---
_id: '7681'
author:
- first_name: Abhijeet Narendra
full_name: Shrotri, Abhijeet Narendra
id: '74090'
last_name: Shrotri
orcid: 0000-0003-2116-156X
- first_name: Daniel
full_name: Schneider, Daniel
id: '82849'
last_name: Schneider
- first_name: Holger
full_name: Flatt, Holger
id: '58494'
last_name: Flatt
- first_name: Oliver
full_name: Stübbe, Oliver
id: '51864'
last_name: Stübbe
orcid: https://orcid.org/0000-0001-7293-6893
citation:
ama: Shrotri AN, Schneider D, Flatt H, Stübbe O. Visible Light in der Produktion
(Abschlussbericht). Deutsche Forschungsgesellschaft für Automatisierung und
Mikroelektronik e.V. (DFAM); 2022.
apa: Shrotri, A. N., Schneider, D., Flatt, H., & Stübbe, O. (2022). Visible
Light in der Produktion (Abschlussbericht). Deutsche Forschungsgesellschaft
für Automatisierung und Mikroelektronik e.V. (DFAM).
bjps: 'Shrotri AN et al. (2022) Visible Light in der Produktion
(Abschlussbericht). Frankfurt: Deutsche Forschungsgesellschaft für Automatisierung
und Mikroelektronik e.V. (DFAM).'
chicago: 'Shrotri, Abhijeet Narendra, Daniel Schneider, Holger Flatt, and Oliver
Stübbe. Visible Light in der Produktion (Abschlussbericht). Frankfurt:
Deutsche Forschungsgesellschaft für Automatisierung und Mikroelektronik e.V. (DFAM),
2022.'
chicago-de: 'Shrotri, Abhijeet Narendra, Daniel Schneider, Holger Flatt und Oliver
Stübbe. 2022. Visible Light in der Produktion (Abschlussbericht). Frankfurt:
Deutsche Forschungsgesellschaft für Automatisierung und Mikroelektronik e.V. (DFAM).'
din1505-2-1: 'Shrotri, Abhijeet Narendra
; Schneider, Daniel ; Flatt,
Holger ; Stübbe, Oliver:
Visible Light in der Produktion (Abschlussbericht). Frankfurt : Deutsche
Forschungsgesellschaft für Automatisierung und Mikroelektronik e.V. (DFAM), 2022'
havard: A.N. Shrotri, D. Schneider, H. Flatt, O. Stübbe, Visible Light in der Produktion
(Abschlussbericht), Deutsche Forschungsgesellschaft für Automatisierung und Mikroelektronik
e.V. (DFAM), Frankfurt, 2022.
ieee: 'A. N. Shrotri, D. Schneider, H. Flatt, and O. Stübbe, Visible Light in
der Produktion (Abschlussbericht). Frankfurt: Deutsche Forschungsgesellschaft
für Automatisierung und Mikroelektronik e.V. (DFAM), 2022.'
mla: Shrotri, Abhijeet Narendra, et al. Visible Light in der Produktion (Abschlussbericht).
Deutsche Forschungsgesellschaft für Automatisierung und Mikroelektronik e.V. (DFAM),
2022.
short: A.N. Shrotri, D. Schneider, H. Flatt, O. Stübbe, Visible Light in der Produktion
(Abschlussbericht), Deutsche Forschungsgesellschaft für Automatisierung und Mikroelektronik
e.V. (DFAM), Frankfurt, 2022.
ufg: 'Shrotri, Abhijeet Narendra u. a.: Visible Light in der Produktion (Abschlussbericht),
Frankfurt 2022.'
van: 'Shrotri AN, Schneider D, Flatt H, Stübbe O. Visible Light in der Produktion
(Abschlussbericht). Frankfurt: Deutsche Forschungsgesellschaft für Automatisierung
und Mikroelektronik e.V. (DFAM); 2022.'
date_created: 2022-04-19T11:22:21Z
date_updated: 2024-05-21T11:57:19Z
department:
- _id: DEP5020
- _id: DEP6020
- _id: DEP5000
language:
- iso: ger
main_file_link:
- open_access: '1'
url: https://www.dfam.de/fileadmin/user_upload/Inhalt/Abschlussberichte/DFAM_39_KF.pdf
oa: '1'
place: Frankfurt
publication_status: published
publisher: Deutsche Forschungsgesellschaft für Automatisierung und Mikroelektronik
e.V. (DFAM)
report_number: '39'
status: public
title: Visible Light in der Produktion (Abschlussbericht)
type: report_science
user_id: '83781'
year: '2022'
...
---
_id: '7671'
abstract:
- lang: eng
text: 'Visible-light communication is a promising technology for industrial environments.
