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Ferdinand Svaricek
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2020 – today
- 2022
- [j12]Alfred Geisel
, Ferdinand Svaricek
Vorzeichen-Steuerbarkeit und Vorzeichen-Stabilisierbarkeit. Autom. 70(7): 601-611 (2022) - 2021
- [j11]Steffen Siegl, Ferdinand Svaricek:
UFIR-Parameteridentifikation in Echtzeit bei fehlenden Messungen. Autom. 69(1): 14-40 (2021) - 2020
- [j10]Steffen Siegl, Ferdinand Svaricek:
UFIR-Parameteridentifikation in Echtzeit. Autom. 68(3): 176-195 (2020) - [c23]Felix Goßmann, Agnes Gabrys, Ferdinand Svaricek:
Longitudinal Short-Period Aircraft Motion Control Under Loadcase Variation. ACC 2020: 4188-4194
2010 – 2019
- 2019
- [j9]Michael Fleps-Dezasse
Design and Experimental Assessment of an Active Fault-Tolerant LPV Vertical Dynamics Controller. IEEE Trans. Control. Syst. Technol. 27(3): 1267-1274 (2019) - [c22]Felix Goßmann, Ferdinand Svaricek:
Parameter Dependent Static Output Feedback Control - An LPV Approach. ECC 2019: 3322-3327 - 2018
- [c21]Felix Goßmann, Venkata S. Akkinapalli, Guillermo P. Falconi, Ferdinand Svaricek:
Performance Oriented Fault Tolerant Attitude Control of a Hexacopter Using LPV-Control with Partly-Measurable Parameters. CCTA 2018: 722-728 - 2017
- [c20]Felix Goßmann, Guillermo P. Falconi, Ferdinand Svaricek:
Fault tolerant control approach for passive handling of actuator degradation of a hexacopter using an LPV state-feedback controller with partly-measured parameters. MED 2017: 467-472 - 2016
- [j8]Ferdinand Svaricek, Nabil Lachhab:
H∞-Entwurf fraktionaler PID-Regler. Autom. 64(6): 407-417 (2016) - [c19]Michael Fleps-Dezasse
Experimental evaluation of Linear Parameter-Varying semi-active suspension control. CCA 2016: 77-84 - [c18]Andreas Daasch, Matthias Schultalbers, Ferdinand Svaricek:
Structural non-minimum phase systems. ACC 2016: 3758-3763 - 2014
- [j7]Gunther Reissig, Christoph Hartung, Ferdinand Svaricek:
Strong Structural Controllability and Observability of Linear Time-Varying Systems. IEEE Trans. Autom. Control. 59(11): 3087-3092 (2014) - [c17]Alexander Weber
A linear time algorithm to verify strong structural controllability. CDC 2014: 5574-5580 - [c16]Mahmoud M. Ahmed
Preview optimal control of vehicle semi-active suspension based on partitioning of chassis acceleration and tire load spectra. ECC 2014: 1669-1674 - [c15]Christoph Hartung, Ferdinand Svaricek:
Sign stabilizability. MED 2014: 145-150 - 2013
- [c14]Mahmoud Ahmed
Preview control of semi-active suspension based on a half-car model using Fast Fourier Transform. SSD 2013: 1-6 - [c13]Christoph Hartung, Gunther Reissig, Ferdinand Svaricek:
Sufficient conditions for strong structural controllability of uncertain linear time-varying systems. ACC 2013: 5875-5880 - [c12]Christoph Hartung, Gunther Reissig, Ferdinand Svaricek:
Characterization of sign controllability for linear systems with real eigenvalues. AuCC 2013: 450-455 - [c11]Christoph Hartung, Gunther Reissig, Ferdinand Svaricek:
Necessary conditions for structural and strong structural controllability of linear time-varying systems. ECC 2013: 1335-1340 - [c10]Nabil Lachhab, Ferdinand Svaricek, Frank Wobbe, Heiko Rabba:
Fractional order PID controller (FOPID)-Toolbox. ECC 2013: 3694-3699 - [c9]Mahmoud M. Ahmed
Adaptive robust gain scheduled control of vehicle semi-active suspension for improved ride comfort and road handling. ICM 2013: 376-381 - [i2]Gunther Reissig, Christoph Hartung, Ferdinand Svaricek:
