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ORCIDJan Lunze
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- affiliation: Ruhr-Universität Bochum, Germany
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2020 – today
- 2023
[j94]Markus Zgorzelski, Jan Lunze:
Cooperative control of networked discrete-event systems: Application to the handling system HANS. Eur. J. Control 69: 100737 (2023)- [j93]Alexander Schwab
, Jan Lunze:
Formation Control Over Delaunay Triangulation Networks With Guaranteed Collision Avoidance. IEEE Trans. Control. Netw. Syst. 10(1): 419-429 (2023) - [c90]Jan Lunze:
Phase Locking of Linear Oscillators with Individual Parameters. CDC 2023: 3453-3459 - 2022
- [j92]Michael Schwung, Jan Lunze:
Kooperative ereignisbasierte Steuerung von mobilen Objekten über ein unzuverlässiges Kommunikationsnetzwerk. Autom. 70(2): 105-118 (2022) - [j91]Jan Lunze:
Why are synchronised linear multi-agent systems sensitive to parameter deviations? Autom. 137: 110104 (2022) - [j90]Marc Wissing, Thimo Oehlschlägel, Jan Lunze:
Synchronisation of disturbed multi-agent systems. Int. J. Control 95(6): 1456-1469 (2022) - [j89]Alexander Schwab, Jan Lunze:
Design of Platooning Controllers That Achieve Collision Avoidance by External Positivity. IEEE Trans. Intell. Transp. Syst. 23(9): 14883-14892 (2022) - [c89]Alexander Schwab, Jan Lunze:
Analysis and Experimental Evaluation of a Lateral Controller for Path Tracking of Mobile Systems. ECC 2022: 2036-2042 - 2021
- [j88]Kai Schenk, Jan Lunze:
COCO - Ein Versuchsaufbau zur Erprobung von Methoden der vernetzten Regelung. Autom. 69(2): 131-141 (2021) - [j87]Kai Schenk, Jan Lunze:
Fehlertoleranz in kooperierenden Regelungssystemen durch Umverteilung der Regelungsaufgaben. Autom. 69(6): 442-456 (2021) - [j86]Jan Lunze:
PID-Regelkreise mit zwei Freiheitsgraden. Autom. 69(7): 565-573 (2021) - [j85]Kai Schenk, Marc Wissing, Jan Lunze:
Trajectory tracking in networks of linear systems. Autom. 123: 109326 (2021) - [j84]Michael Schwung, Jan Lunze:
Networked event-based collision avoidance of mobile objects with trajectory planning based on Bézier curves. Eur. J. Control 58: 327-339 (2021) - [j83]Alexander Schwab, Jan Lunze:
A distributed algorithm to maintain a proximity communication network among mobile agents using the Delaunay triangulation. Eur. J. Control 60: 125-134 (2021) - [j82]Christian Woelfel, Moritz Oberberg, Birk Berger, Dennis Engel, Ralf Peter Brinkmann, Julian Schulze, Peter Awakowicz, Jan Lunze:
Control-oriented plasma modeling and controller design for reactive sputtering. IFAC J. Syst. Control. 16: 100142 (2021) - [c88]Alexander Schwab, Jan Lunze:
On the Collision Avoidance of Adaptive Cruise Controllers: Comparison of String Stability and External Positivity. CCTA 2021: 20-25 - [c87]Michael Schwung, Jan Lunze:
Event-Based Control of Mobile Objects over an Unreliable Network. CDC 2021: 1986-1993 - [c86]Michael Schwung, Jan Lunze:
Control of an UAV Acting as a Communication Base Station to Satisfy Data Requirements. ECC 2021: 183-188 - [c85]Alexander Schwab, Florian Littek, Jan Lunze:
Experimental Evaluation of a Novel Approach to Cooperative Control of Multiple Robots with Artificial Potential Fields. ECC 2021: 2388-2393 - [c84]Philipp Welz, Jan Lunze:
Efficient set-point following of self-organising agents over random communication networks. ECC 2021: 2400-2407 - [c83]Philipp Welz, Jan Lunze:
