Research on Image Semantic Quality Evaluation Model for Human Machine Hybrid Intelligence: A Gradient Based Uncertainty Calculation Method
DOI:
https://doi.org/10.31449/inf.v48i14.5939Abstract
With the advancement of human-machine hybrid intelligence technology, the importance of images in interaction has become increasingly high, and accurate evaluation of image semantic quality has become crucial. However, traditional evaluation models may be limited in this environment and new methods are needed to improve evaluation accuracy. On the ground of this, an evaluation model for gradient based uncertainty calculation method has been proposed. The study conducts semantic distortion perception analysis at two levels. Firstly, at the overall level, the recognition ability is analyzed by analyzing the average recognition accuracy of the dataset. Secondly, at the sample level, recognition ability analysis is conducted on the ground of the confidence level of a single sample. Experiments have shown that compared to humans, machines have a higher tolerance for distortion, but are weaker in terms of generalization and stability. The proposed method performed well on the complex CIFAR100 dataset, achieving the lowest FPR of 95%, the highest TPR of 528%, and the lowest error detection rate of 3.65%. In addition, the accuracy of the framework proposed by the research institute reached 68.03%, which is significantly better than 59.83% for humans and 40.16% for machines, indicating its ability to effectively combine the advantages of different decision-makers. This study is expected to provide new ideas for image quality evaluation, improving the application performance and user experience of images in multiple fields.
Downloads
Published
How to Cite
Issue
Section
License
I assign to Informatica, An International Journal of Computing and Informatics ("Journal") the copyright in the manuscript identified above and any additional material (figures, tables, illustrations, software or other information intended for publication) submitted as part of or as a supplement to the manuscript ("Paper") in all forms and media throughout the world, in all languages, for the full term of copyright, effective when and if the article is accepted for publication. This transfer includes the right to reproduce and/or to distribute the Paper to other journals or digital libraries in electronic and online forms and systems.
I understand that I retain the rights to use the pre-prints, off-prints, accepted manuscript and published journal Paper for personal use, scholarly purposes and internal institutional use.
In certain cases, I can ask for retaining the publishing rights of the Paper. The Journal can permit or deny the request for publishing rights, to which I fully agree.
I declare that the submitted Paper is original, has been written by the stated authors and has not been published elsewhere nor is currently being considered for publication by any other journal and will not be submitted for such review while under review by this Journal. The Paper contains no material that violates proprietary rights of any other person or entity. I have obtained written permission from copyright owners for any excerpts from copyrighted works that are included and have credited the sources in my article. I have informed the co-author(s) of the terms of this publishing agreement.
Copyright © Slovenian Society Informatika
