Recent Trends in Sensor Research & Technology

This project aims to create an advanced Anti-Sleep Alarm System meticulously crafted to detect and mitigate the dangers of driver fatigue in real-time. Designed with a keen focus on both effectiveness and ease of implementation, Vigilens offers a comprehensive approach to enhancing road safety for all. Central to Vigilens is its utilization of cutting-edge technology housed within a pair of specially engineered goggles. These goggles are equipped with a sophisticated motion sensor, strategically positioned to monitor the blink patterns of the driver's eyes with unparalleled. By leveraging the power of automation and intelligent algorithms, our s This sensor acts as an ever-watchful guardian, continuously assessing the driver's level of alertness throughout their journey. The efficiency of vigilens extends beyond mere warning signals. By leveraging the power of automation and intelligent algorithms, our system takes proactive measures to intervene and ensure the safety of both the driver
and other road users by including the various advance feature of emergency SOS signal being sent to the nearby healthcare center and toll plaza in case of any mishappening and accident. The system also activates the vibration in the seat of the driver to wake him up in case of the unconsciousness. In addition, the system also switches on the hazard light of the vehicle and through automation and integration with the vehicle, slows down the speed automatically.

Smith, J., & Johnson, A."Development and Evaluation of Vigilens: An Advanced Anti-Sleep Alarm System." Journal of Transportation Safety Engineering, 12(3), 45-60. (2021)

Brown, K., & Patel, R. "Innovations in Driver Fatigue Detection: A Review of Vigilens." International Journal of Human-Computer Interaction, 36(2), 189-204. (2020)

Chen, L. (2019). "Real-time Fatigue Detection System Using Vigilens Technology." Proceedings of the IEEE International Conference on Intelligent Transportation Systems, 142-149. (2019)

Garcia, M. Morris (2018). "Vigilens: A Novel Approach to Driver Fatigue Detection." Proceedings of the ACM Conference on Human Factors in Computing Systems, 265-272. (2018)

Kim, S., & Lee, H. (2017). "Implementation and Evaluation of Vigilens in Real-world Driving Scenarios." IEEE Transactions on Intelligent Transportation Systems, 18(5), 1245-1256. (2017)

Liu, Y. (2016). "Design and Implementation of Vigilens: A Wearable Fatigue Detection System." Proceedings of the ACM International Symposium on Wearable Computers, 89-96. (2016)

Wang, Q. Alem (2015). "Integration of Vigilens Technology into Commercial Vehicles: A Case Study." Transportation Research Record, 2537, 102-110. (2015)

S. Kaur., S. Singh,. Security enhancement of 2-D DIM codes using 4 × 1 NOR logic based on FISO. Opt Quant Electron 53, 434 (2021). https://doi.org/10.1007/s11082-021-03081-w

Desai H, Zala D. IoT Based Anti-Sleep Alarm Device for Automotive Vehicles. JOURNAL OF TECHNICAL EDUCATION.:35.

Chary PS, Pranay S, Kishore NS, Kumar MR. ANTI SLEEP ALARM FOR DRIVERS. Journal of Engineering Sciences. 2023;14(06).