Ricardo Mazza Zago scite author profile

This work presents a failure diagnosis tool for a water pump using a low-cost MEMS accelerometer. It was inserted three types of failures: rotor blade (new and damaged), pump soleplate tightness (stiff or loose), and cavitation, in this case on three conditions: none, incipient and severe, totaling twelve fault combinations. These conditions were tested under two different speeds to perform the diagnosis, totaling twenty-four tests. In all cases, the vibration signals from axes X, Y, and Z were acquired. Some features extracted from the vibration spectra from X-axis were used to compose the dataset. These data were analyzed employing logistic regression, a linear support vector machine (SVM), and an artificial neural network multilayer perceptron (ANN-MLP). We compared these three techniques of machine learning and evaluated which one was able to obtain the most accurate result. Using the ANN-MLP, the system was able to detect all three types of failures inserted, with about 100% of accuracy on the rotor blade condition, 92% for anchorage faults, and about 99% accuracy on cavitation state. As a conclusion, it is demonstrated that this classifier algorithm can be used to process the data from the low-cost MEMS accelerometer in predictive maintenance as an accurate tool.

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Ricardo Mazza Zago

Low-cost MEMS accelerometer network for rotating machine vibration diagnostics

A low-cost solar generation monitoring system suitable for internet of things

Instrument based on MEMS accelerometer for vibration and unbalance analysis in rotating machines

Fault diagnostics in rotary machines through spectral vibration analysis using low-cost MEMS devices

Failure analysis on a water pump based on a low-cost MEMS accelerometer and machine learning classifiers

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