Open Access Journal

ISSN : 2394-2320 (Online)

International Journal of Engineering Research in Computer Science and Engineering (IJERCSE)

Monthly Journal for Computer Science and Engineering

Open Access Journal

International Journal of Engineering Research in Computer Science and Engineering (IJERCSE)

Monthly Journal for Computer Science and Engineering

ISSN : 2394-2320 (Online)

Call For Paper : Vol 11, Issue 03, March 2024

Call for Paper

Vol 11, Issue 03, March 2024

Indexing

HAIRIO

Author : Subathra Srinivas 1 Sanjana .J 2 Sujithra Srinivas 3

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Date of Publication :7th August 2016

Abstract: Accidents are very common in big cities as there are many modes of transport and roads are congested and overcrowded. . Accidents often result in tragic loss of life and material. A large no of accidents are caused by the carelessness of the drivers and their ignorance and negligence of the traffic rules. Drowsiness is one key factor for road accidents. Researchers are being done to detect drowsiness and many techniques have been introduced .In this paper, the authors analyze the issue of drowsiness, propose a method to detect drowsiness and elaborate on its advantages and limitations. The approach is based on a combination of Physiological and Vision based measures We conclude that by combining a unique non-intrusive physiological measures with other measures help accurately determine the drowsiness level of a driver. This contributes positively towards preventing accidents by alerting the driver.

Reference :

    1. https://data.gov.in/keywords/indian-roadaccident-data.(FIG.1)(GRAPH.1)
    2. http://www.mathworks.com/products/daq/(FIG.7)
    3. Detecting Driver Drowsiness Based on Sensors: A ReviewArun Sahayadhas * , Kenneth Sundaraj and Murugappan Murugappan.AI-Rehab Research Group, Universiti Malaysia Perlis (UniMAP), Kampus Pauh Putra, 02600Arau, Perlis, Malaysia
    4. http://www.sleepdex.org/(TABLE.2)
    5. http://www.end-your-sleep deprivation.com/(FIG.2-FIG.5)
    6. http://ebooks.cambridge.org/
    7. Adolescent Sleep Patterns.Biological, Social, and Psychological Influence

