ISBN-13: 9789811606328 / Angielski / Miękka / 2022 / 192 str.
ISBN-13: 9789811606328 / Angielski / Miękka / 2022 / 192 str.
Introduction
1. Analysis of the problem of ensuring the noise immunity of the navigation systems of civil aviation aircraft
1.1. Formalization of the space of unintentional interference with the navigation systems of civil aviation aircraft
1.2. Analysis of noise immunity of the navigation systems of civil aviation aircraft using the example of the Sukhoi Superjet-100 aircraft 1.3. Mechanisms for the use of expert systems in the design of on-board aircraft systems2. Mathematical models of information preservation in flight-navigation and computing complexes of civil aviation aircraft
2.1. Development of models and methods of structural and technological backup of software and information support of flight-navigation and computing complexes of civil aviation aircraft
2.1.1. General mathematical model of structural and technological backup of software and information support of flight-navigation and computing complexes operating on the basis of local computer networks
2.1.2. Analysis of features of the task of synthesizing the structural and technological backup and its representation as a combinatorial problem on the structural set
2.1.3. Decomposition of the task of synthesizing the structural and technological backup of software and information support of flight-navigation and computing complexes of civil aircraft operating on the basis of local computer networks
2.2. Development of virtual recovery backup models of data of flight-navigation and computer systems of civil aviation aircraft operating on the basis of local computer networks
2.3. Methods for decomposing flight-navigation and computing systems for civil aviation aircraft
2.4. Mathematical model of optimization of recovery information backup in modern flight-navigation and computing complexes of civil aviation aircraft
2.4.1. General mathematical model for optimization of recovery information backup in modern flight-navigation and computing complexes
2.4.2. Accounting for the functioning of the flight and computational systems under functional network degradation
2.4.3. Decomposition of the general problem of optimization of recovery information backup in modern flight-navigation and computing systems
2.4.3.1. Mathematical model of the distribution of software modules and information arrays at the network nodes of flight-navigation and computer complexes by the criterion of minimum transmitted information
2.4.3.2. Mathematical model of the distribution of the recovery backup in the network nodes of the flight-navigation and computer complexes by the criterion of the maximum probability of solving all problems
2.4.3.3. Mathematical model for determining the amount of recovery backup of information according to the criterion of the maximum probability of solving all problems
2.5. Selection of the composition of information security systems
2.6. Mathematical models for optimizing the composition of information security systems
2.7. Mathematical model for accounting the influence of means and methods of protecting information on the functional characteristics of the navigation system protected.3. Methods of improvement of noise immunity of civil aircraft navigation systems using satellite radio navigation systems
3.1. Classification of errors associated with determining the location of the aircraft with on-board and ground navigation equipment
3.2. Algorithm for selecting the working constellation from the navigation spacecraft, subject to information redundancy
3.3. Algorithm for selecting the working constellation of navigation spacecraft taking into account the probability of errors in determining its state for each of the satellites
3.4. Disadvantages of the integrity control algorithm in the RAIM receiver used in calculating the coordinates of the aircraft
4. Improvement of quality of information transmission on the communication systems of an aircraft of civil aviation through the competent use of a communication resource
4.1. The principle of guaranteed sufficiency of use of communication systems
4.2. The principle of “zonal” use of communication systems
5. Improvement of noise immunity of navigation and communication systems of civil aircraft in flights in mountain and urban areas
5.1. Method for improvement of noise immunity of civil aircraft during flights in urban areas
5.2. Improvement of noise immunity of navigation and communication systems of an aircraft of civil aviation during flights in mountain areas
6. References
Appendix 1.
Appendix 2.
This book presents methods and algorithms to improve noise immunity of the navigation systems of civil aviation aircraft, operating on the basis of satellite radio navigation systems, as well as improving the quality of the transmission of navigation information by selecting a rational communication resource. The book provides for its productive perception both by specialists involved in the development and operation of radio electronic equipment, responsible for navigation and communication support of civil aviation aircraft, as well as by graduate students or senior students, since this book examines in detail the promising fields of development of these tools taking into account the need to comply with all requirements for noise immunity.
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