1. A method for calculating vector forces at human-mattress interface during sleeping positions utilizing image registration
- Author
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Ying Gao, Jing Zhang, Chengzhao Zou, Liwen Bi, Chengzhen Huang, Jiachen Nie, Yongli Yan, Xinli Yu, Fujun Zhang, Fanglai Yao, and Li Ding
- Subjects
Vector forces ,Sleeping position ,Image registration ,Musculoskeletal simulations ,Medicine ,Science - Abstract
Abstract The vector forces at the human-mattress interface are not only crucial for understanding the distribution of vertical and shear forces exerted on the human body during sleep but also serves as a significant input for biomechanical models of sleeping positions, whose accuracy determines the credibility of predicting musculoskeletal system loads. In this study, we introduce a novel method for calculating the interface vector forces. By recording indentations after supine and lateral positions using a vacuum mattress and 3D scanner, we utilize image registration techniques to align body pressure distribution with the mattress deformation scanning images, thereby calculating the vector force values for each unit area (36.25 mm × 36.25 mm). This method was validated through five participants attendance from two perspectives, revealing that (1) the mean summation of the vertical force components is 98.67% ± 7.21% body weight, exhibiting good consistency, and mean ratio of horizontal component force to body weight is 2.18% ± 1.77%. (2) the predicted muscle activity using the vector forces as input to the sleep position model aligns with the measured muscle activity (%MVC), with correlation coefficient over 0.7. The proposed method contributes to the vector force distribution understanding and the analysis of musculoskeletal loads during sleep, providing valuable insights for mattress design and evaluation.
- Published
- 2024
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