Алексей Викторович Алпатов, канд. техн. наук, Антон Викторович Кирюхин, аспирант, кафедра биомедицинской и полупроводниковой электроники, Рязанский государственный радиотехнический университет, г. Рязань, e-mail: alpatov-alexey@yandex.ru
1. Aggressive Driving: Research Update // https:// www.aaafoundation.org/sites/default/files/ AggressiveDrivingResearchUpdate2009.pdf (дата обращения 12. 03.2014). 2. Singh R.R., Conjeti S., Banerjee R. Comparative evaluation of neural network classifiers for stress level analysis of automotive drivers using physiological signals // Biomedical Signal Processing and Control. 2013. Vol. 8. PP. 740-754. 3. Healey J.A., Picard R.W. Detecting stress during real-world driving tasks using physiological sensors // IEEE Transactions on Intelligent Transportation Systems. 2005. Vol. 6 (2). PP. 156-166. 4. Lisetti C.L., Nasoz F. Using noninvasive wearable computers to recognize human emotions from physiological signals // EURASIP Journal of Applied Signal Processing. 2004. Vol. 11. PP. 1672-1687. 5. Ji Q., Lan P., Looney C. A probabilistic framework for modeling and real-time monitoring human fatigue // IEEE Transactions on Systems Man and Cybernatics: Part A Systems and Humans. 2006. Vol. 36 (5). PP. 862-875. 6. Katsis C.D., Goletsis Y., Rigas G., Fotiadis D.I. A wearable system for the affective monitoring of car racing drivers during simulated conditions // Transportation Research Part C: Emerging Technologies. 2011. Vol. 19 (3). PP. 541-551. 7. Riener A., Ferscha A., Aly M. Heart on the road: HRV analysis for monitoring a driver’s affective state / Proceedings of the 1st International Conference Automotive User Interfaces and Interactive Vehicular Applications, Automotive UI. 2009. PP. 99-106. 8. Katsis C.D., Katertsidis N., Ganiastas G., Fotiadis D.I. Toward emotion recognition in car-racing drivers: A biosignal processing approach // IEEE Transactionson Systems Man And Cybernatics – Part A: Systems and Humans. 2008. Vol. 38 (3). PP. 502-512. 9. Dula C.S., Geller E.S. Risky, aggressive, or emotional driving: Addressing the need for consistent communication in research // Journal of Safety Research. 2003. Vol. 34 (5). PP. 559-566. 10. Kuo Y.C., Pai N.S., Li Y.F. Vision-based vehicle detection for a driver assistance system // Computers and Mathematics with Applications. 2011. Vol. 61. PP. 2096-2100. 11. Hjalmdahl M., Varhelyi A. Effects of an active accelerator pedal on driver behaviour and traffic safety after long-term use in urban areas // Accident Analysis and Prevention. 2004. Vol. 36. PP. 729-737. 12. Mehler B., Reimer B. An initial assessment of the significance of task pacing on self-report and physiological measures of workload while driving / Proceedings of the 7th International driving symposium on human factors in driver assessment, raining, and vehicle design. Bolton Landing, NY. 2013. PP. 170-176. 13. Alpatov A.V., Kiryukhin A.V. Device to warn drivers about the dangerous movement of the vehicle // Research Journal of International Studies. 2013. PP. 38-41. 14. Алпатов А.В., Митрофанова М.Ю. Метод флуктуационного анализа сердечного ритма в режиме реального времени // Биомедицинская радиоэлектроника. 2011. № 7. С. 66-71. 15. Golberger A. Non-linear dynamics for clinicians: Chaos theory, fractals, and complexity at the bedside // Lancet. 1996. Vol. 347. № 9011. PP. 1312-1314.