    1. Kwapisz, J. R., Weiss, G. M., & Moore, S. A. (2010). Cell phone-based biometric identification. In Biometrics: Theory Applications and Systems (BTAS), 2010 Fourth IEEE International Conference on (pp. 1-7). IEEE.
    2. Nickel, C., Brandt, H., & Busch, C. (2011). Benchmarking the performance of SVMs and HMMs for accelerometer-based biometric gait recognition. In Signal Processing and Information Technology (ISSPIT), 2011 IEEE International Symposium on (pp. 281-286). IEEE.
    3. Nickel, C., Brandt, H., & Busch, C. (2011). Classification of Acceleration Data for Biometric Gait Recognition on Mobile Devices. BIOSIG, 11, 57-66.
    4. Mantyjarvi, J., Lindholm, M., Vildjiounaite, E., Makela, S. M., &Ailisto, H. A. (2005). Identifying users of portable devices from gait pattern with accelerometers. In Acoustics, Speech, and Signal Processing, 2005. Proceedings.(ICASSP'05). IEEE International Conference on (Vol. 2, pp. ii-973). IEEE.
    5. Nickel, C., Derawi, M. O., Bours, P., & Busch, C. (2011). Scenario test of accelerometer-based biometric gait recognition. In Security and Communication Networks (IWSCN), 2011 Third International Workshop on(pp. 15- 21). IEEE.
    6. Juefei-Xu, F., Bhagavatula, C., Jaech, A., Prasad, U., &Savvides, M. (2012). Gait-id on the move: pace independent human identification using cell phone accelerometer dynamics. In Biometrics: Theory, Applications and Systems (BTAS), 2012 IEEE Fifth International Conference on (pp. 8-15). IEEE.
    7. Thang, H. M., Viet, V. Q., Thuc, N. D., & Choi, D. (2012). Gait identification using accelerometer on mobile phone. In Control, Automation and Information Sciences (ICCAIS), 2012 International Conference on (pp. 344- 348). IEEE.
    8. Ailisto, H. J., Lindholm, M., Mantyjarvi, J., Vildjiounaite, E., &Makela, S. M. (2005). Identifying people from gait pattern with accelerometers. InDefense and Security (pp. 7-14). International Society for Optics and Photonics.
    9. Annadhorai, A., Guenterberg, E., Barnes, J., Haraga, K., &Jafari, R. (2008). Human identification by gait analysis. In Proceedings of the 2nd International Workshop on Systems and Networking Support for Health Care and Assisted Living Environments (p. 11). ACM.
    10. Gafurov, D., Helkala, K., &Søndrol, T. (2006). Biometric gait authentication using accelerometer sensor. Journal of computers, 1(7), 51-59.
    11. Gafurov, D., Helkala, K., &Søndrol, T. (2006). Gait recognition using acceleration from MEMS. In Availability, Reliability and Security, 2006. ARES 2006. The First International Conference on (pp. 6-pp). IEEE.
    12. Ngo, T. T., Makihara, Y., Nagahara, H., Mukaigawa, Y., & Yasushi, Y. A. G. I. (2014). Orientation-compensative signal registration for owner authentication using an accelerometer. IEICE TRANSACTIONS on Information and Systems,97(3), 541-553.
    13. Gafurov, D., Snekkenes, E., &Buvarp, T. E. (2006). Robustness of biometric gait authentication against impersonation attack. In On the Move to Meaningful Internet Systems 2006: OTM 2006 Workshops (pp. 479- 488). Springer Berlin Heidelberg.
    14. Frank, J., Mannor, S., &Precup, D. (2010). Activity and Gait Recognition with Time-Delay Embeddings. In AAAI.
    15. Sprager, S., &Zazula, D. (2009). A cumulant-based method for gait identification using accelerometer data with principal component analysis and support vector machine. WSEAS Transactions on Signal Processing, 5(11), 369-378.
    16. Whittle, M. W. (2007). Gait Analysis: An Introduction. Fourth Edition. Butterworth-Heinemann: Elsevier
    17. Rana, J., &Arora, N. (2016). A Comparative Study of Wearable Sensors for Recognition and Analysis of human Gait. IJAREEIE, 5(3), 1499-1508.
    18. Terada, S., Enomoto, Y., Hanawa, D., &Oguchi, K. (2011). Performance of gait authentication using an acceleration sensor. InTelecommunications and Signal Processing (TSP), 2011 34th International Conference on (pp. 34-36). IEEE.
    19. Juefei-Xu, F., Bhagavatula, C., Jaech, A., Prasad, U., &Savvides, M. (2012). Gait-id on the move: Pace independent human identification using cell phone accelerometer dynamics. In Biometrics: Theory, Applications and Systems (BTAS), 2012 IEEE Fifth International Conference on (pp. 8-15). IEEE.
    20. Neves, G. M. G. &Correia P. L. (2013). Android Gait Recognition System.
    21. Sprager, S., &Juric, M. (2015). An efficient HOS-based gait authentication of accelerometer data
    22. Derawi, M., &Bours, P. (2013). Gait and activity recognition using commercial phones. computers& security, 39, 137-144.
    23. Hoang, T., & Choi, D. (2014). Secure and privacy enhanced gait authentication on smart phone. The Scientific World Journal, 2014.
    24. Hoang, T., Choi, D., & Nguyen, T. (2015). Gait authentication on mobile phone using biometric cryptosystem and fuzzy commitment scheme. International Journal of Information Security, 1- 12.
    25. Ngo, T. T., Makihara, Y., Nagahara, H., Mukaigawa, Y., &Yagi, Y. (2014). The largest inertial sensor-based gait database and performance evaluation of gait-based personal authentication. Pattern Recognition, 47(1), 228- 237.
    26. Bajrami, G., Derawi, M. O., &Bours, P. (2011). Towards an automatic gait recognition system using activity recognition (wearable based). In Security and Communication Networks (IWSCN), 2011 Third International Workshop on (pp. 23-30). IEEE.

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