Hiding Capacity and Audio Steganography Model Based on LSB in Temporal Domain

被引:1
作者
Gera A. [1 ,2 ]
Vyas V. [2 ]
机构
[1] Computer Science and Engineering, G.L Bajaj Institute of Technology & Management, Greater Noida
[2] Computer Science and Engineering, Banasthali University, Jaipur
来源
Recent Patents on Engineering | 2022年 / 16卷 / 02期
关键词
coding and decoding; Human Auditory System (HAS); interent; Least Significant Bit (LSB); SNR; Steganography;
D O I
10.2174/1872212115666210709170455
中图分类号
学科分类号
摘要
Background: Researchers for data hiding using the various encrypting techniques to improve the security of transmission of confidential information through an unsecured channel have been carried out. Methods: In this paper, a new higher recognition Least Significant Bit (LSB) audio data concealment is suggested in this framework. This technique is used to embed the hidden audio into cover audio of the same size. Results: The altered speech file appears as the original carrier file after embedding the secret mes-sage. This model strengthens hiding capability and audio quality. Conclusion: The strategy outperforms similar studies by enhancing hiding capability up to 30% and preserving stego audio transparency with the SNR value at 72.2 and SDG at 4.8. © 2022 Bentham Science Publishers.
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共 26 条
  • [11] Bilal I., Kumar R., Roj M.S., Mishra P.K., Recent advance-ment in audio steganography, Int. Conf. Parallel, Distrib. Grid Comput. PDGC, pp. 402-405
  • [12] Neyaz A., Audio steganography via cloud services: Integrity analysis of hidden file, Int. J. Cyber-Security Digit. Forensics, 7, 1, pp. 80-86, (2018)
  • [13] Ali A.H., George L.E., Zaidan A.A., High capacity, transpar-ent and secure audio steganography model based on fractal coding and chaotic map in temporal domain, Multimedia Tools Appl, 77, (2018)
  • [14] Kapoor K., Data security with combination of cryptography and audio steganography, (2019)
  • [15] Shahadi H.I., Jidin R., High capacity and inaudibility audio steganography scheme, International Conference on Information Assurance and Security (IAS), pp. 104-109
  • [16] Shahadi H.I., Jidin R., Way W.H., Lossless audio steganogra-phy based on lifting wavelet transform and dynamic Stego Key, Indian J. Sci. Technol, 7, 3, pp. 323-334, (2014)
  • [17] Shahadi H.I., Jidin R., Way W.H., A novel and high capacity audio steganography algorithm based on adaptive data embedding positions, Res. J. Appl. Sci. Eng. Technol, 7, 11, pp. 2311-2323, (2014)
  • [18] Tzanetakis G., Music analysis, retrieval and synthesis for audio signals (marsyas)
  • [19] Tzanetakis G., Cook P., Musical genre classification of audio signals, IEEE Trans. Speech Audio Process, 10, 5, pp. 293-302, (2002)
  • [20] Sheikhan M., Assadollahi K., Hemmati E., High quality audio steganography by Floating substitution of LSBS in wavelet Do-main, World Appl. Sci. J, 10, 12, pp. 1501-1507, (2010)
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