eISSN: XXXX-XXXX
Editor: M. Rehena Sulthana
| Pages | Title and author(s) |
|---|---|
| 1-15 | A Cryptographically Hierarchical Framework for Secure Software Distribution: End - to- End Session Encryption with Ephemeral ECDH, Authenticated Metadata Signing, and Identity-Bound Rate Limiting K. R. Shivsankar, Abhiram Chintalapati, T. Senthil Kumar, J. Jayapradha, Mardeni Bin Roslee Keywords: Over the Air Updates (OTA); Post-Quantum Cryptography; ML-DSA and AES-256-GCM; Batch Verification; ECU Security; Security and Functionality; Unauthorised Tampering; Uptane Architecture. DOI: 10.69888/FTSCIS.2026.000709 |
| 16-32 | An Edge-Based Deep Learning Surveillance System Using YOLOv8 for Real-Time Multi-Zone Intrusion Detection and Intelligent Alerting Yashmit Rai, Girik Sharma, V. Kamalesh, R. Regin, Maruf Farhan Keywords: Edge Computing; Intrusion Detection; Multi-zone Classification; Computer Vision; Surveillance Systems; Real-time Surveillance; False Positive Reduction; Independent Surveillance. DOI: 10.69888/FTSCIS.2026.000710 |
| 33-44 | Enhancing VANET Security through Deep Learning-Based Secure Communication Initialization Mohammad Ahmad, S. Sajini, P. Mahendran, M. Sakthivanitha, M. Mohamed Sirajudeen Keywords: VANET and CNN; Deep Learning; Authentication Scheme; Secure Communication; Intelligent Transportation Systems; Anomaly Detection; Traffic Management; Roadside Infrastructure. DOI: 10.69888/FTSCIS.2026.000711 |
| 45-57 | Integrating Artificial Intelligence with Electronics for Smarter Healthcare, Industrial Automation, and Sustainable Solutions V. Ellappan, S. Tamilarasi, S. Sathish Kumar, M. Nishanth, S. Vinoth Kumar, R. Bagavathi Lakshmi, Jaime Alfonso Flores Navas Keywords: Artificial Intelligence; Edge Computing; Embedded Systems; Federated Learning; Healthcare IoT; Industrial Automation; Sustainable Electronics; Predictive Maintenance; Smart Grid. DOI: 10.69888/FTSCIS.2026.000712 |
| 58-72 | A Novel Lightweight Cryptographic Model for Secure Communication in 5G-Enabled IoT Networks K. Shivanna, D. R. Janardhana, Rajashekar Kunabeva, Prashanth Kambli, Sayyed Khawar Abbas Keywords: IoT Security; Communication Protocol; Lightweight Cryptography; Data Confidentiality; Data Integrity; Internet of Things (IoT); Resource-constrained Devices. DOI: 10.69888/FTSCIS.2026.000713 |