Vinothkumar Kolluru

Scopus Publications

Novel federated learning-based approach for network attack detection
Vinothkumar Kolluru, Sudeep Mungara, Ali Raza, Ghazia Aslam, Nagwan Abdel Samee, Imran Ashraf
Journal of Cloud Computing, 2026
Network attack detection and prevention are critical aspects of ensuring cybersecurity in today’s interconnected world. Traditional centralized models for detecting malicious activity often face challenges like data privacy concerns and inefficiencies in handling distributed data sources. To address these challenges, this research leverages federated learning. Being a decentralized approach that offers advantageous benefits of collaborative model training across different devices while keeping sensitive data localized. Using the NF-UQ-NIDS-v2 benchmark dataset, we developed a robust machine-learning pipeline. This included thorough data preparation and applying advanced feature engineering techniques to reduce noise and enhance the dataset’s quality. We build several advanced machine learning approaches and hybrid models. Building on this, we proposed an innovative federated learning model designed to improve attack detection accuracy while preserving data privacy. With the help of the proposed federated learning architecture, the client model logistic regression (LR) achieved high-performance accuracy scores of 99% for multi-class network attack detection. Also, we quantify FL communication efficiency by measuring per-round latency, bandwidth usage, and the impact of compression techniques such as sparsification, 8-bit quantization, and top-$$k$$ selection, reducing uplink payloads by up to 30$$\times$$. This research uniquely harmonizes the NF-UQ-NIDS-v2 dataset by consolidating diverse attack classes into a unified schema, analyzes communication overhead in FL by quantifying latency, bandwidth usage, and synchronization costs under compression, and incorporates a heterogeneity-aware aggregation strategy that re-weights client contributions based on data skewness, thereby improving stability in non-IID settings. The proposed approach demonstrates significant potential for real-world applications, particularly in environments where data distribution and security are paramount.
AI enabled geospatial intelligence for the energy transition: A comparative CNN study on CCUS, geothermal siting, and NetZero strategies
Sudeep Mungara, Vinothkumar Kolluru, Thirunaavukkarasu Murugesan, Saptarshi Maiti, Shreyas Rajendra Hole
Unconventional Resources, 2026
Practical guidance about tradeoff choices between accuracy, efficiency and deployment ability in deep convolutional neural network architectures for land use and land cover classification has been largely unavailable because each study evaluates architectures differently. This paper provides a controlled comparative assessment of four popular convolutional neural network architectures for land use and land cover classification visual geometry group19, ResNet50, Inception_Version3 and MobileNet_V2 using the Euro_SAT benchmark which includes 27,000 Sentinel2 red green blue images that have been cut into 10 land uses classes. The convolutional neural network architectures were all trained and evaluated through the same preprocessing, augmentation, data splitting, training procedure and metric as follows: Overall accuracy/F1 macro averaging class by class confusion matrix convergence dynamics efficiency metrics (number of parameters and inference-oriented considerations). The results indicate that modern architectures provide significantly better than older sequential baselines: ResNet50 provided the highest total accuracy (>97%), along with consistent convergence behavior; InceptionV3 improved discrimination for classes with both ambiguous visual appearances and linear structures (river, highway); MobileNetV2 was able to achieve high accuracy (>94%), but had an order of magnitude less number of parameters than the other architectures and is well suited to lower source or real time application scenarios. Finally, this paper maps convolutional neural network outputs into an energy transition decision workflow (Renewable Siting → Corridor Constraints → Monitoring), and demonstrates how land use and land cover layers derived from convolutional neural networks can support net zero resource planning. • Benchmarks 4 CNNs on EuroSAT using identical training and evaluation setup. • ResNet50 achieved highest accuracy (>97%) for LULC classification. • MobileNetV2 reduced parameters by ∼6× while maintaining >94% accuracy. • InceptionV3 improved corridor feature detection (roads, rivers). • Enables decision-grade LULC for CCUS, geothermal, and net-zero planning.
