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ORCIDLászló Horváth
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2020 – today
- 2024
[c85]László Horváth
:
Multidisciplinary and Multiphysical Model Represents Complex Research in Applied Informatics. SACI 2024: 49-54- [c84]László Horváth, Levente Kovács:
Extended Engineering Software Support for Multiphysical Research in Applied Informatics. SoMeT 2024: 123-136 - 2023
- [j21]László Horváth:
Uniform Treatment of Integral Majorization Inequalities with Applications to Hermite-Hadamard-Fejér-Type Inequalities and f-Divergences. Entropy 25(6): 954 (2023) - [j20]László Horváth, Oliver James, Susan Banducci, Ana Beduschi:
Citizens' acceptance of artificial intelligence in public services: Evidence from a conjoint experiment about processing permit applications. Gov. Inf. Q. 40(4): 101876 (2023) - [c83]László Horváth:
Model Organized Theoretical and Experimental Research in Collaborative Space. SACI 2023: 247-252 - [c82]László Horváth:
Reseach in Collaborative Space Using Complex Experimental Model. SMC 2023: 2814-2819 - [c81]László Horváth:
Science-Industrial Experimental Model on Cloud Platform. SoMeT 2023: 76-84 - 2022
- [j19]Nicolas Navarro, László Horváth, Alejandro Salado:
Design of an IoT System for the Palletized Distribution Supply Chain with Model-Based Systems Engineering Tools. Syst. 10(1): 4 (2022) - [c80]László Horváth:
Context Mediated Communication (CMC) in Research Project. SACI 2022: 33-38 - [c79]László Horváth:
Contextual Research Configuration Using Autonomous Model System. SISY 2022: 297-302 - [c78]László Horváth, Levente Kovács:
New Methods for Contextual Communication in Modeling Software Platform (MSP). SoMeT 2022: 129-139 - 2021
- [c77]László Horváth:
Model Integrated PhD Research Project Using Engineering Platform in the Cloud. SACI 2021: 187-192 - [c76]László Horváth:
Theoretical, Methodological, and Operational Aspects of Engineering Model System. SISY 2021: 147-152 - [c75]László Horváth, Levente Kovács:
Engineering Platform as Integrated Software for Model Mediated Research. SoMeT 2021: 235-247 - 2020
- [j18]István Györi, László Horváth:
Explicit estimates and limit formulae for the solutions of linear delay functional differential systems with nonnegative Volterra type operators. Appl. Math. Comput. 385: 125451 (2020) - [c74]László Horváth, Susan Banducci, Katharine Tyler, Cathrine Degnen, Joshua Blamire, Dan Stevens, Travis Coan:
Taking the public in public broadcasting seriously: BBC and news sharing during the Covid-19 crisis. ICWSM Workshops 2020 - [c73]László Horváth:
Research Configuration of Engineering Modeling Platform. SACI 2020: 261-266 - [c72]László Horváth:
Intelligent Content Driving of Engineering Model System in Modeling Platform. SoMeT 2020: 102-113 - [c71]László Horváth:
Model System for the Representation of Smart System of Systems in Engineering. SoSE 2020: 603-608
2010 – 2019
- 2019
- [c70]László Horváth:
Cyber Physical System in Context with System Level Engineering Model. ISIE 2019: 1627-1631 - [c69]László Horváth:
Representing Biological Aspects in Engineering Model System. IWOBI 2019: 133-138 - [c68]László Horváth:
Virtual Research Laboratory for Smart Engineering in the Cloud. SACI 2019: 179-184 - [c67]László Horváth:
Intellectual Content Driving for Model of Industrial Cyber Physical System. SMC 2019: 1378-1383 - [c66]László Horváth:
Driving Smart Content as Context for System Level Model of Engineering Structure. SoMeT 2019: 93-106 - 2018
- [c65]László Horváth:
Model Mediated University Course in Engineering. CSEDU (1) 2018: 481-488 - [c64]László Horváth:
Contextual Knowledge Content Driving for Model of Cyber Physical System. ICARCV 2018: 1845-1850 - [c63]László Horváth:
Intelligent Content in System Level Model of Industrial Cyber Physical System. IECON 2018: 2914-2919 - [c62]László Horváth, Andrea Serester:
Content Driven Engineering Model System for Cyber Physical Systems. SACI 2018: 367-372 - [c61]László Horváth, Alajos Mészáros:
Contextual Modeling of Engineering Structures Using Organized Content. SISY 2018: 105-110 - [c60]László Horváth:
Engineering Model System Definition Using Human Initiatives. WAC 2018: 1-5 - 2017
- [c59]László Horváth:
New method for definition of organized driving chains in industrial product model. ICIT 2017: 1183-1188 - [c58]László Horváth:
Intelligent property support for cyber-physical product system modeling. IECON 2017: 3474-3479 - [c57]László Horváth, Imre J. Rudas:
Driving Engineering Model Generation on Functional and Logical Levels. SoMeT 2017: 678-690 - 2016
- [c56]László Horváth:
Representation of intellectual property for multidisciplinary industrial engineering model system. ISIE 2016: 328-339 - [c55]László Horváth, Imre J. Rudas:
Multifunctional engineering space supports integration in content based modeling. SACI 2016: 51-56 - [c54]László Horváth:
Content for context structure in multidisciplinary engineering model. SMC 2016: 3824-3829 - [c53]László Horváth, Imre J. Rudas:
New Approach to Multidisciplinary Content Driving of Engineering Model System Component Generation. SoMeT 2016: 38-49 - 2015
- [c52]László Horváth, Imre J. Rudas:
Request Driven Generation of RFLP Elements at Product Definition. EUROCAST 2015: 581-588 - [c51]László Horváth, Imre J. Rudas:
Product Behavior Definition for Element Generation in RFLP Structure. ICSSE 2015: 485-498 - [c50]László Horváth, Imre J. Rudas:
High level abstraction for product concept definition in virtual engineering. SACI 2015: 283-288 - [c49]László Horváth, Imre J. Rudas:
Modeling and Analysis of Requests, Behaviors, and Actions for RFLP Structure. SMC 2015: 725-730 - 2014
- [c48]László Horváth, Imre J. Rudas:
New adaptive capability for generic product representation. SACI 2014: 275-280 - [c47]László Horváth, Imre J. Rudas:
Systems engineering methods for multidisciplinary product definition. SISY 2014: 293-298 - [c46]László Horváth, Imre J. Rudas:
New method for intellectual content driven generic product model generation. SMC 2014: 1660-1665 - [c45]László Horváth, Imre J. Rudas:
Intelligent Content for Product Definition in RFLP Structure. SoMeT (Selected Papers) 2014: 55-70 - [c44]László Horváth, Imre J. Rudas:
New Method for Generation of RFLP Structure Elements in PLM Model. SoMeT 2014: 310-324 - 2013
- [j17]István Györi, László Horváth:
Existence of periodic solutions in a linear higher order system of difference equations. Comput. Math. Appl. 66(11): 2239-2250 (2013) - [c43]László Horváth, Imre J. Rudas:
Elevated level design intent and behavior driven feature definition for product modeling. IECON 2013: 4374-4379 - [c42]László Horváth, Imre J. Rudas:
Situation based feature definition on product behavior level. SACI 2013: 245-250 - [c41]László Horváth, Imre J. Rudas:
New features and contexts for expert level automation of product definition. SISY 2013: 313-318 - [c40]László Horváth, Imre J. Rudas:
Human Interactions for Self-Adaptive Virtual Product Prototype. SMC 2013: 4682-4687 - [c39]László Horváth, Imre J. Rudas:
Towards interacting systems in product lifecycle management. SoSE 2013: 267-272 - [c38]László Horváth, Imre J. Rudas:
Computing Intensive Definition of Products. WCSC 2013: 391-402 - 2012
- [j16]István Györi, László Horváth:
Sharp algebraic periodicity conditions for linear higher order difference equations. Comput. Math. Appl. 64(7): 2262-2274 (2012) - [c37]László Horváth, Imre J. Rudas:
Requested behavior driven control of product definition. IECON 2012: 2839-2844 - [c36]László Horváth, Imre J. Rudas:
Adaptive actions replace human interactions at product modeling. SACI 2012: 273-278 - [c35]László Horváth, Imre J. Rudas:
Situation based control of product object definition. SISY 2012: 553-558 - [c34]László Horváth, Imre J. Rudas:
Objective related knowledge driven product feature definition. SMC 2012: 2277-2282 - [p2]László Horváth, Imre J. Rudas:
Coordinated and Recorded Human Interactions for Enhanced Intelligence in Product Model. Recent Advances in Intelligent Engineering Systems 2012: 59-78 - 2011
