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Thomas Zwick
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- affiliation: Karlsruhe Institute of Technology, Germany
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2020 – today
- 2024
- [j38]Joachim Hebeler
, Luca Steinweg
Wideband BPSK Transmitter Phased Array Operating at 246 GHz With ±30° Steering Range. IEEE Access 12: 51130-51137 (2024) - [j37]Mateus de Lima Filomeno
Wide-sense stationary discrete-time random processes: Analyses in the discrete-Fresnel and discrete-frequency domains. J. Frankl. Inst. 361(17): 107310 (2024) - [j36]Yueheng Li
User Detection in RIS-Based mmWave JCAS: Concept and Demonstration. IEEE Trans. Wirel. Commun. 23(8): 9596-9612 (2024) - [c43]Daniel Drayß, Dengyang Fang, Alexander Quint, Luca Valenziano, Matthias Lauermann, Grigory Lihachev, Yung Chen, Huanfa Peng, Sebastian Randel, Thomas Zwick, Wolfgang Freude, Tobias J. Kippenberg, Christian Koos:
Integrated Non-sliced OAWM Engine Enabling 320 GHz Photonic-Electronic Analog-to-Digital Conversion. OFC 2024: 1-3 - [c42]Dengyang Fang, Daniel Drayß, Yung Chen, Matthias Lauermann, Huanfa Peng, Grigory Lihachev, Alexander Quint, Luca Valenziano, Sebastian Randel, Thomas Zwick, Wolfgang Freude, Tobias J. Kippenberg, Christian Koos:
Spectrally Sliced Optical Arbitrary Waveform Measurement (OAWM) Using a Photonic Multi-Chip Receiver Assembly. OFC 2024: 1-3 - [c41]Pascal Maier, Alexander Kotz, Joachim Hebeler, Qiaoshuang Zhang, Christian Benz, Alexander Quint, Marius Kretschmann, Tobias Harter, Sebastian Randel, Uli Lemmer, Wolfgang Freude, Thomas Zwick, Christian Koos:
3D Freeform Millimeter-Wave and THz Structures Based on Multi-Photon Lithography. OFC 2024: 1-3 - [c40]Adrian Schwarzenberger, Stefan Singer, Carsten Eschenbaum, Malte Martens, Adrian Mertens, Georges Dagher, Luca Valenziano, Sidra Sarwar, Hend Kholeif, Alexander Kotz, Thomas Zwick, Stefan Bräse, Wolfgang Freude, Sebastian Randel, Christian Koos:
Linear-Drive Amplifier-Less 112 Gbit/s PAM4 Operation of a Silicon-Organic Hybrid (SOH) Mach-Zehnder Modulator at 265 mVpp. OFC 2024: 1-3 - 2023
- [j35]Tim Maiwald
A Review of Integrated Systems and Components for 6G Wireless Communication in the D-Band. Proc. IEEE 111(3): 220-256 (2023) - [j34]Yueheng Li
Programmable Metasurface Hybrid MIMO Beamforming: Channel Estimation, Data Transmission, and System Implementations at 28 GHz. IEEE Syst. J. 17(1): 1270-1281 (2023) - [c39]Sevda Abadpour
Automotive Radar Channel Simulation based on a High-Resolution Backscattering Model of a Motorcyclist. RWS 2023: 48-51 - [c38]Kai Braungardt, Axel Diewald, Benjamin Nuss
Optimizing the Coupling Factor of a Tapped Delay Line for Analog Radar Target Simulation. WiSNeT 2023: 46-48 - 2022
- [j33]Mateus de Lima Filomeno
Joint Channel Estimation and Schmidl & Cox Synchronization for OCDM-Based Systems. IEEE Commun. Lett. 26(8): 1878-1882 (2022) - [j32]Lucas Giroto de Oliveira
