Abhinav Saxena scite author profile

This paper describes how damage propagation can be modeled within the modules of aircraft gas turbine engines. To that end, response surfaces of all sensors are generated via a thermo-dynamical simulation model for the engine as a function of variations of flow and efficiency of the modules of interest. An exponential rate of change for flow and efficiency loss was imposed for each data set, starting at a randomly chosen initial deterioration set point. The rate of change of the flow and efficiency denotes an otherwise unspecified fault with increasingly worsening effect. The rates of change of the faults were constrained to an upper threshold but were otherwise chosen randomly. Damage propagation was allowed to continue until a failure criterion was reached. A health index was defined as the minimum of several superimposed operational margins at any given time instant and the failure criterion is reached when health index reaches zero. Output of the model was the time series (cycles) of sensed measurements typically available from aircraft gas turbine engines. The data generated were used as challenge data for the Prognostics and Health Management (PHM) data competition atPHM'08.

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Metrics for evaluating performance of prognostic techniques

Saxena

et al. 2008

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Prognostics in Battery Health Management

Goebel

Saha

Saxena

et al. 2008

IEEE Instrum. Meas. Mag.

480

198

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Abhinav Saxena

Damage propagation modeling for aircraft engine run-to-failure simulation

Metrics for evaluating performance of prognostic techniques

Prognostics in Battery Health Management

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