

Contact our commercial aircraft solutions electronic systems director of business development today to learn more. Currently in production, Predator XP has an endurance of 35 hours and can ascend up to 25,000 feet.

See a more detailed list of our flight controls portfolio for commercial aircraft below, as well as key features and capabilities of our integrated flight control system elements. Whatever the nature of your aviation mission – manned or autonomous – no one delivers more advanced, high performance flight control solutions for your aircraft than BAE Systems. Our advanced, fly-by-wire (FBW) control systems are the operational heart of those aircraft, including our primary flight control computers (FCC), our active inceptor systems (AIS) and active control sticks (ACS), our slat & flap electronic control units (SFECU) and spoiler control electronics (SCE), our actuator control electronics (ACE), and our remote electronics units (REU). And our advances in autonomous controls and electric aircraft will further transform aviation.Įvery second of the day, an aircraft somewhere in the world takes off enabled by flight-critical systems designed, produced, and supported by BAE Systems. Our fly-by-wire controls – the first in commercial aircraft – continue to make flight more agile, secure, and affordable.

The command unit and the monitor unit are separated channels within a single computer.
#Redundant flight control system software
Each FCC is composed of two software variants or units (command and monitoring unit) 7 whose results are compared. Space Sci.Flight control systems that lead commercial aviation We’ve been improving flight controls for 40+ years, with an installed base of 15,000 aircraft. The Airbus flight control system is based on many self-checking flight control computers 6. 2, 95–104 (2020)ĭong-woo, L., Kwang-woo, J., Lam-su, K., Seong-heon, L., Hyo-choong, B.: Model reference adaptive control of a quadrotor considering the uncertainty of payload. Soung-Young, O., Ki-Hong, P., Yoon-Ho, K.: Implementation of flight control computer redundancy system in unmanned aerial vehicle. In: Proceedings of the 2015 International Conference on Electrical, Computer Engineering and Electronics, pp. Zhang, X., Li, H., Yuan, D.: Dual redundant flight control system design for microminiature UAV. It is found that state components which appear in. In: Conference on Control and Fault-Tolerant Systems, vol. The controllability and steady-state response of parallel-redundant flight control systems are examined. Hu, B., Selier, P.: A probabilistic method for certification of analytically redundant systems. Seung-Hyun, L., Jang-Ho, L., Eung-Tae, K., Ki-Jung, S.: Sensor redundancy management using Kalman filter for a duplex flight control system. In: Proceedings Ninth Euromicro Workshop on Parallel and Distributed Processing, pp. M.: History-based weighted average voter: a novel software voting algorithm for fault-tolerant computer systems. Latif-Shabgahi, G., Bennett, S., Bass, J. Latif-Shabgahi, G., Bennett, S., Bass, J.M.: Smoothing voter: a novel voting algorithm for handling multiple errors in fault-tolerant control systems. In: Conference of the Korean Society for Aeronautical and Space Sciences, pp. Jong-Min, A., Sang-Soo, L., JoonSoo, K., Chong-Sup, K.: Comparative analysis of voting algorithm for redundant flight control system. In: Proceedings of IEEE 19th International Symposium on Fault Tolerant Computing Systems, pp. Paul, R., Lovczak, K.: A theoretical investigation of generalized voters for redundant systems. In: IEEE Conference on Dependable and Secure Computing, pp. Hazards Risk 8, 1–4 (2017)Ĭhang-Han, W., Ti-Jui, C., Terng-Yin, H., Shang-Ho, T., Hsung-Pin, C.: Design of applying FlexRay-bus to federated archiectecture for triple redundant reliable UAV flight control system. Giordan, D., Manconi, A., Remondino, F., Nex, F.: Use of unmanned aerial vehicles in monitoring application and management of natural hazards. Youngjib, H., Kevin, K.H., Jacob, J.L., Mani, G.: Visual monitoring of civil infrastructure systems via camera-equipped Unmanned Aerial Vehicles (UAVs): a review of related works. Rahman, M.F.F., Fan, S., Zhang, Y., Chen, L.: A comparative study on application of unmanned aerial vehicle systems in agriculture.
