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ORCID9th ACE 2012: Nizhny Novgorod, Russia
- Pavel V. Pakshin:
9th IFAC Symposium Advances in Control Education, ACE 2012, Nizhny Novgorod, Russia, June 19-21, 2012. International Federation of Automatic Control 2012, ISBN 978-3-902823-01-4 - Natalia Pakshina, Mikhail A. Emelianov:
The Electronic Collection "Alexander Lyapunov's Life and Work". 1-6 - Yevgeny I. Somov, Lyudmila K. Kuzmina, Gennady Degtyarev, Talgat Sirazetdinov, Alexander Zemlyakov, Stanislav N. Vassilyev, Ravil Kozlov, Eduard Druzhynin:
Academician V.M. Matrosov: Research and Teaching on Stability, Nonlinear Dynamics and Control in Aerospace Systems. 7-12 - Alexander P. Kurdyukov, Tatyana A. Letova, Stanislav N. Vassilyev:
A.M. Letov: Life, Scientific Research, International Activity and Teaching Operation. 13-17 - Elena Panteley, Antoine Chaillet
, Françoise Lamnabhi-Lagarrigue, Eugenie Gonçalves:
The EECI-HYCON Graduate School on Control: Back on Ten Years of Doctoral Training. 18-22 - Oleg A. Stepanov, Olga Yashnikova, Dmitry Taranovsky, Anton Krasnov, Andrey Kovalev, Olga Yulmetova, Pavel Yukhta, Ilya V. Semenov:
The Conference of Young Scientists "Navigation and Motion Control" As a Means of Training Scientists. 23-27 - D. Subbaram Naidu:
Journey of Education in Control Systems from IIT (1965) to ISU (2012). 28-33 - J. Anthony Rossiter, Chetna Patel:
Techniques for Helping Control Engineers Learn Mathematics. 34-38 - Alexey Golikov, Viktor Dzhashitov, Vladimir Pankratov:
An Innovative Multimedia Learning Method As Applied to Theoretical Mechanics and Theory of Gyroscopes. 39-44 - Mikhail S. Osintsev, Vladimir A. Sobolev:
Slow Integral Manifolds in Control and Graduate Education in Samara. 45-50 - Nikolay Rodnishev, Svetlana V. Novikova, Kirill Denisov:
Developing Methods and Computer Technologies for Learning, Identification and Optimization of Nonlinear Stochastic Systems. 51-56 - Tyrone E. Duncan, Bozenna Pasik-Duncan:
Some Models of Control with Fractional Brownian Motions. 57-59 - Sergey I. Kumkov:
Interval Analysis Methods in Lecture Course of Digital Procession of Information. 60-65 - José Luis Guzmán, Ramon Costa-Castelló, Sebastián Dormido, Manuel Berenguel:
Interactive Tools to Learn Basic Concepts of Nonlinear Systems Linearization through a Case Study. 66-71 - Danica Rosinová, Alena Kozáková:
Decentralized Robust Control of MIMO Systems: Quadruple Tank Case Study. 72-77 - Robert Krasnansky, Alena Kozáková:
State Space Control Design: An Interactive Tool for Control Education. 78-83 - Vojtech Veselý, Daniel Vozák:
Robust Control Methods in the Master Programme Cybernetics. 84-89 - Alena Kozáková, Vojtech Veselý:
Robust Decentralized Controller Design: Laboratory Project-Based Learning. 90-95 - Vladimir N. Chestnov, Zhanna Zatsepilova:
State Feedback Control Design for Multivariable Discrete Time Systems with Required Accuracy Via Mean-Square Criterion. 96-101 - Sergey A. Kolyubin, Alexey A. Bobtsov, Anton A. Pyrkin, Alexander A. Kapitonov, Sergey V. Shavetov, Alexey Khovanskiy, Aleksandr Krasnov, Sergey M. Vlasov, Alexey Feskov:
Lego Mindstorms NXT for Students' Research Projects in Control Field. 102-106 - Alexandr S. Borgul, Konstantin Zimenko, Alexey A. Bobtsov, Anton A. Pyrkin:
Control Approaches for Complicated Self-Unstable Plants with Applications for Two-Wheel Mobile Robot Motobot in Educational Purposes. 107-111 - Peter J. Bradley, Juan Antonio de la Puente, Juan Zamorano, Daniel Brosnan:
A Platform for Real-Time Control Education with LEGO MINDSTORMS. 112-117 - Sergey A. Filippov, Alexander L. Fradkov:
Control Engineering at School: Learning by Examples. 118-123 - Anna Semakova, Georgii Oblapenko, Kirill Ovchinnikov, Alexander Trifonov:
Low-Cost Robotic Set-Up for Pursuit Problems. 124-127 - Anantha Ganesh Kamath, Vishnuvardhan Avula, Darine Zambrano:
LEGO NXT for Experimental Validation of Iterative Learning Control Schemes. 128-133 - Volodimir Raspopov, Mihail Gryazev, Volodimir Kukhar:
Avionics Specialists Training in Tula State University. 134-137 - Volodimir Raspopov, Alexander Ladonkin, Maxim Mashnin, Volodimir Kukhar:
Automated Control Systems of Small-Sized Unmanned Aerial Vehicles. Educational Aspect. 138-143 - Andrey E. Barabanov, Dmitry V. Romaev:
Testbed for Tracking System Design. 144-147 - Andrey E. Barabanov, Dmitry V. Romaev:
Control and Identification of Helicopter. 148-150 - Tatiana Maltseva, Dmitry Labadin:
Quadrotors As Studying Platform. 151-153 - Sergey Ye. Somov, Sergey A. Butyrin, Tatyana Somova:
Computer Technologies for Optimization, Simulation and Animation of Observation Satellite Spatial Motion. 154-159 - Carlos Alberto Jara, Francisco A. Candelas Herías, Fernando Torres Medina, Christophe Salzmann, Denis Gillet, Francisco Esquembre, Sebastián Dormido:
Synchronous Collaboration between Auto-Generated WebGL Applications and 3D Virtual Laboratories Created with Easy Java Simulations. 160-165 - Sergey Tkachev, Denis Aldoshin, Alexey Golubev:
Virtual Laboratory on Nonlinear Control. 166-171 - Carlos Sánchez Cazorla, Fabio Gómez-Estern, David Muñoz de la Peña:
A Virtual Lab with Automatic Assessment for Nonlinear Controller Design Exercises. 172-176 - Nikolay Mikhaylov, Dmitrii Chernov:
From Virtual Lab to Virtual Development Lab. 177-182 - Juan Carlos González, José Luis Guzmán, Manuel Berenguel, Sebastián Dormido:
A New Framework to Develop Web-Based Interactive Tools for Control Education. 183-188 - Evgeny Bogdanov, Christophe Salzmann, Denis Gillet:
Widget-Based Approach for Remote Control Labs. 189-193 - Michal Zajac, Henning Donath, Ingo Huebner, Torsten Mende, Michael Schriefer, Frank Heinrich, Gabriel Berisch, Tobias Lipke, Horst Schulte:
Design and Development of a Low Cost Rapid Control Prototyping System Applied to an Air Suspension System. 194-199 - Lukas Palkovic, Lubos Chovanec, Jozef Rodina, Peter Hubinský:
Integration of Inertial Measuring Unit Platform into MATLAB Simulink. 200-205 - Zoltán Magyar, Katarina Zakova:
SciLab Based Remote Control of Experiments. 206-211 - Margarita Sotnikova, Natalia A. Zhabko, Timur Lepikhin:
Control Systems Analysis and Design Labs with Educational Plants. 212-217 - Peter Tapák, Mikulás Huba:
Nonlinear Control of Liquid Level. 218-223 - David Sánchez:
Vertical Rotor for the Implementation of Control Laws. 224-229 - Sergey I. Melnikov:
Multi-Level Automated System of Close Support of the Learning Process in Continuing Control Education in Industry. 230-234 - Martin Kalúz, Lubos Cirka, Miroslav Fikar:
Advances in Online Courses on Process Control. 235-240 - Natalia Pakshina, Marina Pravdina, Maria Kivonogova:
Creating User-Friendly Dialogue in Systems of Virtual Training. 241-245 - Julia P. Emelianova, Alexander Troickiy, Natalia Pakshina:
Organization of Cyclic Training Process in E-Learning Tools. 246-251 - Juraj Stevek, Stefan Kozák:
Teaching Aids for Modeling and Control of Hybrid Systems (CAMCHS). 252-257 - Igor Belai, Peter Drahos:
The PROFIBUS Protocol Observation. 258-263 - Juan Luis Rivas, José Luis Guzmán, Francisco Rodríguez Díaz, Manuel Berenguel, Sebastián Dormido:
Integrated Virtual and Remote Lab for Greenhouse Climate Control. 264-269 - Carlos Alberto Jara, Ruben Heradio, Luis de la Torre, José Sánchez Moreno, Sebastián Dormido, Fernando Torres Medina, Francisco A. Candelas Herías:
Synchronous Collaboration with Virtual and Remote Labs in Moodle. 270-275 - Gonzalo Farias, Fabio Gómez-Estern, Luis de la Torre, David Muñoz de la Peña, Carlos Sánchez Cazorla, Sebastián Dormido:
Enhancing Virtual and Remote Labs to Perform Automatic Evaluation. 276-281 - Manuel Domínguez-González, Miguel A. Prada, Antonio Morán Álvarez, Serafín Alonso Castro, Pablo Barrientos:
Improving User Interaction in Remote Laboratories through HTML5/AJAX. 282-287 - Juan J. Fuertes-Martínez, Serafín Alonso Castro, Antonio Morán Álvarez, Miguel A. Prada, Sergio García de Prado, Carlos Javier Del Canto Masa:
Virtual and Remote Laboratory of a DC Motor. 288-293 - Eva Besada-Portas, José Antonio López Orozco, Luis de la Torre, Jesús Manuel de la Cruz:
EasyJava Simulations Meets TwinCAT: Remote Real-Time Control Experiments Using Programmable Logic Controllers. 294-299 - Klaus Schilling:
SpaceMaster: Master in Space Science and Technology As an International Interdisciplinary Educational Effort. 300-305 - Gianni Bertoni, Paolo Castaldi, Elisabetta Penati:
Postgraduate Education on Fault Diagnosis and Control Reconfiguration in Aerospace. 306-311 - Yevgeny I. Somov, Houria Siguerdidjane, Vladislav Yu. Rutkovsky:
Postgraduate Education and New Challenges on Stability and Adaptive-Robust Control in Aerospace. 312-317 - Andrei Golovan, V. V. Alexandrov, Yury Bolotin, Stepan Stepanovich Lemak, Michael Popelensky:
Educational Program "Navigation and Control in Space and on the Earth. Mathematical Methods and Algorithms". 318-323 - Valerii S. Patsko, Sergey Ganebny, Andrey A. Fedotov, Sergey S. Kumkov:
Model Problems of Aircraft Guidance in Education Program on Optimal Control and Differential Games. 324-329 - Sergey Tkachev, Alexey Golubev, Alexander P. Krishchenko:
Postgraduate Education in Nonlinear Dynamical Systems and Automatic Control in Arospace. 330-335 - Koji Makino, Yasuhiro Ohyama, Yoshiki Matsuo:
Management of a Lecture of Robot Contest for Many Students. 336-341 - Dániel Varga, Kristóf Csorba, Dávid Szalóki, Zoltán Beck, Gábor Tevesz:
Educational Aspects of Designing Robot for Eurobot Contest. 342-347 - Sergey A. Kolyubin, Alexey A. Bobtsov, Anton A. Pyrkin, Alexandr S. Borgul, Konstantin Zimenko, Evgeny Rabysh:
Mechatronic and Robotic Setups for Modern Control Theory Workshops. 348-353 - Marco Casini, Andrea Garulli, Antonio Giannitrapani, Antonio Vicino:
A Remote Lab for Multi-Robot Experiments with Virtual Obstacles. 354-359 - Kristóf Csorba, Dániel Varga, Gábor Tevesz, István Vajk:
The RobonAUT Autonomous Mobile Robot Construction Contest. 360-365 - Michael Ruderman, Frank Hoffmann, Torsten Bertram:
A Matlab-Based Framework for the Remote Control of a 6DOF Robotic Arm for Education and Research in Control Theory. 366-371 - Tina Krausser, Lars Evertz, Ulrich Epple:
A Hands-On Laboratory on Industrial Hardware, Process Control and Advanced Automation. 372-377 - Rainer Dittmar:
Use of an Industrial Distributed Control System in Conjunction with Matlab/Simulink for Process Control Education. 378-383 - Ruben Knapp, Jan-Hinrich Rabe, Sebastian Kirchgäßner, Winfried Storhas, Martin J. Wolf:
A Laboratory Experiment for Teaching Bioprocess Control - Part 2: Bioprocess Design, Modelling, Simulation, and Fermentation Execution. 384-389 - Daniel Navia, Rubén Martí Martínez, Daniel Sarabia, César de Prada:
Laboratory Plant of a Gas Distribution Network. 390-395 - Konstantin K. Starkov, Hans Kamp, Alexander Yu. Pogromsky, Ivo J. B. F. Adan:
Design and Implementation of a Water-Based Emulator of Manufacturing Processes. 396-401 - Martin J. Wolf, Vasil Ninov, Heiko Babel, Kimmo Hütter, Ralph Staudt, Winfried Storhas, Essam Badreddin:
A Laboratory Experiment for Teaching Bioprocess Control - Part 1: Hardware Setting. 402-407 - Dmitry A. Novikov:
Collective Learning-By-Doing. 408-412 - António Dourado, Alberto Cardoso, Jorge Henriques, César Alexandre Teixeira:
Systems and Control for Biomedical Engineering Students. 413-417 - Sergey M. Dmitriev, Alexander I. Kononov, Mikhail V. Shiriaev, Sergey Malozemov:
Cloud Computing for Education in State Technical University of Nizhny Novgorod. 418-420 - Vladimir Syreschikov:
Applied Innovative Projects As an Incentive of the Educational Process. 421-424 - Roman Luchin:
Control Engineering Education with Help of Model-Based Program Tools for Robotic Construction Sets. 425-429 - Andrey N. Terekhov, Roman Luchin, Sergey Filippov:
Educational Cybernetical Construction Set for Schools and Universities. 430-435 - J. Anthony Rossiter:
Introducing PI to Chemical Engineers. 436-441 - Ivan Holic, Vojtech Veselý:
Robust Pid Controller Design for Coupled-Tank Process Using Labreg Software. 442-447 - Valery D. Yurkevich, D. Subbaram Naidu:
Educational Issues of PI-PID Controllers. 448-453 - Bohumil Sulc, Stanislav Vrána:
Commonly Untaught Information Concerning Practical Use of Tuning Procedures in Control. 454-459 - Mikulás Huba, Peter Tapák:
Comparing Approaches to Constrained Design of Integrating Controllers. 460-465 - Dmitry V. Balandin, Mark M. Kogan, Larisa N. Krivdina:
LMI Based Time-Invariant Observers and Controllers in H∞ Problems with Transients. 466-471 - Pavel V. Pakshin, Julia P. Emelianova, Alexander Yurievich Mazurov:
An Experience of Using LMI Technique in Student Projects. 472-477 - Ruslan Seifullaev:
Speed Gradient Energy and Sampled-Data Control of Cart-Pendulum System. 478-483 - Olga G. Antonovsckaya, Vladimir I. Goryunov:
On Quadratic Lyapunov Function for Applied Dynamic Problems. 484-486
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