2009 |
47 | EE | Barnabás Bede,
Emil D. Schwab,
Hajime Nobuhara,
Imre J. Rudas:
Approximation by Shepard type pseudo-linear operators and applications to Image Processing.
Int. J. Approx. Reasoning 50(1): 21-36 (2009) |
2008 |
46 | EE | Imre J. Rudas,
Ildar Z. Batyrshin,
Antonio Hernández Zavala,
Oscar Camacho Nieto,
László Horváth,
Luis Villa Vargas:
Generators of Fuzzy Operations for Hardware Implementation of Fuzzy Systems.
MICAI 2008: 710-719 |
2007 |
45 | EE | Barnabás Bede,
Imre J. Rudas,
János C. Fodor:
Friction Model by Using Fuzzy Differential Equations.
IFSA (1) 2007: 23-32 |
44 | EE | János C. Fodor,
Imre J. Rudas:
Migrative Triangular Norms.
SACI 2007: 25-27 |
43 | EE | László Horváth,
Imre J. Rudas,
Simona Vaivoda,
Zsuzsa Preitl:
Communication and Knowledge Intensive Engineering Modeling in Virtual Spaces.
SACI 2007: 29-34 |
42 | EE | József K. Tar,
Imre J. Rudas:
Geometric Approach to Nonlinear Adaptive Control.
SACI 2007: 9-23 |
41 | EE | László Horváth,
Imre J. Rudas:
New approach to knowledge intensive product modeling in PLM systems.
SMC 2007: 668-673 |
40 | EE | János C. Fodor,
Imre J. Rudas:
On continuous triangular norms that are migrative.
Fuzzy Sets and Systems 158(15): 1692-1697 (2007) |
39 | EE | Barnabás Bede,
Imre J. Rudas,
Attila L. Bencsik:
First order linear fuzzy differential equations under generalized differentiability.
Inf. Sci. 177(7): 1648-1662 (2007) |
38 | EE | Béla Pátkai,
José António Tenreiro Machado,
Imre J. Rudas:
Editorial.
JACIII 11(9): 1061-1061 (2007) |
37 | EE | József K. Tar,
Imre J. Rudas,
Béla Pátkai:
Comparison of Fractional Robust- and Fixed Point Transformations- Based Adaptive Compensation of\Dynamic Friction.
JACIII 11(9): 1062-1071 (2007) |
2006 |
36 | EE | László Horváth,
Imre J. Rudas:
Course Modeling for Student Profile Based Flexible Higher Education on the Internet.
J. UCS 12(9): 1254-1266 (2006) |
35 | EE | Imre J. Rudas,
János C. Fodor:
Editorial.
JACIII 10(4): 477-478 (2006) |
34 | EE | László Horváth,
Imre J. Rudas:
Intelligent Human-Computer Communication of Engineers at Extended Companies.
JACIII 10(4): 510-516 (2006) |
33 | EE | József K. Tar,
Imre J. Rudas,
Miklós Rontó:
Geometric Identification and Control of Nonlinear Dynamic Systems Based on Floating Basis Vector Representation.
JACIII 10(4): 542-548 (2006) |
2005 |
32 | EE | Manuel Berenguel,
Cristina M. Cirre,
Ryszard Klempous,
Henryk Maciejewski,
Maciej Nikodem,
Jan Nikodem,
Imre J. Rudas,
Loreto Valenzuela:
Hierarchical Control of a Distributed Solar Collector Field.
EUROCAST 2005: 614-620 |
31 | | László Horváth,
Imre J. Rudas:
Associativity, Adaptivity and Behavior Aspects in Modeling for Manufacturing Related Robot Systems.
ICRA 2005: 3006-3011 |
30 | | László Horváth,
Imre J. Rudas,
János F. Bitó,
Gerhard P. Hancke:
Intelligent Computing for the Management of Changes in Industrial Engineering Modeling Processes.
Computers and Artificial Intelligence 24(6): (2005) |
29 | | Wilfried Elmenreich,
Imre J. Rudas:
Special Issue on Computational Cybernetics.
JACIII 9(4): 345 (2005) |
28 | EE | László Horváth,
Imre J. Rudas:
Human Intent Description in Environment Adaptive Product Model Objects.
JACIII 9(4): 415-422 (2005) |
2004 |
27 | EE | László Horváth,
Imre J. Rudas,
János F. Bitó,
Aniko Szakal:
Adaptive Model Objects for Robot Related Applications of Product Models.
ICRA 2004: 3137-3142 |
26 | EE | László Horváth,
Imre J. Rudas:
Active description of engineering objects for modeling in extended companies.
SMC (4) 2004: 3312-3317 |
25 | | József K. Tar,
Imre J. Rudas,
János F. Bitó,
José António Tenreiro Machado:
Adaptive Nonlinear Vibration Damping Inspired by the Concept of Fractional Derivatives.
WISES 2004: 183-192 |
24 | | Wilfried Elmenreich,
Imre J. Rudas:
Special Issue on Computational Cybernetics.
