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:
- 2017
2223.
Meyes, Richard; Tercan, Hasan; Roggendorf, Simon; Thiele, Thomas; Büscher, Christian; Obdenbusch, Markus; Brecher, Christian; Jeschke, Sabina; Meisen, Tobias
Motion Planning for Industrial Robots using Reinforcement Learning
Procedia CIRP, 63 :107—112
2017
ISSN: 221282712222.
Meyes, Richard; Tercan, Hasan; Roggendorf, Simon; Thiele, Thomas; Büscher, Christian; Obdenbusch, Markus; Brecher, Christian; Jeschke, Sabina; Meisen, Tobias
Motion Planning for Industrial Robots using Reinforcement Learning
Procedia CIRP, 63 :107—112
2017
ISSN: 221282712221.
Meyes, Richard; Tercan, Hasan; Roggendorf, Simon; Thiele, Thomas; Büscher, Christian; Obdenbusch, Markus; Brecher, Christian; Jeschke, Sabina; Meisen, Tobias
Motion Planning for Industrial Robots using Reinforcement Learning
Procedia CIRP, 63 :107—112
2017
ISSN: 221282712220.
Meyes, Richard; Tercan, Hasan; Roggendorf, Simon; Thiele, Thomas; Büscher, Christian; Obdenbusch, Markus; Brecher, Christian; Jeschke, Sabina; Meisen, Tobias
Motion Planning for Industrial Robots using Reinforcement Learning
Procedia CIRP, 63 :107—112
2017
ISSN: 221282712219.
Meyes, Richard; Tercan, Hasan; Roggendorf, Simon; Thiele, Thomas; Büscher, Christian; Obdenbusch, Markus; Brecher, Christian; Jeschke, Sabina; Meisen, Tobias
Motion Planning for Industrial Robots using Reinforcement Learning
Procedia CIRP, 63 :107—112
2017
ISSN: 221282712218.
Fehling, Christian Dominic
Neue Lehr- und Lernformen in der Ausbildung 4.0: Social Augmented Learning in der Druckindustrie
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Fehling, Christian Dominic
Neue Lehr- und Lernformen in der Ausbildung 4.0: Social Augmented Learning in der Druckindustrie
Berufsbildung in Wissenschaft und Praxis, 2
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Fehling, Christian Dominic
Neue Lehr- und Lernformen in der Ausbildung 4.0: Social Augmented Learning in der Druckindustrie
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Fehling, Christian Dominic
Neue Lehr- und Lernformen in der Ausbildung 4.0: Social Augmented Learning in der Druckindustrie
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Fehling, Christian Dominic
Neue Lehr- und Lernformen in der Ausbildung 4.0: Social Augmented Learning in der Druckindustrie
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Hoffmann, Max; Meisen, Tobias; Jeschke, Sabina
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Hoffmann, Max; Meisen, Tobias; Jeschke, Sabina
OPC UA Based ERP Agents: Enabling Scalable Communication Solutions in Heterogeneous Automation Environments
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Hoffmann, Max; Thomas, Philipp; Schütz, Daniel; Vogel-Heuser, Birgit; Meisen, Tobias; Jeschke, Sabina
Semantic Integration of Multi-agent Systems Using an OPC UA Information Modeling Approach
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Hoffmann, Max; Thomas, Philipp; Schütz, Daniel; Vogel-Heuser, Birgit; Meisen, Tobias; Jeschke, Sabina
Semantic Integration of Multi-agent Systems Using an OPC UA Information Modeling Approach
IEEE International Conference on Industrial Informatics (INDIN) :744—747
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Hoffmann, Max; Thomas, Philipp; Schütz, Daniel; Vogel-Heuser, Birgit; Meisen, Tobias; Jeschke, Sabina
Semantic Integration of Multi-agent Systems Using an OPC UA Information Modeling Approach
IEEE International Conference on Industrial Informatics (INDIN) :744—747
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Hoffmann, Max; Thomas, Philipp; Schütz, Daniel; Vogel-Heuser, Birgit; Meisen, Tobias; Jeschke, Sabina
Semantic Integration of Multi-agent Systems Using an OPC UA Information Modeling Approach
IEEE International Conference on Industrial Informatics (INDIN) :744—747
2017
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Hoffmann, Max; Thomas, Philipp; Schütz, Daniel; Vogel-Heuser, Birgit; Meisen, Tobias; Jeschke, Sabina
Semantic Integration of Multi-agent Systems Using an OPC UA Information Modeling Approach
IEEE International Conference on Industrial Informatics (INDIN) :744—747
2017
ISSN: 19354576