Doppler Shift Tolerance of Typical Pseudorandom Binary Sequences in PMCW Radar. Sensors 22(9): 3212 (2022) - [c37]Daniel Drayß, Dengyang Fang, Christoph Füllner, Grigorii Likhachev, Thomas Henauer, Yung Chen, Huanfa Peng, Pablo Marin-Palomo, Thomas Zwick, Wolfgang Freude, Tobias J. Kippenberg, Sebastian Randel, Christian Koos:
Slice-Less Optical Arbitrary Waveform Measurement (OAWM) in a Bandwidth of More Than 600 GHz. OFC 2022: 1-3 - [c36]Thomas Henauer, Alban Sherifaj, Christoph Füllner, Wolfgang Freude, Sebastian Randel, Thomas Zwick, Christian Koos:
200 GBd 16QAM Signals Synthesized by an Actively Phase-Stabilized Optical Arbitrary Waveform Generator (OAWG). OFC 2022: 1-3 - 2021
- [j31]Alexandros Ninos
Synthetic Radar Dataset Generator for Macro-Gesture Recognition. IEEE Access 9: 76576-76584 (2021) - [j30]Joerg Eisenbeis
Sparse Array Channel Estimation for Subarray-Based Hybrid Beamforming Systems. IEEE Wirel. Commun. Lett. 10(2): 231-235 (2021) - [j29]Yueheng Li
Beamsteering for 5G Mobile Communication Using Programmable Metasurface. IEEE Wirel. Commun. Lett. 10(7): 1542-1546 (2021) - [c35]Axel Diewald, Theresa Antes
Implementation of Range Doppler Migration Synthesis for Radar Target Simulation. VTC Spring 2021: 1-5 - [c34]Axel Diewald, Theresa Antes
Range Doppler Migration Synthesis for Realistic Radar Target Simulation. WiSNet 2021: 56-58 - 2020
- [j28]Joerg Eisenbeis
Beam Pattern Optimization Method for Subarray-Based Hybrid Beamforming Systems. Wirel. Commun. Mob. Comput. 2020: 8853794:1-8853794:7 (2020) - [c33]Christian Koos, Sebastian Randel, Wolfgang Freude
Photonic-Electronic Ultra-Broadband Signal Processing: Concepts, Devices, and Applications. BCICTS 2020: 1-3
2010 – 2019
- 2019
- [j27]Akanksha Bhutani
The Role of Millimeter-Waves in the Distance Measurement Accuracy of an FMCW Radar Sensor. Sensors 19(18): 3938 (2019) - 2018
- [j26]Leen Sit
On Mutual Interference Cancellation in a MIMO OFDM Multiuser Radar-Communication Network. IEEE Trans. Veh. Technol. 67(4): 3339-3348 (2018) - [c32]Sandeep Ummethala
Wireless Transmission at 0.3 THz Using Direct THz-to-Optical Conversion at the Receiver. ECOC 2018: 1-3 - [c31]Tobias Mahler, Cornelius Richt, Lisa Bell, Mario Pauli, Jerzy Kowalewski, Thomas Zwick:
Antenna synthesis for SIMO and MISO systems with optimality to arbitrary quantiles of the channel capacity. RWS 2018: 35-37 - [c30]Jochen Schafer, Benjamin Göttel, Heiko Gulan, Thomas Zwick:
Integrated planar 122 GHz FMCW radar with frequency scanning antenna. WiSNet 2018: 41-43 - 2017
- [j25]Serdal Ayhan
Millimeter-Wave Radar Sensor for Snow Height Measurements. IEEE Trans. Geosci. Remote. Sens. 55(2): 854-861 (2017) - [c29]Wolfgang Freude
PIPED: A silicon-plasmonic high-speed photodetector. ICTON 2017: 1-4 - [c28]Ingmar Kallfass
Multi-Gigabit high-range fixed wireless links at high millimeterwave carrier frequencies. RWS 2017: 45-48 - [c27]Steffen Scherr, Rifat Afroz, Serdal Ayhan, Sven Thomas
