Abstract
The creation of the Internet of Things (IoT), along with the latest developments in wearable technology, has provided new opportunities in human activity recognition (HAR). The modern smartwatch offers the potential for data from sensors to be relayed to novel IoT platforms, which allow the constant tracking and monitoring of human movement and behavior. Recently, traditional activity recognition techniques have done research in advance by choosing machine learning methods such as artificial neural network, decision tree, support vector machine, and naive Bayes. Nonetheless, these conventional machine learning techniques depend inevitably on heuristically handcrafted feature extraction, in which human domain knowledge is normally limited. This work proposes a hybrid deep learning model called CNN-LSTM that employed Long Short-Term Memory (LSTM) networks for activity recognition with the Convolution Neural Network (CNN). The study makes use of HAR involving smartwatches to categorize hand movements. Using the study based on the Wireless Sensor Data Mining (WISDM) public benchmark dataset, the recognition abilities of the deep learning model can be accessed. The accuracy, precision, recall, and F-measure statistics are employed using the evaluation metrics to assess the recognition abilities of LSTM models proposed. The findings indicate that this hybrid deep learning model offers better performance than its rivals, where the achievement of 96.2% accuracy, while the f-measure is 96.3%, is obtained. The results show that the proposed CNN-LSTM can support an improvement of the performance of activity recognition.
Highlights
Miniature sensors have driven rapid growth in the wearable technology sector, since they permit computerized monitoring at any time [1]
This study suggested the use of a hybrid deep learning model that employed Long Short-Term Memory (LSTM) networks for recognition performance improvement
This work studied hand-oriented activity recognition using sensor data captured from a smartwatch that is collected in the Wireless Sensor Data Mining (WISDM) dataset
Summary
Miniature sensors have driven rapid growth in the wearable technology sector, since they permit computerized monitoring at any time [1]. During the past five years there has been a notable increase in the number of research papers published in this particular field [17], with a majority of these studies focusing on the applications of HAR in conventional machine learning (ML) models. Such models typically employ ML algorithms such as support vector machines, naive Bayes, decision trees, hidden Markov, and k-nearest neighbor models.
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