However, a variety of physical effects may influence the communication quality
in this potentially harsh environment: Dust and other particles lead to increased
attenuation. Artificial light sources and industrial processes, such as grinding
and welding, cause optical cross-talk. A multitude of reflective surfaces can
lead to fading due to multi-path propagation. These three aspects are experimentally
investigated in exemplary manufacturing processes at five different production
sites in order to estimate the relative importance and their specific impact on
VLC transmission in industrial areas. Spectral measurements demonstrate the presence
of interfering light sources, which occupy broad parts of the visible spectrum.
They give rise to flickering noise, which comprises a set of frequencies in the
electrical domain. The impact of these effects on the communication is analysed
with reference to the maximum achievable channel capacity and data rate approximation
based on on-off keying is deduced. It is found that cross-talk by environmental
and artificial light sources is one of the strongest effects, which influences
the optical, but also the electrical spectrum. It is also observed that industrial
areas differ strongly and must be categorised according to the manufacturing processes,
which can induce quite a variation of dust and attenuation accordingly.'
author:
- first_name: Daniel
full_name: Schneider, Daniel
id: '82849'
last_name: Schneider
- first_name: Abhijeet Narendra
full_name: Shrotri, Abhijeet Narendra
id: '74090'
last_name: Shrotri
orcid: 0000-0003-2116-156X
- first_name: Holger
full_name: Flatt, Holger
id: '58494'
last_name: Flatt
- first_name: Oliver
full_name: Stübbe, Oliver
id: '51864'
last_name: Stübbe
orcid: https://orcid.org/0000-0001-7293-6893
- first_name: Alexander
full_name: Wolff, Alexander
id: '83362'
last_name: Wolff
- first_name: Roland
full_name: Lachmayer, Roland
last_name: Lachmayer
- first_name: Christian-Alexander
full_name: Bunge, Christian-Alexander
last_name: Bunge
citation:
ama: 'Schneider D, Shrotri AN, Flatt H, et al. Impact of industrial environments
on visible light communication. Optics express : the international electronic
journal of optics / Optica. 2021;29(11):16087-16104. doi:10.1364/oe.421757'
apa: 'Schneider, D., Shrotri, A. N., Flatt, H., Stübbe, O., Wolff, A., Lachmayer,
R., & Bunge, C.-A. (2021). Impact of industrial environments on visible light
communication. Optics Express : The International Electronic Journal of Optics
/ Optica, 29(11), 16087–16104. https://doi.org/10.1364/oe.421757'
bjps: '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.'
chicago: 'Schneider, Daniel, Abhijeet Narendra Shrotri, Holger Flatt, Oliver Stübbe,
Alexander Wolff, Roland Lachmayer, and Christian-Alexander Bunge. “Impact of Industrial
Environments on Visible Light Communication.” Optics Express : The International
Electronic Journal of Optics / Optica 29, no. 11 (2021): 16087–104. https://doi.org/10.1364/oe.421757.'
chicago-de: 'Schneider, Daniel, Abhijeet Narendra Shrotri, Holger Flatt, Oliver
Stübbe, Alexander Wolff, Roland Lachmayer und Christian-Alexander Bunge. 2021.
Impact of industrial environments on visible light communication. Optics express :
the international electronic journal of optics / Optica 29, Nr. 11: 16087–16104.
doi:10.1364/oe.421757, .'
din1505-2-1: 'Schneider, Daniel ;
Shrotri, Abhijeet Narendra ; Flatt, Holger ; Stübbe,
Oliver ; Wolff, Alexander
; Lachmayer, Roland ; Bunge,
Christian-Alexander: Impact of industrial environments on visible light
communication. In: Optics express : the international electronic journal of
optics / Optica Bd. 29. Washington, DC, Optical Society of America (2021),
Nr. 11, S. 16087–16104'
havard: 'D. Schneider, A.N. Shrotri, H. Flatt, O. Stübbe, A. Wolff, R. Lachmayer,
C.-A. Bunge, Impact of industrial environments on visible light communication,
Optics Express : The International Electronic Journal of Optics / Optica. 29 (2021)
16087–16104.'
ieee: 'D. Schneider et al., “Impact of industrial environments on visible
light communication,” Optics express : the international electronic journal
of optics / Optica, vol. 29, no. 11, pp. 16087–16104, 2021, doi: 10.1364/oe.421757.'
mla: 'Schneider, Daniel, et al. “Impact of Industrial Environments on Visible Light
Communication.” Optics Express : The International Electronic Journal of Optics
/ Optica, vol. 29, no. 11, 2021, pp. 16087–104, https://doi.org/10.1364/oe.421757.'
short: 'D. Schneider, A.N. Shrotri, H. Flatt, O. Stübbe, A. Wolff, R. Lachmayer,
C.-A. Bunge, Optics Express : The International Electronic Journal of Optics /
Optica 29 (2021) 16087–16104.'
