Online Simulation Quality Assessment of Illustration Patterns Based on Digital Art Design in Neural Network Perspective

Digital art illustration as new media is a major advancement in the history of illustration. It has broadened the application of graphic arts and the way of communication. At present, digital illustrators are constantly exploring new artistic expressions for digital illustration in order to pursue n...

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Bibliographic Details
Published in:Mobile information systems 2022-06, Vol.2022, p.1-9
Main Author: Yang, Lin
Format: Article
Language:English
Subjects:
Artificial neural networks
Audiences
Commercialization
Data integration
Design
Design of experiments
Digital art
Digital imaging
Digital technology
Entropy (Information theory)
Evaluation
Feature extraction
Image coding
Image quality
Information technology
Neural networks
Quality assessment
Regularization
Simulation
Software
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Summary:Digital art illustration as new media is a major advancement in the history of illustration. It has broadened the application of graphic arts and the way of communication. At present, digital illustrators are constantly exploring new artistic expressions for digital illustration in order to pursue new digital effects. A wide range of integrated materials and experimental design concepts are gradually emerging, making digital illustration evolve in the competition. The artistic style of digital illustration has also shown the development trend of “diversification.” With the trend of commercialization of digital illustration, the quality of illustration patterns is gradually neglected. The traditional illustration pattern assessment relies on manual subjective judgment, with backward evaluation means and poor accuracy. This study proposes an illustration pattern evaluation method based on a deep neural network. In particular, this study proposes a reference-free image evaluation model with multiple feature fusion; specifically, we use CNN and information entropy-based methods for feature extraction and regularization methods for information fusion to solve the problem of missing reference images in applications. The chunking process is performed on the basis of considering the influence of information entropy on image quality, and the information entropy of multiple chunked features is calculated as importance weights, representing the degree of their influence on distorted image quality. The experimental results on the digital illustration pattern database show that the method in this study has strong robustness and can output a reasonable and reliable quality assessment score for distorted patterns.
ISSN:1574-017X
1875-905X
DOI:10.1155/2022/7152454