Emotion is such a unique power of human trial that plays a vital role in distinguishing human civilization from others. Voice is one of the most important media of expressing emotion. We can identify many types of emotions by talking or listening to voices. This is what we know as a voice signal. Just as the way people talk is different, so is the way they express emotions. By looking or hearing a person’s way of speaking, we can easily guess his/her personality and instantaneous emotions. People’s emotion and feelings are expressed in different ways. It is through the expression of emotions and feelings that people fully express his thoughts. Happiness, sadness, and anger are the main medium of expression way of different human emotions. To express these emotions, people use body postures, facial expressions and vocalizations. Though people use a variety of means to express emotions and feelings, the easiest and most complete way to express emotion and feelings is voice signal. The subject of our study is whether we can identify the right human emotion by examining the human voice signal. By analyzing the voice signal through wavelet, we have tried to show whether the mean frequency, maximum frequency and Lp values conform to a pattern according to its different sensory types. Moreover, the technique applied here is to develop a concept using MATLAB programming, which will compare the mean frequency, maximum frequency and Lp norm to find relation and detect emotion by analyzing different voices.
References
[1]
Gabor, D. (1946) Theory of Communication. Journal of Institute of Electrical and Electronics Engineers, 93, 429-457. https://doi.org/10.1049/ji-3-2.1946.0076
[2]
Littlewood, J.E. and Paley, R.E.A.C. (1931) Theorems on Fourier Series and Power Series. Journal of the London Mathematical Society, 6, 230-233.
https://doi.org/10.1112/jlms/s1-6.3.230
[3]
Rioul, O. and Vetterli, M. (1991) Wavelets and Signal Processing. Institute of Electrical and Electronics Engineers of Signal Processing Magazine, 8, 14-38.
https://doi.org/10.1109/79.91217
[4]
Badsha, M.F., Islam, M.R. and Bulbul, M.F. (2018) Object Detection by Point Feature Matching Using Matlab. Advances in Image and Video Processing, 6, 22-29.
[5]
Favero, R.F. (1994) Compound Wavelets: Wavelets for Speech Recognition. Institute of Electrical and Electronics Engineers Communications Letters, 17, 600-603.
https://doi.org/10.1109/TFSA.1994.467280
[6]
Meyer, Y. (1993) Wavelets, Algorithms and Applications. Society for Industrial and Applied Mathematics, Philadelphia, PA.
[7]
Agbinya, J.I. (1996) Discrete Wavelet Transform Techniques in Speech Proccesing. International Technical Conference of Institute of Electrical and Electronics Engineers, 2, 514-519.
[8]
Pasti, L., Walczak, B., Massart, D.L. and Reschiglian, P. (1999) Optimization of Signal Denoising in Discrete Wavelet Transform. Chemometrics and Intelligent Labratiory Systems, 48, 21-34. https://doi.org/10.1016/S0169-7439(99)00002-7
[9]
Boll, S.F. (1979) Suppression of Acoustic Noise in Speech Using Spectral Subtractionv. IEEE Transactions on Acoustics, Speech, and Signal Proceedings, 27, 56-72.
https://doi.org/10.1109/TASSP.1979.1163209
[10]
Chen, J.-F. and Ser, W. (2000) Speech Detection Using Microphone Array. Electronic Letters, 36, 181-182. https://doi.org/10.1049/el:20000140
[11]
Rabiner, L. and Juang, B. (1993) Fundamentals of Speech Recognition. Prentice Hall PTR, Englewood Cliffs, NJ.