RIS-aided 5G MISO network optimization with deep reinforcement learning
Shreyas Rajendra Hole, Nikhil Mangrulkar, Gerald Adli, Vinothkumar Kolluru, Nitin Rakesh
Discover Applied Sciences, 2026
Emerging 6G wireless systems demand ever higher spectral efficiency. Reconfigurable Intelligent Surfaces (RIS) large arrays of passive reflecting elements can reconfigure the radio environment via programmable phase shifts. This work presents a deep reinforcement learning (DRL) approach to jointly optimize the multi-antenna base station beamforming and the RIS phase shifts in a down- link 5G MISO network. Using a DDPG-based agent, we maximize the sum rate (bps/Hz) by treating it as the DRL reward. Our simulations (based on Saglam’s RIS-MISO code demonstrate sum rates exceeding 28 bps/Hz in large configura- tions for example, over 30 bps/Hz at 30 dB transmit power with 32 BS antennas and 32 RIS elements. We analyze how key factors (BS/RIS size, power, learn- ing hyperparameters) affect performance through visualization. The DRL agent learns effective continuous beamforming and phase control without explicit chan- nel models. Results confirm that more antennas or RIS elements significantly boost throughput, and that careful tuning of DRL parameters (learning rate, exploration decay) is crucial. We include the Saglam repository as a reference to aid reproducibility.
HVLGAN: hybrid hierarchical scaled attention-enabled latent model for structure-based drug discovery
Shreyas Rajendra Hole, Lakshmanan M., Jeevaraj R., Manumula Srinubabu, Shreekant Salotagi, Vinothkumar Kolluru
Journal of Biomolecular Structure and Dynamics, 2026
Structure-based drug design involves utilizing the three-dimensional structure of a biological target to guide the design and development of new therapeutic compounds. Traditionally, a huge number of structure-based drug discovery methods have been adopted, but their time-consuming, erroneous molecule formation, and highly complex characteristics prevent their extensive application in drug discovery. Therefore, to mitigate such intricacies, an effective Hybrid Hierarchical Scaled attention-enabled Variational Autoencoder-based Latent Generative Adversarial Network (HVLGAN) is proposed. The inclusion of the Graph-based pocket encoding (GPE) aided in the effective generation of the Simplified Molecular Input Line Entry System (SMILES) strings to stipulate the drug discovery process with reduced computational complexity. Further, the Hybrid Hierarchical Scaled (H2S) attention strategy generates additional significant details for the effective generation of new drug molecules. In addition, the incorporation of the latent encoder and decoder enhanced the drug discovery performance by effectively processing the high-dimensional features. Nevertheless, the Variational Autoencoder (VAE) alleviated the long-term dependency problems, thereby resulting in a faster drug discovery process. Moreover, the performance validation performed in terms of performance metrics showed efficacy by attaining 0.96 validity, 0.96 novelty, and 0.96 unique scores for 90 training percentages using the MOSES package.
Agentic AI for Healthcare Cybersecurity: Autonomous Threat Detection and Ethical Implementation Challenges
Vinothkumar Kolluru, Saptarshi Maiti, Thirunaavukkarasu Murugesane, Nagarajuu Dasari, Sudeep Mungara, Sreedharbabu Seshagani
2026 Innovations in Machine Engineering and Digital Conference Imed 2026, 2026
Healthcare systems that integrate electronic health records (EHRs), clinical systems, and Internet-of-Medical-Things (IoMT) devices, face increasing cyber threats which directly endanger patient safety and disrupt continuity of care. We propose an implementation-focused cyber threat detection model and assess five models: Random Forest (RF), Gradient Boosted Trees (GBT), and Support Vector Machines (SVM) with Radial Basis Function (RBF) kernel, Logistic Regression (LR), as well as a contextual event summary-aware BERT model. [1]–[4]. We construct a single event schema pertaining to telemetry of relevance to healthcare (network/host/identity/context), implement time-forward splits to mitigate temporal leakage, and set decision thresholds for an asymmetric cost of healthcare (large penalty for false negatives). Outside of historical metrics, we propose MEDSEC-AGENT, a governed agentic orchestration layer that converts model scores into safe, auditable SOAR actions aligned with incident-handling guidance [5], zero trust controls [6], and health-sector practices [7]. We provide reproducible pseudocode, configuration patterns, and operational blueprints to accelerate responsible adoption in real hospital environments.
