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2020 – today
- 2024
[j13]Fabian Winkel
, Peter Scholz, Oliver Wallscheid, Joachim Böcker:
Reducing Contact Bouncing of a Relay by Optimizing the Switch Signal During Run-Time. IEEE Trans Autom. Sci. Eng. 21(4): 6165-6175 (2024)- [j12]Fabian Winkel, Johannes Deuse-Kleinsteuber, Joachim Böcker:
Run-to-Failure Relay Dataset for Predictive Maintenance Research With Machine Learning. IEEE Trans. Reliab. 73(1): 101-114 (2024) - 2023
- [j11]Wilhelm Kirchgässner, Oliver Wallscheid, Joachim Böcker:
Thermal neural networks: Lumped-parameter thermal modeling with state-space machine learning. Eng. Appl. Artif. Intell. 117(Part): 105537 (2023) - 2022
- [c30]Marius Stender, Marius Becker, Oliver Wallscheid, Joachim Böcker:
Adaptive Operating Strategy for Induction Motors Under Changing Electrical-Thermal Conditions. IECON 2022: 1-6 - 2021
- [j10]Marius Stender, Oliver Wallscheid, Joachim Böcker:
Comparison of Gray-Box and Black-Box Two-Level Three-Phase Inverter Models for Electrical Drives. IEEE Trans. Ind. Electron. 68(9): 8646-8656 (2021) - [j9]Anian Brosch, Oliver Wallscheid, Joachim Böcker:
Torque and Inductances Estimation for Finite Model Predictive Control of Highly Utilized Permanent Magnet Synchronous Motors. IEEE Trans. Ind. Informatics 17(12): 8080-8091 (2021) - [c29]Marius Stender, Oliver Wallscheid, Joachim Böcker:
Combined Electrical-Thermal Gray-Box Model and Parameter Identification of an Induction Motor. IECON 2021: 1-6 - [i5]Wilhelm Kirchgässner, Oliver Wallscheid, Joachim Böcker:
Thermal Neural Networks: Lumped-Parameter Thermal Modeling With State-Space Machine Learning. CoRR abs/2103.16323 (2021) - 2020
- [j8]Daniel Efren Gaona Erazo, Oliver Wallscheid, Joachim Böcker:
Improved Fusion of Permanent Magnet Temperature Estimation Techniques for Synchronous Motors Using a Kalman Filter. IEEE Trans. Ind. Electron. 67(3): 1708-1717 (2020) - [i4]Wilhelm Kirchgässner, Oliver Wallscheid, Joachim Böcker:
Data-Driven Permanent Magnet Temperature Estimation in Synchronous Motors with Supervised Machine Learning. CoRR abs/2001.06246 (2020) - [i3]Sören Hanke, Oliver Wallscheid, Joachim Böcker:
Data Set Description: Identifying the Physics Behind an Electric Motor - Data-Driven Learning of the Electrical Behavior (Part II). CoRR abs/2003.06268 (2020) - [i2]Sören Hanke, Oliver Wallscheid, Joachim Böcker:
Data Set Description: Identifying the Physics Behind an Electric Motor - Data-Driven Learning of the Electrical Behavior (Part I). CoRR abs/2003.07273 (2020)
2010 – 2019
- 2019
- [c28]Marius Stender, Oliver Wallscheid, Joachim Böcker:
Development of a Black-Box Two-Level IGBT Three-Phase Inverter Compensation Scheme for Electrical Drives. ISIE 2019: 296-301 - [c27]Wilhelm Kirchgässner, Oliver Wallscheid, Joachim Böcker:
Empirical Evaluation of Exponentially Weighted Moving Averages for Simple Linear Thermal Modeling of Permanent Magnet Synchronous Machines. ISIE 2019: 318-323 - [c26]Oliver Wallscheid, Muhammad Saad Shafiq, Joachim Böcker:
Stator Flux-Based Field-Oriented Position-Sensorless Control of Permanent Magnet Synchronous Motors With Limited Parameter Knowledge. ISIE 2019: 402-407 - [c25]Sven Bolte, Frank Schafmeister, Joachim Böcker:
Bidirectional Resonant Converter with Integrated Magnetics for On-Board Chargers. ISIE 2019: 770-774 - [c24]Philipp Rehlaender, Frank Schafmeister, Joachim Böcker, Tobias Grote:
Analytical Topology Comparison for a Single Stage On-Board EV-Battery Converter. ISIE 2019: 2477-2482 - [i1]Anian Brosch, Sören Hanke, Oliver Wallscheid, Joachim Böcker:
Data-Driven Recursive Least Squares Estimation for Model Predictive Current Control of Permanent Magnet Synchronous Motors. CoRR abs/1911.12065 (2019) - 2018
- [c23]Oleg Buchholz, Joachim Böcker:
Online-Identification of the Machine Parameters of an Induction Motor Drive. ISIE 2018: 860-867 - 2017
- [j7]Oliver Wallscheid, Andreas Specht, Joachim Böcker:
Observing the Permanent-Magnet Temperature of Synchronous Motors Based on Electrical Fundamental Wave Model Quantities. IEEE Trans. Ind. Electron. 64(5): 3921-3929 (2017) - [c22]Oliver Wallscheid, Wilhelm Kirchgässner, Joachim Böcker:
Investigation of long short-term memory networks to temperature prediction for permanent magnet synchronous motors. IJCNN 2017: 1940-1947 - [c21]Thorsten Vogt, Daniel Weber, Oliver Wallscheid, Joachim Böcker:
Prediction of residual power peaks in industrial microgrids using artificial neural networks. IJCNN 2017: 3228-3235 - [c20]Sven Bolte, Lukas Keuck, Jehan Khan Afridi, Norbert Fröhleke, Joachim Böcker:
Calorimetric measurements with compensating temperature control. ISIE 2017: 636-639 - 2015
- [j6]Jitendra Solanki, Norbert Fröhleke, Joachim Böcker:
Implementation of Hybrid Filter for 12-Pulse Thyristor Rectifier Supplying High-Current Variable-Voltage DC Load. IEEE Trans. Ind. Electron. 62(8): 4691-4701 (2015) - [c19]Michael Leuer, Joachim Böcker:
Switching strategy for Direct Model Predictive Control in power converter and drive applications with high switching frequency. ICARA 2015: 569-573 - [c18]Carsten Henkenius, Norbert Fröhleke, Joachim Böcker, Heiko Figge, Tobias Grote:
DCM detection for on-line adaption of control parameters for totem-pole PFC rectifier. ICIT 2015: 2062-2068 - [c17]Michael Leuer, Joachim Böcker:
Self-optimizing Model Predictive Direct Torque Control for electrical drives. ISIE 2015: 1046-1051 - 2014
- [c16]Christoph Schulte, Joachim Böcker:
Co-simulation of an interior permanent magnet synchronous motor with segmented rotor structure. IECON 2014: 437-442 - [c15]Oliver Wallscheid, Tobias Huber, Wilhelm Peters, Joachim Böcker:
Real-time capable methods to determine the magnet temperature of permanent magnet synchronous motors - A review. IECON 2014: 811-818 - [c14]Marc Hagemeyer, Jitendra Solanki, Norbert Fröhleke, Joachim Böcker, Andreas Averberg, Peter Wallmeier:
Comparison of PWM AC chopper topologies. IECON 2014: 1325-1330 - [p1]Joachim Böcker, Christian Heinzemann, Christian Hölscher, Jan Henning Keßler, Bernd Kleinjohann, Lisa Kleinjohann, Claudia Priesterjahn, Christoph Rasche, Peter Reinold, Christoph Romaus, Thomas Schierbaum, Tobias Schneider, Christoph Schulte, Bernd Schulz, Christoph Sondermann-Wölke, Karl Stephan Stille, Ansgar Trächtler, Detmar Zimmer:
Examples of Self-optimizing Systems. Design Methodology for Intelligent Technical Systems 2014: 27-64 - 2013
- [j5]Shashidhar Mathapati, Joachim Böcker:
Analytical and Offline Approach to Select Optimal Hysteresis Bands of DTC for PMSM. IEEE Trans. Ind. Electron. 60(3): 885-895 (2013) - [c13]Kathrin Flaßkamp, Sina Ober-Blöbaum, Tobias Schneider, Joachim Böcker:
Optimal control of a switched reluctance drive by a direct method using a discrete variational principle. CDC 2013: 7467-7473 - [c12]Karl Stephan Stille, Christoph Romaus, Joachim Böcker:
Online capable optimized planning of power split in a hybrid energy storage system. EUROCON 2013: 1158-1163 - [c11]Jitendra Solanki, Norbert Fröhleke, Joachim Böcker:
A completely modular power converter for high-power high-current DC applications. IECON 2013: 151-156 - [c10]Heiko Figge, Tobias Grote, Frank Schafmeister, Norbert Fröhleke, Joachim Böcker:
Two-phase interleaving configuration of the LLC resonant converter - Analysis and experimental evaluation. IECON 2013: 1392-1397 - [c9]Oleg Buchholz, Joachim Böcker:
FPGA-based dynamically reconfigurable control of induction motor drives. IECON 2013: 3543-3548 - [c8]Wilhelm Peters, Joachim Böcker:
Discrete-time design of adaptive current controller for interior permanent magnet synchronous motors (IPMSM) with high magnetic saturation. IECON 2013: 6608-6613 - 2012
- [c7]Zhiyu Cao, Junbing Tao, Norbert Fröhleke, Joachim Böcker:
Time-domain steady-state modeling of series-parallel resonant converter under optimized modulation. IECON 2012: 814-820 - [c6]Wilhelm Peters, Oliver Wallscheid, Joachim Böcker:
A precise open-loop torque control for an interior permanent magnet synchronous motor (IPMSM) considering iron losses. IECON 2012: 2877-2882 - [c5]Milind Paradkar, Joachim Böcker:
Design of a high performance ferrite magnet-assisted synchronous reluctance motor for an electric vehicle. IECON 2012: 4099-4103 - [c4]Zhiyu Cao, Franklin H. Nzeugang, Junbing Tao, Norbert Fröhleke, Joachim Böcker:
Novel dynamical modeling for series-parallel resonant converter. ISIE 2012: 414-419 - 2010
- [j4]Claus Kröger, Joachim Böcker, Konstantin Neiß:
Elektromobilität - ein aktuelles Forschungsfeld insbesondere der Regelungstechnik. Autom. 58(10): 542-545 (2010) - [j3]Joachim Böcker, Tobias Huber, Michael Meyer, Wilhelm Peters, Daniel Pohlenz, Andreas Specht:
Regelung elektrischer Traktionsantriebe in Elektro- und Hybridfahrzeugen (Control of Electric Propulsion Drives in Electric and Hybrid Vehicles). Autom. 58(10): 599-608 (2010)
2000 – 2009
- 2008
- [j2]Katrin Witting, Bernd Schulz, Michael Dellnitz, Joachim Böcker, Norbert Fröhleke:
A new approach for online multiobjective optimization of mechatronic systems. Int. J. Softw. Tools Technol. Transf. 10(3): 223-231 (2008) - [c3]Rongyuan Li, Michael Loenneker, Norbert Fröhleke, Joachim Böcker:
Design of Power Supply for Driving High Power Piezoelectric Actuators. IAS 2008: 1-6 - [c2]Jürgen Gausemeier, Rafael Radkowski, Helene Waßmann, Joachim Böcker, Christian Henke:
Anwendung von Augmented Reality zur visuellen Analyse einer Konvoi-Simulation am Beispiel der Neuen Bahntechnik Paderborn. SimVis 2008: 267-280 - 2006
- [c1]Christian Henke, Norbert Fröhleke, Joachim Böcker:
Advanced convoy control strategy for autonomously driven railway vehicles. ITSC 2006: 1388-1393 - 2002
- [j1]Joachim Böcker, Jörg Janning, Helmut Jebenstreit:
High dynamic control of a three-level voltage-source-converter drive for a main strip mill. IEEE Trans. Ind. Electron. 49(5): 1081-1092 (2002)
Coauthor Index
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