Your search keyword '"soft wireless IMU devices"' showing total 2 results

1. Intelligence Sparse Sensor Network for Automatic Early Evaluation of General Movements in Infants.

Author

Bao, Benkun, Zhang, Senhao, Li, Honghua, Cui, Weidong, Guo, Kai, Zhang, Yingying, Yang, Kerong, Liu, Shuai, Tong, Yao, Zhu, Jia, Lin, Yuan, Xu, Huanlan, Yang, Hongbo, Cheng, Xiankai, and Cheng, Huanyu

Subjects

*SENSOR networks, *HUMAN activity recognition, *ARTIFICIAL intelligence, *INFANTS, *RESOURCE-limited settings, *WIRELESS sensor networks

Abstract

General movements (GMs) have been widely used for the early clinical evaluation of infant brain development, allowing immediate evaluation of potential development disorders and timely rehabilitation. The infants' general movements can be captured digitally, but the lack of quantitative assessment and well‐trained clinical pediatricians presents an obstacle for many years to achieve wider deployment, especially in low‐resource settings. There is a high potential to explore wearable sensors for movement analysis due to outstanding privacy, low cost, and easy‐to‐use features. This work presents a sparse sensor network with soft wireless IMU devices (SWDs) for automatic early evaluation of general movements in infants. The sparse network consisting of only five sensor nodes (SWDs) with robust mechanical properties and excellent biocompatibility continuously and stably captures full‐body motion data. The proof‐of‐the‐concept clinical testing with 23 infants showcases outstanding performance in recognizing neonatal activities, confirming the reliability of the system. Taken together with a tiny machine learning algorithm, the system can automatically identify risky infants based on the GMs, with an accuracy of up to 100% (99.9%). The wearable sparse sensor network with an artificial intelligence‐based algorithm facilitates intelligent evaluation of infant brain development and early diagnosis of development disorders. [ABSTRACT FROM AUTHOR]

Published

2024

2. Intelligence Sparse Sensor Network for Automatic Early Evaluation of General Movements in Infants

Author

Benkun Bao, Senhao Zhang, Honghua Li, Weidong Cui, Kai Guo, Yingying Zhang, Kerong Yang, Shuai Liu, Yao Tong, Jia Zhu, Yuan Lin, Huanlan Xu, Hongbo Yang, Xiankai Cheng, and Huanyu Cheng

Subjects

assessment of general movements, soft wireless IMU devices, tiny machine learning algorithm for automatic early evaluation, wearable sparse sensor network, Science

Abstract

Abstract General movements (GMs) have been widely used for the early clinical evaluation of infant brain development, allowing immediate evaluation of potential development disorders and timely rehabilitation. The infants’ general movements can be captured digitally, but the lack of quantitative assessment and well‐trained clinical pediatricians presents an obstacle for many years to achieve wider deployment, especially in low‐resource settings. There is a high potential to explore wearable sensors for movement analysis due to outstanding privacy, low cost, and easy‐to‐use features. This work presents a sparse sensor network with soft wireless IMU devices (SWDs) for automatic early evaluation of general movements in infants. The sparse network consisting of only five sensor nodes (SWDs) with robust mechanical properties and excellent biocompatibility continuously and stably captures full‐body motion data. The proof‐of‐the‐concept clinical testing with 23 infants showcases outstanding performance in recognizing neonatal activities, confirming the reliability of the system. Taken together with a tiny machine learning algorithm, the system can automatically identify risky infants based on the GMs, with an accuracy of up to 100% (99.9%). The wearable sparse sensor network with an artificial intelligence‐based algorithm facilitates intelligent evaluation of infant brain development and early diagnosis of development disorders.

Published

2024