AI—Prediction of Neisseria gonorrhoeae Resistance at the Point of Care from Genomic and Epidemiologic Data
Vinothkumar Kolluru, Shreyas Rajendra Hole, Ajeeb Sagar, Advaitha Naidu Chintakunta, R Jeevaraj, et al.
Healthcare Switzerland, 2025
Background: Antimicrobial resistance (AMR) in Neisseria gonorrhoeae is an escalating global health challenge, affecting over 82 million individuals each year. The increasing resistance to commonly used antibiotics such as azithromycin, ciprofloxacin, and cefixime hinders timely and effective treatment, primarily due to the delayed detection of resistant strains. Methods: To overcome these limitations, a hybrid machine learning (ML) and deep learning (DL) framework was developed using a dataset comprising 3786 N. gonorrhoeae isolates. The dataset included clinical metadata and phenotypic resistance profiles. The preprocessing steps involved handling 23% data sparsity, imputing 31 skewed columns, and applying resampling and harmonisation techniques sensitive to data skewness. A predictive pipeline was constructed using both clinical variables and genomic unitigs, and a suite of 33 classifiers was evaluated. Results: The CatBoost model emerged as the top-performing ML algorithm, particularly due to its proficiency in handling categorical data, while a three-layered neural network served as the DL baseline. The ML models outperformed genome-wide association study (GWAS) benchmarks, achieving AUC scores of 0.97 (ciprofloxacin), 0.95 (cefixime), and 0.94 (azithromycin), representing a 4–7% improvement. SHAP analysis identified biologically relevant resistance markers, such as penA mosaic alleles and mtrR promoter mutations, validating the interpretability of the model. Conclusions: The study highlights the potential of ML-driven approaches to enhance the real-time prediction of antimicrobial resistance in N. gonorrhoeae. These methods can significantly contribute to antibiotic stewardship programs, although further validation is required in low-resource settings to confirm their generalisability and robustness across diverse populations.
Optimizing Solar Radiation Forecasting for Renewable Energy Systems: A Comparative Analysis of Machine Learning and Feature Engineering Techniques
Ajeeb Sagar, Shreyas Hole, Vinoth Kolluru
Solar Energy and Sustainable Development, 2025
Accurate solar radiation prediction is pivotal for optimizing solar energy systems, as it allows for better energy storage, grid integration, and renewable energy planning. This study compares the predictive accuracy of three machine learning models—Random Forest, XGBoost, and Multilayer Perceptron (MLP)- in forecasting solar radiation based on a meteorological and temporal features dataset. The dataset, encompassing Temperature, humidity, wind speed, and sunrise/sunset times, was preprocessed through transformations (Box-Cox, logarithmic scaling) and feature selection methods (SelectKBest, Extra Trees Classifier) to enhance model performance. XGBoost demonstrated superior performance, achieving an R² of 0.93 and RMSE of 81.87, effectively capturing complex nonlinear relationships within the data. MLP, while slightly lower in R², yielded the lowest mean absolute error (MAE = 41.74), underscoring its precision in individual predictions. SelectKBest identified set Hour (sunset hour), Month, and Wind Direction as critical features, while Extra Trees prioritized Wind Direction, Minute, and Humidity, reflecting model-specific feature importance. Collectively, these models illustrate the benefits of integrating feature engineering with advanced machine learning for renewable energy optimization, with XGBoost and MLP demonstrating particular efficacy for accurate solar radiation forecasting. This study underscores the potential of machine learning in enhancing solar energy management, facilitating a more efficient transition to sustainable energy sources.