ufg: 'Schneider, Daniel u. a.: Impact of industrial environments on visible
light communication, in: Optics express : the international electronic journal
of optics / Optica 29 (2021), H. 11, S. 16087–16104.'
van: 'Schneider D, Shrotri AN, Flatt H, Stübbe O, Wolff A, Lachmayer R, et al. Impact
of industrial environments on visible light communication. Optics express : the
international electronic journal of optics / Optica. 2021;29(11):16087–104.'
date_created: 2022-04-19T10:21:43Z
date_updated: 2024-04-19T12:00:29Z
department:
- _id: DEP5020
- _id: DEP5000
- _id: DEP6020
doi: 10.1364/oe.421757
intvolume: ' 29'
issue: '11'
language:
- iso: eng
main_file_link:
- open_access: '1'
url: https://opg.optica.org/oe/fulltext.cfm?uri=oe-29-11-16087&id=450941
oa: '1'
page: 16087-16104
place: Washington, DC
publication: 'Optics express : the international electronic journal of optics / Optica'
publication_identifier:
issn:
- '1094-4087 '
publication_status: published
publisher: Optical Society of America
status: public
title: Impact of industrial environments on visible light communication
type: scientific_journal_article
user_id: '51864'
volume: 29
year: '2021'
...
---
_id: '7672'
abstract:
- lang: eng
text: "Visible light communication (VLC) allows the dual use of lighting and wireless
communication systems by\r\nmodulation of illumination devices. However, to increase
the performance, typically, beam-forming measures are\r\ntaken creating pencil
beams, thus contradicting the illumination purpose. In order to optimize the performance\r\ntrade
o\v between e\x0Ecient illumination and communication, the switching capabilities
of illumination LEDs are\r\nexamined. Illumination LEDs with standard drivers
and without beam-forming show limited applicability for\r\ncommunication purposes
as they are not optimized for the necessary switching capability (f \x19 11 MHz)
and\r\ncoherence. Methods to enhance the electrical current by pre-equalisation,
biasing, carrier sweeping and current\r\nshaping are examined in respect to the
illumination LED's communication performance. A novel driver scheme\r\nis derived
which achieves considerably higher switching frequencies (f \x15 100 MHz) without
employing beamforming\r\nat the illumination LED. This driver is able to obtain
a data rate of up to 200 Mbit/s at a distance of\r\n3.2 m, using on-o\v keying
(OOK) modulation technique. Therefore, it is feasible to apply the LED driver
by\r\nimplementing standardised illumination devices in VLC systems."
author:
- first_name: Daniel
full_name: Schneider, Daniel
id: '82849'
last_name: Schneider
- first_name: Abhijeet Narendra
full_name: Shrotri, Abhijeet Narendra
id: '74090'
last_name: Shrotri
orcid: 0000-0003-2116-156X
- first_name: Holger
full_name: Flatt, Holger
id: '58494'
last_name: Flatt
- first_name: Oliver
full_name: Stübbe, Oliver
id: '51864'
last_name: Stübbe
orcid: https://orcid.org/0000-0001-7293-6893
- first_name: Roland
full_name: Lachmayer, Roland
last_name: Lachmayer
citation:
ama: 'Schneider D, Shrotri AN, Flatt H, Stübbe O, Lachmayer R. Efficient visible
light communication drivers using illumination LEDs in industrial environments.
In: Cheben P, Čtyroký J, Molina-Fernández I, eds. Integrated Optics: Design,
Devices, Systems and Applications VI. Vol 11775. Proceedings of SPIE. SPIE;
2021. doi:10.1117/12.2588923'
apa: 'Schneider, D., Shrotri, A. N., Flatt, H., Stübbe, O., & Lachmayer, R.
(2021). Efficient visible light communication drivers using illumination LEDs
in industrial environments. In P. Cheben, J. Čtyroký, & I. Molina-Fernández
(Eds.), Integrated Optics: Design, Devices, Systems and Applications VI
(Vol. 11775). SPIE. https://doi.org/10.1117/12.2588923'
bjps: '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.'
chicago: 'Schneider, Daniel, Abhijeet Narendra Shrotri, Holger Flatt, Oliver Stübbe,
and Roland Lachmayer. “Efficient Visible Light Communication Drivers Using Illumination
LEDs in Industrial Environments.” In Integrated Optics: Design, Devices, Systems
and Applications VI, edited by Pavel Cheben, Jiří Čtyroký, and Iñigo Molina-Fernández,
Vol. 11775. Proceedings of SPIE. Bellingham, Washington, USA: SPIE, 2021. https://doi.org/10.1117/12.2588923.'
