Terahertz-Light Field Camera Prototyp
Light-field cameras record both the brightness and direction of the incident light rays. This spatiodirectional information can be post-processed for a dynamic focal point adjustment and 3-D imaging. Light-field has traditionally been a domain of visible light computational imaging. Our chair is leading the development of light-field methodologies for the THz spectrum, bringing new foundational understanding and hardware capabilities for bridging the terahertz gap.
Currently, we are building the first ever THz light-field camera prototype - which consists of a 3x3 super-array of lens coupled 1k-pixel THz CMOS cameras - in a single package. The CMOS camera chip is presented in the International Solid-State Circuits Conference (ISSCC) 2021. The figure shows the prototype of the light field array. The prototype serves as the hardware platform for the development of light-field based real-time THz 3-D imaging techniques.
Preliminary work:
- 2019
2854.
Meyes, Richard; Lu, Melanie; Waubert-de-Puiseau, Constantin; Meisen, Tobias
Ablation Studies in Artificial Neural Networks
arXiv arXiv:1901.08644
20192853.
Meyes, Richard; Lu, Melanie; Waubert-de-Puiseau, Constantin; Meisen, Tobias
Ablation Studies in Artificial Neural Networks
arXiv arXiv:1901.08644
20192852.
Meyes, Richard; Lu, Melanie; Waubert-de-Puiseau, Constantin; Meisen, Tobias
Ablation Studies in Artificial Neural Networks
arXiv arXiv:1901.08644
20192851.
Meyes, Richard; Lu, Melanie; Waubert-de-Puiseau, Constantin; Meisen, Tobias
Ablation Studies in Artificial Neural Networks
arXiv arXiv:1901.08644
20192850.
Meyes, Richard; Lu, Melanie; Waubert-de-Puiseau, Constantin; Meisen, Tobias
Ablation Studies in Artificial Neural Networks
arXiv arXiv:1901.08644
20192849.
Meyes, Richard; Lu, Melanie; Waubert-de-Puiseau, Constantin; Meisen, Tobias
Ablation Studies to Uncover Structure of Learned Representations in Artificial Neural Networks
Proceedings of the 2019 International Conference on Artificial Intelligence (ICAI)
20192848.
Meyes, Richard; Lu, Melanie; Waubert-de-Puiseau, Constantin; Meisen, Tobias
Ablation Studies to Uncover Structure of Learned Representations in Artificial Neural Networks
Proceedings of the 2019 International Conference on Artificial Intelligence (ICAI)
20192847.
Meyes, Richard; Lu, Melanie; Waubert-de-Puiseau, Constantin; Meisen, Tobias
Ablation Studies to Uncover Structure of Learned Representations in Artificial Neural Networks
Proceedings of the 2019 International Conference on Artificial Intelligence (ICAI)
20192846.
Meyes, Richard; Lu, Melanie; Waubert-de-Puiseau, Constantin; Meisen, Tobias
Ablation Studies to Uncover Structure of Learned Representations in Artificial Neural Networks
Proceedings of the 2019 International Conference on Artificial Intelligence (ICAI)
20192845.
Meyes, Richard; Lu, Melanie; Waubert-de-Puiseau, Constantin; Meisen, Tobias
Ablation Studies to Uncover Structure of Learned Representations in Artificial Neural Networks
Proceedings of the 2019 International Conference on Artificial Intelligence (ICAI)
20192844.
Ferreira, João; Callou, Gustavo; Josua, Albert; Tutsch, Dietmar; Maciel, Paulo
An Artificial Neural Network Approach to Forecast the Environmental Impact of Data Centers
Information :10(3), 113; doi: 10.3390/info10030113
2019
Publisher: MDPI2843.
Ferreira, João; Callou, Gustavo; Josua, Albert; Tutsch, Dietmar; Maciel, Paulo
An Artificial Neural Network Approach to Forecast the Environmental Impact of Data Centers
Information, 10 (3) :113ff
2019
Publisher: MDPI2842.
Callou, Gustavo; Josua, Albert; Tutsch, Dietmar; Maciel, Paulo
An Artificial Neural Network Approach to Forecast the Environmental Impact of Data Centers
Information, Page 10(3), 113; doi: 10.3390/info10030113
Publisher: MDPI
20192841.
Callou, Gustavo; Josua, Albert; Tutsch, Dietmar; Maciel, Paulo
An Artificial Neural Network Approach to Forecast the Environmental Impact of Data Centers
Information, Page 10(3), 113; doi: 10.3390/info10030113
Publisher: MDPI
20192840.
Kasolis, F.; Clemens, M.
An Entropy-Based Sampling Framework for Reducing Large-Scale Nonlinear Field Problems in the Electro-Quasistatic Limit
Nineteenth Biennial IEEE Conference on Electromagnetic Field Computation (CEFC 2020), 18.-22.04.2020, Pisa, Italy. One page digest, accepted
20192839.
Meyes, Richard; Tercan, Hasan; Meisen, Tobias
Artificial Intelligence in Automotive Production
Mobility in a Globalised World 2018, 22 :308—324
20192838.
Meyes, Richard; Tercan, Hasan; Meisen, Tobias
Artificial Intelligence in Automotive Production
Mobility in a Globalised World 2018, 22 :308—324
20192837.
Meyes, Richard; Tercan, Hasan; Meisen, Tobias
Artificial Intelligence in Automotive Production
Mobility in a Globalised World 2018, 22 :308—324
20192836.
Meyes, Richard; Tercan, Hasan; Meisen, Tobias
Artificial Intelligence in Automotive Production
Mobility in a Globalised World 2018, 22 :308—324
20192835.
Meyes, Richard; Tercan, Hasan; Meisen, Tobias
Artificial Intelligence in Automotive Production
Mobility in a Globalised World 2018, 22 :308—324
20192834.
Wagner, D.; Kalischewski, K.; Tilgner, S.; Velten, J.; Kummert, A.
Automatic Labeling of Industrial Images by using Generative Adversarial Networks
2019 IEEE International Symposium on Circuits and Systems (ISCAS), Page 1-5
20192833.
Brandau, Christoph; Jaeger, Jan-Gerrit; Steinbrink, Marco; Tutsch, Dietmar
Autonomous Exploration, Mapping and Pathfinding using Sensor Fusion with a PhantomX MKIII
Echtzeit 2019, Boppard, Deutschland, GI, Page 53--60
Publisher: Springer-Vieweg
20192832.
Brandau, Christoph; Jaeger, Jan-Gerrit; Steinbrink, Marco; Tutsch, Dietmar
Autonomous Exploration, Mapping and Pathfinding using Sensor Fusion with a PhantomX MKIII
Echtzeit 2019, Boppard, Deutschland, GI, Page 53--60
Publisher: Springer-Vieweg
November 20192831.
Brandau, Christoph; Jaeger, Jan-Gerrit; Steinbrink, Marco; Tutsch, Dietmar
Autonomous Exploration, Mapping and Pathfinding using Sensor Fusion with a PhantomX MKIII
Echtzeit 2019, Boppard, Deutschland, GI, Page 53—60
Publisher: Springer-Vieweg
November 20192830.
Brandau, Christoph; Jaeger, Jan-Gerrit; Steinbrink, Marco; Tutsch, Dietmar
Autonomous Exploration, Mapping and Pathfinding using Sensor Fusion with a PhantomX MKIII
Echtzeit 2019, Boppard, Deutschland, GI, Page 53--60
Publisher: Springer-Vieweg
November 2019
