List of used symbols and abbreviations
1
Introduction
2
Analysis of current state of forecasting objects and phenomena
2.1
Problem statement
2.2
Current state of the problem
3
Specification of problems solutions 3.1
General statements
3.2
Forecasting tool
3.3
Time series forecasting
3.4 Forecast model development
3.4.1
Development of the analytical expression of a forecast model..
3.4.2
Instability compensation of forecasting mechanical systems resource
3.4.3
Evaluation of reliability of the mechanical systems resource forecast 3.4.3.1
Correlation method
3.4.3.2
Evaluation of statistical significance of a forecast model
4
Application of the developed forecasting methodology in various spheres of human activity
4.1 Resource forecasting in technology
4.1.1
State of the forecasting problem in technology
4. 2
Forecasting the resource of large-scale products using a centrifugal pump as an example 4.3
Forecasting the resource of small-scale products using a hydro turbine as an example
4.3.1
Derivation of the analytical expression for the "membership function"
4.3.2
Determination of normative boundaries of the linguistic variable a COND
4.3.3
Evaluation of criticality degree of the turbine condition
4.4
Forecasting individual resource of the aircraft engine
4.5
Forecasting individual resource of the cutting tool 4.5.1
General statement
4.5.2
Monitoring the state of the cutting tool according to the sound generated by the cutting process
4.5.3
Adaptive control of cutting conditions based on individual resource forecast of the cutting tool
4.5.3.1
General statements
4.5.3.2
Algorithm of adaptive control of the cutting process
4.5.3.3
Hardware and software system of the cutting process adaptive control
4.6
Forecasting in medicine
4.6.1
Subject of research and research procedure
4.6.2
Results of research and their assessment
4.6.2.1
Short-term forecasting
4.6.2.2
Long-term forecasting
4.7
Earthquake prediction
4.7.1
Рroblem statement
4.7.2
Initial data
4
About the Author:
Anton Panda is Professor at FMT TU Kosice as well as auditor of quality system management at Technical University in Kosice. He deals with production technologies, experimental methods and bearing production. He is a member of the Polish Academy of Sciences.
Volodymyr Nahornyi is a Senior Lecturer in the Department of Computer Science, Section of Information Technology of Design in Sumy State University. He develops courses such as CAD/CAM systems integration, mobile programming, methods and tools for processing visual information, and technologies for creating software products.
