Martin SchŘ▀ler
Martin SchŘ▀ler
Akademischer Oberrat
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Cited by
Cited by
Passive chipless wireless sensor for two-dimensional displacement measurement
C Mandel, B Kubina, M SchŘ▀ler, R Jakoby
2011 41st European Microwave Conference, 79-82, 2011
Sensor array based on split ring resonators for analysis of organic tissues
M Puentes, C Wei▀, M SchŘ▀ler, R Jakoby
2011 IEEE MTT-S International Microwave Symposium, 1-4, 2011
Artificial transmission lines for high sensitive microwave sensors
C Damm, M SchŘ▀ler, M Puentes, H Maune, M Maasch, R Jakoby
SENSORS, 2009 IEEE, 755-758, 2009
Wireless high-temperature sensing with a chipless tag based on a dielectric resonator antenna
B Kubina, M SchŘ▀ler, C Mandel, A Mehmood, R Jakoby
SENSORS, 2013 IEEE, 1-4, 2013
Performance analysis of reconfigurable bandpass filters with continuously tunable center frequency and bandwidth
C Schuster, A Wiens, F Schmidt, M Nickel, M SchŘ▀ler, R Jakoby, ...
IEEE Transactions on Microwave Theory and Techniques 65 (11), 4572-4583, 2017
Phase modulation scheme for chipless RFID-and wireless sensor tags
M SchŘ▀ler, C Mandel, M Maasch, A Giere, R Jakoby
2009 Asia Pacific microwave conference, 229-232, 2009
Frequency selective surface coded retroreflectors for chipless indoor localization tag landmarks
A JimÚnez-Sßez, M SchŘ▀ler, M El-Absi, AA Abbas, K Solbach, T Kaiser, ...
IEEE Antennas and Wireless Propagation Letters 19 (5), 726-730, 2020
3D Printed Alumina for Low-Loss Millimeter Wave Components.
A JimÚnez-Sßez, M SchŘ▀ler, C Krause, D Pandel, K Rezer, G Vom B÷gel, ...
IEEE Access 7 (8679963), 40719, 2019
Quasi‐chipless wireless temperature sensor based on harmonic radar
B Kubina, J Romeu, C Mandel, M SchŘ▀ler, R Jakoby
Electronics Letters 50 (2), 86-88, 2014
A dual-mode coaxial slot applicator for microwave ablation treatment
CH nÚe Reimann, B Bazrafshan, M SchŘ▀ler, S Schmidt, C Schuster, ...
IEEE Transactions on microwave theory and techniques 67 (3), 1255-1264, 2018
Device and method for determining at least one parameter of a medium
R Jakoby, M Schuessler, A Penirschke, H Maune
US Patent 8,618,817, 2013
Metamaterial-inspired passive chipless radio-frequency identification and wireless sensing
C Mandel, B Kubina, M SchŘ▀ler, R Jakoby
Annals of Telecommunications-Annales des tÚlÚcommunications 68, 385-399, 2013
Wide-angle ceramic retroreflective luneburg lens based on quasi-conformal transformation optics for mm-wave indoor localization
P Kaděra, J Sßnchez-Pastor, H Eskandari, T Tyc, M Sakaki, M SchŘ▀ler, ...
IEEE Access 10, 41097-41111, 2022
Passive wireless temperature sensing with BST-based chipless transponder
C Mandel, H Maune, M Maasch, M Sazegar, M SchŘ▀ler, R Jakoby
2011 German Microwave Conference, 1-4, 2011
Frequency-coded mm-wave tags for self-localization system using dielectric resonators
A JimÚnez-Sßez, A Alhaj-Abbas, M SchŘ▀ler, A Abuelhaija, M El-Absi, ...
Journal of Infrared, Millimeter, and Terahertz Waves 41, 908-925, 2020
A wireless passive strain sensor
C Mandel, M SchŘ▀ler, R Jakoby
SENSORS, 2011 IEEE, 207-210, 2011
Broadband transmission below the cutoff frequency of a waveguide loaded with resonant scatterer arrays
G Lubkowski, C Damm, B Bandlow, R Schuhmann, M SchŘ▀ler, ...
IET microwaves, antennas & propagation 1 (1), 165-169, 2007
Design of a quasi-chipless harmonic radar sensor for ambient temperature sensing
B Kubina, J Romeu, C Mandel, M SchŘ▀ler, R Jakoby
SENSORS, 2014 IEEE, 1567-1570, 2014
Periodically LC loaded lines for RFID backscatter applications
M SchŘ▀ler, C Damm, R Jakoby
Proceedings of the Metamaterials, Rome, Italy, 22-26, 2007
Gradient-index-based frequency-coded retroreflective lenses for mm-wave indoor localization
P Kadera, A Jimenez-Saez, T Burmeister, J Lacik, M SchŘ▀ler, R Jakoby
IEEE Access 8, 212765-212775, 2020
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