Smart plant disease diagnosis using multiple deep learning and web application integration
Ahmed M.S. Kheir, Anis Koubaa, Vinothkumar Kolluru, Sudeep Mungara, Til Feike
Journal of Agriculture and Food Research, 2025
Accurate and efficient plant disease diagnosis is crucial for sustainable agriculture and global food security, as diseases significantly impact crop productivity. Despite advancements in deep learning, the performance and scalability of many models remain limited. This study addresses this gap by evaluating MobileViTv2, EfficientNet-B7, and a hybrid MobileViTv2-EfficientNet-B7 approach for classifying plant leaf images into four categories: healthy, rust, scab, and multiple diseases. Using a publicly available dataset of annotated leaf images, the models were trained and tested under optimized conditions. MobileViTv2 emerged as the superior model, achieving the highest classification accuracy (94 %) and F1 score (0.94). It demonstrated exceptional generalization capabilities, with Receiver Operating Characteristic (ROC) Area Under Curve (AUC) values of 0.95 for healthy, 0.97 for rust, and 0.99 for scab. In contrast, EfficientNet-B7 and the hybrid model performed moderately, highlighting MobileViTv2's efficiency in handling diverse image features. To demonstrate real-world applicability, the MobileViTv2 model was deployed in a web-based application. This platform enables real-time plant disease diagnosis with high confidence, identifying conditions such as rust (85.3 % confidence) and healthy leaves (90.2 % confidence). The user-friendly interface facilitates its integration into precision agriculture. This study highlights the strengths of MobileViTv2 for disease diagnosis, its scalability, and its potential to support decision-making in agriculture. Future work will focus on expanding the model to other crops and incorporating environmental variables for enhanced disease prediction. This research bridges the gap between advanced AI models and practical agricultural applications, offering a robust solution for early disease detection. • Introduced MobileViTv2 for robust and efficient plant disease diagnosis. • Developed a MobileViTv2-EfficientNet-B7 hybrid model to address dataset imbalances. • Deployed a web-based application for real-time plant disease diagnostics. • Tackled dataset imbalance by advanced augmentation and hyperparameter optimization. • Demonstrated the lightweight and efficient design of MobileViTv2 for scalable use.
Deep Learning-Based Vulnerability Detection for Web Application Security: A Dual-Stage Hamiltonian Neural Network Approach for SQLi and XSS Attacks
Sonkarlay J. Y. Weamie, Kahsay Birhanu Tsadik, Vinothkumar Kolluru
Lecture Notes in Computer Science, 2025
Explainable Machine Learning Models for Phishing Website Detection: Enhancing Transparency and Accuracy in Cybersecurity
Sonkarlay J. Y. Weamie, Vinothkumar Kolluru, Kahsay Birhanu Tsadik, Charan Sundar Telaganeni
Lecture Notes in Computer Science, 2025
UltraRes: ESRGAN-Powered AI Image Upscaling for Enhanced Clarity, Texture, and Detail Restoration in Digital Media
Mohammed Uvez Khan, Aman Ramzan Sheikh, Shreyas Rajendra Hole, Vinothkumar Kolluru
3rd International Conference on Data Science and Information System Icdsis 2025, 2025
Hybrid Deep Learning Architectures for Brain Tumor Classification Using Magnetic Resonance Imaging: ViT-GRU and GNet-SVM Models
Gerald Adli, Swati Shukla, Yagnesh Challagundla, Vinothkumar Kolluru, Tharun Reddy Uggumudi
Artificial Intelligence in Oncology Cancer Diagnosis and Treatment Medical Imaging and Personalized Medicine, 2025
SMARTMED: A Blockchain Solution for Privacy-Centric Healthcare and Insurance Integration
