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ORCIDThomas F. Eibert
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- affiliation: Technical University Munich, Germany
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2020 – today
- 2021
[j13]Fabian T. Faul
, Daniel Korthauer, Thomas F. Eibert:
Impact of Rotor Blade Rotation of UAVs on Electromagnetic Field Measurements. IEEE Trans. Instrum. Meas. 70: 1-9 (2021)- [j12]Björn N. Möhring, Uwe Siart, Thomas F. Eibert:
Fast Chirp Frequency-Modulated Continuous-Wave Reflectometer for Monitoring Fast Varying Discontinuities on Transmission Lines. IEEE Trans. Instrum. Meas. 70: 1-11 (2021) - [j11]Jonas Kornprobst, Alexander Paulus, Josef Knapp, Thomas F. Eibert:
Phase Retrieval for Partially Coherent Observations. IEEE Trans. Signal Process. 69: 1394-1406 (2021) - [i9]Josef Knapp, Alexander Paulus, Jonas Kornprobst, Uwe Siart, Thomas F. Eibert:
Multi-Frequency Phase Retrieval for Antenna Measurements. CoRR abs/2105.09928 (2021) - [i8]Alexander Paulus, Josef Knapp, Jonas Kornprobst, Thomas F. Eibert:
Reliable Linearized Phase Retrieval for Near-Field Antenna Measurements with Truncated Measurement Surfaces. CoRR abs/2109.10864 (2021) - 2020
- [i7]Jonas Kornprobst, Alexander Paulus, Josef Knapp, Thomas F. Eibert:
Phase Retrieval for Partially Coherent Observations. CoRR abs/2002.02939 (2020) - [i6]Jonas Kornprobst, Josef Knapp, Raimund A. M. Mauermayer, Ole Neitz, Alexander Paulus, Thomas F. Eibert:
Accuracy and Conditioning of Surface-Source Based Near-Field to Far-Field Transformations. CoRR abs/2004.08918 (2020) - [i5]Jonas Kornprobst, Alexander Paulus, Thomas F. Eibert:
Improved Discretization of the Full First-Order Magnetic Field Integral Equation. CoRR abs/2010.07351 (2020) - [i4]Jonas Kornprobst, Thomas F. Eibert:
An Accurate Low-Order Discretization Scheme for the Identity Operator in the Magnetic Field and Combined Field Integral Equations. CoRR abs/2010.08436 (2020) - [i3]Jonas Kornprobst, Thomas F. Eibert:
A Weak-Form Combined Source Integral Equation with Explicit Inversion of the Combined-Source Condition. CoRR abs/2010.08757 (2020) - [i2]Jonas Kornprobst, Thomas F. Eibert:
A Combined Source Integral Equation with Weak Form Combined Source Condition. CoRR abs/2010.08797 (2020) - [i1]Alexander Paulus, Jonas Kornprobst, Josef Knapp, Thomas F. Eibert:
Linear Phase Retrieval for Near-Field Measurements with Locally Known Phase Relations. CoRR abs/2011.08980 (2020)
2010 – 2019
- 2019
- [j10]Safiullah Khan, Thomas F. Eibert:
A Dual-Band Metasheet for Asymmetric Microwave Transmission With Polarization Conversion. IEEE Access 7: 98045-98052 (2019) - [j9]Simon B. Adrian, Francesco Paolo Andriulli, Thomas F. Eibert:
On a refinement-free Calderón multiplicative preconditioner for the electric field integral equation. J. Comput. Phys. 376: 1232-1252 (2019) - [c11]Mehmet Mert Taygur, Thomas F. Eibert:
Investigations on Massive MIMO Performance with Multi-Antenna Users by Ray-Tracing. PIMRC 2019: 1-6 - 2018
- [c10]Mehmet Mert Taygur, Thomas F. Eibert:
Analyzing the Channel Aging Effects on Massive MIMO Downlink by Ray-Tracing. PIMRC 2018: 1-5 - [c9]Mehmet Mert Taygur, Thomas F. Eibert:
Investigating the Effects of Uplink Noise and Pilot Signal Interference by Ray-Tracing Simulations. PIMRC 2018: 1-5 - 2017
