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Dive into the research topics where Rudolf Andoga is active.

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Featured researches published by Rudolf Andoga.


Towards Intelligent Engineering and Information Technology | 2009

Situational Control, Modeling and Diagnostics of Large Scale Systems

Ladislav Madarász; Rudolf Andoga; L. Fozo; Tobias Lazar

A large scale system in general is a high dimensional high parametric system with complex dynamics. For efficient and optimal function of such systems, it is necessary to propose and implement newest knowledge from the areas of cybernetics and artificial intelligence. Present control systems are often limited to control a complex system only at some given conditions. However in real-world applications these systems find themselves in very different working conditions, what influences parameters of their operation and characteristics of behavior and may lead to errors and critical states. The article deals with overview of methods of situational control and is aimed on implementation of these methods in the area of turbojet propulsion.


international conference on computational cybernetics | 2006

Situational modeling and control of a small turbojet engine MPM 20

Rudolf Andoga; L. Fozo; Ladislav Madarász

Small turbojet engines represent a special class of turbine driven engines. They are suitable for scientific purposes and research of certain thermodynamic processes ongoing in turbojet engines. Moreover such engines can be used for research in the area of alternative fuels and new methods of digital control and measurement. Our research, which is also presented in this article, is headed toward these aims. We evaluate and propose a system of digital measurement of a particular small turbojet engine - MPM 20. Such engine can be considered as highly non-linear large scale system. According to obtained data and experiments we propose situational model and situational control algorithms for the engine with use of certain methods of artificial intelligence as new methods of control of large scale systems.


Archive | 2010

Intelligent Technologies in Modeling and Control of Turbojet Engines

Ladislav Madarász; Rudolf Andoga; L. Fozo

The state of present technologies in technical and also non-technical practice is represented by growing complexity of systems. A turbojet engine as a complex system is multidimensional highly parametric system with complex dynamics and strong non-linear behavior with stochastic properties. Its particular property is operation in a wide spectrum of changes of its operating environment (e.g., temperatures from -60 to +40 °C, different humidity, different pressures, etc.). If we want to secure optimal function of such system, it is necessary to develop models and control systems implementing the newest knowledge from the areas of automation, control technologies preferably with elements of artificial intelligence (AI). The present control systems and dynamic models are often limited to control or modeling of a complex system in its certain (operational) states. However, in practice the turbojet engine finds itself in very different operating conditions that influence its parameters of operation and characteristics. To create progressive control algorithms for a turbojet engine, it is necessary to design models in the whole dynamic spectrum of the modeled system including its erroneous states. Furthermore we need to design a control system that will secure operation converging towards optimality in all eventual states of working environment and also inner states of the system represented by its parameters. This leads to the need of having increased intelligence of control of turbojet engines that reduces workload of a pilot and also increases safety of operation. Safety represents a decisive factor in design of control systems of turbojet engines and is presently bound with increasing authority of them. The present trend designates such control systems as FADEC – Full Authority Digital Engine Control, however in reality such control systems have different levels of authority, intelligence and come in very different implementations. These are often not presented as they are intellectual properties of commercial companies. The article will be aimed on description of some present trends in development of FADEC systems and own proposals of methodologies leading towards design and implementation of a FADEC system with high level of intelligence able to solve all operational situations of a turbojet engine. This is strictly bound with presentation of modern methods of modeling of turbojet engines and the use of advanced methods of mainly sub-symbolic artificial intelligence. The proposed methods are all tested in real-world environment using a small turbojet engine MPM-20 in our laboratory setup. Therefore the article will also deal with approaches in digital real-time measurement of state parameters of this engine and design of control algorithms from engineering standpoint.


international conference on intelligent engineering systems | 2008

Digital Electronic Control of a Small Turbojet Engine - MPM 20

Rudolf Andoga; Ladislav Madarász; L. Fozo

Small turbojet engines represent a special class of turbine driven engines. They are suitable for scientific purposes and research of certain thermodynamic processes ongoing in turbojet engines. Moreover such engines can be used for research in the area of alternative fuels and new methods of digital control and measurement. Our research, which is also presented in this article, is headed toward these aims. We evaluate and propose a system of digital measurement of a particular small turbojet engine - MPM 20. Such engine can be considered as highly non-linear large scale system. According to obtained data and experiments we propose different model models of the engine and design of situational control algorithms for the engine with use of certain methods of artificial intelligence as new methods of control and modeling of large scale systems.


