Navigation security module with real-time voice command recognition system

Yagimli, M.; Kursat-Tezer, H.

Artykuł - szczegóły

Tytuł artykułu

Navigation security module with real-time voice command recognition system

Autorzy

Yagimli M. , Kursat-Tezer H.

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Abstrakty

The real-time voice command recognition system used for this study, aims to increase the situational awareness, therefore the safety of navigation, related especially to the close manoeuvres of warships, and the courses of commercial vessels in narrow waters. The developed system, the safety of navigation that has become especially important in precision manoeuvres, has become controllable with voice command recognition-based software. The system was observed to work with 90.6% accuracy using Mel Frequency Cepstral Coefficients (MFCC) and Dynamic Time Warping (DTW) parameters and with 85.5% accuracy using Linear Predictive Coding (LPC) and DTW parameters.

Słowa kluczowe

maritime navigation LPC MFCC DTW voice command recognition

Wydawca

Gdańsk University of Technology, Faculty of Ocean Engineering & Ship Technology

Czasopismo

Polish Maritime Research

Rocznik

2017

Tom

nr 2

Strony

17--26

Opis fizyczny

Bibliogr. 20 poz., rys., tab.

Twórcy

autor

Yagimli M.

mustafa.yagimli@okan.edu.tr

Okan University Department of Property Protection and Security 34722, Kadikoy, Istanbul tel.: +905054206650 Turkey

autor

Kursat-Tezer H.

Turkish Navy Academy, Institute of Naval Science and Engineering, Tuzla, TURKEY

Bibliografia

1. Lazarowska A.: Decision support system for collision avoidance at sea. Polish Maritime Research, 2012 (Special Issue), pp.19-24.
2. Lazarowska A.: Swarm intelligence approach to safe ship control. Polish Maritime Research, 2015(4), pp. 33-40.
3. Zhizeng L., Jinghing Z.: Speech recognition and its application in voiced-based robot control system. International Conference on Intelligent Mechatronics and Automation, 0-7803-8748-1, 2004.
4. Bala A., Kumar A., Birla N.: Voice Command Recognition System Based on MFCC and DTW. International Journal of Engineering Science and Technology Vol. 2 (12), 73357342, 2010.
5. Vashisht D., Sharma S., Dogra L.: Design of MFCC and DTW for Robust Speaker Recognition. International Journal of Electrical&Electronics Engineering Vol 2 (3), 1694-2426, 2015.
6. Ferrando F., Nouveau G., Philip B., Pradeilles P., Soulenq V., Van-Staen G., Courmontagne P.: A Voice Recognition System for a Submarine Piloting. 1-4244-2523-5/09- IEEE, 2009.
7. Smith S.W.: The Scientist’s and Engineer’s Guide to Digital Signal Processing. California Technical Publishing, ISBN 0-96-601764-1, 1999.
8. Yagimli M., Akar F.: Digital Electronics. Beta, ISBN: 9786053777526, Istanbul 2014.
9. Proakis J. & Manolakis D.: Digital Signal Processing Principles, Algorithms and Applications (3rd edition). New Jersey : Prentice-Hall Inc., 1996.
10. Karakas M.: Computer Based System Control Using Voice Input. M.Sc. thesis, Dokuz Eylul University, 2010.
11. Demirci M.: Computer Aided Voice Recognition System Design, M.Sc. thesis, Istanbul University, 2005.
12. Lindasalwa M, Mumtaj B, Elamvazuthi I.: Voice Recognition Algorithms using Mel Frequency Cepstral Coefficient (MFCC) and Dynamic Time Warping (DTW) Techniques. Journal of Computing, Volume 2, Issue 3, pp.138-143, ISSN 2151-9617, March 2010.
13. Rabiner L. R., Shafer R. W.:Digital Processing of Speech Signals. Prentice Hall Inc., September 1978.
14. Huang X., Acero A, Hon H.W.: Spoken Language Processing: A Guide to Theory, Algorithm and System Development (1st Ed.). Prentice Hall PTR, ISBN 0-13-022616-5, 2001.
15. Lipeika A., Lipeikien J., Telksnys L.:Development of Isolated Word Speech Recognition System. INFORMATICA, Vol. 13, No. 1, 37–46 Institute of Mathematics and Informatics, 2002.
16. Juang B.H., Wang D.Y., Gray A.H.: Distortion performance of vector quantization for LPC voice coding. IEEE Tranc. on Acoustic Speech and Signal Processing, ASSP-30 (2), 294–304.
17. Jiang Z., Huang H., Yang S., Lu S., Hao Z.: Acoustic Feature Comparison of MFCC and CZT-based Cepstrum for Speech Recognition. IEEE 2009 Fifth International Conference on Natural Computation, 978-0-7695-37368/09, 2009.
18. Price J., Eydgahi A.: Design of Matlab®-Based Automatic Speaker Recognition Systems. 9th International Conference on Engineering Education-T4J-1, July 2006.
19. Phoophuangpairoj R.: Using Multiple HMM Recognizers and the Maximum Accuracy Method to Improve VoiceControlled Robots. 2011 International Symposium on Intelligent Signal Processing and Communication Systems (ISPACS) December 7-9, 2011.
20. Petrushin V.A.: Emotion in Speech Recognition and Application to Call Centres. Andersen Consulting, 3773 Willow Rd., 2009.

Uwagi

Opracowanie ze środków MNiSW w ramach umowy 812/P-DUN/2016 na działalność upowszechniającą naukę (zadania 2017)

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Bibliografia

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