ROBUST VIDEO DATA HIDING USING FORBIDDEN ZONE DATA HIDING AND SELECTIVE EMBEDDING
ABSTRACT:
Video data hiding is still an important research topic due to the design complexities
involved. We propose a new video data hiding method that makes use of erasure
correction capability of Repeat Accumulate codes and superiority of Forbidden Zone
Data Hiding. Selective embedding is utilized in the proposed method to determine host
signal samples suitable for data hiding. This method also contains a temporal
synchronization scheme in order to withstand frame drop and insert attacks. The
proposed framework is tested by typical broadcast material against MPEG-2, H.264
compression, frame-rate conversion attacks, as well as other well-known video data
hiding methods. The decoding error values are reported for typical system parameters.
The simulation results indicate that the framework can be successfully utilized in video
data hiding applications.
EXISTING SYSTEM:
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In special domain, the hiding process such as least significant bit(LSB)
replacement, is done in special domain, while transform domain methods; hide
data in another domain such as wavelet domain.
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Least significant bit (LSB) is the simplest form of Steganography. LSB is based
on inserting data in the least significant bit of pixels, which lead to a slight change
on the cover image that is not noticeable to human eye. Since this method can be
easily cracked, it is more vulnerable to attacks.
-
LSB method has intense affects on the statistical information of image like
histogram. Attackers could be aware of a hidden communication by just checking
the Histogram of an image. A good solution to eliminate this defect was LSB
matching. LSB-Matching was a great step forward in Steganography methods and
many others get ideas from it
PROPOSED SYSTEM:
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Data hiding in video sequences is performed in two major ways: bit stream-level
and data-level.
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In this paper, we propose a new block-based selective embedding type data hiding
framework that encapsulates Forbidden Zone Data Hiding (FZDH)
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By means of simple rules applied to the frame markers, we introduce certain level
of robustness against frame drop, repeat and insert attacks.
o ADVANTAGES
User cannot find the original data.
It is not easily cracked.
To increase the Security .
To increase the size of stored data. We can hide more than one bit.
HARDWARE REQUIREMENTS
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SYSTEM
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HARD DISK
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MONITOR
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MOUSE
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RAM
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KEYBOARD
: Pentium IV 2.4 GHz
: 40 GB
: 15 VGA colour : Logitech.
:256MB
: 110 keys enhanced.
Windows XP Professional
: 15 VGA colour : Logitech.
:256MB
: 110 keys enhanced.
Windows XP Professional
SOFTWARE REQUIREMENTS
• Operating system :
• Operating system :
• FrontEnd : JAVA
• Tool : NetBeans IDE
MODULE:
This project consists of developing two main modules and some sub-modules also. The
main module are one is encryption module and the decryption module. These two
modules are the main core for the application.
MODULES
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Input Module :
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ENCRYPTION MODULE
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DECRYPTION MODULE
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DES
-
Triple DES
-
RSA
Modules Description:
Input Module:
The Input Module is designed as such a way that the proposed system must be capable of handling any type of data formats, such as if the user wishes to hide any image format then it must be compatible with all usual image formats such as jpg, gif, bmp, it must be also compatible with video formats such as .avi, .flv, .wmf etc.. And also it must be compatible with various document formats, so that the user can be able to user any formats to hide the secret data.
Encryption Module:
In Encryption module, it consists of Key file part, where key file can be specified with
the password as a special security in it. Then the user can type the data or else can upload
the data also though the browse button, when it is clicked the open file dialog box is
opened and where the user can select the secret message. Then the user can select the
image or video file through another open file dialog box which is opened when the cover
file button is clicked. Where the user can select the cover file and then the Hide button is
clicked so that the secret data or message is hidden in cover file using Forbidden Zone
Data Hiding Technique.
Decryption Module:
This module is the opposite as such as Encryption module where the Key file should be also specified same as that of encryption part. Then the user should select the encrypted cover file and then should select the extract button so that the hidden message is displayed in the text area specified in the application or else it is extracted to the place where the user specifies it.
DES:
This module consists of same as Encryption and Decryption part using DES algorithm. The Data Encryption Standard (DES) is a block cipher that uses shared secret encryption.
Triple DES:
This module consists of same as Encryption and Decryption part using Triple DES algorithm. Triple DES is the common name for the Triple Data Encryption Algorithm (TDEA or Triple DEA) block cipher, which applies the Data Encryption Standard (DES) cipher algorithm three times to each data block.
RSA:
Decryption Module:
This module is the opposite as such as Encryption module where the Key file should be also specified same as that of encryption part. Then the user should select the encrypted cover file and then should select the extract button so that the hidden message is displayed in the text area specified in the application or else it is extracted to the place where the user specifies it.
DES:
This module consists of same as Encryption and Decryption part using DES algorithm. The Data Encryption Standard (DES) is a block cipher that uses shared secret encryption.
Triple DES:
This module consists of same as Encryption and Decryption part using Triple DES algorithm. Triple DES is the common name for the Triple Data Encryption Algorithm (TDEA or Triple DEA) block cipher, which applies the Data Encryption Standard (DES) cipher algorithm three times to each data block.
RSA:
This module consists of same as Encryption and Decryption part using RSA algorithm.
RSA is the first algorithm known to be suitable for signing as well as encryption, and was
one of the first great advances in public key cryptography. RSA is widely used in
electronic commerce protocols, and is believed to be sufficiently secure given sufficiently
long keys and the use of up-to-date implementations.
for more details contact denniscodd site:
http://www.denniscodd.com
REFERENCE:
Ersin Esen and Aydin Alatan, “Robust Video Data Hiding Using Forbidden Zone Data
Hiding And Selective Embedding”, IEEE TRANSACTIONS ON CIRCUITS AND
SYSTEMS FOR VIDEO TECHNOLOGY, VOL.21, NO.8, AUGUST 2011. for more details contact denniscodd site:
http://www.denniscodd.com
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