chicago-de: 'Schneider, Daniel, Abhijeet Narendra Shrotri, Holger Flatt, Oliver
Stübbe und Roland Lachmayer. 2021. Efficient visible light communication drivers
using illumination LEDs in industrial environments. In: Integrated Optics:
Design, Devices, Systems and Applications VI, hg. von Pavel Cheben, Jiří Čtyroký,
und Iñigo Molina-Fernández, 11775:. Proceedings of SPIE. Bellingham, Washington,
USA: SPIE. doi:10.1117/12.2588923,
.'
din1505-2-1: 'Schneider, Daniel ;
Shrotri, Abhijeet Narendra ; Flatt, Holger ; Stübbe,
Oliver ; Lachmayer, Roland:
Efficient visible light communication drivers using illumination LEDs in industrial
environments. In: Cheben, P. ; Čtyroký, J. ; Molina-Fernández,
I. (Hrsg.): Integrated Optics: Design, Devices, Systems and Applications
VI, Proceedings of SPIE. Bd. 11775. Bellingham, Washington, USA : SPIE,
2021'
havard: 'D. Schneider, A.N. Shrotri, H. Flatt, O. Stübbe, R. Lachmayer, Efficient
visible light communication drivers using illumination LEDs in industrial environments,
in: P. Cheben, J. Čtyroký, I. Molina-Fernández (Eds.), Integrated Optics: Design,
Devices, Systems and Applications VI, SPIE, Bellingham, Washington, USA, 2021.'
ieee: 'D. Schneider, A. N. Shrotri, H. Flatt, O. Stübbe, and R. Lachmayer, “Efficient
visible light communication drivers using illumination LEDs in industrial environments,”
in Integrated Optics: Design, Devices, Systems and Applications VI, Online
(Prag), 2021, vol. 11775. doi: 10.1117/12.2588923.'
mla: 'Schneider, Daniel, et al. “Efficient Visible Light Communication Drivers Using
Illumination LEDs in Industrial Environments.” Integrated Optics: Design, Devices,
Systems and Applications VI, edited by Pavel Cheben et al., vol. 11775, SPIE,
2021, https://doi.org/10.1117/12.2588923.'
short: 'D. Schneider, A.N. Shrotri, H. Flatt, O. Stübbe, R. Lachmayer, in: P. Cheben,
J. Čtyroký, I. Molina-Fernández (Eds.), Integrated Optics: Design, Devices, Systems
and Applications VI, SPIE, Bellingham, Washington, USA, 2021.'
ufg: 'Schneider, Daniel u. a.: Efficient visible light communication drivers
using illumination LEDs in industrial environments, in: Cheben, Pavel/Čtyroký,
Jiří/Molina-Fernández, Iñigo (Hgg.): Integrated Optics: Design, Devices, Systems
and Applications VI, Bd. 11775, Bellingham, Washington, USA 2021 (Proceedings
of SPIE).'
van: 'Schneider D, Shrotri AN, Flatt H, Stübbe O, Lachmayer R. Efficient visible
light communication drivers using illumination LEDs in industrial environments.
In: Cheben P, Čtyroký J, Molina-Fernández I, editors. Integrated Optics: Design,
Devices, Systems and Applications VI. Bellingham, Washington, USA: SPIE; 2021.
(Proceedings of SPIE; vol. 11775).'
conference:
end_date: 2021-04-23
location: Online (Prag)
name: 'Integrated Optics: Design, Devices, Systems and Applications ; SPIE Optics
+ Optoelectronics Digital Forum '
start_date: 2021-04-19
date_created: 2022-04-19T10:23:26Z
date_updated: 2024-04-19T12:53:36Z
department:
- _id: DEP5020
- _id: DEP6020
- _id: DEP5000
doi: 10.1117/12.2588923
editor:
- first_name: Pavel
full_name: Cheben, Pavel
last_name: Cheben
- first_name: Jiří
full_name: Čtyroký, Jiří
last_name: Čtyroký
- first_name: Iñigo
full_name: Molina-Fernández, Iñigo
last_name: Molina-Fernández
intvolume: ' 11775'
keyword:
- Optical Wireless Communication
- Visible Light Communication
- VLC
- Li-Fi
- Illumination
- Dual-purpose drivers
language:
- iso: eng
place: Bellingham, Washington, USA
publication: 'Integrated Optics: Design, Devices, Systems and Applications VI'
publication_identifier:
eisbn:
- '978-1-5106-4385-7 '
eissn:
- 1996-756X
isbn:
- 978-1-5106-4384-0
issn:
- 0277-786X
publication_status: published
publisher: SPIE
series_title: Proceedings of SPIE
status: public
title: Efficient visible light communication drivers using illumination LEDs in industrial
environments
type: conference
user_id: '51864'
volume: 11775
year: '2021'
...
---
_id: '7680'
abstract:
- lang: eng
text: 'In industrial scenarios wireless communication becomes more and more widespread.
