is a technical book by Alexander Nikolaevich Akimov , Vadim Vadimovich Vorobyov , and Dmitry Alexandrovich Zatuchny . Published by Springer Nature in late 2022, it addresses the critical problem of maintaining aircraft trajectory and parameter restrictions to prevent accidents, particularly during high-stress situations or equipment failures. Key Focus Areas
: The algorithms focus on maneuvering aircraft away from restricted surfaces, prioritizing ascending maneuvers over descending ones for enhanced safety. Limiting Modes of Aircraft Flight: Methods, Alg...
: It details methods for automatically limiting flight parameters—such as pitch and bank angles—to ensure the aircraft remains within safe operational envelopes. is a technical book by Alexander Nikolaevich Akimov
: Demonstrates the efficiency of these algorithms through simulations, showing they can adapt to different flight modes by adjusting when a restriction algorithm is triggered based on current flight speed. Publication Metadata Information Publisher Springer Publication Date November 1, 2022 ISBN (Digital) 978-981-19-6329-2 Page Count : It details methods for automatically limiting flight
is a technical book by Alexander Nikolaevich Akimov , Vadim Vadimovich Vorobyov , and Dmitry Alexandrovich Zatuchny . Published by Springer Nature in late 2022, it addresses the critical problem of maintaining aircraft trajectory and parameter restrictions to prevent accidents, particularly during high-stress situations or equipment failures. Key Focus Areas
: The algorithms focus on maneuvering aircraft away from restricted surfaces, prioritizing ascending maneuvers over descending ones for enhanced safety.
: It details methods for automatically limiting flight parameters—such as pitch and bank angles—to ensure the aircraft remains within safe operational envelopes.
: Demonstrates the efficiency of these algorithms through simulations, showing they can adapt to different flight modes by adjusting when a restriction algorithm is triggered based on current flight speed. Publication Metadata Information Publisher Springer Publication Date November 1, 2022 ISBN (Digital) 978-981-19-6329-2 Page Count