Abstract: A method for detecting faults in an aircraft is disclosed. The method involves predicting at least one state of the aircraft and tuning at least one threshold value to tightly upper bound the size of a mismatch between the at least one predicted state and a corresponding actual state of the non-faulted aircraft. If the mismatch between the at least one predicted state and the corresponding actual state is greater than or equal to the at least one threshold value, the method indicates that at least one fault has been detected.

Abstract: A method for detecting faults in an aircraft is disclosed. The method involves predicting at least one state of the aircraft and tuning at least one threshold value to tightly upper bound the size of a mismatch between the at least one predicted state and a corresponding actual state of the non-faulted aircraft. If the mismatch between the at least one predicted state and the corresponding actual state is greater than or equal to the at least one threshold value, the method indicates that at least one fault has been detected.

Abstract: A system for a variable configuration CO2 removal within an air recovery framework. The system may include description and model development. There may be time modeling that incorporates inter-mode switching time and intra-mode dynamics time. The intra-mode dynamics time may have a mode time interval divided into finite elements and the finite elements may each have collocation points. There may be nonlinear model predictive control with objective function development and tuning. Statistical verification of controller safety performance may be included.