Radio-frequency technologies are still predominant, but optical wireless communication
(OWC) provides many advantages to fulfill the requirements of communication in
industrial applications. A survey with industrial users consolidate a list with
the most important demands for wireless communication within the field: The results
reveal that the current heterogeneous requirements for wireless communication
are valid, but highlight the need for license-free, robust and energy efficient
wireless communication at rather moderate data rates. These requirements can be
met by OWC, but its direct application in industrial environments is often hindered
by the harsh conditions, with measurements inter alia indicating specific cross
talk by light-emitting processes. In this article, these aspects are discussed
one by one in order to obtain a clear perspective about the applicability, the
main limitations and potential technologies for OWC and competing approaches in
industrial areas. In summary, the application requirements of industrial communication
are substantiated, whereas specific limitations and needs for advancement of current
OWC systems are derived.'
author:
- first_name: Daniel
full_name: Schneider, Daniel
id: '82849'
last_name: Schneider
- first_name: Abhijeet Narendra
full_name: Shrotri, Abhijeet Narendra
id: '74090'
last_name: Shrotri
orcid: 0000-0003-2116-156X
- first_name: Oliver
full_name: Stübbe, Oliver
id: '51864'
last_name: Stübbe
orcid: https://orcid.org/0000-0001-7293-6893
- first_name: Roland
full_name: Lachmeyer, Roland
last_name: Lachmeyer
- first_name: Christian-Alexander
full_name: Bunge, Christian-Alexander
last_name: Bunge
citation:
ama: 'Schneider D, Shrotri AN, Stübbe O, Lachmeyer R, Bunge CA. Optical Wireless
Communication in Industrial Areas: Potential Performance and Actual Demand.
Vol 297. Verband der Elektrotechnik Elektronik Informationstechnik e.V.; 2021.'
apa: 'Schneider, D., Shrotri, A. N., Stübbe, O., Lachmeyer, R., & Bunge, C.-A.
(2021). Optical Wireless communication in industrial areas: Potential performance
and actual demand. In VDE-ITG Photonische Netze (Vol. 297). Verband der
Elektrotechnik Elektronik Informationstechnik e.V.'
bjps: 'Schneider D et al. (2021) Optical Wireless Communication
in Industrial Areas: Potential Performance and Actual Demand. Stuttgart: Verband
der Elektrotechnik Elektronik Informationstechnik e.V.'
chicago: 'Schneider, Daniel, Abhijeet Narendra Shrotri, Oliver Stübbe, Roland Lachmeyer,
and Christian-Alexander Bunge. Optical Wireless Communication in Industrial
Areas: Potential Performance and Actual Demand. VDE-ITG Photonische Netze.
Vol. 297. Informationstechnische Gesellschaft: ITG-Fachbericht . Stuttgart: Verband
der Elektrotechnik Elektronik Informationstechnik e.V., 2021.'
chicago-de: 'Schneider, Daniel, Abhijeet Narendra Shrotri, Oliver Stübbe, Roland
Lachmeyer und Christian-Alexander Bunge. 2021. Optical Wireless communication
in industrial areas: Potential performance and actual demand. VDE-ITG Photonische
Netze. Bd. 297. Informationstechnische Gesellschaft: ITG-Fachbericht . Stuttgart:
Verband der Elektrotechnik Elektronik Informationstechnik e.V.'
din1505-2-1: 'Schneider, Daniel ;
Shrotri, Abhijeet Narendra ; Stübbe, Oliver ; Lachmeyer,
Roland ; Bunge, Christian-Alexander:
Optical Wireless communication in industrial areas: Potential performance and
actual demand, Informationstechnische Gesellschaft: ITG-Fachbericht .
Bd. 297. Stuttgart : Verband der Elektrotechnik Elektronik Informationstechnik
e.V., 2021'
havard: 'D. Schneider, A.N. Shrotri, O. Stübbe, R. Lachmeyer, C.-A. Bunge, Optical
Wireless communication in industrial areas: Potential performance and actual demand,
Verband der Elektrotechnik Elektronik Informationstechnik e.V., Stuttgart, 2021.'
ieee: 'D. Schneider, A. N. Shrotri, O. Stübbe, R. Lachmeyer, and C.-A. Bunge, Optical
Wireless communication in industrial areas: Potential performance and actual demand,
vol. 297. Stuttgart: Verband der Elektrotechnik Elektronik Informationstechnik
e.V., 2021.'
mla: 'Schneider, Daniel, et al. “Optical Wireless Communication in Industrial Areas:
Potential Performance and Actual Demand.” VDE-ITG Photonische Netze, vol.
