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2020 – today
- 2024
[j25]Georg Bretthauer, Georg Frey, Stefan Seelecke:
Prof. Dr.-Ing. habil. Hartmut Janocha zum 80. Geburtstag. Autom. 72(1): 73- (2024)- [j24]Moritz Stüber
, Georg Frey:
Dynamic system models and their simulation in the Semantic Web. Semantic Web 15(2): 353-388 (2024) - [c94]Julian Müller, Xuanheng Liu, Jonas Maier, Georg Frey:
Transferability of Machine Learning Models for Energy Consumption Prediction of In-Vehicle Low-Voltage Equipment: A Case Study. CASE 2024: 1889-1896 - [c93]Julian Müller, Florian Schuchter, Daniel Brauneis, Georg Frey:
Enhancing Power Net Efficiency with Data-Driven Consumption Prediction - A Machine Learning Approach. IV 2024: 2896-2903 - 2023
- [c92]Julian Müller, Lukas Czekalla, Florian Schuchter, Georg Frey:
Illuminating the Black Box: A Comparative Study of Explainable AI for Interpreting Time Series Data in Vehicle Power Net Consumption Models. ICMLA 2023: 166-173 - [c91]Julian Müller, Joachim Sprave, Georg Frey:
The Effect of Target Variable Rescaling on Energy Consumption Prediction in a Vehicle Powernet using Multi-Target Regression Trees: A study from the automotive industry. ICMLT 2023: 144-150 - 2022
- [c90]Julian Huwer, Georg Frey, Ramchandra Bhandari:
Selection of multicriteria decision analysis methods for electrification projects in rural Sub-Sahara Africa - A case study in Niger. GHTC 2022: 469-472 - 2021
- [j23]Aicha Goubaa, Mohamed Khalgui, Zhiwu Li, Georg Frey, Abdulrahman Al-Ahmari:
On Parametrizing Feasible Reconfigurable Systems Under Real-Time, Energy, and Resource Sharing Constraints. IEEE Trans Autom. Sci. Eng. 18(3): 1492-1504 (2021) - [c89]Soumoud Fkaier, Mohamed Khalgui, Georg Frey:
Modeling Methodology for Reconfigurable Distributed Systems using Transformations from GR-UML to GR-TNCES and IEC 61499. ENASE 2021: 221-230 - [c88]Soumoud Fkaier, Mohamed Khalgui, Georg Frey:
A Software Framework for Context-aware Secure Intelligent Applications of Distributed Systems. ICSOFT 2021: 111-121 - [c87]Soumoud Fkaier, Mohamed Khalgui, Georg Frey:
Software Framework of Context-Aware Reconfigurable Secure Smart Grids. ICSOFT (Selected Papers) 2021: 193-217 - 2020
- [j22]Daud Mustafa Minhas, Georg Frey:
Modeling and Optimizing Energy Supply and Demand in Home Area Power Network (HAPN). IEEE Access 8: 2052-2072 (2020) - [j21]Aicha Goubaa, Mohamed Khalgui, Zhiwu Li, Georg Frey, MengChu Zhou:
Scheduling periodic and aperiodic tasks with time, energy harvesting and precedence constraints on multi-core systems. Inf. Sci. 520: 86-104 (2020) - [j20]Wafa Lakhdhar, Rania Mzid, Mohamed Khalgui, Georg Frey, Zhiwu Li, MengChu Zhou:
A guidance framework for synthesis of multi-core reconfigurable real-time systems. Inf. Sci. 539: 327-346 (2020) - [j19]Cesare Fantuzzi, Alexander Fay, Georg Frey, Birgit Vogel-Heuser:
Guest Editorial Special Section on the 2018 Conference on Automation Science and Engineering (CASE). IEEE Trans Autom. Sci. Eng. 17(3): 1182-1183 (2020) - [j18]Jiafeng Zhang, Hongyi Li, Georg Frey, Zhiwu Li:
Reconfiguration Control of Dynamic Reconfigurable Discrete Event Systems Based on NCESs. IEEE Trans. Control. Syst. Technol. 28(3): 857-868 (2020) - [c86]Aicha Goubaa, Mohamed Khalgui, Georg Frey, Zhiwu Li:
