Abstract
Labeling activity data is a central part of the design and evaluation of human activity recognition systems. The performance of the systems greatly depends on the quantity and “quality” of annotations; therefore, it is inevitable to rely on users and to keep them motivated to provide activity labels. While mobile and embedded devices are increasingly using deep learning models to infer user context, we propose to exploit on-device deep learning inference using a long short-term memory (LSTM)-based method to alleviate the labeling effort and ground truth data collection in activity recognition systems using smartphone sensors. The novel idea behind this is that estimated activities are used as feedback for motivating users to collect accurate activity labels. To enable us to perform evaluations, we conduct the experiments with two conditional methods. We compare the proposed method showing estimated activities using on-device deep learning inference with the traditional method showing sentences without estimated activities through smartphone notifications. By evaluating with the dataset gathered, the results show our proposed method has improvements in both data quality (i.e., the performance of a classification model) and data quantity (i.e., the number of data collected) that reflect our method could improve activity data collection, which can enhance human activity recognition systems. We discuss the results, limitations, challenges, and implications for on-device deep learning inference that support activity data collection. Also, we publish the preliminary dataset collected to the research community for activity recognition.
Highlights
In the field of ubiquitous computing, researches on human activity recognition technology using mobile sensors such as smartphones have been conducted [1]
We have proposed a method to use on-device deep learning inference to detect activities that users are doing as feedback for optimizing activity data collection in smartphone-based activity recognition
The proposed method was validated with mobile sensors and 713 activity labels that we collected from 6 participants
Summary
In the field of ubiquitous computing, researches on human activity recognition technology using mobile sensors such as smartphones have been conducted [1]. Smartphone-based activity recognition systems aimed at physical activities recognition such as walking or running, are based on mobile sensor data. A central challenge in smartphone-based activity recognition is data annotation studies in order to assess the labels describing the current activity while this activity is still on-going or recent to ensure that the dataset is labeled correctly. The quality and quantity of annotations can have a significant impact on the performance of the activity recognition systems. To overcome the challenge of self-labeling [3], we introduce the idea of utilizing on-device deep learning inference for optimizing activity data collection. The rapid performance increase of low-power processors and the huge demand of internet of things (IoT) applications brought new ways for deploying machine/deep learning models on edge
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