visible light communication
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Visible light communication (VLC) uses visible light spectrum to transmit data wirelessly. It has several advantages over traditional wireless technologies like WiFi, including no interference with other devices, safety in medical settings, and ubiquitous availability with rising LED usage. Early experiments with VLC date back to 1880 with Alexander Graham Bell's photophone. Modern standardization efforts aim to avoid fragmentation and promote applications like indoor localization, smart retail, and vehicle-to-vehicle communication. Key challenges include increasing data rates and providing bidirectional communication capabilities. VLC remains an emerging technology but shows promise for a variety of uses.
![10
Technology (2/3)
schematic view of the entire process of transmitting and
receiving data
(source: based on a schematic view shown in [1])](https://image.slidesharecdn.com/2010-06-29pohlmann-visiblelightcommunication-101026200204-phpapp02/85/visible-light-communication-10-320.jpg)
![12
Comparison to other wireless technologies
(source: IEEE VLC Tutorial http://www.ieee802.org/15/pub/TG7.html [2])](https://image.slidesharecdn.com/2010-06-29pohlmann-visiblelightcommunication-101026200204-phpapp02/85/visible-light-communication-12-320.jpg)
![19
JEITA CP-1222
according to Shinichiro Haruyama (vice chairman of the VLCC)
the following recommendations are proposed by JEITA CP-
1222 (see [3] for more details):
SC frequency: 28.8 kHz
transmission rate: 4.8 kbps
modulation: SC-4PPM (chosen to avoid flickering)
cyclic redundancy checks (CRC) for error detection/correction](https://image.slidesharecdn.com/2010-06-29pohlmann-visiblelightcommunication-101026200204-phpapp02/85/visible-light-communication-19-320.jpg)
![23
Providing an uplink
VLC is a natural broadcast medium
sending back information to the source is sometimes desired
there are three major approaches to providing an uplink to the
camera (as discussed in [4]):
co-locating the light source with a VLC receiver
- advantage: data can be sent back
- drawback: sending light back is costly (energy-wise)
using a retro-reflector to return incident light
- advantage: data can be sent back from several sources in parallel
- drawback: uplink data rates are rather low using this approach
fitting the light source with a RF or IR receiver
- advantage: data can be sent back fast
- drawback: no VLC is used, all disadvantages of not using VLC (EM-
interference etc.)](https://image.slidesharecdn.com/2010-06-29pohlmann-visiblelightcommunication-101026200204-phpapp02/85/visible-light-communication-23-320.jpg)
![25
References
H.Sugiyama, S.Haruyama, M.Nakagawa. Experimental investigation
of modulation method for visible-light communications [1]
IEEE VLC tutorial (http://www.ieee802.org/15/pub/TG7.html) [2]
Japan's Visible Light Communications Consortium and Its
Standardization Activities (Shinichiro Haruyama, Ph.D) [3]
Visible Light Communications: challenges and possibilities: Dominic
C. O’Brien et al. [4]](https://image.slidesharecdn.com/2010-06-29pohlmann-visiblelightcommunication-101026200204-phpapp02/85/visible-light-communication-25-320.jpg)
visible light communication
- 1. Institut für Telematik | Universität zu Lübeck 1 Visible Light Communication Seminar Kommunikationsstandards in der Medizintechnik 29. Juni 2010 Christian Pohlmann
- 2. 2 Outline motivation history technology and modulation current standards applications conclusion and outlook
- 3. 3 Visible Light (source: http://www.etud.insa-toulouse.fr/~tkabir/code/cietorgb.html, public domain) visible light is all around us part of the visually-perceivable electromagnetic spectrum spectrum of visible light ranges from 380nm to 750nm
- 4. 4 Motivation visible light does not cause any health problems no EM-interference occurs save to use in hospitals no expensive patent-license necessary no interception because the transmission range is narrowly confined ever-increasing market share of LEDs makes VLC ubiquitously available
- 5. 5 The Photophone (1/2) (source: Meyers Konversationslexikon, 1888) the photophone was developed by Alexander Graham Bell and his assistant Charles Tainter in 1880 first method for wireless verbal communication below is a schematic view from one of Bell's papers
- 6. 6 The Photophone (2/2) (source: http://www.bluehaze.com.au/modlight/ModLightBiblio.htm, http://www.flickr.com/photos/fdctsevilla/4074931746/ author(s) unknown) Bell and his assistant using the photophone for transmitting and receiving data
- 7. 7 Visible Light Communications Consortium the Visible Light Communication Consortium was established in 2003 by Japanese tech-companies aims to standardize VLC technology avoid fragmentation of different protocols and implementations two standards are proposed: JEITA CP-1221 JEITA CP-1222 also tries to raise public awareness for VLC and promote its applications standardization efforts for physical and media access layer are also done by IEEE 802.15, Task Group 7
- 8. 8 VLCC Members NEC Corporation Panasonic Electric Works Co., Ltd The Nippon Signal Co., Ltd Toshiba Corporation Japan Rural Information System Association Samsung Electronics Co., Ltd NTT DoCoMo, Inc Casio Computer Co., Ltd Nakagawa Laboratories, Inc. Outstanding Technology Co., Ltd Sumitomo Mitsui Construction Co., Ltd Tamura Corporation Sharp Corporation Japan Coast Guard Comtech 2000 Corporation RISE Co., Ltd Japan Traffic Management Technology Association NHK
