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Deep Learning Methods for Speed Estimation of Bipedal Motion from Wearable IMU Sensors

Josef Justa, Václav Šmídl, Aleš Hamáček

2022Sensors11 citationsDOIOpen Access PDF

Abstract

The estimation of the speed of human motion from wearable IMU sensors is required in applications such as pedestrian dead reckoning. In this paper, we test deep learning methods for the prediction of the motion speed from raw readings of a low-cost IMU sensor. Each subject was observed using three sensors at the shoe, shin, and thigh. We show that existing general-purpose architectures outperform classical feature-based approaches and propose a novel architecture tailored for this task. The proposed architecture is based on a semi-supervised variational auto-encoder structure with innovated decoder in the form of a dense layer with a sinusoidal activation function. The proposed architecture achieved the lowest average error on the test data. Analysis of sensor placement reveals that the best location for the sensor is the shoe. Significant accuracy gain was observed when all three sensors were available. All data acquired in this experiment and the code of the estimation methods are available for download.

Topics & Concepts

Inertial measurement unitComputer scienceArtificial intelligenceStep detectionWearable computerComputer visionEncoderDeep learningMotion (physics)Wearable technologyCode (set theory)Real-time computingEmbedded systemSet (abstract data type)Filter (signal processing)Programming languageOperating systemHuman Pose and Action RecognitionAnomaly Detection Techniques and ApplicationsVideo Surveillance and Tracking Methods