297, Verband der Elektrotechnik Elektronik Informationstechnik e.V., 2021.'
short: 'D. Schneider, A.N. Shrotri, O. Stübbe, R. Lachmeyer, C.-A. Bunge, Optical
Wireless Communication in Industrial Areas: Potential Performance and Actual Demand,
Verband der Elektrotechnik Elektronik Informationstechnik e.V., Stuttgart, 2021.'
ufg: 'Schneider, Daniel u. a.: Optical Wireless communication in industrial
areas: Potential performance and actual demand, Bd. 297, Stuttgart 2021 (Informationstechnische
Gesellschaft: ITG-Fachbericht ).'
van: 'Schneider D, Shrotri AN, Stübbe O, Lachmeyer R, Bunge CA. Optical Wireless
communication in industrial areas: Potential performance and actual demand. VDE-ITG
Photonische Netze. Stuttgart: Verband der Elektrotechnik Elektronik Informationstechnik
e.V.; 2021. (Informationstechnische Gesellschaft: ITG-Fachbericht ; vol. 297).'
conference:
end_date: 2021-05-20
location: Stuttgart
name: 22. VDE-ITG-Fachtagung Photonische Netze
start_date: 2021-05-19
date_created: 2022-04-19T11:08:22Z
date_updated: 2024-04-19T12:01:08Z
department:
- _id: DEP5020
- _id: DEP6020
- _id: DEP5000
intvolume: ' 297'
language:
- iso: eng
main_file_link:
- url: https://ieeexplore.ieee.org/document/9471827
place: Stuttgart
publication: VDE-ITG Photonische Netze
publication_identifier:
isbn:
- 978-3-8007-5555-4
publication_status: published
publisher: Verband der Elektrotechnik Elektronik Informationstechnik e.V.
series_title: 'Informationstechnische Gesellschaft: ITG-Fachbericht '
status: public
title: 'Optical Wireless communication in industrial areas: Potential performance
and actual demand'
type: conference_editor_article
user_id: '51864'
volume: 297
year: '2021'
...
---
_id: '11195'
author:
- first_name: Daniel
full_name: Schneider, Daniel
id: '82849'
last_name: Schneider
- first_name: Harry
full_name: Fast, Harry
id: '51413'
last_name: Fast
- first_name: Holger
full_name: Flatt, Holger
id: '58494'
last_name: Flatt
- first_name: Jürgen
full_name: Jasperneite, Jürgen
id: '1899'
last_name: Jasperneite
- first_name: Oliver
full_name: Stübbe, Oliver
id: '51864'
last_name: Stübbe
orcid: https://orcid.org/0000-0001-7293-6893
- first_name: René
full_name: Heidl, René
last_name: Heidl
citation:
ama: Schneider D, Fast H, Flatt H, Jasperneite J, Stübbe O, Heidl R. Einsatzfähigkeit
von optischer Freiraumkommunikation in industriellen Produktionsumgebungen.
Vol 2330. VDI Verlag; 2018:273-284. doi:10.51202/9783181023303-273
apa: 'Schneider, D., Fast, H., Flatt, H., Jasperneite, J., Stübbe, O., & Heidl,
R. (2018). Einsatzfähigkeit von optischer Freiraumkommunikation in industriellen
Produktionsumgebungen. In Automation 2018 : 19. Leitkongress der Mess- und
Automatisierungstechnik : Baden-Baden, 03. und 04. Juli 2018 (Vol. 2330, pp.
273–284). VDI Verlag. https://doi.org/10.51202/9783181023303-273'
bjps: 'Schneider D et al. (2018) Einsatzfähigkeit von optischer
Freiraumkommunikation in industriellen Produktionsumgebungen. Düsseldorf:
VDI Verlag.'
chicago: 'Schneider, Daniel, Harry Fast, Holger Flatt, Jürgen Jasperneite, Oliver
Stübbe, and René Heidl. Einsatzfähigkeit von optischer Freiraumkommunikation
in industriellen Produktionsumgebungen. Automation 2018 : 19. Leitkongress
der Mess- und Automatisierungstechnik : Baden-Baden, 03. und 04. Juli 2018.
Vol. 2330. VDI-Berichte. Düsseldorf: VDI Verlag, 2018. https://doi.org/10.51202/9783181023303-273.'
chicago-de: 'Schneider, Daniel, Harry Fast, Holger Flatt, Jürgen Jasperneite, Oliver
Stübbe und René Heidl. 2018. Einsatzfähigkeit von optischer Freiraumkommunikation
in industriellen Produktionsumgebungen. Automation 2018 : 19. Leitkongress
der Mess- und Automatisierungstechnik : Baden-Baden, 03. und 04. Juli 2018.
