Abstract: In some examples, a system that mounts on a vehicle includes a transceiver configured to transmit a first surveillance message including a first value for a quality parameter, wherein the first value indicates a first level of integrity or accuracy for the first surveillance message. The transceiver is also configured to receive a reply message to the first surveillance message. The system also includes processing circuitry configured to determine a second value for the quality parameter in response to the transceiver receiving the reply message, wherein the second quality parameter indicates a second level of integrity or accuracy for surveillance messages transmitted by the transceiver, and wherein the second level of integrity or accuracy is higher than the first level. The transceiver is configured to transmit a second surveillance message including the second value for the quality parameter in response to the processing circuitry determining the second quality parameter.

Abstract: Systems and methods for outlier mitigation in safety-critical systems are provided. In one embodiment, a computer system comprises: a processor comprising one or more processing cores; a scheduling function that schedules the execution of applications, the applications each comprise threads; a contingency budgeting manager (CBM) that defines at least a first pre-determined set of threads from the threads of the applications and assigns a contingency budget pool to the first set of threads. The first set of threads are each scheduled by the scheduling function to execute on a first processing core. The CBM is further configured to monitor execution of each of the threads of the first set of threads to identify when a first thread is an execution time outlier. When the CBM determines that the first thread is an execution time outlier, it allocates additional thread execution time from the contingency budget pool to the first thread.

Abstract: Disclosed are systems, methods, and non-transitory computer-readable medium for determining an auxiliary power unit health indicator. The system may receive at least one field data of an auxiliary power unit, transforming the field data into at least one corrected field data, filtering the at least one corrected field data into at least one filtered field data, calculating at least one offset field data from the at least one filtered field data, determining a health indicator of the auxiliary power unit based on the at least one offset field data, and determining a maintenance procedure for the auxiliary unit based on the health indicator.

Abstract: A method of supplementing a satellite based augmentation system approach during low visibility conditions is provided. The method includes acquiring satellite range measurements and additional measurements from at least one additional onboard independent sensor. Core sigma values are assigned for satellite range measurements and for each additional measurement from the at least one additional onboard independent sensor. A weighted position solution is determined using the acquired satellite range measurements, the acquired additional measurements and the assigned core sigma values. A discriminator is applied that utilizes vehicle positions derived from the acquired satellite range measurements and from the additional measurements to determine if a fault is present in the weighted position solution. An alert is generated if an output of the discriminator is outside a set tolerance value needed for low visibility operation.

Abstract: In some examples, a system includes a receiver configured to receive communication from a traffic management system and a transmitter configured to transmit surveillance messages. The system also includes processing circuitry configured to determine, in a first instance, that the receiver has not received a command signal from the traffic management system. The processing circuitry is also configured to suppress transmission of surveillance messages by the transmitter in response to determining that the receiver has not received the command signal. The processing circuitry is further configured to determine, in a second instance, that the receiver received the command signal from the traffic management system. The processing circuitry is configured to cause the transmitter to transmit the surveillance messages in response to determining that the receiver received the command signal.

Abstract: Systems and methods for outlier mitigation in safety-critical systems are provided. In one embodiment, a computer system comprises: a processor comprising one or more processing cores; a scheduling function that schedules the execution of applications, the applications each comprise threads; a contingency budgeting manager (CBM) that defines at least a first pre-determined set of threads from the threads of the applications and assigns a contingency budget pool to the first set of threads. The first set of threads are each scheduled by the scheduling function to execute on a first processing core. The CBM is further configured to monitor execution of each of the threads of the first set of threads to identify when a first thread is an execution time outlier. When the CBM determines that the first thread is an execution time outlier, it allocates additional thread execution time from the contingency budget pool to the first thread.