Development of Navigation Technology for Flight Safety , 1st ed. 2020
Springer Aerospace Technology Series
Authors: Baburov S.V. , Bestugin A.R. , Galyamov A.M. , Sauta O.I. , Shatrakov Y.G.Language: Anglais
Subjects for Development of Navigation Technology for Flight Safety :
Flight safety enhancement;Virtual glide path;Enhanced ground proximity warning;Satellite landing systems (SLS);Vertical maneuver;Pseudo-satellites signals;Global Navigation and Satellite Systems (GLONASS);Terrain awareness warning system (TAWS);Collision avoidance systems;Unmanned Aerial Vehicles (UAV);Radioelectronic complex
In Print (Delivery period: 15 days).Add to cart the livre of Baburov S.V. , Bestugin A.R. , Galyamov A.M. , Sauta O.I. , Shatrakov Y.G.
233 p. · 15.5x23.5 cm · Hardback
This book highlights practical solutions for flight safety improvement techniques, which are currently the focus of the International Civil Aviation Organization (ICAO). It has become clear that, in order to rapidly and significantly improve flight safety, the integrated use of new aeronautical technologies is called for. Considering the size of the aviation fleet, its constant growth and the long service lives of aircraft, new technologies should be adapted both to cutting-edge air navigation systems and to those that have been used for over a decade.Concretely, the book discusses methodological approaches to the construction of ground and on-board avionics that make it possible to achieve improved flight safety using innovative new methods. The proposed approaches are illustrated with real-world examples of e.g. satellite-based navigation systems and enhanced ground proximity warning systems.
The book is written for professionals involved in the development of avionics systems, as well as students, researchers and experts in the field of radiolocation, radio navigation and air traffic control, the book will support the development and modeling of radio technical complexes, as well as the analysis of complex radio technical systems.
GENERAL DESCRIPTION OF FLIGHT SAFETY PROBLEMSAnalysis of the state and prospects for the development of instrument landing systems and collision avoidance systems
Features of global navigation satellite systems as an instrument basis for improving flight safety
Augmentations – the main method to improve the performance characteristics of global navigation satellite systemsAnalysis of requirements for satellite-based landing systems and collision avoidance systems
General methods and techniques to improve flight efficiency and safety when using satellite-based landing systems and collision avoidance systemsFlight safety indicators
Conclusions to Chapter 1METHODOLOGY FOR CONSTRUCTING SATELLITE-BASED LANDING SYSTEMS AND COLLISION AVOIDANCE SYSTEMS Theoretical background of a formalized methodological approach to the selection of basic elements for radio-electronic complexes to improve flight efficiency and safety
Methods for building the structure of the ground and onboard radio-electronic complexes of satellite-based landing systems with augmentations of global navigation satellite systems
Methods and rules for the development of a collision avoidance system with the use of global navigation satellite system technologiesDirections and methods to enhance satellite-based landing systems and collision avoidance systems
Conclusions to Chapter 2
METHODS FOR IMPROVING FLIGHT EFFICIENCY AND SAFETY FOR SATELLITE-BASED LANDING SYSTEMS
Method for increasing the accuracy and integrity of the guidance signals based on the construction and use of volumetric distribution diagrams for radio waves multipath errors and the system structure for its implementation
Method for ensuring integrity and continuity of guidance signals based on the use of an integrated signal-to-noise ratio for pseudoranges in presence of radiointerference
Method for increasing accuracy and integrity of guidance signals based on pseudorange error compensation using phase measurements and the structure of the radioelectronic complex for its implementation
Method for increasing accuracy, integrity, continuity and availability of guidance signals based on the use of pseudo-satellite signals and the system structure for its implementation
Conclusions to Chapter 3
METHODS FOR IMPROVING FLIGHT EFFICIENCY AND SAFETY BASED ON TECHNOLOGIES APPLICABLE IN COLLISION AVOIDANCE SYSTEMS
Method for improving flight safety by generating a warning about a potential collision based on the three-dimensional synthesis of the underlying surface sections and the display of hazardous elements
Method for increasing the flight effectiveness and safety by assessing the possibility of vertical maneuvering and determining the direction of the turnMethod for increasing the flight effectiveness and safety by identifying hazardous terrain, taking into account the possibility of a reverse turn, and the system structure for its implementation
Method for improving flight efficiency and safety by analyzing the space inside a corridor safe for flight
Conclusions to Chapter 4
INTEGRATED TECHNICAL SOLUTIONS ON THE JOINT USE OF TECHNOLOGIES APPLICABLE IN COLLISION AVOIDANCE SYSTEMS AND SATELLITE-BASED LANDING SYSTEMS
Principles of constructing an integrated flight safety enhancement system based on the collision avoidance system and the satellite-based landing systemMethod for preventing aircraft landings on an unauthorized runway by calculating a virtual glide path
Method for notifying of the aircraft or UAV position during the landing and roll-on operation
Assessment of flight safety and efficiency improvements with the use of integrated systems
Conclusions to Chapter 5RECOMMENDATIONS FOR THE APPLICATION OF THE PROPOSED TECHNICAL SOLUTIONS IN THE SATELLITE-BASED LANDING SYSTEMS AND COLLISION AVOIDANCE SYSTEMS
Principles of construction and design features of onboard equipment to improve flight efficiency and safety
Construction of an onboard navigation and landing complex on the basis of the satellite-based landing system and the collision avoidance system
Results of the satellite-based landing system flight testsResults of the Enhanced Ground Proximity Warning System flight tests and operation
Conclusions to Chapter 6
Baburov Sergey Vladimirovich, Candidate of Technical Sciences, was born in 1984. He is the author of more than 82 scientific papers, including 4 patents for inventions in the field of radio technical systems; expert in the field of system analysis, on-board radio communication systems, navigation and air traffic control; First Deputy General Director of JSC “Navigator” for the development and production of a wide range of on-board integrated avionics.
Bestugin Alexander Roaldovich, Professor, Doctor of Technical Sciences, was born in 1960. He is the Director of the St. Petersburg State University of Aerospace Instrumentation Second Institute, Head of the “Design Process for Electronic and Laser aids” Department, author of more than 100 scientific papers, including 11 monographs, 4 patents for inventions in the field of radio technical aids, research supervisor of the section for multifunctional aircraft flight control systems.
Galyamov Andrey Mikhailovich, Candidate of Technical Sciences, was born in 1987. He is the author of more than 50 scientific papers, including 2 patents for inventions in the field of radio technical systems; General Director of NNC Consulting LLC, Interstate Aviation Committee expert-auditor, Rosaviation expert-auditor, Head of the testing laboratory, RTCA and EUROCAE member, expert in testing radio-electronic complexes and improving flight safety for all types of aircraft.
Sauta Oleg Ivanovich, Doctor of Technical Sciences, was born in 1960. He is the author of more than 100 scientific papers, including 20 patents for inventions in the field of radio technical systems for satellite navigation, landing and safety enhancement systems. He graduated from Leningrad State University, specializing in radiophysics (1983). He defended his candidate thesis in 1991 and doctoral thesis in 2012. He is an expert in the field of aviation radio technical systems for navigation and landing, founder of the scientific fi
Highlights new perspectives in the design of complex aviation systems
Describes original approaches to aviation instrumentation design with proven efficiencyDiscusses new concepts for low-level aviation safety enhancement
These books may interest you
Air Navigation Law 116.04 €