- [j8]Simon B. Adrian, Francesco Paolo Andriulli, Thomas F. Eibert:
A hierarchical preconditioner for the electric field integral equation on unstructured meshes based on primal and dual Haar bases. J. Comput. Phys. 330: 365-379 (2017) - 2016
- [c8]Thomas J. Mittermaier, Uwe Siart, Thomas F. Eibert:
Target tracking in industrial multi-sensor short-range radar applications using Doppler and amplitude information. MFI 2016: 597-602 - [c7]Mehmet Mert Taygur, Kun Wang, Thomas F. Eibert:
Ray Tracing Based Channel Analysis Involving Compact MIMO Antenna Arrays With Decoupling Networks. WSA 2016: 1-5 - 2015
- [j7]Michael E. Gruber, ChristianKoenen, Thomas F. Eibert:
A fast Fourier transform accelerated Ewald summation technique for the vector electromagnetic rectangular cavity Green's function. J. Comput. Phys. 280: 570-578 (2015) - [j6]Emre Kiliç, Thomas F. Eibert:
Solution of 3D inverse scattering problems by combined inverse equivalent current and finite element methods. J. Comput. Phys. 288: 131-149 (2015) - [j5]Feng Wang, Thomas F. Eibert, Ya-Qiu Jin:
Simulation of ISAR Imaging for a Space Target and Reconstruction Under Sparse Sampling via Compressed Sensing. IEEE Trans. Geosci. Remote. Sens. 53(6): 3432-3441 (2015) - [j4]Usman Faz, Uwe Siart, Thomas F. Eibert, Tobias Hermann:
Electric Field Homogeneity Optimization by Dielectric Inserts for Improved Material Sensing in a Cavity Resonator. IEEE Trans. Instrum. Meas. 64(8): 2239-2246 (2015) - [c6]Manuel Schiller, Alois C. Knoll, Marina Mocker, Thomas F. Eibert:
GPU accelerated ray launching for high-fidelity virtual test drives of VANET applications. HPCS 2015: 262-268 - 2013
- [j3]Emre Kiliç, Uwe Siart, Oliver Wiedenmann, Usman Faz, Robert Ramakrishnan, Patrick Saal, Thomas F. Eibert:
Cavity Resonator Measurement of Dielectric Materials Accounting for Wall Losses and a Filling Hole. IEEE Trans. Instrum. Meas. 62(2): 401-407 (2013) - 2012
- [c5]Arndt T. Ott, Christoph J. Eisner, Thomas F. Eibert:
A reconfigurable impulse radio transmitter. ICUWB 2012: 26-30 - [c4]Christian Chwala, Harald Kunstmann, Susanne Hipp, Uwe Siart, Thomas F. Eibert:
Precipitation observation using commercial microwave communication links. IGARSS 2012: 2922-2925 - [c3]Susanne Hipp, Uwe Siart, Thomas F. Eibert, Christian Chwala, Harald Kunstmann:
Modelling of electromagnetic transmission through rain fields based on drop-scale scattering. IGARSS 2012: 5157-5160 - 2010
- [j2]Marcel D. Blech, Martin M. Leibfritz, Raphael Hellinger, Daniel Geier, Florian A. Maier, Andreas M. Pietsch, Thomas F. Eibert:
Time-Domain Spherical Near-Field Antenna Measurement System Employing a Switched Continuous-Wave Hardware Gating Technique. IEEE Trans. Instrum. Meas. 59(2): 387-395 (2010) - [c2]Hermann Buddendick, Thomas F. Eibert:
Parallelized Physical Optics computations for Scattering Center Models in radio channel simulations. VNC 2010: 64-71
2000 – 2009
- 2006
- [c1]René Wahl, Michael Layh, Thomas F. Eibert:
Wave Propagation Inside and Around Vehicles in Dynamic Time Variant Scenarios. VTC Spring 2006: 2883-2886
1990 – 1999
- 1999
- [j1]Thomas F. Eibert, Mudrik Alaydrus, Friedbert Wilczewski, Volkert W. Hansen:
Electromagnetic and thermal analysis for lipid bilayer membranes exposed to RF fields. IEEE Trans. Biomed. Eng. 46(8): 1013-1020 (1999)
Coauthor Index
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