Research Article
Calculation and Analysis of Manual Efficiency in Power Grid Engineering Based on Smart Safety Helmet Data Collection
@INPROCEEDINGS{10.4108/eai.29-3-2024.2347328, author={Chen Jiang and Hao Wan and Haoran Cao and Mei Yang and Haixia You and Yan Xing and Jianan Cheng}, title={Calculation and Analysis of Manual Efficiency in Power Grid Engineering Based on Smart Safety Helmet Data Collection}, proceedings={Proceedings of the 3rd International Conference on Bigdata Blockchain and Economy Management, ICBBEM 2024, March 29--31, 2024, Wuhan, China}, publisher={EAI}, proceedings_a={ICBBEM}, year={2024}, month={6}, keywords={artificial ergonomics; smart helmets; analytic hierarchy process; support vector regression}, doi={10.4108/eai.29-3-2024.2347328} }- Chen Jiang
Hao Wan
Haoran Cao
Mei Yang
Haixia You
Yan Xing
Jianan Cheng
Year: 2024
Calculation and Analysis of Manual Efficiency in Power Grid Engineering Based on Smart Safety Helmet Data Collection
ICBBEM
EAI
DOI: 10.4108/eai.29-3-2024.2347328
Abstract
With the continuous advancement of society and technology, the scale of power grid projects continues to expand. Traditional manual ergonomics data collection has limitations such as strong subjectivity and difficulty in data collection, making it difficult to adapt to the fast-paced construction speed of power grid projects and the rapid development of technological progress. In order to further improve the real-time and accuracy of manual ergonomics calculation in power grid engineering, this paper constructs a power grid engineering manual ergonomics analysis and calculation model based on smart helmet data collection, which can effectively improve the timeliness and scientific processing and analysis of manual ergonomics data. Use smart helmet data to conduct case analysis of artificial ergonomics to verify the scientificity and rationality of the artificial ergonomics analysis and calculation model.