Archive | 2013

Intelligent Supervisory System for Small Turbojet Engines

Rudolf Andoga; Ladislav Madarász; T. Karol; Ladislav Főző; Vladimír Gašpar

The paper deals with design of an intelligent supervisory system usable in the area of engineering applications of small turbojet engines. Such supervisory system consists of diagnostic and control system applied in different phases of the engine’s operation. In order to design it we need to know the object and its models that will be realized by means of situational modeling concept and neural networks. Diagnostic system will be based on these types of models applied into the majority voting method of online diagnostic. Intelligent supervisory system will also include off-line pre-start diagnostics for such engine with perspective health monitor database.


Archive | 2010

Mathematical Model of a Small Turbojet Engine MPM-20

Ladislav Főző; Rudolf Andoga; Ladislav Madarász

The growing demands on safety authority and intelligence of control systems requires new approaches in design. One approach that is usable and potentially effective are anytime control algorithms that can be used in the area of modeling and control [6, 11, 14, 15]. Use of such algorithms allows the system to flexibly react on changes of outer environment and be able to survive deficiency of time, information and resources.


international symposium on applied machine intelligence and informatics | 2015

Description of an intelligent small turbo-compressor engine with variable exhaust nozzle

L. Fozo; Rudolf Andoga; Ladislav Madarász; J. Kolesar; J. Judicak

How to use an old turbo-compressor (turboshaft) engine and transfer it into a laboratory system used for design and development of progressive control, diagnostic and modeling algorithms transforming it into an intelligent turbo-compressor engine? The intelligent turbo-compressor engine currently designated as iSTC-21v is a small turbojet engine with a single sided radial compressor, bound combustion chamber, single stage un-cooled turbine and variable exhaust nozzle. The engine is equipped with a real-time measurement and intelligent digital control system using two degrees of freedom (fuel supply and exhaust nozzle diameter). The article describes transformation of an old TS-20/21 engine into such engine, which is suitable for laboratory use, research in different areas of cybernetics with perspective applications in different areas of technical practice like unmanned aerial vehicles, ground auxiliary energetic units, generators, etc. The article is aimed to be inspirative also for hobby engine builders, scale modelers and people who work with small turbo-compressor engines.


international symposium on applied machine intelligence and informatics | 2009

FADEC control system for MPM 20 engine

Rudolf Andoga; L. Fozo; Ladislav Madarász; Jozef Povazan

The article deals with full authority digital engine control (FADEC) systems and possibilities of application of concepts and methods of artificial intelligence in such control system. FADEC represents a framework where the most modern methods of artificial intelligence can be applied. This represents a great potential for increase of reliability, efficiency and overall quality of control of turbojet engines. We are trying to design and implement a FADEC control system for our small experimental turbojet engine MPM 20.


international symposium on computational intelligence and informatics | 2013

On scientific research information system

Vladimír Gašpar; Ladislav Madarász; Rudolf Andoga; I. Glodova

The presented paper proposes a design of a scientific research information system (SRIS), intended for real world use according to existing requirements and processes in the Laboratory of Intelligent Control Systems of Aircraft Engines. The novelty of the proposed SRIS lies in universal and narrow scope of the system and digitalization of existing manual processes, with the addition of algorithms and methods for research efficiency evaluation. The key idea is the possibility to design own quantitative key performance indicators (KPIs) for the efficiency evaluation. It is possible to generalize the presented approach for any research environment, either for technical, financial, time related or information efficiency evaluation. In case of a complex technical systems, the SRIS can also be considered a decision support system (DSS), when using various data mining algorithms e.g. clustering, classification, association rules, etc.


international symposium on computational intelligence and informatics | 2012

Expansion of working envelope of a small turbojet engine MPM-20

Ladislav Madarász; Rudolf Andoga; L. Fozo; J. Judicak; Vladimír Gašpar

Development of aircraft engines is aimed on increase of reliability, efficiency and ecology of operation. The presently still used hydro-mechanic control systems are being replaced by electronic ones characterized by high speed, precision of control and ability to optimize all operating regimes of an engine. One of the aims of research in the Laboratory of intelligent control systems of aircraft engines lies in new possibilities of expansion of working envelope of turbojet engines by implementation of variable exhaust geometry and new approaches in its control strategies and construction solutions. Such expansion can be beneficial for small turbojet engines and increase their possibilities of real-world applications. New control methodologies and approaches can be further expanded to normal sized engines. All these problems are described in the presented article.

Collaboration


Dive into the Rudolf Andoga's collaboration.

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Ladislav Madarász

Technical University of Košice

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L. Fozo

Technical University of Košice

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Vladimír Gašpar

Technical University of Košice

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J. Judicak

Technical University of Košice

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Ladislav Főző

Technical University of Košice

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T. Karol

Technical University of Košice

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Róbert Bréda

Technical University of Košice

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František Adamčík

Technical University of Košice

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Tobias Lazar

Technical University of Košice

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Tomáš Vaispacher

Technical University of Košice

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