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20 results on '"A, Abeshek"'

1. An Integrated Deep Learning Framework for Effective Brain Tumor Localization, Segmentation, and Classification from Magnetic Resonance Images

Author

V, Pandiyaraju, Venkatraman, Shravan, A, Abeshek, A, Aravintakshan S, S, Pavan Kumar, and S, Madhan

Subjects
Electrical Engineering and Systems Science - Image and Video Processing, Computer Science - Computer Vision and Pattern Recognition, Computer Science - Machine Learning, I.4.6
Abstract

Tumors in the brain result from abnormal cell growth within the brain tissue, arising from various types of brain cells. When left undiagnosed, they lead to severe neurological deficits such as cognitive impairment, motor dysfunction, and sensory loss. As the tumor grows, it causes an increase in intracranial pressure, potentially leading to life-threatening complications such as brain herniation. Therefore, early detection and treatment are necessary to manage the complications caused by such tumors to slow down their growth. Numerous works involving deep learning (DL) and artificial intelligence (AI) are being carried out to assist physicians in early diagnosis by utilizing the scans obtained through Magnetic Resonance Imaging (MRI). Our research proposes DL frameworks for localizing, segmenting, and classifying the grade of these gliomas from MRI images to solve this critical issue. In our localization framework, we enhance the LinkNet framework with a VGG19- inspired encoder architecture for improved multimodal tumor feature extraction, along with spatial and graph attention mechanisms to refine feature focus and inter-feature relationships. Following this, we integrated the SeResNet101 CNN model as the encoder backbone into the LinkNet framework for tumor segmentation, which achieved an IoU Score of 96%. To classify the segmented tumors, we combined the SeResNet152 feature extractor with an Adaptive Boosting classifier, which yielded an accuracy of 98.53%. Our proposed models demonstrated promising results, with the potential to advance medical AI by enabling early diagnosis and providing more accurate treatment options for patients., Comment: 36 pages, 27 figures, 5 tables

Published
2024

2. Leveraging SeNet and ResNet Synergy within an Encoder-Decoder Architecture for Glioma Detection

Author

V, Pandiyaraju, Venkatraman, Shravan, A, Abeshek, S, Pavan Kumar, and A, Aravintakshan S

Subjects
Electrical Engineering and Systems Science - Image and Video Processing, Computer Science - Computer Vision and Pattern Recognition, Computer Science - Machine Learning, I.4.6
Abstract

Brain tumors are abnormalities that can severely impact a patient's health, leading to life-threatening conditions such as cancer. These can result in various debilitating effects, including neurological issues, cognitive impairment, motor and sensory deficits, as well as emotional and behavioral changes. These symptoms significantly affect a patient's quality of life, making early diagnosis and timely treatment essential to prevent further deterioration. However, accurately segmenting the tumor region from medical images, particularly MRI scans, is a challenging and time-consuming task that requires the expertise of radiologists. Manual segmentation can also be prone to human errors. To address these challenges, this research leverages the synergy of SeNet and ResNet architectures within an encoder-decoder framework, designed specifically for glioma detection and segmentation. The proposed model incorporates the power of SeResNet-152 as the backbone, integrated into a robust encoder-decoder structure to enhance feature extraction and improve segmentation accuracy. This novel approach significantly reduces the dependency on manual tasks and improves the precision of tumor identification. Evaluation of the model demonstrates strong performance, achieving 87% in Dice Coefficient, 89.12% in accuracy, 88% in IoU score, and 82% in mean IoU score, showcasing its effectiveness in tackling the complex problem of brain tumor segmentation., Comment: 9 pages, 6 figures, 1 table

Published
2024

3. A Channel Attention-Driven Hybrid CNN Framework for Paddy Leaf Disease Detection

Author

V, Pandiyaraju, Venkatraman, Shravan, A, Abeshek, S, Pavan Kumar, A, Aravintakshan S, M, Senthil Kumar A, and A, Kannan

Subjects
Computer Science - Computer Vision and Pattern Recognition, Computer Science - Artificial Intelligence, Computer Science - Machine Learning, F.2.2, I.2.7
Abstract

Farmers face various challenges when it comes to identifying diseases in rice leaves during their early stages of growth, which is a major reason for poor produce. Therefore, early and accurate disease identification is important in agriculture to avoid crop loss and improve cultivation. In this research, we propose a novel hybrid deep learning (DL) classifier designed by extending the Squeeze-and-Excitation network architecture with a channel attention mechanism and the Swish ReLU activation function. The channel attention mechanism in our proposed model identifies the most important feature channels required for classification during feature extraction and selection. The dying ReLU problem is mitigated by utilizing the Swish ReLU activation function, and the Squeeze-andExcitation blocks improve information propagation and cross-channel interaction. Upon evaluation, our model achieved a high F1-score of 99.76% and an accuracy of 99.74%, surpassing the performance of existing models. These outcomes demonstrate the potential of state-of-the-art DL techniques in agriculture, contributing to the advancement of more efficient and reliable disease detection systems., Comment: 17 pages, 4 tables, 10 figures

