Proposing a Fuzzy Soft‐max‐based classifier in a hybrid deep learning architecture for human activity recognition

Abstract

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Abstract Human Activity Recognition (HAR) is the process of identifying and analysing activities performed by a person (or persons). This paper proposes an efficient HAR system based on wearable sensors that uses deep learning techniques. The proposed HAR takes the advantage of staking Convolutional Neural Network and Long Short‐Term (LSTM), for extracting the high‐level features of the sensors data and for learning the time‐series behaviour of the abstracted data, respectively. This paper proposed a Fuzzy Soft‐max classifier for the dense layer which classifies the output of LSTM Blocks to the associated activity classes. The authors’ decision for proposing this classifier was because sensor data related to the resembling human activities, such as walking and running or opening door and closing door, are often very similar to each other. For this reason, the authors expect that adding fuzzy inference power to the standard Soft‐max classifier will increase its accuracy for distinguishing between similar activities. The authors were also interested in considering a post‐processing module that considers activity classification over a longer period. Using the proposed Fuzzy Soft‐max classifier and by the post‐processing technique, the authors were able to reach the 97.03 and 85.1 rates of accuracy for the PAMAP2 and Opportunity dataset, respectively.

Keywords

• deep learning
• Fuzzy
• Human Activity Recognition (HAR)
• soft‐max classifier