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Exploring Artificial Neural Networks Efficiency in Tiny Wearable Devices for Human Activity Recognition

Emanuele Lattanzi, Matteo Donati, Valerio Freschi

2022Sensors47 citationsDOIOpen Access PDF

Abstract

The increasing diffusion of tiny wearable devices and, at the same time, the advent of machine learning techniques that can perform sophisticated inference, represent a valuable opportunity for the development of pervasive computing applications. Moreover, pushing inference on edge devices can in principle improve application responsiveness, reduce energy consumption and mitigate privacy and security issues. However, devices with small size and low-power consumption and factor form, like those dedicated to wearable platforms, pose strict computational, memory, and energy requirements which result in challenging issues to be addressed by designers. The main purpose of this study is to empirically explore this trade-off through the characterization of memory usage, energy consumption, and execution time needed by different types of neural networks (namely multilayer and convolutional neural networks) trained for human activity recognition on board of a typical low-power wearable device.Through extensive experimental results, obtained on a public human activity recognition dataset, we derive Pareto curves that demonstrate the possibility of achieving a 4× reduction in memory usage and a 36× reduction in energy consumption, at fixed accuracy levels, for a multilayer Perceptron network with respect to more sophisticated convolution network models.

Topics & Concepts

Computer scienceWearable computerInferenceConvolutional neural networkArtificial neural networkArtificial intelligenceEnergy consumptionWearable technologyActivity recognitionDeep learningReduction (mathematics)Edge deviceMachine learningEdge computingPerceptronEmbedded systemComputer engineeringEnhanced Data Rates for GSM EvolutionEngineeringOperating systemGeometryElectrical engineeringMathematicsCloud computingContext-Aware Activity Recognition SystemsGreen IT and SustainabilityHuman Mobility and Location-Based Analysis
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