- [j15]István Györi, László Horváth:
lp-solutions and stability analysis of difference equations using the Kummer's test. Appl. Math. Comput. 217(24): 10129-10145 (2011) - [j14]László Horváth:
A method to refine the discrete Jensen's inequality for convex and mid-convex functions. Math. Comput. Model. 54(9-10): 2451-2459 (2011) - [c33]László Horváth, Imre J. Rudas:
A New Adaptive Process for Product Model Object Definition. ICETET 2011: 55-60 - [c32]László Horváth, Imre J. Rudas:
Knowledge acquisition at human-computer interaction for product definition. SACI 2011: 489-494 - [c31]László Horváth, Imre J. Rudas:
Integrated engineering processes in virtual product definition. SMC 2011: 2996-3001 - 2010
- [j13]István Györi, László Horváth:
Asymptotic behaviour of the solutions of a nonautonomous linear delay difference system. Appl. Math. Comput. 217(8): 4205-4216 (2010) - [j12]István Györi, László Horváth:
A new view of the lp-theory for a system of higher order difference equations. Comput. Math. Appl. 59(8): 2918-2932 (2010)
2000 – 2009
- 2009
- [j11]László Horváth, Imre J. Rudas:
Human Intent Representation in Knowledge Intensive Product Model. J. Comput. 4(10): 954-961 (2009) - [c30]László Horváth, Imre J. Rudas:
Product modeling beyond information. SACI 2009: 177-182 - [c29]László Horváth, Imre J. Rudas:
Virtual product definition on the way towards intelligent engineering. SACI 2009: 361-362 - [c28]László Horváth, Imre J. Rudas:
Processes in Virtual Engineering Spaces. SMC 2009: 2110-2115 - [p1]László Horváth, Imre J. Rudas:
Engineering Objective-Driven Product Lifecycle Management with Enhanced Human Control. Towards Intelligent Engineering and Information Technology 2009: 543-556 - 2008
- [c27]Imre J. Rudas, Ildar Z. Batyrshin, Antonio Hernández Zavala, Oscar Camacho Nieto, László Horváth, Luis A. Villa Vargas:
Generators of Fuzzy Operations for Hardware Implementation of Fuzzy Systems. MICAI 2008: 710-719 - [c26]László Horváth, Imre J. Rudas:
Bringing up product model to thinking of engineer. SMC 2008: 1355-1360 - [c25]László Horváth, Imre J. Rudas:
Towards the information content driven product model. SoSE 2008: 1-6 - 2007
- [j10]László Horváth:
Supporting Lifecycle Management of Product Data by Organized Descriptions and Behavior Definitions of Engineering Objects. J. Adv. Comput. Intell. Intell. Informatics 11(9): 1107-1113 (2007) - [c24]László Horváth, Imre J. Rudas, Simona Vaivoda, Zsuzsa Preitl:
Communication and Knowledge Intensive Engineering Modeling in Virtual Spaces. SACI 2007: 29-34 - [c23]László Horváth, Imre J. Rudas:
New approach to knowledge intensive product modeling in PLM systems. SMC 2007: 668-673 - [c22]László Horváth, Imre J. Rudas:
An Approach to Processing Product Changes During Product Model Based Engineering. SoSE 2007: 1-6 - 2006
- [j9]László Horváth, Imre J. Rudas:
Intelligent Human-Computer Communication of Engineers at Extended Companies. J. Adv. Comput. Intell. Intell. Informatics 10(4): 510-516 (2006) - [j8]László Horváth, Imre J. Rudas:
Course Modeling for Student Profile Based Flexible Higher Education on the Internet. J. Univers. Comput. Sci. 12(9): 1254-1266 (2006) - [c21]László Horváth, Imre J. Rudas:
An Integrated Description for Intelligent Processing of Closely Related Engineering Objects. SMC 2006: 4886-4891 - [c20]László Horváth, Imre J. Rudas:
Communication and corporate information intensive integrated modeling for engineering at extended companies. SoSE 2006: 1-6 - 2005
- [j7]László Horváth, Imre J. Rudas, János F. Bitó, Gerhard P. Hancke:
Intelligent Computing for the Management of Changes in Industrial Engineering Modeling Processes. Comput. Artif. Intell. 24(6): 549-562 (2005) - [j6]László Horváth, Imre J. Rudas:
Human Intent Description in Environment Adaptive Product Model Objects. J. Adv. Comput. Intell. Intell. Informatics 9(4): 415-422 (2005) - [c19]László Horváth, Imre J. Rudas:
Associativity, Adaptivity and Behavior Aspects in Modeling for Manufacturing Related Robot Systems. ICRA 2005: 3006-3011 - [c18]László Horváth, Imre J. Rudas:
Intelligent shape centered models. SMC 2005: 3012-3017 - 2004
- [j5]László Horváth, Imre J. Rudas:
Possibilities for Application of Associative Objects with Built-in Intelligence in Engineering Modeling. J. Adv. Comput. Intell. Intell. Informatics 8(5): 544-552 (2004) - [c17]László Horváth, Imre J. Rudas, János F. Bitó, Anikó Szakál:
Adaptive Model Objects for Robot Related Applications of Product Models. ICRA 2004: 3137-3142 - [c16]László Horváth, Imre J. Rudas:
Active description of engineering objects for modeling in extended companies. SMC (4) 2004: 3312-3317 - 2003
- [c15]László Horváth, Imre J. Rudas, Gerhard P. Hancke, Anikó Szakál:
Integrated environment-adaptive virtual model objects for product modeling. SMC 2003: 498-503 - [c14]Paul G. Greeff, Gerhard P. Hancke, Derrick L. van der Merwe, László Horváth:
Design of an access control module for an instrumentation gateway. VECIMS 2003: 119-124 - [c13]Deep Vardhan Bhatt, Stefan Schulze, Gerhard P. Hancke, László Horváth:
Secure Internet access to gateway using secure socket layer. VECIMS 2003: 157-162 - 2002
- [c12]László Horváth, Imre J. Rudas, Shamsudin H. M. Amin:
Product Modeling Based Integration of Robot Related Engineering Activities. ICRA 2002: 2811-2816 - [c11]László Horváth, Imre J. Rudas, János F. Bitó, Anikó Szakál:
Feature Driven Associative Part and Machining Process Models. BASYS 2002: 11-18 - [c10]László Horváth, Imre J. Rudas:
Intelligent computer methods in behavior based engineering modeling. SMC (2) 2002: 5 - 2001
- [j4]László Horváth, Imre J. Rudas:
Virtual Technology Based Associative Integration of Modeling of Mechanical Parts. J. Adv. Comput. Intell. Intell. Informatics 5(5): 269-278 (2001) - [j3]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. J. Adv. Comput. Intell. Intell. Informatics 5(5): 300-305 (2001) - [c9]László Horváth, Imre J. Rudas, Carlos Couto:
Integration of Human Intent Model Descriptions in Product Models. PROLAMAT 2001: 1-12 - 2000
- [j2]László Horváth, Imre J. Rudas:
Emerging Intelligent Technologies in Computer-Aided Engineering. J. Adv. Comput. Intell. Intell. Informatics 4(4): 268-278 (2000) - [c8]László Horváth, Imre J. Rudas:
Modeling of machining using relationships between features. SMC 2000: 1782-1786
1990 – 1999
- 1999
- [c7]László Horváth, Imed Ben Dhaou, Hannu Tenhunen, Jouni Isoaho:
A novel, high-speed, reconfigurable demapper-symbol deinterleaver architecture for DVB-T. ISCAS (4) 1999: 382-385 - 1998
- [j1]László Horváth, Imre J. Rudas:
Intelligent Computer Methods for Modeling of Manufacturing Processes and Human Intent. J. Adv. Comput. Intell. Intell. Informatics 2(3): 111-119 (1998) - [c6]László Horváth, Imre J. Rudas:
Representation of human intent in product models. BASYS 1998: 437-446 - [c5]László Horváth, Imre J. Rudas:
Evaluation of Petri net process model representation as a tool of virtual manufacturing. SMC 1998: 178-183 - [c4]László Horváth, Imre J. Rudas:
Description of design intent in product models. SMC 1998: 1312-1316 - 1993
- [c3]Imre Horváth, P. Kulcsár, László Horváth:
Concurrent Engineering with the PRODES System. KNOWHSEM 1993: 105-116 - [c2]László Horváth, Imre J. Rudas:
Possibilities of Application of Machine Learning in Manufacturing Process Planning. KNOWHSEM 1993: 131-142
1980 – 1989
- 1982
- [c1]Gyula Hermann, László Horváth, László Monostori:
Real-time monitoring of machine tools via Walsh-Hadamard tranform. ICASSP 1982: 343-346
Coauthor Index
[c57] [c55] [c53] [c52] [c51] [c50] [c49] [c48] [c47] [c46] [c45] [c44] [c43] [c42] [c41] [c40] [c39] [c38] [c37] [c36] [c35] [c34] [p2] [c33] [c32] [c31] [j11] [c30] [c29] [c28] [p1] [c27] [c26] [c25] [c24] [c23] [c22] [j9] [j8] [c21] [c20] [j7] [j6] [c19] [c18] [j5] [c17] [c16] [c15] [c12] [c11] [c10] [j4] [j3] [c9] [j2] [c8] [j1] [c6] [c5] [c4] [c2]
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