Distributed design of a communication topology for efficient set-point following of self-organising agents. MED 2021: 1100-1107 - 2020
- [j81]Philipp Welz, Marius Fischer, Jan Lunze:
Experimentelle Erprobung einer kollisionsfreien Abstandsregelung für mobile Roboter. Autom. 68(1): 32-43 (2020) - [j80]Alexander Schwab, Jan Lunze:
How to design externally positive feedback loops - an open problem of control theory. Autom. 68(5): 301-311 (2020) - [j79]Zhiqiang Zhang, Jan Lunze, Long Wang:
Integral-based event-triggered control for multi-agent systems with general linear dynamics. Int. J. Control 93(5): 1005-1014 (2020) - [j78]Jan Lunze:
Design of the Communication Structure of Cooperative Adaptive Cruise Controllers. IEEE Trans. Intell. Transp. Syst. 21(10): 4378-4387 (2020) - [c82]Alexander Schwab, Lisa-Marie Reichelt, Philipp Welz, Jan Lunze:
Experimental Evaluation of an Adaptive Cruise Control and Cooperative Merging Concept. CCTA 2020: 318-325 - [c81]Michael Schwung, Jan Lunze:
Experimental evaluation of an event-based collision avoidance method with application to quadrotors. CCTA 2020: 633-639 - [c80]Kai Schenk, Jan Lunze:
A Laboratory Experiment with a Flexible Surface: Hardware, Software, and Control. CCTA 2020: 750-756 - [c79]Marc Wissing, Thimo Oehlschlägel, Jan Lunze:
Interesting Phenomena in the Synchronisation of Disturbed Systems. CDC 2020: 3114-3120 - [c78]Michael Schwung, Yasemin Karacora, Jan Lunze, Aydin Sezgin:
Event-based Quality-of-Service Parameter Estimation of a Wireless Channel. EBCCSP 2020: 1-7 - [c77]Michael Schwung, Jan Lunze:
Event-Based Trajectory Planning for 3D Collision Avoidance in a Leader-Follower Formation. ECC 2020: 1929-1936 - [c76]Jan Lunze:
Stability of periodically switched systems: illustrative examples. MED 2020: 79-84 - [c75]Kai Schenk, Jan Lunze:
Fault-Tolerant Task Allocation in Networked Control Systems. MED 2020: 313-318 - [c74]Marc Wissing, Thimo Oehlschlägel, Jan Lunze:
Disturbance Attenuation in Synchronised Systems. MED 2020: 411-416
2010 – 2019
- 2019
- [j77]Rainer Pickhardt, Jan Lunze:
Abschied von Prof. Dr.-Ing. Heinz Unbehauen. Autom. 67(7): 617-618 (2019) - [j76]Jan Lunze:
Vernetzte Abstandsregelung von Fahrzeugkolonnen. Autom. 67(12): 990-1006 (2019) - [j75]Jan Lunze:
Adaptive Cruise Control With Guaranteed Collision Avoidance. IEEE Trans. Intell. Transp. Syst. 20(5): 1897-1907 (2019) - [c73]Michael Schwung, Daniel Vey, Jan Lunze:
Quadrotor Tracking Control: Design and Experiments. CCTA 2019: 768-775 - [c72]Markus Zgorzelski, Jan Lunze:
Cooperative tracking control in networked discrete-event systems. CoDIT 2019: 115-120 - [c71]Philipp Welz, Jan Lunze:
Synchronisation of Linear Agents over a Time-Varying Random Network. CoDIT 2019: 616-621 - [c70]Michael Schwung, Felix Hagedorn, Jan Lunze:
Networked Event-Based Collision Avoidance of Mobile Objects. ECC 2019: 63-70 - [c69]Markus Zgorzelski, Jan Lunze:
A model abstraction method for networked discrete-event systems. ECC 2019: 3976-3983 - [c68]Kai Schenk, Jan Lunze:
Fault tolerance in networked systems through flexible task assignment. SysTol 2019: 257-263 - 2018
- [j74]Sebastian Pröll, Jan Lunze, Fabian Jarmolowitz:
From Structural Analysis to Observer-Based Residual Generation for Fault Detection. Int. J. Appl. Math. Comput. Sci. 28(2): 233-245 (2018) - [j73]Markus Zgorzelski, Jan Lunze:
Ein Ansatz zur vernetzten Steuerung ereignisdiskreter Systeme. Autom. 66(8): 617-632 (2018) - [j72]Jan Lunze:
