SUBJECT: Ph.D. Proposal Presentation
   
BY: Dakota Musso
   
TIME: Monday, March 15, 2021, 4:00 p.m.
   
PLACE: https://bluejeans.com/4519035831, N/A
   
TITLE: Probabilistic Regime Recognition & Damage Estimation Algorithms for Rotary and Fixed Wing Aircraft
   
COMMITTEE: Dr. Jonathan Rogers, Chair (AE/ME)
Dr. Alper Erturk (ME)
Dr. Anirban Mazumdar (ME)
Dr. Aldo Ferri (ME)
Dr. JVR Prasad (AE)
 

SUMMARY

Condition based maintenance (CBM) programs are of high interest to both the U.S. military and commercial aviation sectors for use in rotary wing and fixed wing aircraft. Cost savings in fleet maintenance and safety improvements for personnel are two of the most immediate benefits. Current programs rely heavily on an assumed mission usage spectrum, and post processing recorded flight data from the aircraft’s health and usage monitoring system (HUMS) using regime recognition (RR) algorithms coupled with known regime-based fatigue rates. This work presents a novel approach to regime recognition by casting the problem in a probabilistic framework that captures the uncertainty inherent in classifying aircraft flight regimes. RR algorithms utilizing an interacting multiple model estimator are presented. A developed framework and associated algorithms are then presented for taking results from a probabilistic RR algorithm and converting them into probabilistic cumulative damage estimates of life-limited components. Results for the proposed regime recognition and damage estimation algorithms using simulated data from the SH-60B are presented, along with comparisons to RR results produced from traditional rule-based methodologies.

https://bluejeans.com/4519035831