arc special research centre for ultra-broadband information networks control of optical fibre...
TRANSCRIPT
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ARC Special Research Centre for Ultra-Broadband Information Networks
Control of Optical Fibre Communications Networks
Peter Farrell
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Utopian VisionALL OPTICAL NETWORK
• Analogy with Internet
• Transmitter sends photons through the network (transparently) to Receiver
• Format independent
• Bit-rate independent
• Protocol independent
• The Network is very clever (BRIGHT?) and can figure everything out so that your information goes to its destination perfectly
• A bit like
– electricity too cheap to meter from the nuclear industryOR
– the paper free office
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Interesting Problems to Solve to build Utopia
• Finance
• All the routing problems in the Network
• BIG optical switches
• Control of adjustable elements in the Network
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HOW BIG?
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Worldwide?
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Continental
Hobart
Melbourne
Canberra
Sydney
Newcastle
Brisbane
Bundaberg
Rockhampton
Mackay
Townsville
Cairns
Hay
Parkes
Toowoomba
Charters Towers
Hughenden
CloncurryMt. Isa
Clare
Adelaide
CedunaPt. Augusta
Esperance
Perth
Geraldton
Mullewa
Kalgoorlie
Meekatharra
Mt. Newman
Sth. Hedland
Derby
Alice Springs
Tennant Creek
Katherine
Darwin
Glendambo
Established by 1997
Established by 1993
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Metro
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Campus
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Size matters because …
• Different transmission issues for
– 100 m building / campus
– 1 km campus
– 10 km metro
– 100 km metro/continental
– 1000 kmcontinental
– 10000 km world
• All optical network requires (?) 10000 km infrastructure for a 100 m connection
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Optical Network Control
• Most published work is on making connections, fault location, contention avoidance and so on
• Very little on control of adjustable elements in the network to optimise or at least improve the performance
• Alternative is to grossly over engineer the hardware
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Point to Point Link Impairments
• Tx – Chirp – Noise– Finite extinction ratio
• Mux/Demux– Filter drift – Crosstalk
• Transmission fibre– Loss– Dispersion– Nonlinear effects
• Amplifiers– ASE/ Noise– Crosstalk– Wavelength dependent gain
• Rx– Finite sensitivity– Noise– Bandwidth
• Everywhere– PMD
Tx
Tx
Rx
Rx
DisCo
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Point to Point Link Adjustments
• Tx – Power, wavelength, chirp, modulation format, extinction ratio
• MUX/DEMUX– Temperature
• Amplifier– Gain, gain flattening filter, tilt
• Dispersion compensation• Rx
– Gain (APD or preamp gain)– Decision Threshold– Decision Point
Tx
Tx
Rx
Rx
DisCo
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C Blue
C Red
Tx
Tx
Tx
Tx
Tx
Tx
Rx
Rx
Rx
Rx
Rx
Rx
L Blue
L Red
L Blue
L Red
Rx
Rx
Rx
Rx
Rx
Rx
Tx Terminal
Amp nAmp1
Rx Terminal
Tx
Tx
Tx
Tx
Tx
Tx
1
40
41
80
81
120
121
160
…
Transmission Fibre
Transmission Fibre
Transmission Fibre
DCF
DCF
C Blue
C Red
CCC
LM
DCF
DCF
R
LF
LF
CCC
LM
DCF
DCF
R
LF
LF
LM
DCF
DCF
LF
LF
DCF
DCF
DCF
DCF
R
LF
LF
CCC
CCC
Long Haul Link Configuration10 Gbit/s over >1000 km
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Point to Point Link with OADM
Tx
Tx
Rx
Rx
DisCo
Tx
Tx
Rx
Rx
DisCo
OADM
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OADM
X
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OADM
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All Optical Network
TxRx
RxTx
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Lots of Feedback Loops …Amplifier
• Issues
– Measurement accuracy
– Signal reduction
– Transient response
Feedback & Control
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Lots of Feedback Loops … Dispersion Compensator
• Issues
– Location
– Accuracy
– Signal reduction
Dispersion Compensator
Dispersion Measurement
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Lots of Feedback Loops … Pre-emphasis
• Shares OSNR, BER or received power equally among channels by adjusting transmit power with time varying disturbances
• Simple linear iterative algorithm (and variations on this theme)(Chraplyvy et al 1992)
• Non-linear channel!!!!• Like to know
– if non-linearity is significantly affecting performance– Origin of non-linearity
j j
ji
i
TOTinew
OSNRP
OSNRP
PP
-50
-45
-40
-35
-30
-25
-20
1525 1530 1535 1540 1545 1550 1555 1560 1565 1570
Wavelength (nm)
Re
lativ
e P
ow
er
(dB
)
-50-45-40-35-30-25-201525153015351540154515501555156015651570Wavelength (nm)Relative Power (dB)
-50
-45
-40
-35
-30
-25
-20
1525 1530 1535 1540 1545 1550 1555 1560 1565 1570
Wavelength (nm)
Re
lativ
e P
ow
er
(dB
)
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Feedback Loops
• What do we measure and where?
– BER
– Channel Powers
– OSNR
– Dispersion
– Non-linearity
– Crosstalk
• Local?
• Central?
• Tradeoffs between non linearity, dispersion and gain
• How many channels?
• Circuit switched or Packet switched?
• Interaction with routing algorithms
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Control..
• THE WHOLE NETWORK – WORLD DOMINATION
• Link by Link
• Device by Device
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All Optical Network
TxRx
RxTx
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Point to Point Link Impairments
• Tx – Chirp – Noise– Finite extinction ratio
• Mux/Demux– Filter drift – Crosstalk
• Transmission fibre– Loss– Dispersion– Nonlinear effects
• Amplifiers– ASE/ Noise– Crosstalk– Wavelength dependent gain
• Rx– Finite sensitivity– Noise– Bandwidth
• Everywhere– PMD
Tx
Tx
Rx
Rx
DisCo
![Page 25: ARC Special Research Centre for Ultra-Broadband Information Networks Control of Optical Fibre Communications Networks Peter Farrell](https://reader035.vdocuments.us/reader035/viewer/2022062511/551af48d5503466b6a8b652a/html5/thumbnails/25.jpg)
Point to Point Link Adjustments
• Tx – Power, wavelength, chirp, modulation format, extinction ratio
• MUX/DEMUX– Temperature
• Amplifier– Gain, gain flattening filter, tilt
• Dispersion compensation• Rx
– Gain (APD or preamp gain)– Decision Threshold– Decision Point
Tx
Tx
Rx
Rx
DisCo
![Page 26: ARC Special Research Centre for Ultra-Broadband Information Networks Control of Optical Fibre Communications Networks Peter Farrell](https://reader035.vdocuments.us/reader035/viewer/2022062511/551af48d5503466b6a8b652a/html5/thumbnails/26.jpg)
Conclusion
• Model network
• Use standard control theory to construct a controller