The time and cost associated with the development and certification of flight-critical software bled air vehicles. This upward trend is expected to continue as future vehicles will be increasingly autonomous and intelligent. Affordable, efficient processes and tools are needed to control development costs and schedule, as well as to ensure the safety of these vehicles. This paper presents the results of a U. S. Air Force Research Laboratory (AFRL) sponsored project on the development of validation and verification (V&V) technologies for flightcritical software. The purpose of the project is to improve the affordability and safety for software V&V, specifically, for adaptive and/or mixed-criticality software.
Future U.S. Air Force capabilities will rely on mixed manned/unmanned vehicles working together as a team. These vehicles will be increasingly autonomous, capable of on-board decision-making and mission replanning, and yet interoperable to complete a desired mission safely, reliably, and adaptively. A key enabler of this cooperative airspace is adaptive or reconfigurable control software. This kind of software poses a strong challenge to the verification and validation (V&V) process, which leads to the final certification and accreditation of the software.Traditional V&V processes rely heavily on testing or other informal methods. These processes are time consuming and increasingly expensive as the complexity of the software increases. Alternative processes that can increase affordability while applying more formal methods have been attractive recently. This paper describes a formal software checking method by using the Karnaugh Map technique. This method checks the consistency and completeness of the software during the verification process.A proof-of-concept test of the method has been applied to an aircraft actuation system. The C-language source code of the actuator system used as a model in an adaptive flight control system is checked by the method. The preliminary results of this proof of concept are presented in this paper. The results demonstrated the feasibility of the method. The results are consistent with previous applications of the method to other sophisticated software systems, such as semiconductor manufacturing and command & control systems.Continued maturation of this process and technology is being supported by the Air Force Research Laboratory 1 2 .
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