Hiding Image in Audio Steganography Using Discrete Cosine Transform and Skin Detection
Journal Title: International Journal for Research in Applied Science and Engineering Technology (IJRASET) - Year 2015, Vol 3, Issue 1
Abstract
Now days, security is an important problem in hacking technologies such as internet, digital devices and so on. To solving the security problem using steganography. The paper presents the hiding security image into audio signal. For hiding image in audio, skin detection and discrete cosine transform are used. In audio steganography, hiding image also called as cover or host image. The cover image hiding to audio signal is called stego signal. The proposed method results prove the effective and less time efficient. The experimental results shows the invisible image in audio signal after embedded step and recover the security image accurately without distortion at decoding stage.
Authors and Affiliations
Durgarao. R, Adithya. T
An Investigation of Ceramic Coating on Aluminium Piston by Ansys
The reason of this research is to find out the effect of Ceramic Coating on Aluminium Piston In this work, the surface of a piston in a diesel engine is coated with Zirconia by the plasma-spray technique, and its surfac...
Design and Implementation of Dc-Dc Buck Boost Converter by using 8051 Microcontroller
This paper presents design and implementation of DC-DC Buck Boost converter by using 8051 microcontroller. The switched mode dc-dc converters are most widely used electronic circuits for its high conversion efficiency a...
MIMO-OFDM and IDMA scheme in underwater communication
The past three decades have seen a growing interest in UWA communications because of its applications in marine research, marine commercial operations, the offshore oil industry, oceanography and defense. However the ab...
Laptop Operated Fire Fighting Robot
detecting fire and extinguishing it is a harmful job that puts life of a fire fighter at hazard. There are many fire accidents which fire fighter had to lose their lives in the line of duty every year throughout the wor...
Patch Antenna using Metamaterial Structure for improving parameters on 3.2 layers At 2.787 GHz
In this paper, a novel printed rectangular patch antenna with 3.2 layer, resonant at 2.787 GHz frequency, is proposed. The given antenna is composed of a rectangular patch antenna with retangular structure on 3.2 layers...