International Research Journal of Engineering and Technology (IRJET)
e-ISSN: 2395 -0056
Volume: 04 Issue: 06 | June -2017
p-ISSN: 2395-0072
www.irjet.net
An Stepped Forward Security System for Multimedia Content Material for Cloud Computing VRUNDA JAYANT KULKARNI1, S.D.SATAV2, DARSHANA PATIL3 1PG
Student, Dept of Computer Engineering, Sawant College of Engineering, Pune, Maharashtra, India,. Professor, Dept of Information Technology, Jayawantrao Sawant College of Engineering, Pune, Maharashtra, India. 3Assistant Professor, Dept of Computer Engineering, Jayawantrao Sawant College of Engineering, Pune, Maharashtra, India. ---------------------------------------------------------------------***--------------------------------------------------------------------2Assistant
Abstract - The planned multimedia system Content
Protection System For Cloud Computing, a new approach for securing a multimedia system contents .The system supports a price potency, quick development, deployment, scalability and snap for equalization a work on a cloud infrastructure .This system will used a for shielding a special kinds of multimedia system contents sort of a audio file, 2D video, 3D Video, images, songs, music files. Achieving a security system follows 2 levels 1) Creates a signatures of a 3D videos 2) Distributed matching Engine for multimedia system objects. for each multimedia system objects a separate signature are going to be created and this technique creates a robust and representative signatures for the 3D Videos ,that checks the content by content to find out modified copy .The second level Distributed matching Engine have a high measurability and it's designed to support for various kinds of multimedia system objects. of 3D videos, whereas our system detects quite ninety eight of them. This comparison shows the necessity for the planned 3D signature technique, since the progressive industrial system wasn't ready to handle 3D videos The system can run on private clouds, public clouds, or any combination of public-private clouds proposed system is scalable and cost effective and relates to the detection of copied and modified material using cloud systems, and more particularly to a system and in an online environment for the detection of duplicated, copyright material
Key Words : SIGNATURE, 3D, 2D, DISTRIBUTED MATCHING ENGINE
1. INTRODUCTION Advances in process and recorder of multimedia system content additionally because the show of free online hosting sites have created it comparatively simple to duplicate copyrighted materials like videos, images, and music clips. Illegally redistributing
Š 2017, IRJET
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Impact Factor value: 5.181
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multimedia system content over the web can result in important loss of revenues for content creators. Finding illegally-made copies over the web is a advanced and computationally valuable operation, because of the sheer volume of the offered multimedia content over the web and therefore the quality of comparison content to spot copies. We current a unique system for multimedia system content protection on cloud infrastructures. The system can be used to secure various multimedia system. content types, together with regular 2D videos, new 3D videos, images, audio clips, songs, and music clips. The system will run on personal clouds, public clouds, or any combination of public-private clouds. Our models achieves rapid deployment of content protection systems, as a result of it's supported cloud infrastructures that may quickly give computing hardware and software resources. the planning is value effective as a result of it uses the computing resources on demand. The design will be scaled up and right down to support varied amounts of multimedia system content being protected. The proposed system is fairly complicated with multiple parts, including: (i) Crawler to download thousands of multimedia system objects from online hosting sites, (ii) Signature technique to make representative fingerprints from multimedia system objects, and (iii) distributed matching engine to store signatures of original objects and match them against inquiry objects. we have propose novel ways for the second and third components, and that we utilize offthe-peg tools for the crawler. we have developed a whole running system of all parts and tested it with over 11,000 3D videos and 1 million pictures. We deployed components of the system on the Amazon cloud with varied range of machines (from 8 to 128), and the different components of the system were deployed on our personal cloud. This deployment model was used to show the flexibleness of our system, that allows it to with efficiency utilize varied computing resources and minimize the value, since cloud providers provide totally different rating models for computing and network resources. Through in depth experiments with real preparation, we have shown the high accuracy (in terms of precision and recall) likewise as the scalability and physical property of the planned system.
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