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37 Publikationen


2025 | Zeitschriftenaufsatz (wiss.) | ELSA-ID: 12424
Shrotri AN, Preu S and Stübbe O (2025) Achieving Transparency and Minimizing Losses of Rough Additively Manufactured Optical Components by a Dip-Coating Surface Finish. Coatings : open access journal 15.
ELSA | DOI
 

2024 | Konferenzband - Beitrag | ELSA-ID: 11229
Shahane AM et al. (2024) Additively Manufactured Pressure Sensor for Embedding in 3D-Printed below-Knee Orthosis, Gu B and Chen H (eds). SPIE.
ELSA | DOI
 

2024 | Konferenzband - Beitrag | ELSA-ID: 11286
Shrotri AN et al. (2024) THz-Characterization of Additively Manufactured Spiral Shaped Waveguides, South China University of Technology and Pazhou Laboratory (eds). New York, NY: IEEE.
ELSA | DOI
 

2024 | Konferenzband - Beitrag | ELSA-ID: 11594
Shrotri AN et al. (2024) Design and Simulation of a Nozzle-Mask for Optical Fiber 3D-Printing, von Freymann G, Herkommer AM and Flury M (eds). Bellingham, Washington, USA: SPIE.
ELSA | DOI
 

2024 | Konferenzband - Beitrag | ELSA-ID: 11595
Shahane AM et al. (2024) Manufacturing of Solid Core Optical Waveguide Based Pressure Sensor for 3D-Printed below-Knee Orthosis, von Freymann G, Herkommer AM and Flury M (eds). Bellingham, Washington, USA: SPIE.
ELSA | DOI
 

2024 | Konferenzband - Beitrag | ELSA-ID: 11977
Shrotri AN et al. (2024) Evaluation of Additively Manufactured Axicon Lenses Using a THz-Camera. Piscataway, NJ: IEEE.
ELSA | DOI
 

2023 | Konferenz - Vortrag | ELSA-ID: 12888
Shrotri AN and Stübbe O (2023) 3D-gedruckte Metall- und Polymerwellenleiter für THz Sensoranwendungen. .
ELSA
 

2023 | Konferenzband - Beitrag | ELSA-ID: 11194
Stübbe O, Villmer F-J and Huxol A (2023) 3D gedruckte eingebettete lichtführende Strukturen für Sensor- und Kommunikationsanwendungen, Kynast M, Eichmann M and Witt G (eds). München, Germany: Carl Hanser Verlag GmbH & Co. KG.
ELSA | DOI
 

2023 | Konferenzband - Beitrag | ELSA-ID: 10545
Shrotri AN et al. (2023) Additive Manufacturing and Characterization of Hollow Core Metal and Topas Waveguides for Terahertz Sensor Systems, Cooke DG (ed.). [Piscataway, NJ]: IEEE.
ELSA | DOI
 

2022 | Monographie | ELSA-ID: 8406
Meier U and Stübbe O (2022) Elektrotechnik zum Selbststudium - Grundlagen und Vertiefung. Wiesbaden: Springer Vieweg.
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2022 | Bericht | ELSA-ID: 7681 | OA
Shrotri AN et al. (2022) Visible Light in der Produktion (Abschlussbericht). Frankfurt: Deutsche Forschungsgesellschaft für Automatisierung und Mikroelektronik e.V. (DFAM).
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2021 | Konferenzband - Beitrag | ELSA-ID: 11803
Müller A et al. (2021) Towards Real-World Deployment of Reinforcement Learning for Traffic  Signal Control, Wani MA, IEEE ICMLA, and Institute of Electrical and Electronics Engineers (eds). Piscataway, NJ: IEEE.
ELSA | DOI | arXiv
 

2021 | Konferenzband - Beitrag | ELSA-ID: 7670
Shrotri AN et al. (2021) Manufacturing of Lens Array Prototypes Containing Spherical and Fresnel Lenses for Visible Light Communications Using Stereolithography Apparatus, Helvajian H, Gu B and Chen H (eds). San Francisco: Society of Photo-Optical Instrumentation Engineers.
ELSA | DOI | Download (ext.)
 

2021 | Zeitschriftenaufsatz (wiss.) | ELSA-ID: 7671 | OA
Schneider D et al. (2021) Impact of Industrial Environments on Visible Light Communication. Optics express : the international electronic journal of optics / Optica 29, 16087–16104.
ELSA | DOI | Download (ext.)
 

2021 | Konferenz - Beitrag | ELSA-ID: 7672
Schneider D et al. (2021) Efficient Visible Light Communication Drivers Using Illumination LEDs in Industrial Environments. In Cheben P, Čtyroký J and Molina-Fernández I (eds), Integrated Optics: Design, Devices, Systems and Applications VI, vol. 11775. Bellingham, Washington, USA: SPIE.
ELSA | DOI
 

2021 | Konferenzband - Beitrag | ELSA-ID: 7680
Schneider D et al. (2021) Optical Wireless Communication in Industrial Areas: Potential Performance and Actual Demand. Stuttgart: Verband der Elektrotechnik Elektronik Informationstechnik e.V.
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2020 | Konferenzband - Beitrag | ELSA-ID: 7676
Shrotri AN, Beyer M and Stübbe O (2020) Manufacturing and Analyzing of Cost-Efficient Fresnel Lenses Using Stereolithography, von Freymann G, Herkommer AM and Flury M (eds). Bellingham, Washington, USA: SPIE.
ELSA | DOI
 

2019 | Konferenzband - Beitrag | ELSA-ID: 7679
Shrotri AN, Beyer M and Stübbe O (2019) Evaluation of Stereolithograghy Processes for the Production of Lens Prototypes, Padoano E and Villmer F-J (eds). Lemgo: Technische Hochschule Ostwestfalen-Lippe.
ELSA
 

2018 | Konferenz - Beitrag | ELSA-ID: 4836
Schneider D et al. (2018) Analysis of Industrial Production Environments and Derivation of a Novel Channel Model towards Optical Wireless Communication. In Schröder S and Geyl R (eds), Optical Fabrication, Testing, and Metrology VI, vol. 10692.
ELSA | DOI
 

2018 | Konferenzband - Beitrag | ELSA-ID: 11195
Schneider D et al. (2018) Einsatzfähigkeit von optischer Freiraumkommunikation in industriellen Produktionsumgebungen. Düsseldorf: VDI Verlag.
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