Application of Convolution Neural Network for Digital Image Processing

Authors

  • Venkata Naga Satya Surendra Chimakurthi Solutions Architect, CDBDX-Platforms-DAM (Digital Asset Management), Cognizant Technology Solutions, Dallas, USA

DOI:

https://doi.org/10.18034/ei.v8i2.592

Keywords:

Image Processing, CNN, Digital Image Recognition, Machine Learning

Abstract

In order to train neural network algorithms for multiple machine learning tasks, like the division of distinct categories of objects, various deep learning approaches employ data. Convolutional neural networks deep learning algorithms are quite strong when it comes to image processing. With the recent development of multi-layer convolutional neural networks for high-level tasks like object recognition, object acquisition, and recent semantic classification, the field has seen great success in this approach. The two-phase approach is frequently employed in semantic segregation. In the second step of becoming a standard global graphical model, communication networks are educated to deliver good local intelligence with a pixel. Convolutional Neural Networks (CNN or ConvNet) are complicated neural server networks in the field of artificial intelligence. Because of their great accuracy, convolutional neural networks (CNNs) are frequently utilized in picture categorization and recognition. In the late 1990s, Yann LeCun, a computer scientist, was based on the human notion of cognition and came up with the idea. When constructing a network, CNN uses a hierarchical model that eventually results in a convolution layer in which all neurons are linked and output is processed. Using an example of an image processing application, this article demonstrates how the CNN architecture is implemented in its entirety. You can utilize this to better comprehend the advantages of this current photography website.

 

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Published

2020-12-31

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Section

Peer Reviewed Articles

How to Cite

Chimakurthi, V. N. S. S. (2020). Application of Convolution Neural Network for Digital Image Processing. Engineering International, 8(2), 149-158. https://doi.org/10.18034/ei.v8i2.592

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