E. Sujatha., S. Palpandi, Vinothkumar Kolluru, M. Jayanthi, G. Porkodi
2025 IEEE 1st International Conference on Innovations in Engineering and Next Generation Technologies for Sustainability Icinvents 2025, 2025
EEG-Based Brain-Computer Interface for Robotic System Control Using Right-Left Hand Movements with Ensemble Model
Yogini Dilip Borole, Yagnesh Challagundla, Vinothkumar Kolluru, Sachi Nandan Mohanty, Ming Yang, Advaitha Naidu Chintakunta
Proceedings of the International Conference on Multimedia Information Processing and Retrieval Mipr, 2025
Deep Learning-Based Classification of Nanoscale SEM Features Using Inception
Shreyas Rajendra Hole, Jeevaraj R, Ujjwal Jaiswal, Vinothkumar Kolluru, Shreekant Salotagi, Justindhas Y
2025 International Conference on Biomedical Engineering and Sustainable Healthcare Icbmesh 2025 Proceedings, 2025
Machine Learning and Artificial Intelligence for Predictive Modeling in Antimicrobial Resistance Data Sets, Challenges, and Future Directions
Ajeeb Sagar, Vinothkumar Kolluru, Ujjwal Jaiswal, Gaurav Kumavat, Shreyas Rajendra Hole, Ankit Kumar
International Conference on Smart Systems for Applications in Electrical Sciences Icsses 2025, 2025
QiMINT: Quantum-Inspired Mobile Intelligence - Advancing Complex Signal Processing with Machine Learning
Vinothkumar Kolluru, E. Helen Parimala, Kokilavani T, Sunil Raj Y, Bastin Jesuraj, Afrig Aminuddin
Proceedings of 8th International Conference on Trends in Electronics and Informatics Icoei 2025, 2025
Hybrid PCA-Based Machine Learning Models for Predictive Analytics in Urban Health Monitoring Systems
Shreyas Rajendra Hole, Girish S Bhavekar, Arvind Kumar Prajapati, Vinothkumar Kolluru, Suraj Rajesh Karpe, Jayavrinda Vrindavanam
2025 IEEE 1st International Conference on Smart and Sustainable Developments in Electrical Engineering Ssdee 2025, 2025
A Design of Hybrid Model and Bayesian Neural Networks for Smart Grid Stability Prediction
Shreyas Rajendra Hole, Vinothkumar Kolluru, Shreekant Salotagi, Yagnesh Challagundla, Sudeep Mungara, Sriramkumar R
2025 IEEE 1st International Conference on Smart and Sustainable Developments in Electrical Engineering Ssdee 2025, 2025
Flu Prediction Using Deep Learning Models A Case Study on Influenza-Like Illness Data
Shreyas Rajendra Hole, Shreekant Salotagi, Vinothkumar Kolluru, Gaurav Kumavat, Anup A Pachghare, Justindhas Y
2025 International Conference on Biomedical Engineering and Sustainable Healthcare Icbmesh 2025 Proceedings, 2025
AI-Driven Mobile Healthcare: Societal Impact, Workforce Adaptation, and Enhanced Predictive Modeling for Diabetes Risk Assessment
Shreyas Rajendra Hole, Vinothkumar Kolluru, Ranita Ganguly, Sagar Kolekar, Advaitha Naidu Chintakunta, Sudeep Mungara
2025 International Conference on Pervasive Computational Technologies Icpct 2025, 2025
Hybrid RegNet-Swin Transformer for Precision Gastrointestinal Disease Classification A Deep Learning Approach Using the Kvasir Dataset
Ajeeb Sagar, Ayden Xavier Alvito Joanes, Shreyas Rajendra Hole, Akshat Agarwal, Vinothkumar Kolluru, Gaurav Londhe
3rd International Conference on Emerging Computation and Information Technologies Icecit 2025 Book of Abstracts, 2025
Predictive Analytics in AI Marketing: Transforming Consumer Engagement
Ruby Dahhiya, Virender Kumar Dahiya, Nidhi Agarwal, Vinoth Kumar Kolluru, Yagnesh Challagundla, Advaitha Naidu Chintakunta
2025 2nd International Conference on Computational Intelligence Communication Technology and Networking Cictn 2025, 2025
Chest X-ray Pneumonia Detection using Deep Learning
Shreyas Rajendra Hole, Shreekant Salotagi, Vinothkumar Kolluru, Ajeeb Sagar, Gaurav J Sawale, Justindhas. Y
