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Stefan van Waasen
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2020 – today
- 2024
- [j8]Chimezie Eguzo, Benedikt Scherer, Daniel Keßel, Ilja Bekman, Matthias Streun, Mario Schlösser, Stefan van Waasen:
On Automating FPGA Design Build Flow Using GitLab CI. IEEE Embed. Syst. Lett. 16(2): 227-230 (2024) - [c24]Fabian Schätzle, Carlos Falquez, Stefan Heinen, Nam Ho, Antoni Portero, Estela Suarez, Johannes Van Den Boom, Stefan van Waasen:
Modeling methodology for multi-die chip design based on gem5/SystemC co-simulation. RAPIDO@HiPEAC 2024: 35-41 - [c23]Jonas Mair, Sabitha Kusuma, Dennis Liebau, Lammert Duipmans, Lea Schreckenberg, Patrick Vliex, André Zambanini, Stefan van Waasen:
Rapid Prototyping Platform for Integrated Circuits for Quantum Computing. SMACD 2024: 1-4 - [c22]M. Shamookh, Arun Ashok, Andre Zambanini, Anton Geläschus, Christian Grewing, Andreas Bahr, Stefan van Waasen:
3.35V High Voltage Electroforming Generator in 28nm with 5.3mV ripple and 46% efficiency for HfO2-based Memristors. SMACD 2024: 1-4 - 2023
- [j7]Martial Tazifor Tchantcho, Egon Zimmermann, Johan Alexander Huisman, Markus Dick, Achim Mester, Stefan van Waasen:
Low-Pass Filters for a Temperature Drift Correction Method for Electromagnetic Induction Systems. Sensors 23(17): 7322 (2023) - [j6]Leon Steinbeck, Achim Mester, Egon Zimmermann, Anja Klotzsche, Stefan van Waasen:
Calibration of a Stationary Multichannel GPR Monitoring System Using Internal Reflection Measurements. IEEE Trans. Geosci. Remote. Sens. 61: 1-10 (2023) - [c21]Alfonso Rafael Cabrera-Galicia, Arun Ashok, Patrick Vliex, Andre Kruth, Andre Zambanini, Stefan van Waasen:
A Cryogenic Voltage Regulator with Integrated Voltage Reference in 22 nm FDSOI Technology. APCCAS 2023: 304-308 - [c20]Lea Schreckenberg, René Otten, Patrick Vliex, Ran Xue, Jhih-Sian Tu, Inga Seidler, Stefan Trellenkamp, Lars R. Schreiber, Hendrik Bluhm, Stefan van Waasen:
SiGe Qubit Biasing with a Cryogenic CMOS DAC at mK Temperature. ESSCIRC 2023: 161-164 - 2022
- [j5]Martial Tazifor, Egon Zimmermann, Johan Alexander Huisman, Markus Dick, Achim Mester, Stefan van Waasen:
Model-Based Correction of Temperature-Dependent Measurement Errors in Frequency Domain Electromagnetic Induction (FDEMI) Systems. Sensors 22(10): 3882 (2022) - [c19]Leon Steinbeck, Achim Mester, Christian Roth, Egon Zimmermann, Anja Klotzsche, Stefan van Waasen:
Evaluation of Internal Signal Reflections for an in Situ Calibration of a Ground Penetrating Radar Monitoring System. IGARSS 2022: 104-106 - 2021
- [c18]Markus Robens, Christian Grewing, Michael Schiek, Stefan van Waasen:
Effective Low-Pass Filter Function Due to the Use of a Comb Filter and Virtual Oversampling. ISCAS 2021: 1-5 - [c17]R. Kleijnen, Markus Robens, Michael Schiek, Stefan van Waasen:
A Network Simulator for the Estimation of Bandwidth Load and Latency Created by Heterogeneous Spiking Neural Networks on Neuromorphic Computing Communication Networks. MCSoC 2021: 320-327 - 2020
- [j4]Tao Chen, Michael Schiek, Jürgen Dammers, N. Jon Shah, Stefan van Waasen:
Requirement-driven model-based development methodology applied to the design of a real-time MEG data processing unit. Softw. Syst. Model. 19(6): 1567-1587 (2020) - [c16]Sergey Suslov, Michael Schiek, Markus Robens, Christian Grewing, Stefan van Waasen:
Simulating Heterogeneous Models on Multi-Core Platforms using Julia's Computing Language Parallel Potential. DS-RT 2020: 1-4
2010 – 2019
- 2019
- [c15]F. Seidler, Michael Schiek, Wolfgang Silex, Roger Heil, Stefan van Waasen, Dirk Abel:
Iterative Learning Wave Control of a 20 Actuator System for External Flow Research. CoDIT 2019: 1272-1276 - [c14]C. Degenhardt, A. Artanov, Lotte Geck, Christian Grewing, Andre Kruth, Dennis Nielinger, Patrick Vliex, Andre Zambanini, Stefan van Waasen:
Systems Engineering of Cryogenic CMOS Electronics for Scalable Quantum Computers. ISCAS 2019: 1-5 - [i1]Lotte Geck, Andre Kruth, Hendrik Bluhm, Stefan van Waasen, Stefan Heinen:
Control Electronics For Semiconductor Spin Qubits. CoRR abs/1903.04872 (2019) - 2018
- [c13]F. Seidler, Michael Schiek, Wolfgang Silex, Roger Heil, Stefan van Waasen, Dirk Abel:
Iterative Learning Control and Decoupling of Lorentz Force Based Actuator Systems for Turbulence Research. CCTA 2018: 1265-1269 - [c12]Nina Parkalian, Markus Robens, Christian Grewing, Volker Christ, Dennis Liebau, P. Muralidharan, Dennis Nielinger, Ugur Yegin, Andre Zambanini, Stefan van Waasen:
Modeling and Simulation of Digital Phase-Locked Loop in Simulink. SMACD 2018: 121-9 - 2017
- [c11]Tao Chen, Sergey Suslov, Michael Schiek, N. Jon Shah, Stefan van Waasen, Jürgen Dammers:
Model-Driven Development Methodology Applied to Real-Time MEG Signal Preprocessing System Design. EMS 2017: 28-33 - [c10]C. Degenhardt, Lotte Geck, Andre Kruth, Patrick Vliex, Stefan van Waasen:
CMOS Based Scalable Cryogenic Control Electronics for Qubits. ICRC 2017: 1-4 - [c9]F. Seidler, Michael Schiek, Wolfgang Silex, Roger Heil, Stefan van Waasen, Dirk Abel:
Sensors for waveform control in a Lorentz force based actuator system for turbulence research. IEEE SENSORS 2017: 1-3 - [c8]Sebastian Völkel, Roger Heil, Michael Schiek, Mario Schlösser, Wolfgang Silex, Stefan van Waasen:
Smooth wavelength transition in a Lorentz force based actuator system for turbulence research. IEEE SENSORS 2017: 1-3 - 2016
- [j3]Yu Yao, Guanghao Sun, Takemi Matsui, Yukiya Hakozaki, Stefan van Waasen, Michael Schiek:
Multiple Vital-Sign-Based Infection Screening Outperforms Thermography Independent of the Classification Algorithm. IEEE Trans. Biomed. Eng. 63(5): 1025-1033 (2016) - 2015
- [c7]Marcel Dueck, Dirk Abel, Stefan van Waasen, Michael Schiek:
Transversal surface wave control by gain switching iterative learning improving research on active turbulent flow control. AuCC 2015: 300-305 - 2014
- [j2]Yu Yao, Christoph Brüser, Uwe Pietrzyk, Steffen Leonhardt, Stefan van Waasen, Michael Schiek:
Model-Based Verification of a Non-Linear Separation Scheme for Ballistocardiography. IEEE J. Biomed. Health Informatics 18(1): 174-182 (2014) - [c6]Yu Yao, J. Schiefer, Stefan van Waasen, Michael Schiek:
A non-parametric model for Ballistocardiography. SSP 2014: 69-72 - 2013
- [c5]Tony Pilz, Eduard Fried, Stefan van Waasen, Gudrun Wagenknecht:
Improvement of an Active Surface Model by Adaptive External Forces. Bildverarbeitung für die Medizin 2013: 110-115 - [c4]Eduard Fried, Tony Pilz, Stefan van Waasen, Gudrun Wagenknecht:
Extraction of Partial Skeletons for Semi-Automatic Segmentation of Cortical Structures. Bildverarbeitung für die Medizin 2013: 283-289 - 2010
- [c3]Christoph Schultz, Markus Hammes, Rainer Kreienkamp, Lars Lemke, Stefan van Waasen:
Interferer performance dependency on analog-digital-conversion of GNSS-class signals in GPS receivers. ICECS 2010: 675-678
2000 – 2009
- 2004
- [c2]Christian Grewing, Martin Friedrich, Giuseppe Li Puma, Christoph Sandner, Stefan van Waasen, Andreas Wiesbauer, Kay Winterberg:
Fully integrated ultra wide band CMOS low noise amplifier. ESSCIRC 2004: 435-438 - 2001
- [c1]Christian Duerdodt, Martin Friedrich, Christian Grewing, Markus Hammes, Andre Hanke, Stefan Heinen, Jürgen Oehm, Duyen Pham-Stabner, Dietolf Seippel, Detlev Theil, Stefan van Waasen:
The first near zero-IF RX, 2-point modulation TX CMOS SOC Bluetooth solution. CICC 2001: 429-432
1990 – 1999
- 1997
- [j1]Stefan van Waasen, Andreas Umbach, Uwe Auer, Heinz-Gunter Bach, Ralf Michael Bertenburg, Guido Janssen, Gebre Giorgis Mekonnen, Wolfgang Passenberg, Ralf Reuter, Wolfgang Schlaak, Carsten Schramm, Günter Unterbörsch, Peter Wolfram, Franz-Josef Tegude:
27-GHz bandwidth high-speed monolithic integrated optoelectronic photoreceiver consisting of a waveguide fed photodiode and an InAlAs/InGaAs-HFET traveling wave amplifier. IEEE J. Solid State Circuits 32(9): 1394-1401 (1997)
Coauthor Index
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