- 9. 9 Technology (1/3) every kind of light source could be used as sender LEDs are the predominant choice for transmitters they can be switched on and off in very short intervals receivers photodiode receivers CCD and CMOS sensors
- 10. 10 Technology (2/3) schematic view of the entire process of transmitting and receiving data (source: based on a schematic view shown in [1])
- 11. 11 Technology (3/3) phosphorus LEDs can achieve up to 40 Mbps by using RGB LEDs data rates can go up to 100 Mbps RCLEDs (resonant cavity LEDs) can achieve data rates up to 500 Mbps RCLEDS use Bragg reflectors (which serve as mirrors) to enhance the emitted light they also have increased spectral purity when compared to conventional LEDs which further improves communication capabilities LEDs are energy-efficient and are becoming increasingly inexpensive
- 12. 12 Comparison to other wireless technologies (source: IEEE VLC Tutorial http://www.ieee802.org/15/pub/TG7.html [2])
- 13. 13 Data transmission modulation (with respect to VLC) is used to transform the data (given as a sequence of 0s and 1s) into a series of light pulses two main alternative modulation schemes: sub-carrier pulse position modulation (SC-kPPM): - data is separated into groups of log k bits each and there is only a single pulse for each group frequency shift keying (FSK): - signal frequency determines whether or not the currently transferred bit is 0 or 1 point of confusion: the frequency of light pulses is modulated, not the frequency of the light itself
- 14. 14 Sub-carrier pulse position modulation data is separated into blocks of log k bits k possibilities for each block transmission time of a single pulse determines which of the k possibilities is represented by the current block
- 15. 15 Frequency shift keying two distinct values (0 and 1) are represented by two distinct pulse frequencies this (simple) form of FSK is also referred to as binary FSK, more complicated forms exist (in theory)
- 16. 16 Standardization efforts in 2007, the VLCC proposed two different standards: Visible Light Communication System Standard Visible Light ID System Standard JEITA (Japan Electronics and Information Technology Industries Association) accepted these standards as JEITA CP-1221 and JEITA CP-1222
- 17. 17 JEITA CP-1221 (1/2) motivation: avoid fragmentation and proprietary protocols prevent interference light that is used for communication purposes must be within a range of 380nm to 750nm emitted light must be within a particular range with an accuracy of 1nm sub-carrier (SC) modulation is proposed (as opposed to modulating the frequency of the actual light)
- 18. 18 JEITA CP-1221 (2/2) there are three major frequency ranges: range 1 (15 kHz to 40 kHz): - communication purposes range 2 (40kHz to 1 MHz): - fluorescent lights cannot use this range - they are too slow and generate too much noise range 3 (> 1 MHz): - should only be used for vast data transmission with special LEDs
- 19. 19 JEITA CP-1222 according to Shinichiro Haruyama (vice chairman of the VLCC) the following recommendations are proposed by JEITA CP- 1222 (see [3] for more details): SC frequency: 28.8 kHz transmission rate: 4.8 kbps modulation: SC-4PPM (chosen to avoid flickering) cyclic redundancy checks (CRC) for error detection/correction
- 20. 20 Localization GPS has very limited use indoors because of interference VLC can be used for indoor location estimation general idea: when light from a source is received, the receiver must be close to the source estimation of current location based on data received from several light sources (to increase accuracy)
- 21. 21 Localization light of different sources is projected through a lense onto an image sensor distances to light sources are estimated based on this projection (source: http://www.youtube.com/watch?v=QEh5f49LsB4)
- 22. 22 Further Applications VLC in combination with Powerline Communication smart stores/museums image sensor communication vehicle to vehicle communication RONJA 10 Mbps bandwidth and 1.4 km range (source: http://images.twibright.com/tns/18b2.html)
- 23. 23 Providing an uplink VLC is a natural broadcast medium sending back information to the source is sometimes desired there are three major approaches to providing an uplink to the camera (as discussed in [4]): co-locating the light source with a VLC receiver - advantage: data can be sent back - drawback: sending light back is costly (energy-wise) using a retro-reflector to return incident light - advantage: data can be sent back from several sources in parallel - drawback: uplink data rates are rather low using this approach fitting the light source with a RF or IR receiver - advantage: data can be sent back fast - drawback: no VLC is used, all disadvantages of not using VLC (EM- interference etc.)
- 24. 24 Conclusion and Outlook increasing data rate more advanced modulation parallelize communication by using groups of emitters and receivers (optical MIMO: Multi-Input, Multi-Output) standardization efforts technical requirements and other regulations (eye-safety, illumination constraints etc.) have to be combined VLC is a promising technology even if it is still in a very early stage it has a wide variety of prospective applications
- 25. 25 References H.Sugiyama, S.Haruyama, M.Nakagawa. Experimental investigation of modulation method for visible-light communications [1] IEEE VLC tutorial (http://www.ieee802.org/15/pub/TG7.html) [2] Japan's Visible Light Communications Consortium and Its Standardization Activities (Shinichiro Haruyama, Ph.D) [3] Visible Light Communications: challenges and possibilities: Dominic C. O’Brien et al. [4]