Classification of Human Daily Activities Using Ensemble Methods Based on Smartphone Inertial Sensors.

Ku Nurhanim Ku Abd Rahim,Lila Iznita Izhar,Genci Capi,I Elamvazuthi

doi:10.3390/s18124132

Ku Nurhanim Ku Abd Rahim, Lila Iznita Izhar + Show 2 more

Open Access

https://doi.org/10.3390/s18124132

Copy DOI

Abstract

Increasing interest in analyzing human gait using various wearable sensors, which is known as Human Activity Recognition (HAR), can be found in recent research. Sensors such as accelerometers and gyroscopes are widely used in HAR. Recently, high interest has been shown in the use of wearable sensors in numerous applications such as rehabilitation, computer games, animation, filmmaking, and biomechanics. In this paper, classification of human daily activities using Ensemble Methods based on data acquired from smartphone inertial sensors involving about 30 subjects with six different activities is discussed. The six daily activities are walking, walking upstairs, walking downstairs, sitting, standing and lying. It involved three stages of activity recognition; namely, data signal processing (filtering and segmentation), feature extraction and classification. Five types of ensemble classifiers utilized are Bagging, Adaboost, Rotation forest, Ensembles of nested dichotomies (END) and Random subspace. These ensemble classifiers employed Support vector machine (SVM) and Random forest (RF) as the base learners of the ensemble classifiers. The data classification is evaluated with the holdout and 10-fold cross-validation evaluation methods. The performance of each human daily activity was measured in terms of precision, recall, F-measure, and receiver operating characteristic (ROC) curve. In addition, the performance is also measured based on the comparison of overall accuracy rate of classification between different ensemble classifiers and base learners. It was observed that overall, SVM produced better accuracy rate with 99.22% compared to RF with 97.91% based on a random subspace ensemble classifier.

Highlights

Increasing interest has been shown in analysing human gait using wearable sensors, which is known as Human Activity Recognition (HAR)
The results of this study showed that data in hand produces best overall classification accuracy rate using voting combination of Multilayer perceptron (MLP), logitboost and Support vector machine (SVM) classifier with 91.15%, whilst, data in pocket gives best accuracy of classification rate as 90.34% using voting combination of MLP, Random forest (RF) and simple logistic
For A3, A2 and A1, precision results show that SVM has given higher result range of 95.3% to 96.1% compared to RF with 89.6%

Summary

Introduction

Increasing interest has been shown in analysing human gait using wearable sensors, which is known as Human Activity Recognition (HAR). HAR with automatic recognition of physical activities is increasingly being studied and applied in Human-Computer Interaction (HCI), mobile and pervasive computing. One of the objectives of HAR is to offer information that enables computing frameworks to productively aid users in their tasks [1]. HAR which improves the service are on-request data systems, monitoring and surveillance system of smart homes, interactive interfaces for mobile services and games, and medical care service applications for both inpatient and outpatient treatments [2,3,4]. Other applications include bilateral links targeted to advertising, entertainment, games, and multimedia visualization guidance [5,6].

Methods

Results

Conclusion