lifi high speed wireless networking using nano-metre · pdf filevehicular technology...
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LiFi − High Speed Wireless Networking Using Nano-Metre Waves
Professor Harald Haas
http://www.lifi.eng.ed.ac.uk/
Twitter: @dlarah15
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Sensors
Connectivity
Data/Signal processing
Big data / data analytics / AI
Action / Apps / Robotics
SMART-X Environments,
e.g., manufacturing, cities, homes, cars, bodies..
Ener
gy h
arve
stin
g Connectivity
Senses
Nervous System
Brain
Nervous System
Arms, Legs, Voice
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Spectrum Crunch
Winzer, Neilson, “From Scaling Disparities to IntegratedParallelism: A Decathlon for a Decade, IEE/OSA JLT, 2017
In 20 years (6G?), this means × 12,000 bandwidth500 MHz used for WiFi in 5 GHz band will need to become 6 THz
RF is only 0.3 THz!!20 times shortfall!
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The small cell concept
T. Cogalan and H. Haas, “Why Would 5G Need Optical Wireless Communications?,” PIMRC, October 2017.
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Hitting physical limits in cellular RF communications
5
Source: MSR, Stadium Tech Report, Q1/2016
“… under-seat deployments are now winning favorin all sorts of arenas for their ability to use human bodiesto help build a more dense network …”
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The electromagnetic spectrum
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Z. Wang, D. Tsonev, S. Videv and H. Haas, "On the Design of a Solar-Panel Receiver for Optical Wireless Communications With Simultaneous Energy Harvesting," JSAC, vol. 33, no. 8, pp. 1612-1623, Aug. 2015
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Taxonomy
Range
Transmission speeds
Communication Mode
Duplex mode
Ultra high ≥ 100 Gbps
High ≥ 10 Mbps
Medium range ≥ 10 cm < 100 m
Short range < 10 cm
Long range ≥ 100 m
Mobile, multiuser access and seamless handover
SimplexFull-duplex
Low < 10 Mbps
Static point-to-point (cable replacement)
Mobile point-to-point
Half-duplex
Very high ≥ 1 Gbps
Very Low < 1 Mbps
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Non-linearity effects
1. Amplitude distortion
2. Upper clipping
3. Lower clipping
Intensity modulation(IM) of the optical carrier
Elgala, H., Mesleh, R., and Haas, H., "Indoor Broadcasting via White LEDs and OFDM", IEEE Trans. Consum. Electron., vol. 55, no. 3, pp. 1127 – 1134, Aug. 2009
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BER performance
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Creating unipolar OFDM signals at the expense of spectrum efficiency
o Generate two copies of a bipolar OFDM frame.o Reverse the signs in the second copy.o Remove all negative samples.o Concept known in literature as U-OFDM or as Flip-OFDM.
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Unipolar / flip OFDMo Spectral efficiency is halved.
o M-QAM DCO-OFDM should be compared to M2-QAM U-OFDM.
o U-OFDM quickly loses energy efficiency with increasing spectral efficiency.
o The same problem is observed in ACO-OFDM and PAM-DMT.Bipolar OFDM
U-OFDM
Bipolar Frame 1
Bipolar Frame 1
Bipolar Frame 1
Positive Frame 1
NegativeFrame 1
Positive Frame 2
Negative Frame 2
Positive Frame 3
Negative Frame 3
N. Fernando, Y. Hong and E. Viterbo, "Flip-OFDM for Unipolar Communication Systems," IEEE Transactions on Communications, vol. 60, no. 12, pp. 3726-3733, Dec/ 2012.
D. Tsonev, S. Sinanovic and H. Haas, "Novel Unipolar Orthogonal Frequency Division Multiplexing (U-OFDM) for Optical Wireless," Vehicular Technology Conference (VTC Spring), Yokohama, 2012
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Avoiding spectrum efficiency loss in unipolar OFDM
+
+U-OFDM Depth 3
U-OFDM Depth 2
U-OFDM Depth1
P11N11P12N12P13N13P14N14
P21P21N21N21P22P22N22N22
P31P31P31P31N31N31N31N31
Maximum Depth 1 2 3 4 5 6 7
Additional spectral efficiency [%]
50 75 87.5 93.8 96.9 98.4 99.2
o Subtraction removes interference from additional streams.
D. Tsonev, S. Videv and H. Haas, "Unlocking Spectral Efficiency in Intensity Modulation and Direct Detection Systems," JSAC, vol. 33, no. 9, pp. 1758-1770, Sept. 2015.
