Enhancing Security of Quality Song with Embedding Encrypted Hidden Code in Tolerance Level (SQHTL)
U. Mondal. International Journal on Cryptography and Information Security (IJCIS), 2 (3):
67-76(September 2012)
Abstract
Embedding secret information with song signal may hamper its audible quality as well as originality also
would be infringed. Therefore, passing secret code with song signal precisely needs to measure the
embedded data volume with song signal within embedding tolerance level. In this paper, embedded secret
data with linear coding principles has been applied, enhanced security criteria has been maintained with
the help of elliptic curve cryptographic application. Hiding information into audio signals and audible
quality is maintained only by calculating the acceptance ratio of embedding data using human perception,
modulation of channel capacity in modified form is used to determine the embedded data and song signal
trade-off ratio for getting future guideline embedding information in song signal with correlation among
embedded data is fabricated. A comparative study has been made with similar existing techniques for
performance analysis and experimental results are also supported with mathematical formula based on
Microsoft WAVE (".wav") stereo sound file.
%0 Journal Article
%1 mondalenhancing
%A Mondal, Uttam Kr.
%D 2012
%E Shawon, S.M.Rahman
%J International Journal on Cryptography and Information Security (IJCIS)
%K Cryptographic Curve Elliptic Technique
%N 3
%P 67-76
%T Enhancing Security of Quality Song with Embedding Encrypted Hidden Code in Tolerance Level (SQHTL)
%U https://wireilla.com/papers/ijcis/V2N3/2312ijcis06.pdf
%V 2
%X Embedding secret information with song signal may hamper its audible quality as well as originality also
would be infringed. Therefore, passing secret code with song signal precisely needs to measure the
embedded data volume with song signal within embedding tolerance level. In this paper, embedded secret
data with linear coding principles has been applied, enhanced security criteria has been maintained with
the help of elliptic curve cryptographic application. Hiding information into audio signals and audible
quality is maintained only by calculating the acceptance ratio of embedding data using human perception,
modulation of channel capacity in modified form is used to determine the embedded data and song signal
trade-off ratio for getting future guideline embedding information in song signal with correlation among
embedded data is fabricated. A comparative study has been made with similar existing techniques for
performance analysis and experimental results are also supported with mathematical formula based on
Microsoft WAVE (".wav") stereo sound file.
@article{mondalenhancing,
abstract = {Embedding secret information with song signal may hamper its audible quality as well as originality also
would be infringed. Therefore, passing secret code with song signal precisely needs to measure the
embedded data volume with song signal within embedding tolerance level. In this paper, embedded secret
data with linear coding principles has been applied, enhanced security criteria has been maintained with
the help of elliptic curve cryptographic application. Hiding information into audio signals and audible
quality is maintained only by calculating the acceptance ratio of embedding data using human perception,
modulation of channel capacity in modified form is used to determine the embedded data and song signal
trade-off ratio for getting future guideline embedding information in song signal with correlation among
embedded data is fabricated. A comparative study has been made with similar existing techniques for
performance analysis and experimental results are also supported with mathematical formula based on
Microsoft WAVE (".wav") stereo sound file.},
added-at = {2019-11-29T13:50:08.000+0100},
author = {Mondal, Uttam Kr.},
biburl = {https://www.bibsonomy.org/bibtex/28d79f68e81136584007e51c279e12c09/alinta},
editor = {Shawon, S.M.Rahman},
interhash = {70d59f1d19eba2869dcd1cd9200a3987},
intrahash = {8d79f68e81136584007e51c279e12c09},
issn = {1839-8626},
journal = {International Journal on Cryptography and Information Security (IJCIS)},
keywords = {Cryptographic Curve Elliptic Technique},
language = {English},
month = sep,
number = 3,
pages = {67-76},
timestamp = {2019-11-29T13:50:08.000+0100},
title = {Enhancing Security of Quality Song with Embedding Encrypted Hidden Code in Tolerance Level (SQHTL) },
url = {https://wireilla.com/papers/ijcis/V2N3/2312ijcis06.pdf},
volume = 2,
year = 2012
}