpening. In order to remove local speckle noise without sacrificing the image edges, edge-sensitive terms were eventually added to the Logical-Pool Recurrent Neural Network (LPRNN). The mean square error and false recognition rate both fell below 1.1% at the hundredth training iteration, showing that the LPRNN had been properly trained. Ultrasound images that have had local speckle noise destroyed had signal-to-noise ratios (SNRs) greater than 65 dB, peak SNR ratios larger than 70 dB, edge preservation index values greater than the experimental threshold of 0.48, and quick destruction times. The time required to destroy local speckle noise is low, edge information is preserved, and image features are brought into sharp focus.

Published
2023
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17. Hyperplasia of the mandibular body: An anomaly in a developmental anomaly

Author

Vaiyapuri Ravi, Saravanan Srinivasan, Mathew Jacob, Priya Kesavan, Rajathi Palani, and Sekar Balakrishnan

Subjects
Developmental anomaly, esthetic, hyperplasia, mandible, Pharmacy and materia medica, RS1-441, Analytical chemistry, QD71-142
Abstract

Hyperplasias of the mandible are usually seen in relation to the condyle or affecting one half of the mandible, such cases being described as hemimandibular hyperplasia or elongation. This article presents a rare case of hyperplasia of the right body of the mandible. The case being unique in that although being present from childhood did not cause any functional disturbances or any occlusal disharmony characteristically seen in such developmental anomalies. Here, we describe the clinical, radiographic and histopathologic findings that led to the diagnosis hyperplasia of the mandibular body and the treatment rendered to provide the esthetic correction.

Published
2013
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18. Detection and Grade Classification of Diabetic Retinopathy and Adult Vitelliform Macular Dystrophy Based on Ophthalmoscopy Images

Author

Saravanan Srinivasan, Rajalakshmi Nagarnaidu Rajaperumal, Sandeep Kumar Mathivanan, Prabhu Jayagopal, Sujatha Krishnamoorthy, and Seifedine Kardy

Subjects
Computer Networks and Communications, Hardware and Architecture, Control and Systems Engineering, Signal Processing, Electrical and Electronic Engineering
Abstract

Diabetic retinopathy (DR) and adult vitelliform macular dystrophy (AVMD) may cause significant vision impairment or blindness. Prompt diagnosis is essential for patient health. Photographic ophthalmoscopy checks retinal health quickly, painlessly, and easily. It is a frequent eye test. Ophthalmoscopy images of these two illnesses are challenging to analyse since early indications are typically absent. We propose a deep learning strategy called ActiveLearn to address these concerns. This approach relies heavily on the ActiveLearn Transformer as its central structure. Furthermore, transfer learning strategies that are able to strengthen the low-level features of the model and data augmentation strategies to balance the data are incorporated owing to the peculiarities of medical pictures, such as their limited quantity and generally rigid structure. On the benchmark dataset, the suggested technique is shown to perform better than state-of-the-art methods in both binary and multiclass accuracy classification tasks with scores of 97.9% and 97.1%, respectively.

Published
2023
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19. Image Synthesis M/2D/HWT in VLSI Technology

Author

Saravanan Srinivasan and THIRUMURUGAN Ponnuchamy

Subjects
General Computer Science, Mechanics of Materials, Electrical and Electronic Engineering, Civil and Structural Engineering
Abstract

Image synthesis is grouping of valid information from a group of images in to unique image. The ensuing image is an improved quality than any other images. The spectral deformation major con in standard method. The different multiscale transforms are proposed the overcome the issue. The image is affected by impulse noise because of satellite images, are filtered the impulse noise in the image syntehesis. In this paper we studied the architecture of Edge preserve algorithm which good in PSNR and MSE. The proposed technique using wavelet decomposition is implemented in Matlab for low resolution images are multispectral image and high resolution image are panchromatic image and then we combined the synthesized image in Altera Cyclone. The result shows the significant area and power. The synthesis image has a colour combination which is effective than any other in set of images.

