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Title: Utility of Inter-subject Transfer Learning for Wearable-Sensor-Based Joint Torque Prediction Models. Author: Sloboda J, Stegall P, McKindles RJ, Stirling L, Siu HC. Journal: Annu Int Conf IEEE Eng Med Biol Soc; 2021 Nov; 2021():4901-4907. PubMed ID: 34892307. Abstract: Generalizability between individuals and groups is often a significant hurdle in model development for human subjects research. In the domain of wearable-sensor-controlled exoskeleton devices, the ability to generalize models across subjects or fine-tune more general models to individual subjects is key to enabling widespread adoption of these technologies. Transfer learning techniques applied to machine learning models afford the ability to apply and investigate the viability and utility such knowledge-transfer scenarios. This paper investigates the utility of single- and multi-subject based parameter transfer on LSTM models trained for "sensor-to-joint torque" prediction tasks, with regards to task performance and computational resources required for network training. We find that parameter transfer between both single- and multi-subject models provide useful knowledge transfer, with varying results across specific "source" and "target" subject pairings. This could be leveraged to lower model training time or computational cost in compute-constrained environments or, with further study to understand causal factors of the observed variance in performance across source and target pairings, to minimize data collection and model retraining requirements to select and personalize a generic model for personalized wearable-sensor-based joint torque prediction technologies.[Abstract] [Full Text] [Related] [New Search]