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Electrical energy efficiency
))}I(V()E{V(elec ttP =
o Voltage over LED probed
and captured with the
Oscilloscope
o Bandwidth = 20 MHz
o Constant bit loading
o Pre-equalization
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LED technologies / data rates
LEDtechnology
Data rate / Gbps
RGB LEDPhosphor coated blue LED
GaN micro LED micro LED
0.1
1
10
100
RGB laser LEDs
Tsonev, et al., "Towards a 100 Gb/s visible light wireless access network," Opt. Express 23, 1627-1637 (2015)
1
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8 Gbps
15 GbpsMohamed Sufyan Islim, et al., “Towards 10 Gb/s OFDM-based Visible Light Communication using a GaN Violet micro-LED”, Photonics Research, 2017
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LiFi ASICsTransmitter LiFi MIMO ASICReceiver LiFi MIMO ASIC
A. V. N. Jalajakumari et al., "High-Speed Integrated Digital to Light Converter for Short Range Visible Light Communication," in IEEE Photonics Technology Letters, vol. 29, no. 1, pp. 118-121, 2017
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Taking the 3 gigabit/s hurdle
Tsonev, D, et al., “A 3-Gb/s Single-LED OFDM-based Wireless VLC Link Using a Gallium Nitride μLED,” Photonics Technology Letters, vol. 26, no. 7, pp. 637 - 640, 2014
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Misconception number one: LoS
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1.1 Gbps @ 10 m
10 m1.1 Gbps
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Misconception: Interference from sunlight
M. S. Islim, M. Safari, S. Videv, and H. Haas, “A Proof-of-Concept of Outdoor Visible Light Communications in the presence of Sunlight”, in LED professional Symposium - Expo 2016, Bregenz (Austria), 20-22 September, 2016
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Misconception: Interference from sunlight
M. S. Islim, M. Safari, S. Videv, and H. Haas, “A Proof-of-Concept of Outdoor Visible Light Communications in the presence of Sunlight”, in LED professional Symposium - Expo 2016, Bregenz (Austria), 20-22 September, 2016
Dark Room Sunlight Irradiance
Sunlight + Blue Filter
S866
4-50
K[1
9.6
mm
2 ]
Average SNR [dB] 17.57 12.42 16.64
SNR degradation compared to Dark Room 0% 29.33% 5.32%
Data rate @ BER< 3.8e-3 [Mbps] 416.44 313.35 396.71
Degradation of data rates compared to Dark Room. 0% 24.8% 4.7%
S866
4-05
K[0
.19
mm
2 ]
Average SNR [dB] 18.58 16.42 17.36
SNR degradation compared to Dark Room 0% 11.6% 1.7%
Data rate @ BER< 3.8e-3 [Mbps] 1139.26 1015 1122.34
Degradation of data rates compared to Dark Room. 0% 10.9% 1.5%
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LiFi attocell networking
Haas, H., “High-speed wireless networking using visible light, SPIE Newsroom, Online: http://spie.org/x93593.xml (invited)Haas, H., Wang, Y., and Yin, E., “What is LiFi?”, Journal of Lightwave Technology, vol. 3, iss. 8, April 2016 (invited)Tsonev, D.; Videv, S.; and Haas, H.; “Light fidelity (Li-Fi): towards all-optical networking,” Proc. SPIE 9007, Broadband Access
Communication Technologies VIII, 900702, 1 Feb. 2014
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Rx FOV 85° - with lighting constraint
16 January, 201827
0.76 b/s/Hz/m2
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Rx FOV 45° - without lighting constraint
16 January, 201828
2.24 b/s/Hz/m2
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LiFi attocell networking• Each light fixture
serves as an access point (AP), and serves multiple users.
• Four types of deployment scenarios:
• (a) HEX; • (b) Square;• (c) HCPP; • (d) PPP.
C. Chen, et al., "Downlink Performance of Optical Attocell Networks," in JLT, 2016
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Area data rate results
Haas, et al., “What is LiFi”, JLT, 34 (6), 1533-1544, 2016
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Joint transmission in VLC
C. Chen, et al., "Fractional Frequency Reuse in DCO-OFDM-Based Optical Attocell Networks," in Journal of Lightwave Technology, vol. 33, no. 19, pp. 3986-4000, Oct.1, 1 2015.
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Simulation SetupRoom size 16 m x 9 m
x3 m
Modulation bandwidth
20 MHz
Number of atto-cells
13
Number of users 40
Benchmark systems:
- Universal frequency reuse system ( reuse factor = 1 )
- Static reuse partitioning system ( reuse factor = 3 )
Simulated proposed system:
- Joint transmission with frequency plan 1
- Joint transmission with frequency plan 2
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Simulation results – full frequency reuse
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Simulation results – joint transmission
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The ‘LiFi’ disruptionThe advent of LED lighting has shifted the business metric of the lighting world from $/bulb to $/lux. The additional energy management allows for building optimisation.
Added communications and the increasing desire for infrastructure data means a convergence to $/bit.
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IEEE 802.11 LC Study Group
2018 20212017 20202019
Pre-standarddevices available
802.11 ballot& standardpublishing
802.11study group
802.11 topicinterest group
Creation ofLiFi alliance
Alliance PoCsand interop testing
802.11 standard
drafts
802.11task
group
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IEEE 802.11 Study Group
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LiFi is real...
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Source: telecoms.com Source: 123rf.com
Electromagnetic spectrum is continuum → Move from cm-Wave to mm-Wave to nm-Wave !!