Target evaluation for high accuracy 80 GHz FMCW radar distance measurements. WiSNet 2017: 11-14 - [c26]Gerald Artner
Automotive pattern reconfigurable antennas concealed in a chassis cavity. WPMC 2017: 265-270 - 2016
- [j24]Bita Sobhani, Thomas Zwick
Target TOA association with the hough transform in UWB radars. IEEE Trans. Aerosp. Electron. Syst. 52(2): 743-754 (2016) - [c25]Serdal Ayhan, Steffen Scherr, Akanksha Bhutani
System simulation for FMCW radar in industrial applications. WiSNet 2016: 27-30 - 2015
- [j23]Lukasz Zwirello, Tom Schipper, Malyhe Jalilvand, Thomas Zwick
Realization Limits of Impulse-Based Localization System for Large-Scale Indoor Applications. IEEE Trans. Instrum. Meas. 64(1): 39-51 (2015) - [j22]Steffen Scherr, Serdal Ayhan, Benjamin Fischbach, Akanksha Bhutani
An Efficient Frequency and Phase Estimation Algorithm With CRB Performance for FMCW Radar Applications. IEEE Trans. Instrum. Meas. 64(7): 1868-1875 (2015) - [c24]Serdal Ayhan, Sven Thomas
Millimeter-wave radar distance measurements in micro machining. WiSNet 2015: 65-68 - 2014
- [j21]Friederike Brendel, Thomas Zwick
PLL-Stabilized Optical Communications in Millimeter-Wave RoF Systems. JOCN 6(1): 45-53 (2014) - [j20]Swen Koenig, Jochen Antes, Daniel Lopez-Diaz, René Schmogrow, Thomas Zwick
20 Gbit/s Wireless Bridge at 220 GHz Connecting Two Fiber-Optic Links. JOCN 6(1): 54-61 (2014) - [c23]Wolfgang Freude
Wireless communications on THz carriers takes shape. ICTON 2014: 1-4 - [c22]Ulrich J. Lewark, Jochen Antes, Michael Kuri, Ralf Henneberger, Axel Tessmann, Sandrine Wagner, Arnulf Leuther, Thomas Zwick
MMIC-based module-level frequency generation for e-band communication systems. RWS 2014: 85-87 - 2013
- [j19]J. Bauer, Dominik Kern
Planar positioning stage for micro machining. Prod. Eng. 7(5): 511-516 (2013) - [c21]Lukasz Zwirello, Xuyang Li, Thomas Zwick
Sensor data fusion in UWB-supported inertial navigation systems for indoor navigation. ICRA 2013: 3154-3159 - [c20]Yaoming Sun, Miroslav Marinkovic, Gunter Fischer, Wolfgang Winkler, Wojciech Debski, Stefan Beer, Thomas Zwick
A low-cost miniature 120GHz SiP FMCW/CW radar sensor with software linearization. ISSCC 2013: 148-149 - [c19]Swen Koenig, Florian Boes, Daniel Lopez-Diaz, Jochen Antes, Ralf Henneberger, René Schmogrow, David Hillerkuss, Robert Palmer, Thomas Zwick, Christian Koos, Wolfgang Freude, Oliver Ambacher, Ingmar Kallfass, Juerg Leuthold:
100 Gbit/s wireless link with mm-wave photonics. OFC/NFOEC 2013: 1-3 - [c18]Nils Pohl
Radar measurements with micrometer accuracy and nanometer stability using an ultra-wideband 80 GHz radar system. WiSNet 2013: 31-33 - 2012
- [j18]Lukasz Zwirello, Tom Schipper, Marlene Harter, Thomas Zwick
UWB Localization System for Indoor Applications: Concept, Realization and Analysis. J. Electr. Comput. Eng. 2012: 849638:1-849638:11 (2012) - [j17]Grzegorz Adamiuk, Thomas Zwick
UWB Antennas for Communication Systems. Proc. IEEE 100(7): 2308-2321 (2012) - [c17]Mario Pauli, Serdal Ayhan, Steffen Scherr, Christian Rusch, Thomas Zwick
