Robust and brittle secured video for IOT
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2018-04-18 
https://doi.org/10.14419/ijet.v7i2.20.11762
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In this paper the system is mainly designed for the military purpose security since now-a-days securing our military has become a difficult task .our live is mainly dependent on other objects mainly we are computer based living and digital image processing plays a vital role in it. This process has much advantage as well as some disadvantage. A VLSI circuit is built with many millions of IC chip, so it is considered to be indivisible for the construction purpose. The internet-of things (Iot) is a electronic device which is connected to the vehicle and the building item which is used to generate many secured techniques which is connected with the software, electrical, electronics and mechectronics devices and human recourses also. Better Portable Graphics Algorithm with a Context-Adaptive Binary Arithmetic Coding (CABAC) encoding algorithm is used in the existing system this process is affected by the Gaussian noise, low compression ratio and time delay to overcome above issues and enhanced with Secure Better Portable Graphics (SBPG) compression algorithm with HEVC is present .The proposed architecture is suitable for high performance imaging in the Iot and for the high quality compression files and secured transformation of image and video captured in the digital camera. Encryption and watermarking are the two technique used in the process. The watermarking technique is more secure than the previous system. This process produces high quality JPEG, and high PSNR ratio. The scrambling algorithm is used in the encryption process. It is used for providing secured image.
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References
[1] Altu˘g E, Ostrowski JP & Taylor CJ, “Control of a Quadrotor Helicopter Using Dual Camera Visual Feedbackâ€, The International Journal of Robotics Research, Vol.24, No.5, (2005), pp.329–341.
[2] Coelho G, Kougianos E, Mohanty SP, Sundaravadivel P & Albalawi U, “An IoT-Enabled Modular Quadrotor Architecture for Real-Time Aerial Object Trackingâ€, Proceedings of the 1st IEEE International Symposium on Nanoelectronic and Information Systems, (2015), pp.197– 202.
[3] Crespo G, de Rivera GG & Ponticelli R, “Setup of a communication and control systems of a quadrotor type Unmanned Aerial Vehicleâ€, Proceeding Conference on Design of Circuits and Integrated Circuits (DCIS), (2014), pp.1–6.
[4] Hao ND, Mohamed B & Rafaralahy H, “Trajectory-tracking control design for an under-actuated quadrotorâ€, Proceeding of European Control Conference (ECC), (2014), pp.1765–1770.
[5] Liu C, Shen W, Ma T, Fan Y & Zeng X, “A Highly Pipelined VLSI Architecture for All Modes and Block Sizes Intra Prediction in HEVC Encoderâ€, Proceedings of IEEE 10th International Conference on ASIC (ASICON), (2013).
[6] Mody M, Garud H, Nagori S & Mandal DK, “High Throughput VLSI Architecture for HEVC SAO Encoding for Ultra HDTVâ€, Proceedings of IEEE International Symposium on Circuits and Systems, (2014).
[7] Mondragón IF, Olivares-Méndez MA, Campoy P, MartÃnez C & Mejias L, “Unmanned aerial vehicles UAVs attitude, height, motion estimation and control using visual systemsâ€, Autonomous Robots, Vol.29, No.1,(2010), pp.17-34.
[8] Mohanty, SP Kougianos E, Cai W & Ratnani M, “VLSI Architectures of Perceptual Based Video Watermarking for Real-time Copyright Protectionâ€, Proceedings of the 10th International Symposium on Quality Electronic Design (ISQED), (2009), pp.527 –534.
[9] Shoufan A, “A hardware security module for quadrotor communicationâ€, Proceeding International Conference on Field-Programmable Technology (FPT), (2012), pp.253–256.
[10] Sullivan GJ, Ohm JR, Han WJ & Wiegand T, “Overview of the High Efficiency Video Coding (HEVC) Standardâ€, IEEE Transactions on Circuits and Systems for Video Technology, Vol.22, (2012), pp.1649–1668.
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How to Cite
Lakshmi Narayanan, K., P. Ramesh, G., & Divya, V. (2018). Robust and brittle secured video for IOT. International Journal of Engineering & Technology, 7(2.20), 93-96. https://doi.org/10.14419/ijet.v7i2.20.11762