Published
2024

4. Leveraging Bi-Focal Perspectives and Granular Feature Integration for Accurate Reliable Early Alzheimer's Detection

Author

V, Pandiyaraju, Venkatraman, Shravan, A, Abeshek, A, Aravintakshan S, S, Pavan Kumar, and A, Kannan

Subjects
Electrical Engineering and Systems Science - Image and Video Processing, Computer Science - Computer Vision and Pattern Recognition, Computer Science - Machine Learning, I.4.8, I.2.10, I.4.6
Abstract

Alzheimer's disease (AD) is the most common form of neurodegeneration, which impacts millions of people each year. Diagnosing and classifying AD accurately with neuroimaging data is an ongoing challenge in the field of medicine. Traditional Convolutional Neural Networks (CNNs) are good at capturing low-level information from images, but their capability to extract high-level minuscule particles is suboptimal, which is a significant challenge in detecting AD from MRI scans. To overcome this, we propose a novel Granular Feature Integration method to combine information extraction at different scales combined with an efficient information flow. We also propose a Bi-Focal Perspective mechanism to highlight focus on subtle neurofibrillary tangles and amyloid plaques in MRI scans. Our model yielded an F1-Score of 99.31%, a precision of 99.24%, and a recall of 99.51%, which shows a major improvement in comparison to existing state-of-the-art (SOTA) CNNs., Comment: 17 pages, 10 figures, 6 tables

Published
2024

5. Improved tomato leaf disease classification through adaptive ensemble models with exponential moving average fusion and enhanced weighted gradient optimization

Author

Pandiyaraju V., A. M. Senthil Kumar, Joe I. R. Praveen, Shravan Venkatraman, S. Pavan Kumar, S. A. Aravintakshan, A. Abeshek, and A. Kannan

Subjects
deep learning, machine learning, image processing, ensemble learning, classification, Plant culture, SB1-1110
Abstract

Tomato is one of the most popular and most important food crops consumed globally. The quality and quantity of yield by tomato plants are affected by the impact made by various kinds of diseases. Therefore, it is essential to identify these diseases early so that it is possible to reduce the occurrences and effect of the diseases on tomato plants to improve the overall crop yield and to support the farmers. In the past, many research works have been carried out by applying the machine learning techniques to segment and classify the tomato leaf images. However, the existing machine learning-based classifiers are not able to detect the new types of diseases more accurately. On the other hand, deep learning-based classifiers with the support of swarm intelligence-based optimization techniques are able to enhance the classification accuracy, leading to the more effective and accurate detection of leaf diseases. This research paper proposes a new method for the accurate classification of tomato leaf diseases by harnessing the power of an ensemble model in a sample dataset of tomato plants, containing images pertaining to nine different types of leaf diseases. This research introduces an ensemble model with an exponential moving average function with temporal constraints and an enhanced weighted gradient optimizer that is integrated into fine-tuned Visual Geometry Group-16 (VGG-16) and Neural Architecture Search Network (NASNet) mobile training methods for providing improved learning and classification accuracy. The dataset used for the research consists of 10,000 tomato leaf images categorized into nine classes for training and validating the model and an additional 1,000 images reserved for testing the model. The results have been analyzed thoroughly and benchmarked with existing performance metrics, thus proving that the proposed approach gives better performance in terms of accuracy, loss, precision, recall, receiver operating characteristic curve, and F1-score with values of 98.7%, 4%, 97.9%, 98.6%, 99.97%, and 98.7%, respectively.

Published
2024
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6. Introducing Safety on Construction Industry Along with Lean Construction Hypothesis

Author

Anandh, S., Sindhu Nachiar, S., Sai Abeshek, C. S., Mariappan, Preethiba, di Prisco, Marco, Series Editor, Chen, Sheng-Hong, Series Editor, Vayas, Ioannis, Series Editor, Kumar Shukla, Sanjay, Series Editor, Sharma, Anuj, Series Editor, Kumar, Nagesh, Series Editor, Wang, Chien Ming, Series Editor, Loon, Lee Yee, editor, Subramaniyan, Muthulingam, editor, and Gunasekaran, K., editor

Published
2022
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7. Integrating Lean and Sustainability Approach for Construction Firms

Author

Anandh, S., Sindhu Nachiar, S., Mariappan, Preethiba, Sai Abeshek, C. S., di Prisco, Marco, Series Editor, Chen, Sheng-Hong, Series Editor, Vayas, Ioannis, Series Editor, Kumar Shukla, Sanjay, Series Editor, Sharma, Anuj, Series Editor, Kumar, Nagesh, Series Editor, Wang, Chien Ming, Series Editor, Loon, Lee Yee, editor, Subramaniyan, Muthulingam, editor, and Gunasekaran, K., editor

Published
2022
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9. Improved tomato leaf disease classification through adaptive ensemble models with exponential moving average fusion and enhanced weighted gradient optimization.