Bd. 2330. VDI-Berichte. Düsseldorf: VDI Verlag. doi:10.51202/9783181023303-273,
.'
din1505-2-1: 'Schneider, Daniel ;
Fast, Harry ; Flatt,
Holger ; Jasperneite, Jürgen
; Stübbe, Oliver ; Heidl,
René: Einsatzfähigkeit von optischer Freiraumkommunikation in industriellen
Produktionsumgebungen, VDI-Berichte. Bd. 2330. Düsseldorf : VDI Verlag,
2018'
havard: D. Schneider, H. Fast, H. Flatt, J. Jasperneite, O. Stübbe, R. Heidl, Einsatzfähigkeit
von optischer Freiraumkommunikation in industriellen Produktionsumgebungen, VDI
Verlag, Düsseldorf, 2018.
ieee: 'D. Schneider, H. Fast, H. Flatt, J. Jasperneite, O. Stübbe, and R. Heidl,
Einsatzfähigkeit von optischer Freiraumkommunikation in industriellen Produktionsumgebungen,
vol. 2330. Düsseldorf: VDI Verlag, 2018, pp. 273–284. doi: 10.51202/9783181023303-273.'
mla: 'Schneider, Daniel, et al. “Einsatzfähigkeit von optischer Freiraumkommunikation
in industriellen Produktionsumgebungen.” Automation 2018 : 19. Leitkongress
der Mess- und Automatisierungstechnik : Baden-Baden, 03. und 04. Juli 2018,
vol. 2330, VDI Verlag, 2018, pp. 273–84, https://doi.org/10.51202/9783181023303-273.'
short: D. Schneider, H. Fast, H. Flatt, J. Jasperneite, O. Stübbe, R. Heidl, Einsatzfähigkeit
von optischer Freiraumkommunikation in industriellen Produktionsumgebungen, VDI
Verlag, Düsseldorf, 2018.
ufg: 'Schneider, Daniel u. a.: Einsatzfähigkeit von optischer Freiraumkommunikation
in industriellen Produktionsumgebungen, Bd. 2330, Düsseldorf 2018 (VDI-Berichte).'
van: 'Schneider D, Fast H, Flatt H, Jasperneite J, Stübbe O, Heidl R. Einsatzfähigkeit
von optischer Freiraumkommunikation in industriellen Produktionsumgebungen. Automation
2018 : 19. Leitkongress der Mess- und Automatisierungstechnik : Baden-Baden, 03.
und 04. Juli 2018. Düsseldorf: VDI Verlag; 2018. (VDI-Berichte; vol. 2330).'
conference:
end_date: 2018-07-04
location: Baden-Baden
name: 19. Leitkongress der Mess- und Automatisierungstechnik Seamless Convergence
of Automation & IT
start_date: 2018-07-03
date_created: 2024-03-07T13:43:15Z
date_updated: 2024-04-19T12:55:09Z
department:
- _id: DEP5020
- _id: DEP5019
- _id: DEP5000
- _id: DEP6020
doi: 10.51202/9783181023303-273
intvolume: ' 2330'
language:
- iso: ger
page: 273-284
place: Düsseldorf
publication: 'Automation 2018 : 19. Leitkongress der Mess- und Automatisierungstechnik
: Baden-Baden, 03. und 04. Juli 2018'
publication_identifier:
isbn:
- 978-3-18-092330-7
issn:
- ' 0083-5560'
publication_status: published
publisher: VDI Verlag
series_title: VDI-Berichte
status: public
title: Einsatzfähigkeit von optischer Freiraumkommunikation in industriellen Produktionsumgebungen
type: conference_editor_article
user_id: '51864'
volume: 2330
year: '2018'
...
---
_id: '4836'
abstract:
- lang: eng
text: Today radio based wireless communication technologies offer limited performance,
whereas optical wireless com- munication systems (OWC) propose potentially a high
performant, scalable communication system conforming to real time conditions.
However, current studies imply, that OWCs still lack the necessary performance
and robustness level for most wireless applications in industrial production environments.
In this approach several types of noises for free-space optical communication
systems are empirically analysed in an accredited, exemplary industrial production
environment. While the channel noise is usually modelled by the signal to noise
ratio it is found that real environments cannot be approximated by the usual static
additive white gaussian noise. In this approach the accumulated measurement data
represents the spectrum variation of different locations and times relating to
different types of noise sources. The implementation in a total channel model
allows the optimization of OWC designs like the channel access scheme or the modulation
type concerning performance and robustness. Furthermore an additional measurement
setup is proposed, capable of measuring and classifying existing noise sources
in order to serve the design of OWC systems in industrial production environments.
author:
- first_name: Daniel
full_name: Schneider, Daniel
id: '82849'
last_name: Schneider
- first_name: Holger
full_name: Flatt, Holger
id: '58494'
last_name: Flatt
- first_name: Jürgen
full_name: Jasperneite, Jürgen
id: '1899'
last_name: Jasperneite
- first_name: Oliver
full_name: Stübbe, Oliver
id: '51864'
last_name: Stübbe
orcid: https://orcid.org/0000-0001-7293-6893
citation:
ama: 'Schneider D, Flatt H, Jasperneite J, Stübbe O. Analysis of industrial production
environments and derivation of a novel channel model towards optical wireless
communication. In: Schröder S, Geyl R, eds. Optical Fabrication, Testing, and
Metrology VI. Vol 10692. Proceedings of SPIE. ; 2018. doi:https://doi.org/10.1117/12.2312102'
apa: Schneider, D., Flatt, H., Jasperneite, J., & Stübbe, O. (2018). Analysis
of industrial production environments and derivation of a novel channel model
towards optical wireless communication. In S. Schröder & R. Geyl (Eds.), Optical
Fabrication, Testing, and Metrology VI (Vol. 10692). https://doi.org/10.1117/12.2312102
bjps: 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.
