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15 results on '"Anna Jadlovská"'

2. INVERTED PENDULUM WITH LINEAR SYNCHRONOUS MOTOR SWING UP USING BOUNDARY VALUE PROBLEM

Author

Slavka Jadlovska, Anna Jadlovská, Lukas Koska, and Dominik Voscek

Subjects
automatic model generator, pendulum on the cart, linear synchronous motor, feedforward/ feedback control structure, boundary value problem, swing-up control, lcsh:TA1-2040, Computer science, Underactuation, Control theory, General Engineering, Trajectory, Feed forward, Boundary value problem, Linear motor, lcsh:Engineering (General). Civil engineering (General), System dynamics, Inverted pendulum
Abstract

Research in the field of underactuated systems shows that control algorithms which take the natural dynamics of the system’s underactuated part into account are more energy-efficient than those utilizing fully-actuated systems. The purpose of this paper to apply the two-degrees-of-freedom (feedforward/feedback) control structure to design a swing-up manoeuver that involves tracking the desired trajectories so as to achieve and maintain the unstable equilibrium position of the pendulum on the cart system. The desired trajectories are obtained by solving the boundary value problem of the internal system dynamics, while the optimal state-feedback controller ensures that the desired trajectory is tracked with minimal deviations. The proposed algorithm is verified on the simulation model of the available laboratory model actuated by a linear synchronous motor, and the resulting program implementation is used to enhance the custom Simulink library Inverted Pendula Modeling and Control, developed by the authors of this paper.

Published
2019

3. Design of Aerodynamic Ball Levitation Laboratory Plant

Author

Anna Jadlovská, Tomáš Tkáčik, Slávka Jadlovská, and Milan Tkacik

Subjects
system state estimation, Computer science, Firmware, Process Chemistry and Technology, Chemical technology, Bioengineering, Control engineering, Kalman filter, TP1-1185, Physical plant, computer.software_genre, Aerodynamic levitation, Microcontroller, Chemistry, linear optimal control, Control theory, aerodynamic levitation, Levitation, motor control, Chemical Engineering (miscellaneous), Design process, experimental identification, computer, QD1-999, noise filtration
Abstract

This paper presents the development of a new Aerodynamic Ball Levitation Laboratory Plant at the Center of Modern Control Techniques and Industrial Informatics (CMCT&amp, II). The entire design process of the plant is described, including the component selection process, the physical construction of the plant, the design of a printed circuit board (PCB) powered by a microcontroller, and the implementation of its firmware. A parametric mathematical model of the laboratory plant is created, whose parameters are then estimated using a nonlinear least-squares method based on acquired experimental data. The Kalman filter and the optimal state-space feedback control are designed based on the obtained mathematical model. The designed controller is then validated using the physical plant.

Published
2021
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4. Modelling, analysis and control design of hybrid dynamical systems

Author

Anna Jadlovská, Dominik Voscek, and Dominik Grigl’ák

Subjects
0209 industrial biotechnology, 020901 industrial engineering & automation, Modelling analysis, Dynamical systems theory, Computer science, 020208 electrical & electronic engineering, Control (management), 0202 electrical engineering, electronic engineering, information engineering, Cyber-physical system, Particle swarm optimization, Control engineering, 02 engineering and technology
Abstract

This paper introduces a methodology for one of the challenges regarding cyber-physical systems, ie modelling and control design them as hybrid systems. The proposed methodology comprises modules with specific steps to accomplish the tasks. Specifically, the paper aims to utilize hybrid systems framework onto the chosen hydraulic hybrid system with complex dynamics to showcase different aspects of hybrid systems. The mathematical model was derived using hybrid automata framework and then transformed into the linear form either using Jacobi matrices or using linear approximations without Jacobi matrices. After that the system was validated and analysed and the control design utilizing piecewise linear-quadratic regulator optimal control was proposed. Furthermore, parameters of control algorithm were tuned using particle swarm optimization algorithm. The whole logic, system dynamics and constrains are implemented within MATLAB/Simulink simulation environment using s -functions. The proposed methodology can be implemented on the various types of cyber-physical systems as far as they can be described as hybrid systems.

Published
2019

5. SENSORS FAULT DIAGNOSIS ALGORITHM DESIGN OF A HYDRAULIC SYSTEM

Author

Matej Oravec and Anna Jadlovská

Subjects
Polymers and Plastics, Computer science, hydraulic system, Control engineering, Hardware_PERFORMANCEANDRELIABILITY, Fault (power engineering), Industrial and Manufacturing Engineering, sensor fault, fault diagnosis system, Algorithm design, lcsh:Electrical engineering. Electronics. Nuclear engineering, Business and International Management, Hydraulic machinery, lcsh:TK1-9971, fault estimation
Abstract

This article presents the sensors fault diagnosis system design for the hydraulic system, which is based on the group of the three fault estimation filters. These filters are used for estimation of the system states and sensors fault magnitude. Also, this article briefly stated the hydraulic system state control design with integrator, which is important assumption for the fault diagnosis system design. The sensors fault diagnosis system is implemented into the Matlab/Simulink environment and it is verified using the controlled hydraulic system simulation model. Verification of the designed fault diagnosis system is realized by series of experiments, which simulates sensors faults. The results of the experiments are briefly presented in the last part of this article.

