Information Hiding Based on Audio Steganography using Least Significant Bit
-
https://doi.org/10.14419/ijet.v7i3.28.28427
-
Steganography, Audio Steganography, LSB Algorithm. -
Steganography refers to the concept of disguise special or delicate information or data inside something that shows up with be nothing out of the normal. A few problems arise especially in securing data and information when the information had been lost or stolen from unauthorized user. Traditionally, we give information manually using paper; it is possible that the information could be stolen by unauthorized user. The main objective of this study is to hide secret information in audio, in this way that different persons won't perceive the vicinity of the majority of the data. The proposed method of this study is by using Least Significant Bit (LSB) algorithm to design an audio steganography. In the recommended method, every sound test is changed over bits and then the text information is installed. The expected result of this study will produce a steganography audio that will be able to hide data or information efficiently from unauthorized user, also to ensure the safety of the information in an authorized hand.
Â
-
References
[1] Kulkarni, S. A., Patil, P. S., & Patil, B. S. (2012). A optimized and secure audio steganography for hiding secret information-review. Journal of Electronics and Communication Engineering, 1, 12-16.
[2] Chowdhury, R., Bhattacharyya, D., Bandyopadhyay, S. K., & Kim, T. H. (2016). A view on LSB based audio steganography. International Journal of Security and Its Applications, 10(2), 51-62.
[3] Adhiya, K. P., & Patil, S. A. (2012). Hiding text in audio using LSB based steganography. Information and Knowledge Management, 2(3), 8-14.
[4] Nehru, G., & Dhar, P. (2012). A detailed look of audio steganography techniques using LSB and genetic algorithm approach. International Journal of Computer Science Issues, 9(1), 402-406.
[5] Rahmani, M. K. I., Arora, K., & Pal, N. (2014). A crypto-steganography: A survey. International Journal of Advanced Computer Science and Application, 5, 149-154.
[6] Kaur, N., & Behal, S. (2014). Audio steganography using LSB edge detection algorithm. Proceedings of the International Conference on Communication, Computing and Systems, pp. 180-183.
[7] Pradhan, K., & Bhoi, C. (2012). Robust audio steganography technique using AES algorithm and MD5 hash. International Journal of Innovative Research in Advanced Engineering, 1(10), 282-287.
[8] Chandrakar, P., Choudhary, M., & Badgaiyan, C. (2013). Enhancement in security of LSB based audio steganography using multiple files. International Journal of Computer Applications, 73(7), 1-4.
[9] Sakthisudhan, K., Prabhu, P., & Thangaraj, P. (2012). Secure audio steganography for hiding secret information. Proceedings of the International Conference on Recent Trends in Computational Methods, Communication and Controls, pp. 33-37.
[10] Chadha, A., & Satam, N. (2013). An efficient method for image and audio steganography using Least Significant Bit (LSB) substitution. International Journal of Computer Applications, 77(13), 37-45.
[11] Bandyopadhyay, S. K. & Banik, B. G. (2012). Multi-level steganographic algorithm for audio steganography using LSB modification and parity encoding technique. International Journal of Emerging Trends and Technology in Computer Science, 1(1), 71-74.
[12] Singh, G., Tiwari, K. & Singh, S. (2014). Audio steganography using RSA algorithm and genetic based substitution method to enhance security. International Journal of Scientific and Engineering Research, 5(5), 703-707.
[13] Sinha, N., Bhowmick, A., & Kishore, B. (2015). Encrypted information hiding using audio steganography and audio cryptography. International Journal of Computer Applications, 112(5), 49-53.
-
Downloads
-
-
How to Cite
Susilawati Mohamad, F., Sahira Mohd Yasin, N., & Iqtait, M. (2018). Information Hiding Based on Audio Steganography using Least Significant Bit. International Journal of Engineering & Technology, 7(3.28), 334-336. https://doi.org/10.14419/ijet.v7i3.28.28427