chicago: Schneider, Daniel, Holger Flatt, Jürgen Jasperneite, and Oliver Stübbe.
“Analysis of Industrial Production Environments and Derivation of a Novel Channel
Model towards Optical Wireless Communication.” In Optical Fabrication, Testing,
and Metrology VI, edited by Sven Schröder and Roland Geyl, Vol. 10692. Proceedings
of SPIE, 2018. https://doi.org/10.1117/12.2312102.
chicago-de: 'Schneider, Daniel, Holger Flatt, Jürgen Jasperneite und Oliver Stübbe.
2018. Analysis of industrial production environments and derivation of a novel
channel model towards optical wireless communication. In: Optical Fabrication,
Testing, and Metrology VI, hg. von Sven Schröder und Roland Geyl, 10692:.
Proceedings of SPIE. doi:https://doi.org/10.1117/12.2312102,
.'
din1505-2-1: 'Schneider, Daniel ;
Flatt, Holger ; Jasperneite,
Jürgen ; Stübbe, Oliver:
Analysis of industrial production environments and derivation of a novel channel
model towards optical wireless communication. In: Schröder,
S. ; Geyl, R. (Hrsg.): Optical
Fabrication, Testing, and Metrology VI, Proceedings of SPIE. Bd. 10692,
2018'
havard: 'D. Schneider, H. Flatt, J. Jasperneite, O. Stübbe, Analysis of industrial
production environments and derivation of a novel channel model towards optical
wireless communication, in: S. Schröder, R. Geyl (Eds.), Optical Fabrication,
Testing, and Metrology VI, 2018.'
ieee: 'D. Schneider, H. Flatt, J. Jasperneite, and O. Stübbe, “Analysis of industrial
production environments and derivation of a novel channel model towards optical
wireless communication,” in Optical Fabrication, Testing, and Metrology VI,
Frankfurt, 2018, vol. 10692. doi: https://doi.org/10.1117/12.2312102.'
mla: Schneider, Daniel, et al. “Analysis of Industrial Production Environments and
Derivation of a Novel Channel Model towards Optical Wireless Communication.” Optical
Fabrication, Testing, and Metrology VI, edited by Sven Schröder and Roland
Geyl, vol. 10692, 2018, https://doi.org/10.1117/12.2312102.
short: 'D. Schneider, H. Flatt, J. Jasperneite, O. Stübbe, in: S. Schröder, R. Geyl
(Eds.), Optical Fabrication, Testing, and Metrology VI, 2018.'
ufg: 'Schneider, Daniel u. a.: Analysis of industrial production environments
and derivation of a novel channel model towards optical wireless communication,
in: Schröder, Sven/Geyl, Roland (Hgg.): Optical Fabrication, Testing, and
Metrology VI, Bd. 10692, o. O. 2018 (Proceedings of SPIE).'
van: 'Schneider D, Flatt H, Jasperneite J, Stübbe O. Analysis of industrial production
environments and derivation of a novel channel model towards optical wireless
communication. In: Schröder S, Geyl R, editors. Optical Fabrication, Testing,
and Metrology VI. 2018. (Proceedings of SPIE; vol. 10692).'
conference:
end_date: 2018-05-17
location: Frankfurt
name: 'SPIE Optical Systems design '
start_date: 2018-05-14
date_created: 2021-02-02T12:28:38Z
date_updated: 2024-03-21T10:02:55Z
department:
- _id: DEP5023
- _id: DEP5019
- _id: DEP5020
doi: https://doi.org/10.1117/12.2312102
editor:
- first_name: Sven
full_name: Schröder, Sven
last_name: Schröder
- first_name: Roland
full_name: Geyl, Roland
last_name: Geyl
intvolume: ' 10692'
language:
- iso: eng
publication: Optical Fabrication, Testing, and Metrology VI
publication_identifier:
eisbn:
- 978-1-5106-1922-7
eissn:
- 0277-786X
isbn:
- 978-1-5106-1921-0
issn:
- '0277-786X '
publication_status: published
series_title: Proceedings of SPIE
status: public
title: Analysis of industrial production environments and derivation of a novel channel
model towards optical wireless communication
type: conference
user_id: '51864'
volume: 10692
year: '2018'
...