Indian Journal of Science and Technology
Year: 2017, Volume: 10, Issue: 26, Pages: 1-9
S. Janarthanam1 *, S. Sukumaran2 and M. Shanthakumar3
1Department of Computer Science, Gobi Arts and Science College, Erode – 638452, Tamil Nadu, India; [email protected] 2Department of Computer Science, Erode Arts and Science College, Erode – 638112, Tamil Nadu, India; [email protected] 3Department of Computer Science, Kamban College of Arts and Science, Coimbatore, India; [email protected]
*Author for correspondence
Department of Computer Science, Gobi Arts and Science College, Erode – 638452, Tamil Nadu, India; [email protected]
Objectives: The objective of the examined active salient component classifier is to extract the image features from the visual substance through a novel non-parametric example based positioning methodology to utilizing comparability and learning strategies. Methods/Statistical Analysis: To establish the authenticity to avoid improper retrieval on online based image classification system called, lite Dynamic Pattern Extraction Algorithm (DPEA) for Image Classification and salient image extraction algorithm is designed. DPEA Algorithm on each benchmark dataset works on user query basis and reducing the overhead incurred during user query processing by applying labeling process. Next, by retrieving salient features on images with zero mean for each client query and each image retrieval reduces the execution time and complexity as the database does not maintain the related features. Finally, the Potential image Classification and retrieval prevents the unauthorized user modification on image data, therefore improving the reality. Here a Web Image Dataset (NUS-WIDE) created by lab of media search in National University of Singapore. The computer vision CIFAR-10 dataset, Modified National Institute of Standards and Technology database of USA (MNIST) dataset is used for experiment. A series of simulation results are performed to test the image retrieval efficiency, execution time, performance fitness for obtaining efficiency of image data handling and measure the effectiveness of DPEA Algorithm. Findings: The tests were directed on the dataset for image classification and retrieval on each region of the images. The Proposed DPEA offers better performance with an improvement of the data confidentiality by 18.72%, reduces execution complexity by 7.98%, reduces average retrieval overhead by 6.65% and also minimize retrieval complexity by 15.57% compared to existing algorithms of LFDA, PCA and PCCA respectively. Application/Improvements: It can be further extended with implementation of new retrieval techniques with different parameters which improves more retrieval efficiency and performance integrity.
Keywords: Bit Streams, Component Analysis, Dynamic Patterns, Feature Extraction, Image Retrieval, Salient Features
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