Author

V., Pandiyaraju, Kumar, A. M. Senthil, Praveen, Joe I. R., Venkatraman, Shravan, Kumar, S. Pavan, Aravintakshan, S. A., Abeshek, A., and Kannan, A.

Subjects
TOMATOES, NOSOLOGY, MOVING average process, SWARM intelligence, RECEIVER operating characteristic curves, FOOD crops, TOMATO diseases & pests, TOMATO farming
Abstract

Tomato is one of the most popular and most important food crops consumed globally. The quality and quantity of yield by tomato plants are affected by the impact made by various kinds of diseases. Therefore, it is essential to identify these diseases early so that it is possible to reduce the occurrences and effect of the diseases on tomato plants to improve the overall crop yield and to support the farmers. In the past, many research works have been carried out by applying the machine learning techniques to segment and classify the tomato leaf images. However, the existing machine learning-based classifiers are not able to detect the new types of diseases more accurately. On the other hand, deep learning-based classifierswith the support of swarm intelligence-based optimization techniques are able to enhance the classification accuracy, leading to the more effective and accurate detection of leaf diseases. This research paper proposes a new method for the accurate classification of tomato leaf diseases by harnessing the power of an ensemble model in a sample dataset of tomato plants, containing images pertaining to nine different types of leaf diseases. This research introduces an ensemble model with an exponential moving average function with temporal constraints and an enhanced weighted gradient optimizer that is integrated into fine-tuned Visual Geometry Group-16 (VGG-16) and Neural Architecture Search Network (NASNet) mobile training methods for providing improved learning and classification accuracy. The dataset used for the research consists of 10,000 tomato leaf images categorized into nine classes for training and validating the model and an additional 1,000 images reserved for testing the model. The results have been analyzed thoroughly and benchmarked with existing performance metrics, thus proving that the proposed approach gives better performance in terms of accuracy, loss, precision, recall, receiver operating characteristic curve, and F1-score with values of 98.7%, 4%, 97.9%, 98.6%, 99.97%, and 98.7%, respectively. [ABSTRACT FROM AUTHOR]

Published
2024
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16. The Design of a Novel Bearing Manufacturing Line Based on Simulation

Author

Abeshek Ram Natarajan

Subjects
Production line, 021103 operations research, Bearing (mechanical), Process (engineering), Computer science, business.industry, 0211 other engineering and technologies, General Engineering, Automotive industry, GPSS, 02 engineering and technology, Manufacturing engineering, law.invention, law, 0202 electrical engineering, electronic engineering, information engineering, 020201 artificial intelligence & image processing, Manufacturing line, Operations management, business, computer, Throughput (business), computer.programming_language
Abstract

This paper is a case study of the production line at an automotive ancillary manufacturing plant. At first, the production line is studied for possible areas of improvement. Time study data are collected for each process and the best set-up is calculated to make the plant leaner. Furthermore, suggestions are made to procure machines from the market that make the plant leaner and more efficient. To make the suggestions indubitable, a time study calculation is done for the new machine layout.

Published
2016

17. Rehabilitation of Structural Members

Author

Aruneshwar, Sai Abeshek C S, Kishore Kumar K, B. Krishnakumari, and Nithyanandhan

Subjects
medicine.medical_specialty, Rehabilitation, Physical medicine and rehabilitation, medicine.medical_treatment, medicine, Psychology
Published
2018

18. Design of an autonomous seed planting robot

Author

S Sanjana Smruthi, Abeshek Ram Natarajan, Prithviraj Prabhu, R. Rajavel, N Vivek Sivaraman, Nandagopal Srinivasan, and S. Joseph Gladwin

Subjects
Engineering, business.industry, Controller (computing), 010401 analytical chemistry, 020206 networking & telecommunications, Mobile robot, Terrain, 02 engineering and technology, 01 natural sciences, 0104 chemical sciences, Control theory, 0202 electrical engineering, electronic engineering, information engineering, Robot, Point (geometry), Metering mode, Equidistant, business, Row, Simulation
Abstract

In this paper, a novel design for a mobile robot capable of sowing seeds autonomously on a prepared land is reported. The body of the proposed device is constructed using aluminium for efficient weight reduction and strength utilization. The drive is provided by caterpillar treads for traversal on undulating terrain. The robot navigates the land using the inputs from a magnetometer and the accuracy of direction is improved by feeding this input data to a Proportional Integral (PI) Controller. It further employs an ultrasonic sensor for detecting the end of the field. The seeds are sown by the robot in evenly spaced rows with each point where a seed has been dropped equidistant from the successive point. The seed metering mechanism is based upon a solenoid actuator assembly. The device consists of a modular structure providing ease for maintenance. Overall, the proposed device exhibits appreciable efficiency in power consumption, making it suitable for the field of agriculture.

Published
2016

19. Design of an autonomous seed planting robot

Author

Srinivasan, Nandagopal, primary, Prabhu, Prithviraj, additional, Smruthi, S Sanjana, additional, Sivaraman, N Vivek, additional, Gladwin, S Joseph, additional, Rajavel, R, additional, and Natarajan, Abeshek Ram, additional

Published
2016
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