Published
2019
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20. Performance Analysis of Glioma Brain Tumor Segmentation using Ridgelet Transform and CANFES Methodology

Author

Saravanan Srinivasan and Thirumurugan Ponnuchamy

Subjects
Ridgelet transform, Computer science, business.industry, Glioma, medicine, Pattern recognition, Artificial intelligence, Brain tumor segmentation, business, medicine.disease, engineering_other
Abstract

Objective:The Glioma brain tumor detection and segmentation methods are proposed in this paper using machine learning approaches. Methods:The boundary edge pixels are detected using Kirsch’s edge detectors and then contrast adaptive histogram equalization method is applied on the edge detected pixels. Then, Ridgelet transform is applied on this enhanced brain image in order to obtain the Ridgelet multi resolution coefficients. Further, features are derived from the Ridgelet transformed coefficients and the features are optimized using Principal Component Analysis (PCA) method and these optimized features are classified into Glioma or non-Glioma brain images using Co-Active Adaptive Neuro Fuzzy Expert System (CANFES) classifier.Results:The proposed method with PCA and CANFES classification approach obtains 97.6% of se, 98.56% of sp, 98.73% of Acc, 98.85% of Pr, 98.11% of FPR and 98.185 of FNR, then the proposed Glioma brain tumor detection method using CANFES classification approach only.

Published
2020

21. Hyperplasia of the mandibular body: An anomaly in a developmental anomaly

Author

Saravanan Srinivasan, Sekar Balakrishnan, Vaiyapuri Ravi, Rajathi Palani, Mathew Jacob, and Priya Kesavan

Subjects
Orthodontics, lcsh:QD71-142, business.industry, Radiography, Dental Science - Case Report, lcsh:Analytical chemistry, Mandible, hyperplasia, lcsh:RS1-441, Dentistry, Bioengineering, Hyperplasia, medicine.disease, Developmental anomaly, General Biochemistry, Genetics and Molecular Biology, Condyle, mandible, lcsh:Pharmacy and materia medica, Mandibular body, Rare case, medicine, esthetic, General Pharmacology, Toxicology and Pharmaceutics, business
Abstract

Hyperplasias of the mandible are usually seen in relation to the condyle or affecting one half of the mandible, such cases being described as hemimandibular hyperplasia or elongation. This article presents a rare case of hyperplasia of the right body of the mandible. The case being unique in that although being present from childhood did not cause any functional disturbances or any occlusal disharmony characteristically seen in such developmental anomalies. Here, we describe the clinical, radiographic and histopathologic findings that led to the diagnosis hyperplasia of the mandibular body and the treatment rendered to provide the esthetic correction.

Published
2013
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27. Synthesis of transdihydrodiol derivatives of phenanthro3,4bthiophene and phenanthro4,3bthiophene Portions of this work was presented in 19thInternational Symposium on Polycyclic Aromatic Compounds, see: Kumar S.; Reuben, P.A.; Kumar, A. Polycyclic Aromatic Hydrocarbons2004, 24, 289

Author

Kumar, Subodh, Saravanan, Srinivasan, Reuben, Peter, and Kumar, Atul

Abstract

The present study describes the synthesis of phenanthro3,4bthiophene 3, phenanthro4,3bthiophene 4and its potential dihydrodiol metabolites, trans6,7dihydroxy6,7dihydrophenanthro3,4bthiophene 5and trans8,9dihydroxy8,9dihydrophenanthro3,4bthiophene 6, trans–6,7dihydroxy6,7dihydrophenanthro4,3bthiophene 7and trans8,9dihydroxy8,9dihydrophenanthro4,3bthiophene 8from Suzuki coupled intermediates. The UV spectra of these dihydrodiols are presented. These spectra are useful tools for identifying these dihydrodiols among unknown metabolites of 1and 2produced in vitroor in vivo.

Published
2005
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28. Pyogenic granuloma of labial mucosa:A misnomer in an anomolous site.

Author

Ravi, Vaiyapuri, Jacob, Mathew, Sivakumar, Aandamuthu, Saravanan, Srinivasan, and Priya, Kesavan

Subjects
GRANULOMA, TUMOR growth, GINGIVAL diseases, CONNECTIVE tissue cells, CELL proliferation
Abstract

Pyogenic granuloma is tumor-like proliferation to a nonspecific infection. Clinically, pyogenic granuloma presents as sessile or pedunculated exophytic mass with a smooth or lobulated surface which has a tendency to bleed easily. These lesions tend to occur slightly more in females, frequently involving the gingiva of the maxillary region. Histologically, these lesions show an excessive proliferation of vascular type of connective tissue to a nonspecific infection. The most common treatment is surgical excision with eradication of local irritants. This case report describes a pyogenic granuloma on the labial mucosa in a 33-year-old male, discussing the clinical features and histopathologic features that distinguish this lesion from other similar oral mucosa lesions. [ABSTRACT FROM AUTHOR]

Published
2012
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