Imre J. Rudas

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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

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

Coauthor Index

1 Shamsudin H. M. Amin [18]

2 Paul H. Andersson [17]

3 Ildar Z. Batyrshin [46]

4 Barnabás Bede [39] [45] [47]

5 Attila L. Bencsik [39]

6 Manuel Berenguel [32]

7 János F. Bitó [6] [8] [11] [14] [17] [19] [20] [23] [25] [27] [30]

8 Cristina M. Cirre [32]

9 Carlos Couto [16]

10 Mehmet Önder Efe [7]

11 Wilfried Elmenreich [24] [29]

12 Kemalettin Erbatur [2]

13 János C. Fodor [35] [40] [44] [45]

14 Gerhard P. Hancke [12] [30]

15 Johann E. W. Holm [12]

16 László Horváth [1] [4] [5] [9] [12] [13] [16] [18] [20] [22] [26] [27] [28] [30] [31] [34] [36] [41] [43] [46]

17 Karel Jezernik [21]

18 Okyay Kaynak [2] [6] [7]

19 Ryszard Klempous [32]

20 Krzysztof Kozlowski [11] [21] [23]

21 José António Tenreiro Machado [25] [38]

22 Henryk Maciejewski [32]

23 Ladislav Madarász [8]

24 Oscar Camacho Nieto [46]

25 Jan Nikodem [32]

26 Maciej Nikodem [32]

27 Hajime Nobuhara [47]

28 Wimpie D. Nortje [12]

29 Béla Pátkai [37] [38]

30 Zsuzsa Preitl [43]

31 Miklós Rontó [33]

32 Asif Sabanovic [2]

33 Emil D. Schwab [47]

34 Aniko Szakal [20] [27]

35 Ágnes Szeghegyi [23]

36 József K. Tar [6] [8] [11] [14] [17] [19] [21] [23] [25] [33] [37] [42]

37 Seppo J. Torvinen [14] [17]

38 Simona Vaivoda [43]

39 Loreto Valenzuela [32]

40 Luis Villa Vargas [46]

41 Antonio Hernández Zavala [46]

42 Leon Zlajpah [15]

Colors in the list of coauthors

1	Shamsudin H. M. Amin	[18]
2	Paul H. Andersson	[17]
3	Ildar Z. Batyrshin	[46]
4	Barnabás Bede	[39] [45] [47]
5	Attila L. Bencsik	[39]
6	Manuel Berenguel	[32]
7	János F. Bitó	[6] [8] [11] [14] [17] [19] [20] [23] [25] [27] [30]
8	Cristina M. Cirre	[32]
9	Carlos Couto	[16]
10	Mehmet Önder Efe	[7]
11	Wilfried Elmenreich	[24] [29]
12	Kemalettin Erbatur	[2]
13	János C. Fodor	[35] [40] [44] [45]
14	Gerhard P. Hancke	[12] [30]
15	Johann E. W. Holm	[12]
16	László Horváth	[1] [4] [5] [9] [12] [13] [16] [18] [20] [22] [26] [27] [28] [30] [31] [34] [36] [41] [43] [46]
17	Karel Jezernik	[21]
18	Okyay Kaynak	[2] [6] [7]
19	Ryszard Klempous	[32]
20	Krzysztof Kozlowski	[11] [21] [23]
21	José António Tenreiro Machado	[25] [38]
22	Henryk Maciejewski	[32]
23	Ladislav Madarász	[8]
24	Oscar Camacho Nieto	[46]
25	Jan Nikodem	[32]
26	Maciej Nikodem	[32]
27	Hajime Nobuhara	[47]
28	Wimpie D. Nortje	[12]
29	Béla Pátkai	[37] [38]
30	Zsuzsa Preitl	[43]
31	Miklós Rontó	[33]
32	Asif Sabanovic	[2]
33	Emil D. Schwab	[47]
34	Aniko Szakal	[20] [27]
35	Ágnes Szeghegyi	[23]
36	József K. Tar	[6] [8] [11] [14] [17] [19] [21] [23] [25] [33] [37] [42]
37	Seppo J. Torvinen	[14] [17]
38	Simona Vaivoda	[43]
39	Loreto Valenzuela	[32]
40	Luis Villa Vargas	[46]
41	Antonio Hernández Zavala	[46]
42	Leon Zlajpah	[15]