Range detection with micrometer precision using a high accuracy FMCW radar system. SSD 2012: 1-4 - [c16]Lukasz Zwirello, Michael Hesz, Leen Sit, Thomas Zwick
Algorithms for synchronization of coherent UWB receivers and their application. ICUWB 2012: 207-211 - [c15]Rahmi Salman, Ingolf Willms, Lars Reichardt, Thomas Zwick
On polarization diversity gain in short range UWB-Radar object imaging. ICUWB 2012: 402-406 - [c14]Xuyang Li, Malyhe Jalilvand, Jijing Yan, Lukasz Zwirello, Thomas Zwick
A multiband slotted Bowtie antenna for stroke detection. ICUWB 2012: 439-442 - [c13]Christian Ascher, Sebastian Werling, Gert F. Trommer, Lukasz Zwirello, Carina Hansmann, Thomas Zwick
Radio-asissted inertial navigation system by tightly coupled sensor data fusion: Experimental results. IPIN 2012: 1-7 - [c12]Jochen Antes, Tobias Mahler, Thomas Zwick
Study on data transmission of complex modulated signals using an MMIC-based 220 GHz wireless link. ISSSE 2012: 1-4 - 2011
- [j16]Xuyang Li, Grzegorz Adamiuk, Elena Pancera, Thomas Zwick
Physics-based propagation characterisations of UWB signals for the urine detection in human bladder. Int. J. Ultra Wideband Commun. Syst. 2(2): 94-103 (2011) - [j15]Juan Pontes, Lars Reichardt, Thomas Zwick
Investigation on Antenna Systems for Car-to-Car Communication. IEEE J. Sel. Areas Commun. 29(1): 7-14 (2011) - [j14]Lars Reichardt, Jürgen Maurer, Thomas Fügen, Thomas Zwick
Virtual Drive: A Complete V2X Communication and Radar System Simulator for Optimization of Multiple Antenna Systems. Proc. IEEE 99(7): 1295-1310 (2011) - [j13]Lars Reichardt, Juan Pontes, Werner Wiesbeck, Thomas Zwick
Virtual Drives in Vehicular Communication. IEEE Veh. Technol. Mag. 6(2): 54-62 (2011) - [c11]Christian Ascher, Lukasz Zwirello, Thomas Zwick
Integrity monitoring for UWB/INS tightly coupled pedestrian indoor scenarios. IPIN 2011: 1-6 - [c10]Lukasz Zwirello, Christian Ascher, Gert F. Trommer, Thomas Zwick
Study on UWB/INS integration techniques. WPNC 2011: 13-17 - [p1]Tristan Gaugel, Lars Reichardt, Jens Mittag, Thomas Zwick
Accurate Simulation of Wireless Vehicular Networks Based on Ray Tracing and Physical Layer Simulation. High Performance Computing in Science and Engineering 2011: 619-630 - 2010
- [c9]Johannes Schmid, Lukasz Niestoruk, Stefan Lamparth, Wilhelm Stork, Elena Pancera, Xuyang Li, Thomas Zwick:
Ultra-wideband Signals for the Detection of Water Accumulations in the Human Body. BIOSIGNALS 2010: 397-400 - [c8]Lukasz Zwirello, Malgorzata Janson, Christian Ascher, Ulrich Schwesinger, Gert F. Trommer, Thomas Zwick
Accuracy considerations of UWB localization systems dedicated to large-scale applications. IPIN 2010: 1-5 - [c7]Lars Reichardt, Juan Pontes, Christian Sturm, Thomas Zwick:
Simulation and Evaluation of Car-to-Car Communication Channels in Urban Intersection Scenarios. VTC Spring 2010: 1-5 - [c6]Lukasz Zwirello, Malgorzata Janson, Christian Ascher, Ulrich Schwesinger, Gert F. Trommer, Thomas Zwick