2025 International Conference on Biomedical Engineering and Sustainable Healthcare Icbmesh 2025 Proceedings, 2025
Hybrid Approach of TabNet and Transformer-XGBoost for Predicting Traffic Flow in Smart Cities
Shreyas Rajendra Hole, Vinothkumar Kolluru, Shreekant Salotagi, Yagnesh Challagundla, Sudeep Mungara, Mude Nagarjuna Naik
2025 IEEE 1st International Conference on Smart and Sustainable Developments in Electrical Engineering Ssdee 2025, 2025
Data Driven Password Strength Estimation Using Linear Regression and K-Nearest Neighbors with Interactive Gradio Deployment
Shreyas Rajendra Hole, Nikhil Mangrulkar, Pushpa Baban Ghogare, Vinothkumar Kolluru, Gaurav Kumavat, Shreekant Salotagi
3rd International Conference on Emerging Computation and Information Technologies Icecit 2025 Book of Abstracts, 2025
AI-Driven Energy Optimization: Household Power Consumption Prediction With LSTM Networks and PyTorch-Ray Tune in Smart IoT Systems
Vinoth Kumar Kolluru, Yagnesh Challagundla, Advaitha Naidu Chintakunta, Bappadittya Roy, Amine Bermak, Renuka Devi S M
Proceedings of the International Conference on Microelectronics Icm, 2024
Real-Time Adaptive Intrusion Detection System [RTPIDS] for Internet of Things Using Federated Learning and Blockchain
Sunil Raj Y, E. Helen Parimala, V. S Jayakumar Paul Bosco, Adarsh Samuel Raj J, P. J. Rosario Vasantha Kumar, Vinothkumar Kolluru
Proceedings of the 5th International Conference on Data Intelligence and Cognitive Informatics Icdici 2024, 2024
Transformative Effects of Artificial Intelligence on Workforce Dynamics in Industry 4.0
Shreyas Rajendra Hole, Jayavrinda Vrindavanam, Girish S Bhavekar, Pratiksha V Chafle, Sumit Arun Hirve, Vinothkumar Kolluru, Akanksha Akshay Dhok
2024 International Conference on Augmented Reality Intelligent Systems and Industrial Automation Ariia 2024, 2024
Impact of artificial intelligence on the development of employment and the labor market
Shreyas Rajendra Hole, Jayavrinda Vrindavanam, Girish S Bhavekar, Nagarjuna Naik Mude, R. Sriramkumar, Vinothkumar Kolluru, Komal R Hole
2024 International Conference on Augmented Reality Intelligent Systems and Industrial Automation Ariia 2024, 2024

RECENT SCHOLAR PUBLICATIONS

Reinforcement learning guided active crop localization with CNN detectors and an interactive decision dashboard for precision agriculture
AMS Kheir, V Kolluru, G Adli, MGM Ali, Z Ding, A Koubaa, T Feike
Information Processing in Agriculture , 2026
2026
AI Enabled Geospatial Intelligence for the Energy Transition: A Comparative CNN Study on CCUS, Geothermal Siting, and NetZero Strategies
S Mungara, V Kolluru, T Murugesan, S Maiti, SR Hole
Unconventional Resources , 2026
2026
Novel federated learning-based approach for network attack detection
V Kolluru, S Mungara, A Raza, G Aslam, NA Samee, I Ashraf
Journal of Cloud Computing , 2026
2026
Agentic AI for Healthcare Cybersecurity: Autonomous Threat Detection and Ethical Implementation Challenges
V Kolluru, S Maiti, T Murugesane, N Dasari, S Mungara, S Seshagani
2026 Innovations in Machine, Engineering, and Digital Conference (IMED), 1-7 , 2026
2026
SMARTMED: A Blockchain Solution for Privacy-Centric Healthcare and Insurance Integration
E Sujatha, S Palpandi, V Kolluru, M Jayanthi, G Porkodi
2025 IEEE First International Conference on Innovations in Engineering and … , 2026
2026
RIS-aided 5G MISO network optimization with deep reinforcement learning
SR Hole, N Mangrulkar, G Adli, V Kolluru, N Rakesh
Discover Applied Sciences , 2026
2026
Machine Learning Driven Prediction of Antenna Reflection Coefficients (S11) from Geometric Parameters
SR Hole, DS Asudani, G Kumavat, V Kolluru, N Jain, S Salotagi
IEEE 2025 International Conference On Emerging Computation and Information … , 2026
