Predicting sedentary behavior in adults using stacked LSTM modeling

M. B. Vibha (), M. Chandrika, Samitha Khaiyum and P. Rakshitha Kiran
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M. B. Vibha: Dayananda Sagar College of Engineering
M. Chandrika: Jain University
Samitha Khaiyum: Dayananda Sagar College of Engineering
P. Rakshitha Kiran: Dayananda Sagar College of Engineering

International Journal of System Assurance Engineering and Management, 2025, vol. 16, issue 1, No 17, 346-355

Abstract: Abstract In recent periods, there has been a noticeable emergence of a new health concern associated with uncertain sedentary behavior. Across all adult age groups, prolonged periods of inactivity have been recognized as a significant risk factor, especially in cases where individuals excessively rely on vehicles for mobility. The introduction of sensors has facilitated the monitoring of seating habits throughout the day. Nevertheless, there exists a divergence of opinions among experts regarding the most suitable objective metrics for effectively measuring cumulative sedentary time. The evaluation of sedentary patterns in numerous research studies has been considered impractical owing to inconsistencies in measurement techniques, data processing methods, and the nonappearance of basic pointers such as collective sedentary period. To address these difficulties, this study introduces an innovative method that integrates adaptive computing techniques, particularly fleeting granularity, to distinguish between different instances of everyday human activities. This approach entails collecting multifaceted transient data from advanced modules known as vital cells. By employing scalable algorithms, which utilize extensive multivariate data collected through fleeting granularity, our study aims to identify Frequent Behavior Patterns (FBPs) along with a timeframe estimate. The effectiveness of this approach has been demonstrated through its ability to distinguish proof computations on two certifiable datasets. The primary objective of this research is to assess the relationships, accuracy, and applicability of sedentary factors.

Keywords: Uncertainty; Sedentary behavior; Time-series; Reclining; Multi-variate; Accuracy; Frequent behavior (search for similar items in EconPapers)
Date: 2025
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DOI: 10.1007/s13198-024-02622-2

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