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Digital Image Falsification Detection System for Effective Data Communication

Sasilatha, T. ; Professor and Dean, Department of EEE, AMET Deemed to be University, Chennai. ; Anupriya, K.R. ; [et al.]

Blue Eyes Intelligence Engineering and Sciences Engineering and Sciences Publication - BEIESP ; 2019

In: International Journal of Engineering and Advanced Technology Vol. 9, No. 2 ( 2019-12-30), p. 4081-4086

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In: International Journal of Engineering and Advanced Technology, Blue Eyes Intelligence Engineering and Sciences Engineering and Sciences Publication - BEIESP, Vol. 9, No. 2 ( 2019-12-30), p. 4081-4086

Abstract: In this proposed system a digital imagefalsification can be identified using the combination of both adaptive over block based segmentation, feature keypointbased feature extraction algorithms(Scale Invariant Feature Transform (SIFT) and Speeded Up Robust Features (SURF)) and forgery region extraction algorithm. The proposed falsification detection algorithm comprises both block based falsification detection algorithm (adaptive over block based segmentation and block feature matching algorithm) and the keypoint based falsification detection algorithm(forgery region extraction algorithm). Adaptive over block based Segmentation algorithm adaptively segments the input digital image into separate(non overlapped) blocks in irregular manner. Scale Invariant Feature Transform (SIFT) algorithm and Speeded Up Robust Features (SURF) algorithms are used to draw out features from the segmentedblocks as a block features. Then the extracted features are matched with the feature points of other segmented block. If the feature key points are matched with any other feature point presents in the segmented blocks, then the matched feature points are marked as Labeled key Points (LKP), which can be doubted as a forged regions. Finally, the Forgery Region Extraction algorithm can be used to detect the forged region from the input digital image based on the extracted labeled feature points. The experimental outcomesdisplay that the novelfalsification detection system can accomplished the requirements compared with the existing digital imagefalsification detection methods.

Type of Medium: Online Resource

ISSN: 2249-8958

URL: Issue

URL: Journal

URL: Article

DOI: 10.35940/ijeat.9.2

DOI: 10.35940/ijeat.2249-8958

DOI: 10.35940/ijeat.B4950.129219

Language: Unknown

Publisher: Blue Eyes Intelligence Engineering and Sciences Engineering and Sciences Publication - BEIESP

Publication Date: 2019

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Non Contact Heart Rate Monitoring using Facial Video

Sasilatha, T. ; Professor and Dean, Department of EEE AMET Deemed to be University Chennai, India ; Kousalya, Gnana ; [et al.]

Blue Eyes Intelligence Engineering and Sciences Engineering and Sciences Publication - BEIESP ; 2019

In: International Journal of Engineering and Advanced Technology Vol. 9, No. 2 ( 2019-12-30), p. 4087-4089

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Abstract: Heart rate (HR) is a direct measure of heart’s function. Conventional measurement based on contact-based measurement may cause discomfort to patients, especially in the case of long-term monitoring. This paper proposes a non-contact method of measuring heart rate using facial video of the patient. The variation of light intensity from the skin from each heart beat is used to estimate HR. A standard RGB camera is used to record the video. The Region of Interest (ROI) is obtained using face detection and tracking algorithms. A mean is taken across the frame yielding three values per frame. The Photo Plethysmo Graphy(PPG) signal is isolated using Independent Component Analysis (ICA). The signals are further filtered to reduce out of band noise and improve accuracy. The Fast Fourier Transform (FFT) is used to convert the signal to frequency domain and the peak is identified, whose frequency will correspond to the HR. This method of measuring HR has several advantages over conventional methods. HR measurement during exercise, prisons where contact-based methods cannot be employed, and long-term HR measurement in hospitals are some applications where the proposed method will be highly advantageous. The method also reduces the amount of hardware needed for HR measurement; HR can be measured even using smartphones.