Small-world architecture of networked control systems. Int. J. Control 91(7): 1652-1668 (2018) - [c67]Markus Zgorzelski, Philipp Ostendarp, Jan Lunze:
Experimental Application of a Networked Tracking Control Method to the Discrete-Event Demonstrator HANS. CCTA 2018: 450-457 - 2017
- [j71]Jan Lunze:
Zustandsbeobachtung linearer Systeme mit unbekannten Eingängen. Autom. 65(2): 99-114 (2017) - [j70]Jan Lunze:
Two methods to find analytical redundancy relations for fault diagnosis. Autom. 65(4): 219 (2017) - [j69]Jan Lunze:
Ein neues Konzept zur kooperativen Regelung von Fahrzeugkolonnen. Autom. 65(10): 672-682 (2017) - [j68]Jan Lunze:
Structural properties of networked systems with random communication links. Autom. 80: 300-304 (2017) - [c66]Christian Woelfel, Sven Kockmann, Peter Awakowicz, Jan Lunze:
Neural network based linearization and control of sputter processes. ASCC 2017: 2831-2836 - [c65]Christian Woelfel, Peter Awakowicz, Jan Lunze:
Robust high-gain control of nonlinear reactive sputter processes. CCTA 2017: 25-30 - [c64]Kai Schenk, Jan Lunze:
Fault-tolerant control in networked systems: A two-layer approach. CDC 2017: 6370-6376 - 2016
- [j67]Andrej Mosebach, Simon Röchner, Jan Lunze:
Koordination vernetzter Fahrzeuge an einer Fahrbahnzusammenführung. Autom. 64(1): 51-60 (2016) - [j66]Jan Lunze:
Eigenschaften von linearen DAE-Systemen. Autom. 64(2): 81-95 (2016) - [j65]Sven Bodenburg, Jan Lunze:
A local search algorithm for plug-and-play reconfiguration of interconnected systems. Autom. 64(12): 977-989 (2016) - [c63]René Schuh, Jan Lunze:
Self-organizing output feedback control of physically interconnected systems for disturbance attenuation. ACC 2016: 3358-3365 - [c62]Sven Bodenburg, Viktor Kraus, Jan Lunze:
A design method for plug-and-play control of large-scale systems with a varying number of subsystems. ACC 2016: 5314-5321 - [c61]Melanie Schuh, Jan Lunze:
Fault-tolerant control for deterministic discrete event systems with measurable state. ACC 2016: 7516-7522 - [c60]Daniel Vey, Kai Schenk, Jan Lunze:
Simultaneous control reconfiguration of systems with non-isolable actuator failures. ACC 2016: 7541-7548 - [c59]Jan Lunze:
Six degrees of separation in multi-agent systems. CDC 2016: 6838-6844 - [c58]Tobias Noesselt, Matthias Schultalbers, Jan Lunze:
Compensation of switching effects in hybrid event-based control systems. EBCCSP 2016: 1-8 - [c57]René Schuh, Jan Lunze:
Self-organizing distributed control with situation-dependent communication. ECC 2016: 222-229 - [c56]Sven Bodenburg, Jan Lunze:
Cooperative reconfiguration of locally interconnected systems with limited model information: A plug-and-play approach. ECC 2016: 249-256 - [c55]Daniel Vey, Jan Lunze:
Towards a reduced virtual actuator: A graph-theoretic approach. ECC 2016: 1915-1921 - [c54]Melanie Schuh, Jan Lunze:
Fault-tolerant control of deterministic I/O automata using active diagnosis. ECC 2016: 2359-2365 - [c53]Tobias Noesselt, Matthias Schultalbers, Jan Lunze:
Event-Separation Properties and Asymptotic Behaviour of Hybrid Event-Based Control Systems. HSCC 2016: 175-184 - [c52]Melanie Schuh, Jan Lunze:
Fault-tolerant control of deterministic I/O automata with ambiguous diagnostic result. WODES 2016: 251-257 - [c51]Melanie Schuh, Jan Lunze:
Tracking control of deterministic I/O automata. WODES 2016: 325-331 - [c50]Markus Zgorzelski, Jan Lunze:
A method for the synchronisation of networked discrete-event systems. WODES 2016: 444-451 - 2015
- [j64]Andrej Mosebach, Jan Lunze:
LQR design of synchronizing controllers for multi-agent systems. Autom. 63(6): 403-412 (2015) - [j63]Alexander Fay, Georg Frey, Jan Lunze:
Abschied von Prof. Dr.-Ing. habil. Lothar Litz. Autom. 63(11): 937-938 (2015) - [j62]Jan Lunze:
Schaltende PI-Regler. Autom. 63(12): 941-952 (2015) - [j61]Yannick Nke, Jan Lunze:
Control design for nondeterministic input/output automata. Eur. J. Control 21: 1-13 (2015) - [j60]Jan Lunze:
Self-organising disturbance attenuation for synchronised agents with individual dynamics. Int. J. Control 88(3): 469-483 (2015) - [c49]Tobias Noesselt, Matthias Schultalbers, Jan Lunze:
A design method for hybrid event-based control systems. ADHS 2015: 135-140 - [c48]Daniel Vey, Jan Lunze:
Structural reconfigurability analysis of multirotor UAVs after actuator failures. CDC 2015: 5097-5104 - [c47]Andrej Mosebach, Jan Lunze, Christoph Kampmeyer:
Transient behavior of synchronized agents: A design method for dynamic networked controllers. ECC 2015: 203-210 - [c46]René Schuh, Jan Lunze:
Self-organizing control of physically interconnected systems for disturbance attenuation. ECC 2015: 2186-2193 - [c45]René Schuh, Jan Lunze:
Design of the communication structure of a self-organizing networked controller for heterogeneous agents. ECC 2015: 2194-2201 - [c44]Sven Bodenburg, Jan Lunze:
Plug-and-play control of interconnected systems with a changing number of subsystems. ECC 2015: 3520-3527 - 2014
- [j59]Ozan Demir, Jan Lunze:
Synchronization of multi-agent systems with event-based communication. Autom. 62(8): 535-546 (2014) - [j58]Ozan Demir, Jan Lunze:
Optimal and event-based networked control of physically interconnected systems and multi-agent systems. Int. J. Control 87(1): 169-185 (2014) - [j57]Yang Liu, Jan Lunze:
Leader-follower synchronisation of autonomous agents with external disturbances. Int. J. Control 87(9): 1914-1925 (2014) - [c43]René Schuh, Jan Lunze:
Self-organizing control of unidirectionally coupled heterogeneous agents with information request. CDC 2014: 2453-2460 - [c42]Melanie Schuh, Jan Lunze:
Feedback control of nondeterministic input/output automata. CDC 2014: 6737-6743 - [c41]Sven Bodenburg, Simon Niemann, Jan Lunze:
Experimental evaluation of a fault-tolerant plug-and-play controller. ECC 2014: 1945-1950 - [c40]Melanie Schmidt, Jan Lunze:
A Framework for Active Fault-Tolerant Control of Deterministic I/O Automata. WODES 2014: 446-452 - 2013
- [j56]Jan Lunze, Cristina Verde Rodarte, Rubén Morales-Menéndez, Arturo Molina Gutiérrez, Ricardo Ramírez-Mendoza, Carlos-M. Astorga-Zaragoza:
8th SAFEPROCESS 2012: Special Section. Annu. Rev. Control. 37(1): 117-118 (2013) - [j55]Yannick Nke, Jan Lunze:
Systematischer Entwurf fehlertoleranter Steuerungen. Autom. 61(2): 122-130 (2013) - [j54]Oliver Junge, Jan Lunze:
Control Theory of Networked Systems. Autom. 61(7): 455-456 (2013) - [j53]Sven Bodenburg, Jan Lunze:
Plug-and-Play Control - Definition and Realisation in MATLAB. Autom. 61(7): 487-494 (2013) - [j52]Jan Lunze:
Vernetzte Regelungen aus der Sicht der Theorie komplexer Netzwerke. Autom. 61(10): 700-711 (2013) - [j51]Jan Lunze:
A method for designing the communication structure of networked controllers. Int. J. Control 86(9): 1489-1502 (2013) - [c39]Jan Lunze:
Synchronisation of autonomous agents with minimum communication. CDC 2013: 5415-5420 - [c38]Christian Stöcker, Jan Lunze:
Distributed event-based control of physically interconnected systems. CDC 2013: 7376-7383 - [c37]Christian Stöcker, Jan Lunze:
Input-to-state stability of event-based state-feedback control. ECC 2013: 1145-1150 - [c36]Andrej Mosebach, Jan Lunze:
Optimal synchronization of circulant networked multi-agent systems. ECC 2013: 3815-3820 - [c35]René Schuh, Jan Lunze:
Stability analysis of networked systems with similar dynamics. ECC 2013: 4359-4364 - [c34]Sven Bodenburg, Jan Lunze:
Plug-and-Play control - Theory and implementation. INDIN 2013: 165-170 - 2012
- [j50]Michael Ungermann, Jan Lunze, Dieter Schwarzmann:
Test signal generation for service diagnosis based on local structural properties. Int. J. Appl. Math. Comput. Sci. 22(1): 55-65 (2012) - [j49]Jan Lunze:
Transient Behaviour of Synchronised Agents. Autom. 60(7): 398-404 (2012) - [j48]Christian Stöcker, Jan Lunze, Chuong Ngo:
Zwei Methoden zur ereignisbasierten Regelung gekoppelter Systeme und ihre experimentelle Erprobung. Autom. 60(12): 724-734 (2012) - [j47]Daniel Lehmann, Jan Lunze:
Event-based control with communication delays and packet losses. Int. J. Control 85(5): 563-577 (2012) - [j46]Jan Lunze:
Complete synchronisation of linear oscillator networks. Int. J. Control 85(7): 800-814 (2012) - [j45]Jan Lunze:
Synchronization of Heterogeneous Agents. IEEE Trans. Autom. Control. 57(11): 2885-2890 (2012) - [c33]Ozan Demir, Jan Lunze:
Event-based synchronisation of multi-agent systems. ADHS 2012: 1-6 - [c32]Daniel Lehmann, Jan Lunze, Karl Henrik Johansson:
Comparison between sampled-data control, deadband control and model-based event-triggered control. ADHS 2012: 7-12 - [c31]Christian Stöcker, Jan Lunze, Daniel Vey:
Stability analysis of interconnected event-based control loops. ADHS 2012: 58-63 - [c30]Ozan Demir, Jan Lunze:
Cooperative control of multi-agent systems with event-based communication. ACC 2012: 4504-4509 - 2011
- [j44]Jan Falkenhain, Jan Lunze:
Garantierte Störgrößeneinschließung für lineare zeitdiskrete Systeme (Guaranteed Disturbance-set Estimation of Linear Discrete-time Systems). Autom. 59(2): 104-113 (2011) - [j43]Michael Ungermann, Dieter Schwarzmann, Jan Lunze:
Testgenerierung für die Werkstattdiagnose auf der Basis struktureller Modelle. Autom. 59(5): 270-279 (2011) - [j42]Michael Hilsch, Jan Lunze, Rainer Nitsche:
Internal Model Control of Nonlinear Systems with Input Saturation. Autom. 59(6): 354-363 (2011) - [j41]Jan Lunze:
Synchronisierbarkeit autonomer Agenten durch vernetzte Regelungen. Autom. 59(9): 531-539 (2011) - [j40]Jan H. Richter, W. P. M. H. Heemels, Nathan van de Wouw, Jan Lunze:
Reconfigurable control of piecewise affine systems with actuator and sensor faults: Stability and tracking. Autom. 47(4): 678-691 (2011) - [c29]Jan Lunze:
An internal-model principle for the synchronisation of autonomous agents with individual dynamics. CDC/ECC 2011: 2106-2111 - [c28]Christian Stöcker, Jan Lunze:
Event-based control of nonlinear systems: An input-output linearization approach. CDC/ECC 2011: 2541-2546 - 2010
- [j39]Lars Grüne, Lothar Litz, Jan Lunze:
Digital vernetzte Regelungssysteme. Autom. 58(4): 171-172 (2010) - [j38]Lars Grüne, Stefan Jerg, Oliver Junge, Daniel Lehmann, Jan Lunze, Florian Müller, Marcus Post:
Two Complementary Approaches to Event-based Control (Zwei komplementäre Zugänge zur ereignisbasierten Regelung). Autom. 58(4): 173-183 (2010) - [j37]Ozan Demir, Jan Lunze:
Autonomie und Kooperation in seriell gekoppelten Systemen (Autonomy and Cooperation in Serially Interconnected Systems). Autom. 58(4): 217-226 (2010) - [j36]Jan Lunze, Daniel Lehmann:
A state-feedback approach to event-based control. Autom. 46(1): 211-215 (2010) - [j35]Jan H. Richter, Jan Lunze, Thomas Steffen:
The Relation between the Virtual Actuator and the Dual Observer. Eur. J. Control 16(5): 525-531 (2010) - [j34]Plinio de Léon Cantón, Jan Lunze:
Dependable control of uncertain linear systems based on set-theoretic methods. Int. J. Control 83(6): 1248-1264 (2010) - [j33]Jan H. Richter, Jan Lunze:
Reconfigurable control of Hammerstein systems after actuator failures: stability, tracking, and performance. Int. J. Control 83(8): 1612-1630 (2010) - [j32]Jan Lunze, Christian Stöcker:
DFG Priority Programme 1305: Control Theory of Digitally Networked Dynamical Systems (DFG Schwerpunktprogramm 1305: Regelungstheorie digital vernetzter dynamischer Systeme). it Inf. Technol. 52(4): 224-228 (2010) - [c27]Yannick Nke, Jan Lunze:
Fault-tolerant control of nondeterministic input/output automata subject to actuator faults. WODES 2010: 350-355
2000 – 2009
- 2009
- [j31]Jan Lunze:
Zum 60. Geburtstag von Lothar Litz. Autom. 57(9): 486-490 (2009) - [j30]Plinio de Léon Cantón, Jan Lunze:
Set-theoretic State Observation of Disturbed Linear Systems with Parametric Uncertainties (Mengentheoretische Zustandsbeobachtung linearer Systeme unter Störungen und Parameterunbestimmtheiten). Autom. 57(10): 506-513 (2009) - [j29]Thorsten Schlage, Matthias Schwaiger, Volker Krebs, Jan Lunze:
Vergleich zweier Methoden zur modellbasierten Ferndiagnose technischer Systeme (Comparison of Two Model-based Methods of Remote Diagnosis of Technological Systems). Autom. 57(11): 539-551 (2009) - [c26]Xu Chu Ding, Axel Schild, Magnus Egerstedt, Jan Lunze:
Real-time optimal feedback control of switched autonomous systems. ADHS 2009: 108-113 - [c25]Axel Schild, Xu Chu Ding, Magnus Egerstedt, Jan Lunze:
Design of optimal switching surfaces for switched autonomous systems. CDC 2009: 5293-5298 - [c24]Daniel Lehmann, Jan Lunze:
Event-based control: A state-feedback approach. ECC 2009: 1716-1721 - [c23]Jan H. Richter, Siep Weiland, W. P. M. H. Heemels, Jan Lunze:
Decoupling-based reconfigurable control of linear systems after actuator faults. ECC 2009: 2512-2517 - [c22]Yannick Nke, Sebastian Drüppel, Jan Lunze:
Direct feedback in asynchronous networks of input-output automata. ECC 2009: 2608-2613 - [c21]Axel Schild, Jan Lunze:
Design of output-based switching laws for periodically operated discretely controlled continuous systems. ECC 2009: 4380-4385 - [c20]Axel Schild, Magnus Egerstedt, Jan Lunze:
Orbital Control for a Class of Planar Impulsive Hybrid Systems with Controllable Resets. HSCC 2009: 465-469 - 2008
- [j28]Sandra Hirche, Jan Lunze:
Digital vernetzte Regelungssysteme (Networked Control Systems). Autom. 56(1): 1-3 (2008) - [j27]Marcus Hellfeld, Axel Schild, Jan Lunze, Wolfgang M. Schwarz, Jörg Krupar:
Ereignisgesteuerte kontinuierliche Systeme - Eigenschaften und Entwurfsprobleme (Discretely Controlled Continuous Systems - Properties and Design Problems). Autom. 56(6): 307-315 (2008) - [j26]Jan Lunze:
Fault Diagnosis of Discretely Controlled Continuous Systems by Means of Discrete-Event Models. Discret. Event Dyn. Syst. 18(2): 181-210 (2008) - [j25]Jan Lunze, Jan H. Richter:
Reconfigurable Fault-tolerant Control: A Tutorial Introduction. Eur. J. Control 14(5): 359-386 (2008) - [j24]Jan H. Richter, Jan Lunze, Thorsten Schlage:
Control reconfiguration after actuator failures by Markov parameter matching. Int. J. Control 81(9): 1382-1398 (2008) - [c19]Jan H. Richter, Maurice Heemels, Nathan van de Wouw, Jan Lunze:
Reconfigurable control of PWA systems with actuator and sensor faults: Stability. CDC 2008: 1060-1065 - [c18]Axel Schild, Jan Lunze:
Switching Surface Design for Periodically Operated Discretely Controlled Continuous Systems. HSCC 2008: 471-485 - 2007
- [j23]Jan H. Richter, Thorsten Schlage, Jan Lunze:
Rekonfiguration eines thermofluiden Prozesses mittels virtuellem Aktor (Reconfiguration of a Thermofluid Process using a Virtual Actuator). Autom. 55(4): 157-169 (2007) - [c17]Axel Schild, Jan Lunze:
Stabilization of Limit Cycles of Discretely Controlled Continuous Systems by Controlling Switching Surfaces. HSCC 2007: 515-528 - 2006
- [j22]Jan Lunze, Jan H. Richter:
Entwurfsmethode für den verallgemeinerten virtuellen Aktor zur Rekonfiguration von Regelkreisen (Design Approach to the Generalised Virtual Actuator for Control Reconfiguration). Autom. 54(7): 353-362 (2006) - [j21]Jan Lunze:
Diagnosis of Discretely Controlled Continuous Systems (Diagnose ereignisgesteuerter Systeme). Autom. 54(8): 385-395 (2006) - [j20]Jörg Krupar, Jan Lunze, Axel Schild, Wolfgang M. Schwarz:
Analysis of Discretely Controlled Continuous Systems by means of Embedded Maps. IEICE Trans. Fundam. Electron. Commun. Comput. Sci. 89-A(10): 2697-2705 (2006) - [j19]Jan Lunze, Thomas Steffen:
Control Reconfiguration After Actuator Failures Using Disturbance Decoupling Methods. IEEE Trans. Autom. Control. 51(10): 1590-1601 (2006) - [c16]Jan Lunze:
Discrete-Event modelling and Fault Diagnosis of discretely controlled continuous Systems. ADHS 2006: 229-234 - [c15]Dieter Schwarzmann, Jan Lunze, Rainer Nitsche:
A flatness-based approach to internal model control. ACC 2006: 1-6 - 2005
- [j18]Tobias Kleinert, Jan Lunze:
Modelling and state observation of Simulated Moving Bed processes based on an explicit functional wave form description. Math. Comput. Simul. 68(3): 235-270 (2005) - 2004
- [j17]Jan Lunze, P. Supavatanakul:
Diagnosis of timed automata with an application to industrial actuators. Integr. Comput. Aided Eng. 11(1): 25-36 (2004) - [j16]Jan Lunze, Jochen Schröder:
Sensor and actuator fault diagnosis of systems with discrete inputs and outputs. IEEE Trans. Syst. Man Cybern. Part B 34(2): 1096-1107 (2004) - 2003
- [j15]Yingmin Jia, Hideki Kokame, Jan Lunze:
Simultaneous adaptive decoupling and model matching control of a fluidized bed combustor for sewage sludge. IEEE Trans. Control. Syst. Technol. 11(4): 571-577 (2003) - [c14]Stanley I. Kamau, Jan Lunze:
Controller Synthesis for Linear Switched Systems. ADHS 2003: 111-116 - [c13]Tobias Kleinert, Jan Lunze:
Modelling and state observation of Simulated Moving Bed processes. ECC 2003: 856-861 - [c12]Jan Lunze, D. Rowe-Serrano, Thomas Steffen:
Control reconfiguration demonstrated at a two-degrees-of-freedom helicopter model. ECC 2003: 2254-2260 - 2002
- [j14]Dirk Förstner, Merten Jung, Jan Lunze:
A discrete-event model of asynchronous quantised systems. Autom. 38(8): 1277-1286 (2002) - [j13]Javad Askari, Parviz Jabedar Maralani, Jan Lunze:
A Design Method for Stabilizing Qualitative Controller. Intell. Autom. Soft Comput. 8(3): 193-215 (2002) - 2001
- [j12]Jan Lunze:
Discrete-event system theory - an introduction: Antonio Tornambè; World Scientific Singapore, 1995, 336pp., ISBN: 981-02-2361-7. Autom. 37(1): 159-160 (2001) - [j11]Jan Lunze, Jochen Schröder:
State Observation and Diagnosis of Discrete-Event Systems Described by Stochastic Automata. Discret. Event Dyn. Syst. 11(4): 319-369 (2001) - [c11]Jan Lunze, Jochen Schröder:
Sensor and actuator fault diagnosis of quantised systems. ECC 2001: 2753-2758 - [c10]Jan Lunze, Jochen Schröder:
Computation of complete abstractions of quantised systems. ECC 2001: 3137-3142 - [c9]Jan Lunze, Jochen Schröder, P. Supavatanakul:
A graduate course on qualitative modelling and process supervision. ECC 2001: 3312-3317 - [c8]Jochen Schröder, Jan Lunze:
Representation of Quantised Systems by the Frobenius-Perron Operator. HSCC 2001: 473-486 - 2000
- [j10]Jan Lunze:
Diagnosis of quantized systems based on a timed discrete-event model. IEEE Trans. Syst. Man Cybern. Part A 30(3): 322-335 (2000) - [c7]Jan Lunze:
Diagnosis of Quantised Systems by Means of Timed Discrete-Event Representations. HSCC 2000: 258-271
1990 – 1999
- 1999
- [j9]Jan Lunze, Bernhard Nixdorf, Jochen Schröder:
Deterministic discrete-event representations of linear continuous-variable systems. Autom. 35(3): 395-406 (1999) - [c6]Jan Lunze, Bernhard Nixdorf, Jochen Schröder:
A unified approach to the representation of discrete-time and discrete-event quantised systems. ECC 1999: 3346-3351 - [c5]B. Heiming, Jan Lunze:
Definition of the three-tank benchmark problem for controller reconfiguration. ECC 1999: 4030-4034 - [c4]Javad Askari, B. Heiming, Jan Lunze:
Controller reconfiguration based on a qualitative model: A solution of three-tanks benchmark problem. ECC 1999: 4035-4040 - [c3]Jan Lunze, Jochen Schröder:
Qualitative diagnosis of the 3-tanks system. ECC 1999: 4450-4455 - 1998
- [j8]Jan Lunze:
On the Markov Property of Quantised State Measuirement Sequences. Autom. 34(11): 1439-1444 (1998) - 1997
- [j7]Jan Lunze:
Prozeßdiagnose mit qualitativen Methoden. Künstliche Intell. 11(2): 21-22 (1997) - 1994
- [j6]Jan Lunze:
Qualitative modelling of linear dynamical systems with quantized state measurements. Autom. 30(3): 417-431 (1994) - 1992
- [c2]Jan Lunze:
Möglichkeiten und Grenzen der Künstlichen Intelligenz - Überlegungen aus der Sicht der Automatisierungstechnik. Künstliche Intelligenz - Leitvorstellungen und Verantwortung (2) 1992: 70-82 - 1991
- [c1]Jan Lunze:
Prozessdiagnose auf der Grundlage eine prädikatenlogischen Prozessbeschreibung. Prozeßrechnersysteme 1991: 150-159
1980 – 1989
- 1989
- [j5]Jan Lunze:
Stability analysis of large-scale systems composed of strongly coupled similar subsystems. Autom. 25(4): 561-570 (1989) - 1988
- [j4]Lubomír Bakule, Jan Lunze:
Decentralized design of feedback control for large-scale systems. Kybernetika 24(8): 1-96 (1988) - 1986
- [j3]Jan Lunze:
A unified approach for designing robust linear feedback controllers. Kybernetika 22(3): 226-243 (1986) - 1984
- [j2]Jan Lunze:
A procedure for designing stabilizing output feedback controllers. Kybernetika 20(6): 483-495 (1984) - 1983
- [j1]Jan Lunze:
Determination of Stabilizing Output Feedback Matrices to Initiate Optimal Control Procedures. J. Inf. Process. Cybern. 19(3): 137-151 (1983)
Coauthor Index
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