Penyisipan Citra pada Audio dengan Kode PN Terdistribusi Gaussian

GELAR BUDIMAN, SUCI AULIA, I NYOMAN APRAZ RAMATRYANA

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ABSTRAK

Pada makalah ini, perancangan audio watermarking memanfaatkan kode PN yang terdistribusi Gaussian atau Normal dengan menggunakan citra sebagai watermark yang disisipkan pada audio. Watermark yang berupa citra biner diubah ke dalam vektor 1 dimensi, kemudian dijumlahkan dengan kode PN terdistribusi normal yang disaring dengan filter psikoakustik. Setelah itu, sinyal dikalikan dengan faktor gain α sebelum dijumlahkan dengan host audio untuk mendapatkan watermarked audio. Hasil dari simulasi menunjukkan bahwa sistem memiliki kapasitas watermark yang tinggi pada 689.06 bps, imperseptibilitas yang baik pada SNR>26 dB, dan tahan terhadap serangan LPF mulai frekuensi cut off 6 kHz keatas, serangan Additive Noise mulai 40 dB keatas, resampling pada rate 16 kHz, LSC 1% - 10%, dan kompresi MP3 untuk rate 192 kbps.

Kata kunci: Audio Watermarking, Kode PN, distribusi normal, filter sikoakustik 


ABSTRACT

In this paper, the design of audio watermarking utilizes PN code that is Gaussian or Normal distributed by using the image as a watermark inserted in the audio. The watermark in the form of binary images is converted into a 1-dimensional vector, then summed up with a normally distributed PN code filtered by a psychoacoustic filter. After that, the signal is multiplied by α gain factor before adding it to the audio host to get the watermarked audio. The result of the simulation shows that the system has a high watermark capacity at 689.06 bps, good imperceptibility at SNR> 26 dB, and withstand LPF attacks starting from 6 kHz cut-off frequency and above, Additive Noise attacks from 40 dB up, resampling at 16 kHz , LSC 1% - 10%, and MP3 compression for 192 kbps rate.

Keywords: Audio Watermarking, PN code, normal distribution, psychoacoustic filter


Kata Kunci


Audio Watermarking; Kode PN; distribusi normal; filter psikoakustik

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Referensi


Bajpai, J., & Kaur, A. (2016). A literature survey - Various audio watermarking techniques and their challenges. In Proceedings of the 2016 6th International Conference - Cloud System and Big Data Engineering, Confluence 2016 (pp. 451–457). https://doi.org/10.1109/CONFLUENCE.2016.7508162

Budiman, G., Suksmono, A. B., Danudirdjo, D., Usman, K., & Shin, D. H. (2016). A modified multicarrier modulation binary data embedding in audio file. International Journal on Electrical Engineering and Informatics, 8(4), 762–773. https://doi.org/10.15676/ijeei.2016.8.4.5

Cox, I. J., Kilian, J., Leighton, F. T., & Shamoon, T. (1997). Secure spread spectrum watermarking for multimedia. IEEE Transactions on Image Processing, 6(12), 1673– 1687. https://doi.org/10.1109/83.650120

Cox, I. J., Miller, M. L., Bloom, J. A., Fridrich, J., & Kalker, T. (2008). Digital Watermarking and Steganography (2008th ed.). Burlington: Morgan Kaufmann, Elsevier.

Dutta, P., Bhattacharyya, D., & Kim, T. (2009). Data Hiding in Audio Signal : A Review. International Journal of Database Theory and Application, 2(2), 1–8.

Foo, S. W. (2008). Non-blind audio-watermarking using compression-expansion of signals. In IEEE Asia-Pacific Conference on Circuits and Systems, Proceedings, APCCAS (pp. 1288–1291). https://doi.org/10.1109/APCCAS.2008.4746263

Harahap, H., Budiman, G., & Novamizanti, L. (2016). Implementasi Teknik Watermarking menggunakan FFT dan Spread Spectrum Watermark pada Data Audio Digital. ELKOMIKA, 4(1), 98–109.

ITU-R, R. RECOMMENDATION ITU-R BS.1387-1 Method for objective measurements of perceived audio quality, BS.1387-1 International Telecommunications Union-Recommendation, Geneva (1998). Retrieved from http://scholar.google.com/scholar?hl=en&btnG=Search&q=intitle:Method+for+objectiv

e+measurements+of+perceived+audio+quality+1#0%5Cnhttp://scholar.google.com/scholar?hl=en&btnG=Search&q=intitle:1387,+Method+for+objective+measurements+of+perceived+audio+qualit

Jane, O., Elbaşi, E., & Ilk, H. G. (2014). Hybrid non-blind watermarking based on DWT and SVD. Journal of Applied Research and Technology, 12(4), 750–761. https://doi.org/10.1016/S1665-6423(14)70091-4

Khalil, M., & Adib, A. (2015). From blind to non-blind audio watermarking : A new approach based on blind source separation. In 1st International Conference on Electrical and Information Technologies ICEIT’2015 (pp. 237–240).

Kirovski, D., & Malvar, H. S. (2003). Spread-Spectrum Watermarking of Audio Signals. IEEE Transactions on Signal Processing, 51(4), 1020–1033.

Malvar, H. S., & Florêncio, D. A. F. (2003). Improved spread spectrum: A new modulation technique for robust watermarkimg. IEEE Transactions on Signal Processing, 51(4), 898–905. https://doi.org/10.1109/TSP.2003.809385

Panda, J., Gera, K. R., & Bhattacharyya, A. (2014). Non-Blind Audio watermarking Scheme Based on Empirical Mode Decomposition. International Journal of Advanced Science, Engineering and Technology, 3(3), 38–43.

Robinson, D. J. M. (1999). the Human Auditory System. 107th Convention of the Audio Engineering Society, 1–13.

Shulze, H., & Luders, C. (2005). Theory and Applications of OFDM and CDMA. A John Wiley&Sons Ltd. https://doi.org/10.1002/0470017406

Singh, P., & Chadha, R. (2013). A Survey of Digital Watermarking Techniques, Applications and Attacks. International Journal of Engineering and Innovative …, 2(9), 165–175. https://doi.org/10.1109/INDIN.2005.1560462

Xiang, Y., Natgunanathan, I., Peng, D., Hua, G., & Liu, B. (2018). Spread Spectrum Audio watermarking Using Multiple Orthogonal PN Sequences and Variable Embedding Strengths and Polarities. IEEE/ACM Transactions on Audio Speech and Language Processing, 26(3), 529–539. https://doi.org/10.1109/TASLP.2017.2782487

Yani, K., Rizal, A., & Prasetya, B. (2008). Analisis Kinerja Algoritma Short Time Fourier Transform (STFT) Untuk Deteksi Sinyal Carrier Frequency Hopping Spread Spectrum (FHSS) CDMA. In Seminar Sistem Informasi Indonesia (SESINDO2008).

Zhang, P., Xu, S. Z., & Yang, H. Z. (2012). Robust audio watermarking based on extended improved spread spectrum with perceptual masking. International Journal of Fuzzy Systems, 14(2), 289–295.




DOI: https://doi.org/10.26760/elkomika.v7i2.209

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