Terahertz Lichtfeld Kamera Prototyp
Ursprünglich wurde das Konzept der Lichtfeld-Bildgebung im sichtbaren Bereich des Spektrums realisiert. Unser Lehrstuhl ist führend in der Entwicklung von Lichtfeld-Verfahren für das THz Spektrum, wodurch fundamentales Verständnis gefördert und neue Hardware entwickelt wird um das THz Band zu erschließen. Zurzeit forschen wir an einem THz-Lichtfeld-Kamera Prototypen, der aus einer 3x3 Matrix von Linsen-gekoppelten 1k-Pixel THz CMOS Kameras besteht, integriert auf einem PCB. Der CMOS Kamera Chip wurde auf der International Solid-State Circuits Conference (ISSCC) 2021 präsentiert. Die Abbildung zeigt den Prototypen der Lichtfeld-Kamera. Dieser Prototyp dient als Hardware-Plattform für die Entwicklung von THz-Lichtfeld 3-D Bildgebungsverfahren in Echtzeit.
- 2020
2897.
Warmowska, Dominika; Abdalmalak, Kerlos Atia; Mu, Luis Enrique Garc; Raida, Zbynek
High-Gain, Circularly-Polarized THz Antenna With Proper Modeling of Structures With Thin Metallic Walls
IEEE Access, 8 :125223-125233
20202896.
Meyes, Richard; Schneider, Moritz; Meisen, Tobias
How Do You Act? An Empirical Study to Understand Behavior of Deep Reinforcement Learning Agents
20202895.
IEEE International Conference on Consumer Electronics (ICCE 2020), Las Vegas, USA
Herausgeber: IEEE
20202894.
IEEE Fellow
For the Development of Silicon-based Millimeter-wave and Terahertz Circuits and Systems
20202893.
Meyes, Richard; Schneider, Moritz; Meisen, Tobias
How Do You Act? An Empirical Study to Understand Behavior of Deep Reinforcement Learning Agents
20202892.
Gannouni, Aymen; Samsonov, Vladimir; Behery, Mohamed; Meisen, Tobias; Lakemeyer, Gerhard
Neural Combinatorial Optimization for Production Scheduling with Sequence-Dependent Setup Waste
IEEE International Conference on Systems, Man, and Cybernetics (SMC)
20202891.
Meyes, Richard; Schneider, Moritz; Meisen, Tobias
How Do You Act? An Empirical Study to Understand Behavior of Deep Reinforcement Learning Agents
20202890.
Meyes, Richard; Schneider, Moritz; Meisen, Tobias
How Do You Act? An Empirical Study to Understand Behavior of Deep Reinforcement Learning Agents
20202889.
Meyes, Richard; Schneider, Moritz; Meisen, Tobias
How Do You Act? An Empirical Study to Understand Behavior of Deep Reinforcement Learning Agents
2020- 2019
2888.
Hillger, Philipp; Grzyb, Janusz; Jain, Ritesh; Pfeiffer, Ullrich R.
Terahertz Imaging and Sensing Applications With Silicon-Based Technologies
IEEE Transactions on Terahertz Science and Technology, 9 (1) :1-19
Dezember 20192887.
Mounaix, Patrick; Quentin, Cassar; MacGrogan, Gaëtan; Pfeiffer, Ullrich; Zimmer, Thomas; Guilet, Jean Paul
Smart NanoMaterials 2019: Advances, Innovation and Applications
Kapitel Near field and far field investigations on breast cancer tissus, Seite 1-2
Herausgeber: HAL
Dezember 2019
1-22886.
Choungo, Arsene Momo
Entwicklung eines vernetzten Beschleunigungssensors für den BOB
Bachelor-Thesis
Dezember 20192885.
Alsayegh, M.; Burkert, A.; Clemens, M.; Schmuelling, B.
Comparison of Misalignment Impact on Multi-Coil Transmitters in Wireless Transfer Systems for Electric Vehicles
IEEE 21st Conference on Power Electronics and Applications (EPE 2019 ECCE Europe),
November 20192884.
Baida, Ye. I.; Clemens, M.; Klymenko, B. V.; Korol, O. G.; Pantelyat, M. G.; Pustovoitov, P. Ye.
Peculiarities of Calculating Stationary Heating of Windings Operating in Complex Forced Control Systems
Electrical Engineering & Electromechanics Journal, 2019, No. 5, pp. 12-19
November 20192883.
Grzyb, Janusz; Andree, Marcel; Jain, Ritesh; Heinemann, Bernd; Pfeiffer, Ullrich R.
A Lens-Coupled On-Chip Antenna for Dual-Polarization SiGe HBT THz Direct Detector
IEEE Antennas and Wireless Propagation Letters, 18 (11) :2404-2408
November 20192882.
Scholz, T.; Pautzke, F.; Schmuelling, B.
Parameter Identification of EV Batteries
DART-Symposium 2019,
November 20192881.
Kasolis, F.; Clemens, M.
Information-Based Model Reduction for Nonlinear Electro-Quasistatic Problems
Journal on Computational Physics, November 2019. Early online publication
November 20192880.
Weisbach, M.; Spaeth, U.; Schmuelling, B.
Energy Consumption Behavior Model for an Urban Transportation System Using Multidimensional Correlation Structures: Applied at the Trolley Bus System in Solingen
4th International Conference on Intelligent Transportation Engineering (ICITE 2019),
Singapore
Oktober 20192879.
Pfeiffer, Jana-Leah
Analyse möglicher Speichertechnologien für stationäre elektrische Energiespeicher
Bachelor-Thesis
Oktober 20192878.
Odabas, Sariyegizem
Gewichtsabschätzung von Fahrgästen durch Auswertung der Daten einer Tiefenkamera
Bachelor-Thesis
Oktober 20192877.
Mohanan, Sarath Kundumattathil; Boukabache, Hamza; Perrin, Daniel; Pfeiffer, Ullrich
Femtoampere sensitive current measurement ASIC in 22 nm technology
Seite 1-3
Oktober 20192876.
Kasolis, F.; Clemens, M.
Graph-based Local Refinements for the Reduction of Transient Nonlinear Electromagnetic Problems
The 13th International Conference on Scientific Computing in Electrical Engineering (SCEE 2020), 17.-20.02.2020, Eindhoven, The Netherlands. One page digest
Oktober 20192875.
Maus, Gerrit; Brückmann, Dieter
Behavioral Recognition Applications Using a Low-Cost {BLE} Based Sensor Platform for Electromagnetic Field Distribution Monitoring
Wireless Congress: Systems & Applications
Oktober 20192874.
Jörgens, C.; Clemens, M.
Simulation of the Electric Field in High Voltage Direct Current Cables and the Influence on the Environment
The Tenth International Conference on Computational Electromagnetics (CEM 2019), Edinburgh, UK, 19.-20.06.2019. Full paper submitted to IET - Science, Measurement, Technology
Oktober 20192873.
Clemens, M.; Kähne, B.; Schöps, S.
A Darwin Time Domain Scheme for the Simulation of Transient Quasistatic Fields Including Resistive, Capacitive and Inductive Effects
Seite 1-4
2019 Kleinheubach Conference
Miltenberg, Germany
23.-25.09.2019
Herausgeber: IEEE
Oktober 2019ISBN: 978-3-948571-00-9
