Autonomous and Resilient Management of All-Source Sensors for Navigation Assurance

As the number and type of sensors informing a system increases, so does the probability of corrupting the system with sensor modeling errors, signal interference, and undetected faults.

Over the past two decades, the United States Air Force has focused on complementing its reliance on the Global Positioning System (GPS) for navigation and timing solutions through the use of alternative navigation sources and sensors. Additionally, senior leaders within the Air Force have recently stated that one of the top priorities for the service is “to cost- effectively modernize to increase the lethality of the force and drive innovation to secure our future.” With this in mind, the Air Force Institute of Technology’s Autonomy and Navigation Technology (ANT) Center has made its vision to provide “defense-focused autonomy and navigation, anywhere, anytime, using anything.”

All-source navigation has become increasingly relevant over the past decade with the development of viable alternative sensor technologies. However, as the number and type of sensors informing a system increases, so does the probability of corrupting the system with sensor modeling errors, signal interference, and undetected faults. Though the latter of these has been extensively researched, the majority of existing approaches have constrained faults to biases, and designed algorithms centered around the assumption of simultaneously redundant, synchronous sensors with valid measurement models, none of which are guaranteed for all-source systems.

Unlike the well-understood, synchronous, and redundant nature of the GPS multi-sensor constellation, all-source navigation systems tend to be heterogeneous in composition, with each sensor proven only within a well-controlled environment, and not guaranteed to be synchronous or redundant. Additionally, as the number of sensors and measurement domains that are exploited for navigation purposes increases, so does the probability of corrupting the navigation solution with errors in sensor modeling, unexpected signal interference, and or undetected faults. Therefore, in order to fulfill this vision, alternative (non-GPS) all-source navigation technology must be brought up to a level of operational readiness that allows its use in a manner that is resilient, and thus capable of not only detecting when any of the above failure modes are present, but also of assuring navigation integrity in their presence, and self-correcting and recovering from such failures, all in an autonomous, realtime, plug-and-play architecture.

This research aims to provide all-source multi-sensor resiliency, assurance, and integrity through an autonomous sensor management framework. The proposed framework dynamically places each sensor in an all-source system into one of four modes: monitoring, validation, calibration, and remodeling. Each mode contains specific and novel real-time processes that affect how a navigation system responds to sensor measurements.

The monitoring mode is driven by a novel sensor-agnostic fault detection, exclusion, and integrity monitoring method that minimizes the assumptions on the fault type, all-source sensor composition, and the number of faulty sensors. The validation mode provides a novel method for the online validation of sensors which have questionable sensor models, in a fault-agnostic and sensor-agnostic manner, and without compromising the ongoing navigation solution in the process. The remaining two modes, calibration and remodeling, generalize and integrate online calibration and model identification processes to provide autonomous and dynamic estimation of candidate model functions and their parameters, which when paired with the monitoring and validation processes, directly enable resilient, self-correcting, plug-and-play open architecture navigation systems.

This work was done by Major Juan D. Jurado, USAF, for the Air Force Institute of Technology. For more information, download the Technical Support Package (free white paper) below. AFIT-0005



This Brief includes a Technical Support Package (TSP).
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Autonomous and Resilient Management of All-Source Sensors for Navigation Assurance

(reference AFIT-0005) is currently available for download from the TSP library.

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