Type of Medium: Online Resource

ISSN: 2249-8958

URL: Issue

URL: Journal

URL: Article

DOI: 10.35940/ijeat.9.2

DOI: 10.35940/ijeat.2249-8958

DOI: 10.35940/ijeat.B4951.129219

Language: Unknown

Publisher: Blue Eyes Intelligence Engineering and Sciences Engineering and Sciences Publication - BEIESP

Publication Date: 2019

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Damaged Number Plate Recognition

Ezhilarasi, P. ; Department of ECE, St. Joseph’s College of Engineering, OMR, Chennai ; Kannan, S. Rajesh ; [et al.]

Blue Eyes Intelligence Engineering and Sciences Engineering and Sciences Publication - BEIESP ; 2019

In: International Journal of Engineering and Advanced Technology Vol. 9, No. 1s2 ( 2019-12-31), p. 22-25

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Abstract: Around the world every vehicle are identified by its number plate. Number plate detection is one of the existing automated video surveillance systems that are used to detect the number plate. This system fails if the number plates are damaged, no proper illumination, blurry images. Thus here we will be able to recognizeze such damaged number plate. The technique involves four main stages viz. pre-processing, localization, recognition and segmentation. The entire process includes capturing the image, erasing the background details and removing the noise, cropping the number plate and then recognizing the characters followed by segmenting in order to recognize the plate. All this is done in Python because it had better results compared to MATLAB. When done in MATLAB, additional error and noise gets added to the input image and can causes inclusion of a new characters in the number plate and leads to misinterpretation of the number plate. About 100 images were gathered and 98 images of them were detected correctly. The efficiency in recognizing the damaged number plate using our system is about 98%.

Type of Medium: Online Resource

ISSN: 2249-8958

URL: Journal

URL: Article

DOI: 10.35940/ijeat.2249-8958

DOI: 10.35940/ijeat.A1018.1291S219

Language: Unknown

Publisher: Blue Eyes Intelligence Engineering and Sciences Engineering and Sciences Publication - BEIESP

Publication Date: 2019

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Robot for Under Water Monitoring

Kousalya, C. Gnana ; Professor, Department of ECE, St. Joseph’s Institute of Technology, OMR, Chennai ; Rohini, G. ; [et al.]

Blue Eyes Intelligence Engineering and Sciences Engineering and Sciences Publication - BEIESP ; 2019

In: International Journal of Engineering and Advanced Technology Vol. 9, No. 1s2 ( 2019-12-31), p. 26-32

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Abstract: Unmanned underwater vehicle is the branch of robotics which comes under the autonomous underwater vehicle. These robots have the wide applications like research, collection of the samples and observation of underwater bodies. The proposed work involves underwater robot for measuring the parameters of water and surveillances for inspecting underwater structure. The contamination of the water bodies can be found out by using the light density method. The evaporation level of water bodies can be studied through temperature measurements and also the acidic and alkaline nature of the water can be seen through pH measurement. To move easily through any standard inspection doors, the robot is designed with the length of 240 mm, breadth 94.68mm and height of 130mm by considering the mass to length calculation method based on floating theory. In addition, this robot is fitted with air tubes of dimension 81.5mm which is a standard size for 5kg robot. This work makes use of Arduino UNO commands to control the motors, light density measurement and water sample collection and communication through Bluetooth communication between the user and the float which floats on the surface of water. The customized mobile application makes the robot user friendly and easily controllable. In this work, an underwater 4K ultra HD camera is fitted to the hardware. This camera is used to record the underwater view. The recorded sequences of images stored in micro SD card are used to analyze surrounding objects in the target area. All the elements connected to the Arduino are controlled by the user. The robot is designed for monitoring the under water.

Type of Medium: Online Resource

ISSN: 2249-8958

URL: Journal

URL: Article

DOI: 10.35940/ijeat.2249-8958

DOI: 10.35940/ijeat.A1019.1291S219

Language: Unknown

Publisher: Blue Eyes Intelligence Engineering and Sciences Engineering and Sciences Publication - BEIESP

Publication Date: 2019

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