Efficient Scheduling of Periodic, Aperiodic, and Sporadic Real-Time Tasks with Deadline Constraints. ICSOFT (Selected Papers) 2020: 25-43 - [c85]Soumoud Fkaier, Mohamed Khalgui, Georg Frey:
Hybrid Context-awareness Modelling and Reasoning Approach for Microgrid's Intelligent Control. ICSOFT 2020: 116-127 - [c84]Aicha Goubaa, Mohamed Khalgui, Georg Frey, Zhiwu Li:
New Approach for Deadline Calculation of Periodic, Sporadic and Aperiodic Real-time Software Tasks. ICSOFT 2020: 452-460 - [c83]Daud Mustafa Minhas, Georg Frey:
Stochastic Optimization Scheme to Schedule Energy Supply and Demands in an Islanded Microgrid. IECON 2020: 1704-1709 - [c82]M.-T. O. El Astal, M. Kalloub, Ammar M. Abu-Hudrouss, Georg Frey:
Office Appliances Identification and Monitoring using Deep Leaning based Energy Disaggregation for Smart Buildings. IECON 2020: 1986-1991
2010 – 2019
- 2019
- [j17]Moncef Ben Smida, Khaoula Miled, Mohamed Khalgui, Georg Frey, Zhiwu Li:
Modeling and Verification of a Reliable Multi-Agent Solution Promoting the Autonomy and Self-Sufficiency of Microgrids in an Isolated Location. IEEE Access 7: 55090-55107 (2019) - [j16]Birgit Vogel-Heuser, Alexander Fay, Georg Frey:
IEEE International Conference on Automation Science and Engineering 2018. Autom. 67(6): 443-444 (2019) - [j15]Safa Guellouz, Adel Benzina, Mohamed Khalgui, Georg Frey, Zhiwu Li, Valeriy Vyatkin:
Designing Efficient Reconfigurable Control Systems Using IEC61499 and Symbolic Model Checking. IEEE Trans Autom. Sci. Eng. 16(3): 1110-1124 (2019) - [j14]Wafa Lakhdhar, Rania Mzid, Mohamed Khalgui, Zhiwu Li, Georg Frey, Abdulrahman Al-Ahmari:
Multiobjective Optimization Approach for a Portable Development of Reconfigurable Real-Time Systems: From Specification to Implementation. IEEE Trans. Syst. Man Cybern. Syst. 49(3): 623-637 (2019) - [c81]Jiafeng Zhang, Guangchao Luo, Zhiwu Li, Georg Frey:
Context-free Forbidden Path Control of Net Condition/Event Systems. CDC 2019: 1991-1996 - [c80]Daud Mustafa Minhas, Georg Frey:
Optimal Scheduling of Energy Supply Entities in Home Area Power Network. CoDIT 2019: 732-737 - 2018
- [j13]Jiafeng Zhang, Georg Frey, Abdulrahman Al-Ahmari, Ting Qu, Naiqi Wu, Zhiwu Li:
Analysis and Control of Dynamic Reconfiguration Processes of Manufacturing Systems. IEEE Access 6: 28028-28040 (2018) - [j12]Georg Frey:
52. Regelungstechnisches Kolloquium. Autom. 66(12): 1083-1085 (2018) - [j11]Lukas Exel, Georg Frey:
Modeling and simulation of local flexibilities and their effect to the entire power system. Comput. Sci. Res. Dev. 33(1-2): 49-60 (2018) - [c79]Jiafeng Zhang, Hongyi Li, Georg Frey, Zhiwu Li:
Shortest Legal Firing Sequence of Net Condition/Event Systems Using Integer Linear Programming. CASE 2018: 1556-1561 - [c78]Wafa Lakhdhar, Rania Mzid, Mohamed Khalgui, Georg Frey:
A New Approach for Optimal Implementation of Multi-core Reconfigurable Real-time Systems. ENASE 2018: 89-98 - [c77]Wafa Lakhdhar, Rania Mzid, Mohamed Khalgui, Georg Frey:
Portable Synthesis of Multi-core Real-Time Systems with Reconfiguration Constraints. ENASE (Selected Papers) 2018: 165-185 - [c76]Mohammed Hijjo, Georg Frey:
Scheduling Smart Loads in Modern Buildings based on Metaheuristic Optimization. ICINCO (1) 2018: 129-136 - [c75]Moritz Stüber, Lukas Exel, Georg Frey:
Using Modelling and Simulation as a Service (MSaaS) for Facilitating Flexibility-based Optimal Operation of Distribution Grids. ICINCO (2) 2018: 623-630 - [c74]Mohammed Hijjo, Georg Frey:
Multi-objective optimization for scheduling isolated microgrids. ICIT 2018: 1037-1042 - 2017
- [c73]Soumoud Fkaier, Mohamed Romdhani, Mohamed Khalgui, Georg Frey:
Context-awareness Meta-model for Reconfigurable Control Systems. ENASE 2017: 226-234 - [c72]Oussama Khlifi, Christian Siegwart, Olfa Mosbahi, Mohamed Khalgui, Georg Frey:
From Specification to Implementation of an Automotive Transport System. ICSOFT (Selected Papers) 2017: 49-68 - [c71]Oussama Khlifi, Christian Siegwart, Olfa Mosbahi, Mohamed Khalgui, Georg Frey:
Specification Approach using GR-TNCES: Application to an Automotive Transport System. ICSOFT 2017: 105-115 - [c70]Oussama Khlifi, Olfa Mosbahi, Mohamed Khalgui, Georg Frey:
New Verification Approach for Reconfigurable Distributed Systems. ICSOFT 2017: 355-362 - [c69]Daud Mustafa Minhas, Raja Rehan Khalid, Georg Frey:
Real-time power balancing in photovoltaic-integrated smart micro-grid. IECON 2017: 7469-7474 - 2016
- [c68]Soumoud Fkaier, Mohamed Romdhani, Mohamed Khalgui, Georg Frey:
Enabling reconfiguration of adaptive control systems using real-time context-aware framework. AICCSA 2016: 1-8 - [c67]Safa Guellouz, Adel Benzina, Mohamed Khalgui, Georg Frey:
Reconfigurable function blocks: Extension to the standard IEC 61499. AICCSA 2016: 1-8 - [c66]Oussama Khlifi, Christian Siegwart, Olfa Mosbahi, Mohamed Khalgui, Georg Frey:
Modeling and Simulation of an Energy Efficient Skid Conveyor using ZIZO. ICINCO (1) 2016: 551-558 - [c65]Marco Nesarajah, Georg Frey:
Thermoelectric power generation: Peltier element versus thermoelectric generator. IECON 2016: 4252-4257 - [c64]Wassim Mohamed Boussahel, Georg Frey:
Priced discrete Automata for modeling energy efficient manufacturing systems. WODES 2016: 79-84 - 2015
- [j10]Alexander Fay, Georg Frey, Jan Lunze:
Abschied von Prof. Dr.-Ing. habil. Lothar Litz. Autom. 63(11): 937-938 (2015) - [j9]Jiafeng Zhang, Mohamed Khalgui, Zhiwu Li, Georg Frey, Olfa Mosbahi, Hela Ben Salah:
Reconfigurable Coordination of Distributed Discrete Event Control Systems. IEEE Trans. Control. Syst. Technol. 23(1): 323-330 (2015) - [c63]Mohamed Oussama Ben Salem, Olfa Mosbahi, Mohamed Khalgui, Georg Frey:
ZiZo: Modeling, Simulation and Verification of Reconfigurable Real-time Control Tasks Sharing Adaptive Resources - Application to the Medical Project BROS. HEALTHINF 2015: 20-31 - [c62]Mohamed Oussama Ben Salem, Olfa Mosbahi, Mohamed Khalgui, Georg Frey:
BROS - A New Robotic Platform for the Treatment of Supracondylar Humerus Fracture. HEALTHINF 2015: 151-163 - [c61]Mohamed Oussama Ben Salem, Olfa Mosbahi, Mohamed Khalgui, Georg Frey:
Towards a Safer and More Optimal Treatment of the Supracondylar Humerus Fracture. BIOSTEC (Selected Papers) 2015: 403-423 - [c60]Mohammed Hijjo, Philipp Bauer, Felix Felgner, Georg Frey:
Energy management systems for hospitals in Gaza-strip. GHTC 2015: 18-25 - [c59]Mohamed Oussama Ben Salem, Olfa Mosbahi, Mohamed Khalgui, Georg Frey:
Transformation from R-UML to R-TNCES: New Formal Solution for Verification of Flexible Control Systems. ICSOFT-PT 2015: 64-75 - [c58]Mohamed Oussama Ben Salem, Olfa Mosbahi, Mohamed Khalgui, Georg Frey:
R-UML: An UML Profile for Verification of Flexible Control Systems. ICSOFT (Selected Papers) 2015: 118-136 - [c57]Oussama Khlifi, Olfa Mosbahi, Mohamed Khalgui, Georg Frey:
GR-TNCES: New Extensions of R-TNCES for Modelling and Verification of Flexible Systems under Energy and Memory Constraints. ICSOFT-EA 2015: 373-380 - [c56]Lukas Exel, Felix Felgner, Georg Frey:
Multi-domain modeling of distributed energy systems - The MOCES approach. SmartGridComm 2015: 774-779 - [r1]Georg Frey:
Programmable Logic Controllers. Encyclopedia of Systems and Control 2015 - 2014
- [j8]Felix Felgner, Lukas Exel, Marco Nesarajah, Georg Frey:
Component-Oriented Modeling of Thermoelectric Devices for Energy System Design. IEEE Trans. Ind. Electron. 61(3): 1301-1310 (2014) - [c55]Lukas Exel, Georg Frey, Gerrit Wolf, Mathias Oppelt:
Re-use of existing simulation models for DCS engineering via the Functional Mock-up Interface. ETFA 2014: 1-4 - [c54]Felix Felgner, J. Meiers, Lukas Exel, Georg Frey:
Design of distributed energy systems: Role and requirements of modeling and simulation. ETFA 2014: 1-5 - [c53]Philipp Bauer, Christian Siegwart, Felix Felgner, Georg Frey:
"OWLracle" - Predicting the impact of interdisciplinary energy efficiency methods at German universities using BCVTB. IECON 2014: 5324-5330 - 2013
- [j7]Liu Liu, Georg Frey:
OOAD-Entwicklungsprozess einer Modelica-Bibliothek für vernetzte Automatisierungssysteme. Autom. 61(2): 131- (2013) - [c52]Philipp Bauer, Georg Frey, Caroline Schäfer, Alexander Baumeister, Stefan Rogele, Petra Schweizer-Ries:
Engineering a Predictive Energy Consumption Model for University Properties. EMS 2013: 381-387 - [c51]Pascal Stoffels, Wassim Mohamed Boussahel, Michael Vielhaber, Georg Frey:
Energy engineering in the virtual factory. ETFA 2013: 1-6 - [c50]Fethi Belkhir, Christian Gierend, Georg Frey:
Component Oriented Modeling of Biomass Incineration Plants. ICINCO (1) 2013: 396-404 - [c49]Doaa Soliman, Georg Frey:
Verifikation und Validierung sicherheitsgerichteter SPS-Programme. Echtzeit 2013: 107-116 - 2012
- [j6]Doaa Soliman, Kleanthis Thramboulidis, Georg Frey:
Transformation of Function Block Diagrams to UPPAAL timed automata for the verification of safety applications. Annu. Rev. Control. 36(2): 338-345 (2012) - [c48]Birgit Vogel-Heuser, Jens Folmer, Georg Frey, Liu Liu, Holger Hermanns, Arnd Hartmanns:
Modeling of Networked Automation Systems for simulation and model checking of time behavior. SSD 2012: 1-5 - [c47]Mohamed Abdelati, Felix Felgner, Georg Frey:
Modeling wastewater pumping stations for cost-efficient control. ETFA 2012: 1-4 - [c46]Georg Frey, Rainer Drath, Bastian Schlich, Robert Eschbach:
"Safety automata" - A new specification language for the development of PLC safety applications. ETFA 2012: 1-8 - [c45]Mohamed Abdelati, Felix Felgner, Georg Frey:
Modeling and Simulation of a Wastewater Pumping Plant. ICINCO (1) 2012: 377-384 - [c44]Liu Liu, Georg Frey:
Effiziente Modellierung und Simulation von Kommunikationsnetzen in Modelica. Echtzeit 2012: 89-98 - 2011
- [j5]Kleanthis Thramboulidis, Georg Frey:
Towards a Model-Driven IEC 61131-Based Development Process in Industrial Automation. J. Softw. Eng. Appl. 4(4): 217-226 (2011) - [j4]Lucia Lo Bello, Georg Frey:
Guest Editorial. IEEE Trans. Ind. Informatics 7(4): 688 (2011) - [c43]Abouelabbas Ghanaim, Georg Frey:
Modeling and control of closed-loop networked PLC-systems. ACC 2011: 502-508 - [c42]Kleanthis Thramboulidis, Doaa Soliman, Georg Frey:
Towards an automated verification process for industrial safety applications. CASE 2011: 482-487 - [c41]Kleanthis Thramboulidis, Georg Frey:
An MDD process for IEC 61131-based industrial automation systems. ETFA 2011: 1-8 - [c40]Mohamed Abdelati, Felix Felgner, Georg Frey:
Modeling, Simulation and Control of a Water Recovery and Irrigation System. ICINCO (1) 2011: 323-329 - 2010
- [c39]Liu Liu, Felix Felgner, Georg Frey:
Comparison of 4 numerical solvers for stiff and hybrid systems simulation. ETFA 2010: 1-8
2000 – 2009
- 2009
- [j3]Georg Frey, Liu Liu:
Modellierung und Simulation vernetzter Automatisierungs- und Regelungssysteme in Modelica (Modeling and Simulation of Networked Automation and Control Systems in Modelica). Autom. 57(9): 466-476 (2009) - [c38]Abouelabbas Ghanaim, Geovany Araujo Borges, Georg Frey:
Estimating Delays in Networked Control Systems using Colored Petri Nets and Markov Chain Models. ETFA 2009: 1-6 - 2008
- [c37]Florian Wagner, Joachim Bohl, Georg Frey:
An IEC 61499 interpretation and implementation focused on usability. ETFA 2008: 184-191 - [c36]Liu Liu, Georg Frey:
Feasibility analysis for networked control systems by simulation in Modelica. ETFA 2008: 729-732 - [c35]Jürgen Greifeneder, Georg Frey:
Reactivity analysis of different Networked Automation System architectures. ETFA 2008: 1031-1038 - [c34]Abouelabbas Ghanaim, Georg Frey:
Component based colored Petri net model for Ethernet based networked control systems. ETFA 2008: 1100-1103 - 2007
- [j2]Jürgen Greifeneder, Georg Frey:
Wahrscheinlichkeitsbasierte Modellverifikation Netzbasierter Automatisierungssysteme (Probabilistic Model Checking of Networked Automation Systems). Autom. 55(12): 624-633 (2007) - [j1]Seno Darmawan Panjaitan, Georg Frey:
Development process for distributed automation systems combining UML and IEC 61499. Int. J. Manuf. Res. 2(1): 1-20 (2007) - [c33]Mohammed Bani Younis, Georg Frey:
Software quality measures to determine the diagnosability of PLC applications. ETFA 2007: 368-375 - [c32]Tanvir Hussain, Georg Frey:
Deployment of IEC 61499 compliant distributed control applications. ETFA 2007: 502-505 - [c31]Bruno Denis, Silvain Ruel, Jean-Marc Faure, Gaëlle Marsal, Georg Frey:
Measuring the impact of vertical integration on response times in ethernet fieldbuses. ETFA 2007: 532-539 - [c30]Jürgen Greifeneder, Georg Frey:
DesLaNAS - a language for describing Networked Automation Systems. ETFA 2007: 1053-1060 - [c29]Liu Liu, Georg Frey:
Simulation approach for evaluating response times in networked automation systems. ETFA 2007: 1061-1068 - 2006
- [c28]Jürgen Greifeneder, Georg Frey:
Optimizing Quality of Control in Networked Automation Systems using Probabilistic Models. ETFA 2006: 372-379 - [c27]Gaëlle Marsal, Bruno Denis, Jean-Marc Faure, Georg Frey:
Evaluation of Response Time in Ethernet-based Automation Systems. ETFA 2006: 380-387 - [c26]Seno Darmawan Panjaitan, Georg Frey:
Combination of UML Modeling and the IEC 61499 Function Block Concept for the Development of Distributed Automation Systems. ETFA 2006: 766-773 - [c25]Tanvir Hussain, Georg Frey:
UML-based Development Process for IEC 61499 with Automatic Test-case Generation. ETFA 2006: 1277-1284 - [c24]Mohammed Bani Younis, Georg Frey:
A Formal Method Based Re-Implementation Concept for PLC Programs and Its Application. ETFA 2006: 1340-1347 - [c23]Seno Darmawan Panjaitan, Georg Frey:
Designing Generic/reusable Functionality based Controllers for Distributed Control using UML. ICRA 2006: 321-326 - 2005
- [c22]Mohammed Bani Younis, Georg Frey:
Formalization and Visualization of Non-binary PLC Programs. CDC/ECC 2005: 8367-8372 - [c21]Jürgen Greifeneder, Georg Frey:
Probabilistic delay time analysis in networked automation systems. ETFA 2005 - [c20]K. Loeis, Mohammed Bani Younis, Georg Frey:
Application of symbolic and bounded model checking to the verification of logic control systems. ETFA 2005 - [c19]Tanvir Hussain, Georg Frey:
Migration of a PLC Controller to an IEC 61499 Compliant Distributed Control System: Hands-on Experiences. ICRA 2005: 3984-3989 - 2004
- [c18]Mohammed Bani Younis, Georg Frey:
Visualization of PLC programs using XML. ACC 2004: 3082-3087 - [c17]Georg Frey, Mohammed Bani Younis:
A Re-Engineering Approach for PLC Programs using Finite Automata and UML. IRI 2004: 24-29 - [c16]Tanvir Hussain, Georg Frey:
Developing IEC 61499 compliant distributed systems with network enabled controllers. RAM 2004: 507-512 - [c15]Mohammed Bani Younis, Georg Frey:
Formalization of PLC programs to sustain reliability. RAM 2004: 613-618 - 2003
- [c14]Georg Frey:
Hierarchical Design of Logic Controllers Using Signal Interpreted Petri Nets. ADHS 2003: 361-366 - [c13]Stéphane Klein, Georg Frey, Mark Minas:
PLC Programming with Signal Interpreted Petri Nets. ICATPN 2003: 440-449 - 2002
- [b1]Georg Frey:
Design and formal analysis of Petri net based logic control algorithms = Entwurf und formale Analyse Petrinetz-basierter Steuerungsalgorithmen. Kaiserslautern University of Technology, Germany, Shaker 2002, ISBN 978-3-8322-0043-5, pp. 1-140 - [c12]Stéphane Klein, Xiying Weng, Georg Frey, Jean-Jacques Lesage, Lothar Litz:
Controller design for an FMS using Signal Interpreted Petri Nets and SFC: Validation of both descriptions via model-checking. ACC 2002: 4141-4146 - [c11]Mark Minas, Georg Frey:
Visual PLC-programming using signal interpreted Petri nets. ACC 2002: 5019-5024 - [c10]Georg Frey:
Formal Methods in PLC Control Demonstrated at a Flexible Manufacturing Line. BASYS 2002: 501-508 - 2001
- [c9]Thomas Mertke, Georg Frey:
Formal verification of PLC programs generated from signal interpreted Petri nets. SMC 2001: 2700-2705 - 2000
- [c8]Georg Frey:
Automatic implementation of Petri net based control algorithms on PLC. ACC 2000: 2819-2823 - [c7]Georg Frey, Lothar Litz:
Correctness analysis of Petri net based logic controllers. ACC 2000: 3165-3166 - [c6]Georg Frey:
Analysis of Petri net based control algorithms - basic properties. ACC 2000: 3172-3176 - [c5]Georg Frey, Lothar Litz:
Transparency analysis of Petri net based logic controllers-a measure for software quality in automation. ACC 2000: 3182-3186 - [c4]Georg Frey, Lothar Litz, Frank Klöckner:
Complexity metrics for Petri net based logic control algorithms. SMC 2000: 1204-1209 - [c3]Georg Frey, Lothar Litz:
Formal methods in PLC programming. SMC 2000: 2431-2436
1990 – 1999
- 1998
- [c2]Georg Frey, Lothar Litz:
Verification and validation of control algorithms by coupling of interpreted Petri nets. SMC 1998: 7-12 - [c1]Lothar Litz, Georg Frey:
A senior course on logic process control based on Petri nets. SMC 1998: 274-277
Coauthor Index
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