Published
2017

6. Application of neural models as controllers in mobile robot velocity control loop

Author

Anna Jadlovská and J. Cerkala

Subjects
0209 industrial biotechnology, 020901 industrial engineering & automation, Computer science, Control theory, Control system, 0202 electrical engineering, electronic engineering, information engineering, 020201 artificial intelligence & image processing, Mobile robot, Control engineering, 02 engineering and technology, DC motor, Robot control
Abstract

This paper presents the application of an inverse neural models used as controllers in comparison to classical PI controllers for velocity tracking control task used in two-wheel, differentially driven mobile robot. The PI controller synthesis is based on linear approximation of actuators with equivalent load. In order to obtain relevant datasets for training of feed-forward multi-layer perceptron based neural network used as neural model, the mathematical model of mobile robot, that combines its kinematic and dynamic properties such as chassis dimensions, center of gravity offset, friction and actuator parameters is used. Neural models are trained off-line to act as an inverse dynamics of DC motors with particular load using data collected in simulation experiment for motor input voltage step changes within bounded operating area. The performances of PI controllers versus inverse neural models in mobile robot internal velocity control loops are demonstrated and compared in simulation experiment of navigation control task for line segment motion in plane.

Published
2017

7. Intelligent Positioning Plate Predictive Control and Concept of Diagnosis System Design

Author

Anna Jadlovská and Matej Oravec

Subjects
0209 industrial biotechnology, Computer science, business.industry, 02 engineering and technology, 030226 pharmacology & pharmacy, 03 medical and health sciences, Model predictive control, 020901 industrial engineering & automation, 0302 clinical medicine, Section (archaeology), Systems design, Cybernetics, Artificial intelligence, Distributed control system, business
Abstract

This paper presents design of the predictive control algorithms, which are verified using the simulation and laboratory model of the Intelligent Positionig Plate. The results of the predictive control algorithm verification are presented also in this article. The created tool called the IPPtools is based on the designed predictive control algorithms and it is shortly presented. A part of the paper is dedicated to the concept of the diagnosis system, which is designed and implemented into the 5-level Distributed Control System of the Department of the Cybernetics and Artificial Intelligence. Possibility how to modify the predictive control algorithms using diagnosis system is also stated in the last section of this paper.

Published
2017

8. Modelling and control of a cyber-physical system represented by hydraulic coupled tanks

Author

Dominik Voscek and Anna Jadlovská

Subjects
Computer science, 05 social sciences, Cyber-physical system, 050301 education, 020206 networking & telecommunications, Control engineering, 02 engineering and technology, Optimal control, Dynamical system, Control theory, Hybrid system, 0202 electrical engineering, electronic engineering, information engineering, Trajectory, Hydraulic machinery, Representation (mathematics), MATLAB, 0503 education, computer, computer.programming_language
Abstract

This paper deals with hybrid modelling and control of cyber-physical systems, which are part of a recently introduced phenomenon Industry 4.0. As a case study we look at a hydraulic system with hybrid dynamics represented by coupled tanks. The dynamical system contains two discrete modes, specifically with and without interaction. The nonlinear hybrid system was modelled using s-functions and then its linear description was created in the discrete PWA representation with the help of HYSDEL modelling framework. Both s-functions and HYSDEL are part of MATLAB/Simulink environment. After validation of the discrete PWA representation in comparison with the nonlinear hybrid system, LQR synthesis with reference trajectory tracking was designed for both discrete modes. Subsequently optimal control designed on the linear hybrid system in the discrete PWA representation was verified on the nonlinear hybrid system.

Published
2017

9. Model Predictive Control of a Ball and Plate laboratory model

Author

Matej Oravec and Anna Jadlovská

Subjects
Model predictive control, Nonlinear system, Control algorithm, Time response, Control theory, Computer science, Algorithm design, Ball (mathematics), MATLAB, computer, Simulation, Voltage, computer.programming_language
Abstract

The papers presents an implementation of the predictive state space control algorithm, called Model Predictive Control (MPC). This control algorithm is verified on the Ball and Plate laboratory model, called B&P_KYB, for the reference trajectory tracking. The control algorithm is first verified using the derived nonlinear simulation model in Matlab/Simulink. Since simulation results are acceptable, an experiment is realized on the real laboratory model. The results of the experiment are demonstrated as the time response of the ball position and the voltage.

