Markus Rosch
Fraunhofer Society
23 Papers
32 Citations
Markus Rosch is an academic researcher from Fraunhofer Society. The author has contributed to research in topics: Radar & Radar imaging. The author has an hindex of 7, co-authored 22 publications.
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Papers
${W}$ -Band Time-Domain Multiplexing FMCW MIMO Radar for Far-Field 3-D Imaging
Daniela Bleh,Markus Rosch,M. Kuri,Alexander Dyck,Axel Tessmann,Arnulf Leuther,Sandrine Wagner,B. Weismann-Thaden,H.-P. Stulz,M. Zink,M. Riessle,Rainer Sommer,Jorn Wilcke,Michael Schlechtweg,Bin Yang,Oliver Ambacher +15 more
TL;DR: A radar demonstrator system with real-time capability operating at 90–100 GHz and provides 3-D information about the illuminated scene and the imaging theory is shortly reviewed.
141
A Transmitter System-in-Package at 300 GHz With an Off-Chip Antenna and GaAs-Based MMICs
Alexander Dyck,Markus Rosch,Axel Tessmann,Arnulf Leuther,M. Kuri,Sandrine Wagner,Bersant Gashi,Jochen Schafer,Oliver Ambacher +8 more
TL;DR: A multilayered stacked patch antenna on quartz with a dielectric lens, functioning in tandem with a GaAs-based multiplier chain, for applications operating in the frequency region around 300 GHz.
37
A Low-Loss W-Band Frequency-Scanning Antenna for Wideband Multichannel Radar Applications
TL;DR: In this paper, a class of nonresonant slotted waveguide antennas particularly suited for wideband millimeter-wave radar and imaging applications is introduced, inspired by a variation of the classic narrow-wall leaky structure.
31
Millimeter-Wave Tomographic Imaging of Composite Materials Based on Phase Evaluation
Dominik Meier,Thomas Schwarze,Torsten Link,Christian Zech,Benjamin Baumann,Michael Schlechtweg,Jutta Kuhn,Markus Rosch,Leonhard Reindl +8 more
TL;DR: A novel data processing algorithm for the generation of tomographic images of composite materials, based on measurements acquired via frequency-modulated continuous-wave radars operating in the millimeter wave regime, is presented and provides valuable information for the optimization of the quality and efficiency of composite-based components.
28
Broadband 400-GHz InGaAs mHEMT Transmitter and Receiver S-MMICs
Bersant Gashi,Laurenz John,Dominik Meier,Markus Rosch,Sandrine Wagner,Axel Tessmann,Arnulf Leuther,Oliver Ambacher,Rudiger Quay +8 more
TL;DR: The modeling, design, and experimental evaluation of both a 400-GHz transmitter and receiver submillimeter-wave monolithic integrated circuit (S-MMIC) is presented in this article, intended for a radar-based system in the aforementioned operating frequency.