ProDiMES has been developed under a collaborative project of The Technical Cooperation Program (TTCP) based on feedback provided by individuals within the aircraft engine health management community.
The overall goal is to provide a tool that will serve as an industry standard and will truly facilitate the development and evaluation of significant Engine Health Management (EHM) capabilities. In this form it can serve as a reference, or theme problem, to aid in propulsion gas path diagnostic technology development and evaluation.
EDGE COMPUTING HONEYWELL PROGNOSTIC HEALTH MONITORING SOFTWARE
To help address these issues, the Propulsion Diagnostic Method Evaluation Strategy (ProDiMES) software tool has been specifically designed with the intent to be made publicly available. Furthermore, these inconsistencies create barriers to effective development of new algorithms and the exchange of results. As such, it is difficult to perform a one-to-one comparison of candidate approaches. Many of the propulsion gas path diagnostic method solutions published in the open literature are applied to different platforms, with different levels of complexity, addressing different problems, and using different metrics for evaluating performance. Propulsion Diagnostic Method Evaluation Strategy (ProDiMES)Ī standard benchmarking problem and evaluation metrics to enable the comparison of candidate aircraft engine gas path diagnostic methods Impact of Environmental Particulate Ingestion on Aircraft Engine Performance.Integrated Architecture for Aircraft Engine Performance Monitoring and Fault Diagnostics.Optimal Tuner Selection for Self-Tuning Engine Models.Propulsion Diagnostic Method Evaluation Strategy (ProDiMES).Key technologies developed to support Gas path health management include the following. Through the analysis of engine sensor measurements collected over time, gas path health management enables the estimation and trending of performance deterioration occurring within the major modules of the engine as well as the diagnosis of system faults. Its founding principles are based upon the parameter interrelationships inherent within a gas turbine engine cycle. Gas path health management is a cornerstone capability for monitoring the health of aircraft gas turbine engines. Space Propulsion Systems Health ManagementĪircraft Engine Gas Path Health Management.Aircraft Engine Gas Path Health Management.
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