orbital angular momentum radio - cambridge …...orbital angular momentum radio a new possibility...
TRANSCRIPT
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Orbital Angular Momentum RadioA new possibility for Full Duplex Radio?
Ben Allen Alan TennantDepartment of Engineering Science Department of Electronic & Electrical Eng
University of Oxford University of Sheffield
Justin CoonDepartment of Engineering Science
University of Oxford
Acknowledgments:
Eduardo Cano, University of Bedfordshire
Q (Simon) Bai, University of Sheffield
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• What is Orbital Angular Momentum Radio?
• The state of the art
• How may OAM-radio help towards Full Duplex?
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Full duplex
• Spectral efficiency gain of x 2 MAX
• Three stages:
– Signal processing (cancellation)
– RF (separation / isolation & cancellation, saturation)
– Antennas (separation / isolation / leakage)
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What is OAM?
Polarisation
(Spin angular momentum)
Zero spin = linear polarisation
Phase profile
(Orbital angular momentum)
Zero = polarisation only
Default angular velocity = carrier frequency
Can control this...faster / slower
Angular momentum is preserved in the absence of torque
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Prior art
Astro physics → Fibre optic comms → Free space optical comms → Radio
RADIO
• First experiments (Venice, 2012) [1]
• Community debate (IEEE papers, 2012) [2] [3]
• First simulations & Experiments…some examples…
• Circular time-switched array (A Tennant, B Allen, 2012) [4]
• Circular array @ 10GHz (A Tennant, B Allen et al, 2014) [5]
• OAM signal coding and detection (E Cano, B Allen, 2014) [6][7]
• Spiral phase plates @ 60 GHz (S Walker, 2013) [8]
• Spiral phase plates @ 28 GHz (Yan...Molisch et al, Nature, 2014) [9]
• Spiral phase plates @ 60GHz (Allen et al…on going 2014)
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Context
• May be implemented as “MIMO”
• Line-of-sight links & point-to-point / multi-point applications e.g.
wireless backhaul & data centre connectivity
• It is NOT polarisation or phase
• It IS a 3D spatial phase profile (DNA helix)
• It IS independent to polarisation i.e. additional degree of freedom
Challenges
• Detectors for non-aligned links
• Mitigating multipath
• Code / MUX design
• Limitations and strengths
• Cross-talk6
From [5]
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Antenna Array Implementation
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Data Encoding and OAM Generation
• 8-element circular array
• Angular velocity = carrier frequency
• OAM modes l = ±n/2 = ±4
• We use l = ±2
• Selected progressive phase shift to generate selected OAM mode
d
r
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Data Encoding
Data symbol OAM Mode Phase
profile
00 l=1
01 l=-1
11 l=2
10 l=-2
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‘Vortex’
Diameter increases with distance
-Depends on mode
-Sets link limits and detector configuration
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Detection – phase gradient method
φ1
φ2
β
21 l
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Realistic phase profiles
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Example Results
From [8]
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Spiral Phase Plate Implementation
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Y Yan et al, “High-capacity millimetre-wave communications with
Orbital Angular Momentum”, Nature Communications, Sept 2014
32 Gb/sec @ 28 GHz carrier
2m link distance
Data multiplexing
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3D printed 60 GHz SPP
(University of Bedfordshire)
28 GHz SPP used in [9]
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• Point-to-point / multi-point wireless back haul in “5G” and beyond
• Use SPP to provide isolation hence relax spec of RF & signal
processing stages. Acts as a spatial matched filter.
• There are some significant challenges!
– Quantify improvement in isolation & dealing with leakage
– Cross-talk (about 20 dB so far)
– Size (depends on carrier frequency)
– OAM mode bandwidth
– Link distance (avoiding the ‘vortex’)
– Detection & multipath tolerance
– Multi-point applications
• But there has already been some decent progress
• Backhaul IS a bottleneck so we need SOMETHING!
How may OAM-radio help towards Full Duplex?
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References1. F Tamburini et al, “Encoding many channels on the same frequency through radio
vorticity: first experimental test”, New Journal on Physics, 2012
2. O Edfors, A F Johanson, “Is Orbital Angular Momentum (OAM) based radio
communication an unexplored area?”, IEEE Trans. A&P, 2012
3. S M Mohammadi et al, “Orbital Angular Momentum in radio – a system study”, IEEE
Trans A&P, 2012
4. A Tennant, B Allen, “Generation of OAM radio waves using circular time-switched
array antenna”, IET Electronics Letters, 2012
5. Q Bai, A Tennant, B Allen, “Experimental circular phased array for generating OAM
radio beams”, IET Electronics Letters, 2014
6. F.E Mahmouli, S Walker, “4-Gbps Uncompressed Video Transmission over a 60-
GHz Orbital Angular Momentum Wireless Channel”, IEEE Wireless Coms Letters,
2013
7. B Allen et al, “Wireless data encoding and decoding using OAM modes”, IET
Electronics Letters, 2014
8. E Cano, B Allen, “Multiple-antenna phase-gradient detection for OAM radio
communications”, IET Electronics Letters, 2015
9. Y Yan et al, “High-capacity millimetre-wave communications with Orbital Angular
Momentum”, Nature Communications, Sept 2014