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- Title
A two-level computer vision-based information processing method for improving the performance of human–machine interaction-aided applications.
- Authors
Alfarraj, Osama; Tolba, Amr
- Abstract
The computer vision (CV) paradigm is introduced to improve the computational and processing system efficiencies through visual inputs. These visual inputs are processed using sophisticated techniques for improving the reliability of human–machine interactions (HMIs). The processing of visual inputs requires multi-level data computations for achieving application-specific reliability. Therefore, in this paper, a two-level visual information processing (2LVIP) method is introduced to meet the reliability requirements of HMI applications. The 2LVIP method is used for handling both structured and unstructured data through classification learning to extract the maximum gain from the inputs. The introduced method identifies the gain-related features on its first level and optimizes the features to improve information gain. In the second level, the error is reduced through a regression process to stabilize the precision to meet the HMI application demands. The two levels are interoperable and fully connected to achieve better gain and precision through the reduction in information processing errors. The analysis results show that the proposed method achieves 9.42% higher information gain and a 6.51% smaller error under different classification instances compared with conventional methods.
- Subjects
INFORMATION processing; OPTICAL information processing; COMPUTER vision; COMPUTERS
- Publication
Complex & Intelligent Systems, 2021, Vol 7, Issue 3, p1265
- ISSN
2199-4536
- Publication type
Article
- DOI
10.1007/s40747-020-00208-6