With the wide spread of sensors and smart devices in recent years, the data
generation speed of the Internet of Things (IoT) systems has increased
dramatically. In IoT systems, massive volumes of data must be processed,
transformed, and analyzed on a frequent basis to enable various IoT services
and functionalities. Machine Learning (ML) approaches have shown their capacity
for IoT data analytics. However, applying ML models to IoT data analytics tasks
still faces many difficulties and challenges, specifically, effective model
selection, design/tuning, and updating, which have brought massive demand for
experienced data scientists. Additionally, the dynamic nature of IoT data may
introduce concept drift issues, causing model performance degradation. To
reduce human efforts, Automated Machine Learning (AutoML) has become a popular
field that aims to automatically select, construct, tune, and update machine
learning models to achieve the best performance on specified tasks. In this
paper, we conduct a review of existing methods in the model selection, tuning,
and updating procedures in the area of AutoML in order to identify and
summarize the optimal solutions for every step of applying ML algorithms to IoT
data analytics. To justify our findings and help industrial users and
researchers better implement AutoML approaches, a case study of applying AutoML
to IoT anomaly detection problems is conducted in this work. Lastly, we discuss
and classify the challenges and research directions for this domain.Comment: Published in Engineering Applications of Artificial Intelligence
(Elsevier, IF:7.8); Code/An AutoML tutorial is available at Github link:
https://github.com/Western-OC2-Lab/AutoML-Implementation-for-Static-and-Dynamic-Data-Analytic