Application of Deep Neural Networks and Human-Computer Interaction Technology in Art and Design Area

Application of Deep Neural Networks and Human-Computer Interaction Technology in Art and Design Area

Technological development has given a new dimension to the art and design area. This research implements the deep learning model for human-computer integration technology in art and design with wireless sensor networks. In this human-computer interaction, each person and the devices are treated as n...

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Bibliographic Details
Main Authors: Chen, X. (Author), Liu, F. (Author)
Format: Article
Language:English
Published: Hindawi Limited 2022
Subjects:
Art and designs
Arts computing
Computer integration
Deep neural networks
Fruitflies
Human computer interaction
Integration technologies
Interaction technology
Learn+
Learning models
Network node
New dimensions
Sensor nodes
Technological development
Online Access:View Fulltext in Publisher
Description
Summary:Technological development has given a new dimension to the art and design area. This research implements the deep learning model for human-computer integration technology in art and design with wireless sensor networks. In this human-computer interaction, each person and the devices are treated as network nodes. The user will act as a node requesting access privileges for utilizing the calligraphy design to learn the strokes in the self-pace mode for studies. In this research, the human-computer interaction is implemented for recognizing the strokes and curves in the calligraphy images loaded by the user. This identification will aid the user in learning different styles of calligraphy. The proposed fruit-fly optimization algorithm (FFOA) method is analyzed for high classification accuracy, less delay time, and reduced noise parameters against specific existing algorithms. © 2022 Xueying Chen and Fangyi Liu.
ISBN:15308669 (ISSN)
DOI:10.1155/2022/6898758

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