Strong Structural Controllability of Linear Time-Varying Systems. CoRR abs/1306.1486 (2013) - 2012
- [c8]Mahmoud M. Ahmed
Non-model based adaptive control of electro-hydraulic servo systems using prefilter inversion. SSD 2012: 1-6 - [c7]Christoph Hartung, Gunther Reissig, Ferdinand Svaricek:
Characterization of strong structural controllability of uncertain linear time-varying discrete-time systems. CDC 2012: 2189-2194 - [i1]Jean-Francois Stumper, Ferdinand Svaricek, Ralph Kennel:
Trajectory Tracking Control with Flat Inputs and a Dynamic Compensator. CoRR abs/1211.5759 (2012) - 2011
- [j6]Ferdinand Svaricek, Jan Cristian Jarczyk, Benedikt Alt:
Strukturelle und streng strukuturelle Steuerbarkeit: Übersicht und neue Ergebnisse. Autom. 59(6): 329-339 (2011) - [c6]Jan Cristian Jarczyk, Ferdinand Svaricek, Benedikt Alt:
Strong structural controllability of linear systems revisited. CDC/ECC 2011: 1213-1218 - 2010
- [j5]Benedikt Alt, Felix Antritter, Ferdinand Svaricek, Matthias Schultalbers:
Ein modellbasiertes Konzept zur Antriebsstrangregelung für ein Parallelhybridfahrzeug (A Model Based Control Design Approach for Powertrain Control of a Parallel Hybrid Electric Vehicle). Autom. 58(10): 568-579 (2010) - [c5]Benedikt Alt, Jan Peter Blath, Ferdinand Svaricek, Matthias Schultalbers:
Self-tuning control design strategy for an electronic throttle with experimental robustness analysis. ACC 2010: 6127-6132
2000 – 2009
- 2009
- [j4]Benedikt Alt, Jan Peter Blath, Ferdinand Svaricek, Matthias Schultalbers:
Multiple Sliding Surface Control of Idle Engine Speed and Torque Reserve With Dead Start Assist Control. IEEE Trans. Ind. Electron. 56(9): 3580-3592 (2009) - [c4]Benedikt Alt, Jan Peter Blath, Ferdinand Svaricek, Matthias Schultalbers:
Control of idle engine speed and torque reserve with higher order sliding modes. CCA/ISIC 2009: 363-369 - [c3]Jean-François Stumper
Trajectory tracking control with flat inputs and a dynamic compensator. ECC 2009: 248-253 - [c2]Benedikt Alt, Jan Peter Blath, Ferdinand Svaricek, Matthias Schultalbers:
Dead start assist control using higher order sliding modes. ECC 2009: 4259-4264 - 2006
- [j3]Ferdinand Svaricek:
Nulldynamik linearer und nichtlinearer Systeme: Definitionen, Eigenschaften und Anwendungen (Zero Dynamics of Linear and Nonlinear Systems: Definitions, Properties and Applications). Autom. 54(7): 310-322 (2006) - [j2]Ferdinand Svaricek:
Discussion on: "Uniform Observability Analysis for Structured Bilinear Systems. A Graph-theoretic Approach". Eur. J. Control 12(5): 519-522 (2006) - 2005
- [j1]Christian Bohn, Hans-Jürgen Karkosch, Ferdinand Svaricek:
Zustandsbeobachter für periodische Signale: Anwendung zur aktiven Kompensation von motorerregten Karosserieschwingungen (State Observers for Periodic Signals: A Case Study in Active Vibration Control). Autom. 53(11): 525-536 (2005)
1990 – 1999
- 1999
- [c1]Hans-Jürgen Karkosch, Ferdinand Svaricek, R. A. Shoureshi, J. L. Vance:
Automotive applications of active vibration control. ECC 1999: 581-585
1980 – 1989
- 1987
- [b1]Ferdinand Svaricek:
Graphentheoretische Beschreibung und Bestimmung der endlichen und unendlichen Nullstellen von linearen Mehrgrössensystemen. University of Duisburg-Essen, Germany, VDI-Verlag 1987, ISBN 978-3-18-143508-3, pp. 1-135
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