Published
2015

12. Tracking Trajectory of the Mobile Robot Khepera II Using Approaches of Artificial Intelligence

Author

Anna Jadlovská and Peter Šuster

Subjects
Polymers and Plastics, Artificial neural network, Computer science, business.industry, PID controller, Control engineering, Mobile robot, Kinematics, Industrial and Manufacturing Engineering, Genetic algorithm, Trajectory, Robot, Artificial intelligence, Business and International Management, MATLAB, business, computer, computer.programming_language
Abstract

This paper introduces a solution to the reference t rajectory tracking problem done by a differential wh eeled mobile robot Khepera II. The paper includes a kinematic part and a dynamic part of the mathematical model of mobile robot. In this paper two approaches of the artificial intelligence are used i.e. genetic algorithm approach from evolutionary ctechniques and theory of neural networks. Genetic algorithm is used for pa rameters optimizing PID controller and K parameter s o-called parameter speed of rotation at the tracking reference trajectory in to defined control structure. For the creation forw ard and inverse neural model by the approach of neural networks are used forward neu ral networks of MLP type. The neural models are ver ified using Neural Network Toolbox. The forward neural model of the mobil e robot is implemented into the IMC control structur e together with the inverse neural model, which is used as a nonparamet ric neural controller. The purpose of the designed control structure is tracking the defined trajectory of the mobile robot using ap proaches of the artificial intelligence, which are v erified by the simulations in the language Matlab/Simulink.

Published
2011

13. Intelligent Modeling and Predictive Control of Non-linear System Based on Forward Neural Model

Author

Jan Sarnovsky, Nikola Kabakov, and Anna Jadlovská

Subjects
Nonlinear system, Model predictive control, Nonlinear autoregressive exogenous model, Artificial neural network, Linearization, Control theory, Computer science, Multilayer perceptron, Feedforward neural network, MATLAB, computer, computer.programming_language
Abstract

The paper provides two approaches for design of generalized predictive control (GPC) algorithm for nonlinear and time-variant dynamic system. In classical approach of GPC strategy is considered method of instantaneous linearization for calculating of linearized model parameters from known analytic description of nonlinear system. The other purpose of this paper is to show an intelligent approach in which a feed-forward neural network (multi layer perceptron-MLP) is used for modeling and predictive control of the non-linear system. The possibility of an on-line estimation of actual parameters from off-line trained neural model of the non-linear system using the gain matrix is considered in the algorithm of GPC. The neural model is linearized by means method of instantaneous linearization in each sample and an estimated parameters from neural NARX model of the non-linear system are used for design of GPC algorithm. The validity of classical and neural GPC strategy is tested by computer simulations in Matlab/Simulink language using architecture of S-functions of the library PredicLib.

Published
2008

14. ESTIMATION AND CONTROL OF NON-LINEAR PROCESS USING NEURAL NETWORKS

Author

Anna Jadlovská

Subjects
Nonlinear system, Artificial neural network, Time delay neural network, Computer science, business.industry, Control (management), Process (computing), Artificial intelligence, Types of artificial neural networks, Stochastic neural network, Intelligent control, business
Published
2004

15. External access to ALICE controls conditions data

Author

Anna Jadlovská, Michal Kopcik, R Bielek, A. Augustinus, P Papcun, M Čopík, Peter Chochula, Slavka Jadlovska, J Sarnovský, Ján Jadlovský, Štefan Jajčišin, and J. Cerkala

Subjects
History, Authentication, Database, Computer science, Interface (computing), media_common.quotation_subject, Access method, computer.software_genre, Computer Science Applications, Education, SCADA, Debugging, Campus network, Overhead (computing), Raw data, computer, media_common
Abstract

ALICE Controls data produced by commercial SCADA system WINCCOA is stored in ORACLE database on the private experiment network. The SCADA system allows for basic access and processing of the historical data. More advanced analysis requires tools like ROOT and needs therefore a separate access method to the archives. The present scenario expects that detector experts create simple WINCCOA scripts, which retrieves and stores data in a form usable for further studies. This relatively simple procedure generates a lot of administrative overhead - users have to request the data, experts needed to run the script, the results have to be exported outside of the experiment network. The new mechanism profits from database replica, which is running on the CERN campus network. Access to this database is not restricted and there is no risk of generating a heavy load affecting the operation of the experiment. The developed tools presented in this paper allow for access to this data. The users can use web-based tools to generate the requests, consisting of the data identifiers and period of time of interest. The administrators maintain full control over the data - an authorization and authentication mechanism helps to assign privileges to selected users and restrict access to certain groups of data. Advanced caching mechanism allows the user to profit from the presence of already processed data sets. This feature significantly reduces the time required for debugging as the retrieval of raw data can last tens of minutes. A highly configurable client allows for information retrieval bypassing the interactive interface. This method is for example used by ALICE Offline to extract operational conditions after a run is completed. Last but not least, the software can be easily adopted to any underlying database structure and is therefore not limited to WINCCOA.

Published
2014

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