Optimasi Sistem Penyembunyian Data pada Audio menggunakan Sub-band Stasioner dan Manipulasi Rata-rata Statistik

LEDYA NOVAMIZANTI, GELAR BUDIMAN, BHISMA ADI WIBOWO

Sari


ABSTRAK

Kasus pelanggaran hak cipta musik atau lagu menjadi masalah dan mendapat perhatian serius oleh industri musik di Indonesia. Teknik audio watermarking merupakan salah satu solusi untuk melindungi hak cipta audio digital dari tindakan ilegal dengan cara menyembunyikan watermark berupa identitas pemilik ke dalam audio tersebut. Pada penelitian ini, audio host diubah menjadi matriks 1-dimensi untuk proses framing. Selanjutnya Stationary Wavelet Transform (SWT) digunakan untuk mendapatkan sub- band stasioner terpilih yang akan disisipkan watermark. Metode Statistical Mean Manipulation (SMM) akan menghitung rata-rata host audio dalam satu frame, dan dilakukan proses penyisipan bit. Optimasi dilakukan dengan melakukan evaluasi parameter yang menghasilkan BER paling tinggi setelah sistem diberikan serangan. Hasil dari optimasi diperoleh suatu sistem audio watermarking yang kuat dan tahan terhadap gangguan signal, dengan rata-rata BER 0.113, SNR 31 dB, ODG -0.6, dan MOS 4.6.

Kata kunci: audio watermarking, SWT, SMM, optimasi


ABSTRACT

The case of copyright infringement of music or song becomes a serious problem in Indonesia. Audio watermarking technique is one solution to protect the music copyright of digital audio from illegal acts by hidding the watermark in the form owner's identity into the audio. The workings of audio watermarking is to embed the watermark in the form owner's identity into the audio. In this study, the audio host is converted into a 1-dimensional matrix for the framing process. Furthermore Stationary Wavelet Transform (SWT) used to obtain stationary sub-bands selected to be inserted watermark. Statistical methods Mean Manipulation (SMM) will calculate the average host audio in one frame, and do bits insertion process. Optimization is done by evaluating the parameters that produce the highest BER after the system is given an attack. The results of the optimization obtained an audio watermarking system that is robust and resistant to signal interference, with the average BER 0.113, SNR 31 dB, ODG -0.6, and MOS 4.6.

Keywords: audio watermarking, SWT, SMM, optimization


Kata Kunci


audio watermarking, SWT, SMM, optimasi

Teks Lengkap:

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Referensi


Saini, L. K., & Shrivastava, V. (2014). A Survey of Digital Watermarking Techniques and its Applications. International Journal of Computer Science Trends and Technology (IJCST), 2(3), 70 - 73.

Dutt, S. (2015). A Survey of Digital Audio watermarking Techniques. International Journal of Computer Science and Information Technologies (IJCSIT), 6(3), 3067 – 3072.

Bender, W., Gruhl, D., Morimoto, N., & Lu, A. (1996). Techniques for data hiding. IBM Systems Journal, 35(3.4), 313 – 336.

Budiman, G., Suksmono, A. B., & Danudirdjo, D. (2018). Fibonacci Sequence Based FFT and DCT Performance Comparison in Audio Watermarking. Pertanika Journal of Science & Technology (Pertanika JST), in press.

Husain, F. (2012). A Survey of digital Watermarking Techniques for Multimedia Data. MIT International Journal of Electronics and Communication Engineering, 2(1), 37 - 43.

Datta, K., & Sengupta, I. (2010). A Redudant Audio watermarking Technique Using Discrete Wavelet Transformation. International Conference Communication Software and Networks (ICCSN), (pp. 0 - 4).

Pun, C. M., & Yuan, X. C. (2013). Robust Segments Detector for De-Synchronization Resilient Audio watermarking. IEEE Transactions On Audio Speech and Languange Proccessing, 2412 - 2424.

Delong, C., Qirui, L., Guilan, Y., & Jianbin, X. (2014). Conten-Based Audio watermarking Based To Resist De-Synchronization Attacks. International Conference on Information and Network Security.

C. Hsieh, C., & Tsou, P. (2002). Blind Cepstrum Domain Audio watermarking Based on Time Energy Features. International Conference on Digital Signal Processing, (pp. 705 -708).

Chauhan, S. P. S., & Rizvi, S. A. M. (2013). A survey: Digital audio watermarking Techniques and Applications. 4th International Conference on Computer and Communication Technology (ICCCT), (pp. 185–192).

Chincholkar, Y. D., Ganorkar, S.R., & Kude, S.P. (2017). A Survey: Digital Audio Watermark Designed Method. International Journal of Advanced Research in Computer and Communication Engineering, 6(6), 288 - 292.

Hartung, F., & Kutter, M. (1999). Multimedia Watermarking Techniques. Proceeding IEEE, 87(7), (pp. 1079 – 1107).

Kiah, M. L. M., Zaidan, B. B., Zaidan, A. A. Ahmed A. M., & Al-Bakri, S. H. (2011). A Review of audio Based Steganography and Digital Watermarking. International Journal of the Physical sciences, 6(16), 3837 - 3850.

Rashid, A. (2016). Digital Watermarking Applications and Techniques: A Brief Review. International Journal of Computer Applications Technology and Research, 5(3), 147 – 150.

Al-haj, A., Mohammad, A., & Bata, L. (2011). DWT – Based Audio watermarking. The International Arab Journal of Information Technology, 8(3), 326 – 333.

Zeng, W. (2012), A Novel Audio watermarking Algorithm based on Chrip Signal and Discrete Wavelet Transform. 8th International Conference on Wireless Communications, Networking and Mobile Computing (WiCOM), (pp. 0 – 3).

Vivekananda, B. K., Sengupta, I., &, Das, A. (2008). Audio watermarking Based On Mean Quantization In Cepstrum Domain. 16th International Conference on Advanced Computing and Communications (ADCOM), (pp. 73 - 77).

Wen, X., Ding, X., Li, J., Gao, L., & Sun, H. (2009). An Audio watermarking Algorithm Based on Fast Fourier Transform. International Conference on Information Management, Innovation Management and Industrial Engineering, (pp. 363 – 366).

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

Zhao, M., Pan, J., & Chen, S. (2015). Optimal SNR of Audio watermarking by Wavelet and Compact PSO Methods. Journal of Information Hiding and Multimedia Signal Processing, 6(5), 833 – 846.

Budiman, G., Suksmono, A. B., & Danudirdjo, D. (2016). A Modified Multicarrier Modulation Binary Data Embedding in Audio File. International Journal on Electrical Engineering and Informatics, 8(4), 762 - 774.




DOI: https://doi.org/10.26760/elkomika.v6i2.165

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ISSN (print) : 2338-8323 | ISSN (electronic) : 2459-9638

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