2026
Hybrid RegNet-Swin Transformer for Precision Gastrointestinal Disease Classification A Deep Learning Approach Using the Kvasir Dataset
A Sagar, AXA Joanes, SR Hole, A Agarwal, V Kolluru, G Londhe
IEEE 2025 International Conference On Emerging Computation and Information … , 2026
2026
Data Driven Password Strength Estimation Using Linear Regression and K-Nearest Neighbors with Interactive Gradio Deployment
SR Hole, N Mangrulkar, PB Ghogare, V Kolluru, G Kumavat, S Salotagi
IEEE 2025 International Conference On Emerging Computation and Information … , 2026
2026
HVLGAN: hybrid hierarchical scaled attention-enabled latent model for structure-based drug discovery
SR Hole, M Lakshmanan, R Jeevaraj, M Srinubabu, S Salotagi, V Kolluru
Journal of Biomolecular Structure and Dynamics , 2026
2026
Citations: 1
Deep Learning for Diabetic Retinopathy Detection: An Elaborative Study Using Fundus Imaging and Generative Approaches
V Kolluru, SS Reshmi, S Salotagi, SR Hole, T Murugesan, A Sagar
2025 IEEE 1st International Conference on Recent Trends in Computing and … , 2025
2025
Deep Learning for Knee Osteoarthritis Detection and Severity Grading: A Comprehensive Study Using Radiographic Imaging and Grad-CAM Interpretability
V Kolluru, L Naveen, BS Akshatha, SR Hole, T Murugesan, A Sagar
2025 IEEE 1st International Conference on Recent Trends in Computing and … , 2025
2025
Leveraging Software-defined Wireless Networks for Intelligent Resource Management in 5G and Beyond Wireless Networks
T Kaur, M Reddy, V Kolluru, S Nuthakki, M Soni
Samba Siva and Kolluru, Vinothkumar and Nuthakki, Siddhartha and Nuthakki … , 2025
2025
EEG-Based Brain-Computer Interface for Robotic System Control Using Right-Left Hand Movements with Ensemble Model
YD Borole, Y Challagundla, V Kolluru, SN Mohanty, M Yang, ...
2025 IEEE 8th International Conference on Multimedia Information Processing … , 2025
2025
Hybrid deep learning architectures for brain tumor classification using magnetic resonance imaging: ViT-GRU and GNet-SVM models
G Adli, S Shukla, Y Challagundla, V Kolluru, TR Uggumudi
Artificial Intelligence in Oncology: Cancer Diagnosis and Treatment, Medical … , 2025
2025
Citations: 1
Coupling Process-Based Models with Machine Learning for Robust Predictions of Soil, Water, and Crop Dynamics
AMS Kheir, MMA Shabana, A Attia, MGM Ali, MA Abd El-Aziz, V Kolluru, ...
Resilient Agroecosystems: Innovations in Cropping Systems and Climate Change … , 2025
2025
Citations: 2
A novel deep learning technique for protecting web applications against XSS and SQLI attacks
JYW Sonkarlay, V Kolluru, Y Challagundla, TTJ Tarpeh
Journal of Information and Optimization Sciences 46 (6), Pages 1911–1921 , 2025
2025
Hybrid deep learning-based IoT intrusion detection : A comparative study of CNN, GRU, LSTM, and hybrid architectures
JY Sonkarlay, V Kolluru, ABJ Balyemah, Y Challagundla
Journal of Information and Optimization Sciences 46 (Issue 6), Pages 1983–1994 , 2025
2025
OpIDS-DL: Optimizing Intrusion Detection in IoT Networks: A Deep Learning Approach with Regularization and Dropout for Enhanced Cybersecurity
A Pappurajan, V Kolluru, YS Raj, S Mungara, AN Chintakunta, ...
Demystifying AI and ML for Cyber–Threat Intelligence, 89-102 , 2025
2025
Citations: 1
Machine Learning for Fake Profile Users Detection in Social Network Systems: A Review and Implementation Phase
A Waghmare, V Kolluru, Y Challagundla, VS Aditya Bhrugumalla, ...
Demystifying AI and ML for Cyber–Threat Intelligence, 345-357 , 2025
2025

Vinothkumar Kolluru

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Scopus Publications

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