Localization in industrial halls via ultra-wideband signals. WPNC 2010: 144-149 - [c5]Grzegorz Adamiuk, Christoph Heine, Werner Wiesbeck, Thomas Zwick
Vivaldi-based UWB Monopulse-Antenna. WSA 2010: 390-393
2000 – 2009
- 2009
- [j12]Peter Jacobebbinghaus, Jens Mohrenweiser, Thomas Zwick:
Wie kann die durchschnittliche Ausbildungsquote in Deutschland korrekt gemessen werden? AStA Wirtschafts und Sozialstatistisches Arch. 3(4): 225-240 (2009) - [c4]Peter Klenner, Lars Reichardt, Karl-Dirk Kammeyer, Thomas Zwick
MIMO-OFDM with Doppler Compensating Antennas in Rapidly Fading Channels. MCSS 2009: 69-78 - [c3]Christian Sturm, Thomas Zwick
An OFDM System Concept for Joint Radar and Communications Operations. VTC Spring 2009 - 2006
- [j11]Andreas F. Molisch, Henrik Asplund, Ralf Heddergott, Martin Steinbauer, Thomas Zwick
The COST259 Directional Channel Model - Part I: Overview and Methodology. IEEE Trans. Wirel. Commun. 5(12): 3421-3433 (2006) - 2005
- [j10]Brian A. Floyd
SiGe bipolar transceiver circuits operating at 60 GHz. IEEE J. Solid State Circuits 40(1): 156-167 (2005) - [j9]Sergey V. Rylov
10+ gb/s 90-nm CMOS serial link demo in CBGA package. IEEE J. Solid State Circuits 40(9): 1987-1991 (2005) - [j8]Scott K. Reynolds, Brian A. Floyd
Design and Compliance Testing of a SiGe WCDMA Receiver IC With Integrated Analog Baseband. Proc. IEEE 93(9): 1624-1636 (2005) - [j7]Thomas Zwick
Wideband Channel Sounder With Measurements and Model for the 60 GHz Indoor Radio Channel. IEEE Trans. Veh. Technol. 54(4): 1266-1277 (2005) - [c2]Scott K. Reynolds, Brian A. Floyd
Progress toward a low-cost millimeter-wave silicon radio. CICC 2005: 563-570 - 2004
- [j6]Alexander V. Rylyakov, Thomas Zwick
96-GHz static frequency divider in SiGe bipolar technology. IEEE J. Solid State Circuits 39(10): 1712-1715 (2004) - [j5]Thomas Zwick
A novel antenna concept for double-directional channel measurements. IEEE Trans. Veh. Technol. 53(2): 527-537 (2004) - [c1]Sergey V. Rylov, Scott K. Reynolds, Daniel W. Storaska, Brian A. Floyd
10+ Gb/s 90nm CMOS serial link demo in CBGA package. CICC 2004: 27-30 - 2003
- [j4]Scott K. Reynolds, Brian A. Floyd
A direct-conversion receiver integrated circuit for WCDMA mobile systems. IBM J. Res. Dev. 47(2-3): 337-354 (2003) - [j3]Scott K. Reynolds, Brian A. Floyd
A direct-conversion receiver IC for WCDMA mobile systems. IEEE J. Solid State Circuits 38(9): 1555-1560 (2003) - 2002
- [j2]Thomas Zwick
A stochastic multipath channel model including path directions for indoor environments. IEEE J. Sel. Areas Commun. 20(6): 1178-1192 (2002) - 2000
- [j1]Thomas Zwick
A stochastic spatial channel model based on wave-propagation modeling. IEEE J. Sel. Areas Commun. 18(1): 6-15 (2000)
Coauthor Index
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last updated on 2024-12-10 21:43 CET by the dblp team
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