On-board intellectual aircraft crew support systems / Mikhail Krasilshchikov and Veniamin Evdokimenkov ; edited by Kirill Sypalo.

Format:

Book

Author/Creator:

Krasilshchikov, Mikhail, author.

Evdokimenkov, V. N. (Veniamin Nikolaevich), author.

Contributor:

Sypalo, Kirill, editor.

Language:

English

Subjects (All):

Airplanes--Airworthiness.

Airplanes.

Physical Description:

1 online resource (168 pages)

Edition:

1st ed.

Place of Publication:

Newcastle upon Tyne, England : Cambridge Scholars Publishing, [2020]

Summary:

The human factor remains one of the most important problems affecting flight safety. On the other hand, however, the complexity of onboard control and navigational systems grows constantly. As such, a great deal of research has gone into creating onboard systems which would interact with pilots and assist them in order to avoid flight accidents.This book provides unique insights into the building of such a system, using the so-called confidential approach for the analysis and synthesis of the dynamical systems, operating under the influence of various uncontrollable factors. As a result, the book details an intellectual expert system able to support the crew during standard flight modes. This system is able to detect a hazard in real-time mode, identify its source, and provide recommendations for the pilots. The book also investigates the confidence model, offering formulas and examples of expert systems' functioning.

Contents:

Intro

Contents

Foreword

Chapter One

1.1 Formalization of the problem of the APCES status probability-guaranteeing evaluation

1.2. Probability criteria evaluation algorithms

1.2.1. Probability criteria evaluation algorithms based on probability density integration

1.2.2 Probability criteria computation algorithms based on Monte Carlo sampling

1.2.3. The algorithms, based on the confidential approach

1.2.4 The probability and quantile estimation algorithms, based on an approximation of the objective function distribution

References

Chapter Two

2.1 State-of-the-art of the pilot control support functions and analysis of its expansion potentials

2.2. Identification of flight hazards based on the APCES ellipsoidal model

2.3. Crew support measures using the APCES state ellipsoidal model

Chapter Three

3.1 The APCES confidence model parameters definition and refinement during the aircraft operation

3.2 Flow chart of the APCES state evaluation and hazard online identification algorithm

3.3 Example Problems

3.3.1 Probability-guaranteeing estimation of the air conditioning system state

3.3.2 The pilot's control actions evaluation during simulated landing

Chapter Four

4.1 Configuration and interaction of the APCES state monitoring and crew support program units

4.2 Program units for the APCES ellipsoidal model post-flight update

4.3 The APCES state monitoring and intellectual crew online support units

References.

Notes:

Description based on print version record.

Description based on publisher supplied metadata and other sources.

ISBN:

1-5275-4639-X

OCLC:

1199301582