Incremental Clustering for Predictive Maintenance in Cryogenics for Radio Astronomy

Sensors (Basel). 2024 Apr 3;24(7):2278. doi: 10.3390/s24072278.

Abstract

In a cooling system for radio astronomy receivers, maintaining cold heads and compressors is essential for consistent performance. This project focuses on monitoring the power currents of the cold head's motor to address potential mechanical deterioration, which could jeopardize the overall functionality of the system. Using Hall effect sensors, a microcontroller-based electronic board, and artificial intelligence, the system detects and predicts anomalies. The model operates using an unsupervised approach based on incremental clustering. Since potential fault scenarios can be multiple and often challenging to simulate or identify during training, the system is initially trained using known operational categories. Over time, the system adapts and evolves by incorporating new data, which can be assigned to existing categories or, in the case of new anomalies, form new categories. This incremental approach enables the system to enhance its performance over the years, adapting to new anomaly scenarios and ensuring precise and reliable monitoring of the cold head's health.

Keywords: anomaly detection; cryogenics; predictive maintenance; radio astronomy; unsupervised machine learning.

Grants and funding

This project is part of the PIR01_00010 and CIR01_00010 PON projects: Enhancement of the Sardinia Radio Telescope for the study of the Universe at high radio frequencies, funded by the Italian Ministry of University and Research.