Gyro Motor State Evaluation and Prediction Using the Extended Hidden Markov Model.

Dong, Lei; Wang, Jianfei; Tseng, Ming-Lang; Yang, Zhiyong; Ma, Benfu; Li, Ling-Ling

This study extracted the featured vectors in the same way from testing data and substituted these vectors into a trained hidden Markov model to get the log likelihood probability. The log likelihood probability was matched with the time–probability curve from where the gyro motor state evaluation and prediction were realized. A core component of gyroscopes is linked to the reliability of the inertia system to conduct gyro motor state evaluation and prediction. This study features the vectors' extraction from full life cycle gyro motor data and completes the training model to feature the vectors according to the time sequence and extraction to full life cycle data undergoing hidden Markov model training. This proposed model applies to full life cycle gyro motor data for validation, compared with traditional hidden Markov model predictive methods and health condition-trained data. The results suggest precise evaluation and prediction and provide an important basis for gyro motor repair and replacement strategies.

HIDDEN Markov models; FORECASTING; GYROSCOPES; MOTORCYCLES; VECTOR data

Symmetry (20738994), 2020, Vol 12, Issue 11, p1750

2073-8994

Academic Journal

10.3390/sym12111750