JACIII 8(5): 453- (2004) |
23 | EE | Imre J. Rudas,
József K. Tar,
János F. Bitó,
Ágnes Szeghegyi,
Krzysztof Kozlowski:
A Combined Solution of the Inverse Kinematic Task in the Vicinity of the Singularities.
JACIII 8(5): 514-522 (2004) |
22 | EE | László Horváth,
Imre J. Rudas:
Possibilities for Application of Associative Objects with Built-in Intelligence in Engineering Modeling.
JACIII 8(5): 544-552 (2004) |
2003 |
21 | | Imre J. Rudas,
Krzysztof Kozlowski,
József K. Tar,
Karel Jezernik:
Novel approach in the adaptive control of systems having strongly nonlinear coupling between their umnodeled internal degrees of freedom.
ICRA 2003: 1068-1073 |
2002 |
20 | | László Horváth,
Imre J. Rudas,
János F. Bitó,
Aniko Szakal:
Feature Driven Associative Part and Machining Process Models.
BASYS 2002: 11-18 |
19 | | János F. Bitó,
József K. Tar,
Imre J. Rudas:
Novel Adaptive Control of Mechanical Systems Driven by Electromechanical Hydraulic Drives.
BASYS 2002: 517-524 |
18 | | László Horváth,
Imre J. Rudas,
Shamsudin H. M. Amin:
Product Modeling Based Integration of Robot Related Engineering Activities.
ICRA 2002: 2811-2816 |
2001 |
17 | | József K. Tar,
Imre J. Rudas,
János F. Bitó,
Paul H. Andersson,
Seppo J. Torvinen:
Structurally and Procedurally Simplified Soft Computing for Real Time Control.
ICRA 2001: 2002-2007 |
16 | | László Horváth,
Imre J. Rudas,
Carlos Couto:
Integration of Human Intent Model Descriptions in Product Models.
PROLAMAT 2001: 1-12 |
15 | | Imre J. Rudas,
Leon Zlajpah:
Special Issue on Selected Papers INES2000.
JACIII 5(5): 247- (2001) |
14 | EE | József K. Tar,
Imre J. Rudas,
János F. Bitó,
Seppo J. Torvinen:
Symplectic Geometry Based Simple Algebraic Possibilities for Developing Adaptive Control for Mechanical Systems.
JACIII 5(5): 257-262 (2001) |
13 | EE | László Horváth,
Imre J. Rudas:
Virtual Technology Based Associative Integration of Modeling of Mechanical Parts.
JACIII 5(5): 269-278 (2001) |
12 | EE | Wimpie D. Nortje,
Johann E. W. Holm,
Gerhard P. Hancke,
Imre J. Rudas,
László Horváth:
Results of Bias-variance Tests on Multi-layer Perceptron Neural Networks.
JACIII 5(5): 300-305 (2001) |
2000 |
11 | | József K. Tar,
Imre J. Rudas,
János F. Bitó,
Krzysztof Kozlowski:
Non-Conventional Integration of the Fundamental Elements of Soft Computing and Traditional Methods in Adaptive Robot Control.
ICRA 2000: 3531-3536 |
10 | | Imre J. Rudas:
Intelligent Engineering Systems.
JACIII 4(4): 237-239 (2000) |
9 | EE | László Horváth,
Imre J. Rudas:
Emerging Intelligent Technologies in Computer-Aided Engineering.
JACIII 4(4): 268-278 (2000) |
8 | EE | József K. Tar,
Imre J. Rudas,
Ladislav Madarász,
János F. Bitó:
Simultaneous Optimization of the External Loop Parameters in an Adaptive Control Based on the Co-operation of Uniform Procedures.
JACIII 4(4): 279-285 (2000) |
1999 |
7 | | Mehmet Önder Efe,
Okyay Kaynak,
Imre J. Rudas:
A Novel Computationally Intelligent Architecture for Identification and Control of Nonlinear Systems.
ICRA 1999: 2073-2077 |
6 | | József K. Tar,
Imre J. Rudas,
Okyay Kaynak,
János F. Bitó:
Formally Non-Exact Analytical Modeling of Mechanical Systems and Environmental Interactions in an Adaptive Control.
ICRA 1999: 831-836 |
1998 |
5 | | László Horváth,
Imre J. Rudas:
Representation of human intent in product models.
BASYS 1998: 437-446 |
4 | EE | László Horváth,
Imre J. Rudas:
Intelligent Computer Methods for Modeling of Manufacturing Processes and Human Intent.
JACIII 2(3): 111-119 (1998) |
3 | | Imre J. Rudas:
Intelligent Engineering Systems.
JACIII 2(3): 69-71 (1998) |
1996 |
2 | EE | Kemalettin Erbatur,
Okyay Kaynak,
Asif Sabanovic,
Imre J. Rudas:
Fuzzy adaptive sliding mode control of a direct drive robot.
Robotics and Autonomous Systems 19(2): 215-227 (1996) |
1993 |
1 | | László Horváth,
Imre J. Rudas:
Possibilities of Application of Machine Learning in Manufacturing Process Planning.
KNOWHSEM 1993: 131-142 |