full-duplex in a hand-held device - from fundamental...
TRANSCRIPT
![Page 1: Full-Duplex in a Hand-held Device - From Fundamental ...wimnet.ee.columbia.edu/wp-content/uploads/2017/01/Asilomar16... · 16 65nm CMOS Prototype J. Zhou, T-H. Chuang, T. Dinc and](https://reader031.vdocument.in/reader031/viewer/2022021816/5a7d1cd07f8b9a2e6e8d5423/html5/thumbnails/1.jpg)
Full-Duplex in a Hand-held Device
- From Fundamental Physics to Complex Integrated
Circuits, Systems and Networks: An Overview of the
Columbia FlexICoN project
Harish Krishnaswamy, Gil Zussman, Jin Zhou,
Jelena (Marašević) Diakonikolas, Tolga Dinc,
Negar Reiskarimian, Tingjun Chen
flexicon.ee.columbia.edu
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2
Outline
• Introduction
• Integrated Full-Duplex Radios
– RF Frequency-Domain Equalization
– RF/mm-Wave TRX with Polarization-Based Antenna SIC
– Integrated Non-Magnetic Passive Circulator with Baseband SIC
• Cross-Layer Analysis and Design of Full-Duplex Wireless
Systems and Networks
• Conclusion
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3
Outline
• Introduction
• Integrated Full-Duplex Radios
– RF Frequency-Domain Equalization
– RF/mm-Wave TRX with Polarization-Based Antenna SIC
– Integrated Non-Magnetic Passive Circulator with Baseband SIC
• Cross-Layer Analysis and Design of Full-Duplex Wireless
Systems and Networks
• Conclusion
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4
Full-Duplex Wireless
- Increased throughput
- Flexible spectrum use
▪ Same-channel full-duplex -- simultaneous transmission and reception at
the same frequency -- can greatly improve network performance.
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5
Self-Interference in Full Duplex
Full Duplex requires >120dB of self-interference
cancellation, which must be obtained across all domains.
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6
Fighting Fundamental Physics
RXTX
ANT
Breaking Lorentz Reciprocity requires exploiting the
magneto-optic Faraday Effect.
Antenna Pair
Balanced
Duplexer
TX
RX
TX
RX
Form factor Insertion loss
Nonreciprocal
Circulator
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7
Full-Duplex Cross-Layer Research
Prof. G. Zussman
Prof. H. Krishnaswamy
Prof. Y. ZhongACT RF-FPGASPAR 2015-16 2016-17
MA
C l
aye
rP
HY
la
ye
r
Cross-Layer
Interference
Management
Cellular MAC
Power Control
Modeling
Testbed Evaluation
Ongoing
Research
Obtained
Results
SchedulingA
nte
nn
a
Inte
rfa
ce
RF/analog Self-
Interference
Cancellation
Fu
lly I
nte
gra
ted
RF
IC
Ad
ap
tive
Se
lf-
Inte
rfere
nce C
an
cella
tion
Wi-Fi MACChannel Allocation
Digital Self-Interference
Cancellation
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8
State of The Art Full-Duplex Radios
Discrete Full-Duplex Radios Integrated Full-Duplex
Radios
Stanford University
Rice University
Yonsei University
Columbia University
University of Twente Cornell University
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Outline
• Introduction
• Integrated Full-Duplex Radios
– RF Frequency-Domain Equalization
– RF/mm-Wave TRX with Polarization-Based Antenna SIC
– Integrated Non-Magnetic Passive Circulator with Baseband SIC
• Cross-Layer Analysis and Design of Full-Duplex Wireless
Systems and Networks
• Conclusion
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Limited RF Cancellation BandwidthFreq. selective self-
interference channel
Freq. flat
canceller
▪ 10ns delay in the SI channel results in a 20dB SIC BW of 3.2MHz.
Calculated RF SIC BW for a given RF
SIC with a freq. flat canceller
3MHz 20dB
SIC BW
SI
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Delay-Based Wideband RF Cancellation
Conventional wideband RF self-interference cancellation
requires silicon-averse bulky and lossy delay lines.
RF delay-line-
based canceller
[Stanford University, SIGCOMM 2013]
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▪ A frequency-flat RF canceller can emulate a frequency-selective
antenna interface only at one frequency.
Conventional Integrated RF SI Canceller
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Replication of not only the amplitude/phase, but also
the slope of the amplitude/phase(i.e. group delay).
RF Canceller with 2nd Order BPF
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A filter bank enables replication at multiple points in
different sub-bands – Freq. Domain Equalization (FDE).
Freq. Domain Equalization (FDE) at RF
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RF SIC Equalizer Bandpass Filter
Linear Time-Invariant
Filter
RLC RF
bandpass filter
Linear Periodically-Time-
Varying Filter (LPTV)
On-chip
inductor quality
factor at RF is
only about 10. >100 quality
factor on silicon
LPTV Switched-Capacitor RF Filter Enables
Integrated Reconfigurable High-Q Filters
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65nm CMOS Prototype
J. Zhou, T-H. Chuang, T. Dinc and H. Krishnaswamy, “Reconfigurable receiver with >20MHz bandwidth
self-interference cancellation suitable for FDD, co-existence and full-duplex applications," in 2015
ISSCC, Feb. 2015.
J. Zhou, T-H. Chuang, T. Dinc and H. Krishnaswamy,“Integrated Wideband Cancellation of Transmitter
Self-Interference in the RF Domain for FDD and Full-Duplex Wireless,” IEEE JSSC, December 2015
(invited).
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17
Measurement Highlights
▪ Using a conventional frequency-flat amplitude-and-phase-based
canceller, 20dB RF SIC BW is only 3MHz.Proposed canceller has a cancellation BW of 17MHz
using one filter (5X improvement!).
Proposed canceller has a cancellation BW of 24MHz
using two filters (8X improvement!).
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Outline
• Introduction
• Integrated Full-Duplex Radios
– RF Frequency-Domain Equalization
– RF/mm-Wave TRX with Polarization-Based Antenna SIC
– Integrated Non-Magnetic Passive Circulator with Baseband SIC
• Cross-Layer Analysis and Design of Full-Duplex Wireless
Systems and Networks
• Conclusion
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19
Polarization-Division Duplexing
▪ Using different polarizations for T/R improves the isolation by 8-16 dB.
0 cos 2 ( )x
zE
cf t
=
_ _
E x
0 cos 2 ( )y
zE
cf t
=
_ _
E y
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Polarization-Based Antenna SIC
▪ An auxiliary port is introduced on the RX antenna that is co-polarized with
TX and terminated with a reflective termination to achieve wideband SIC.
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5GHz Antenna SIC Results
50 dB isolation over 300MHz at 4.6 GHz.
Reflective termination can be reconfigured to combat
the variable SI scattering from the environment.
Tolga Dinc and Harish Krishnaswamy, “A T/R Antenna Pair with Polarization-Based Reconfigurable
Wideband Self-Interference Cancellation for Simultaneous Transmit and Receive,” in the 2015 IEEE
International Microwave Symposium, pp. 1-4, May 2015.
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60GHz 45nm CMOS Full Duplex TRX
World’s first fully-integrated full-duplex TRX front-end.
T. Dinc, A. Chakrabarti and H. Krishnaswamy, “A 60 GHz Same-Channel Full-Duplex CMOS Transceiver
and Link Based on Reconfigurable Polarization-Based Antenna Cancellation,” in the 2015 IEEE RFIC
Symposium, May 2015 (Best Student Paper Award – 1st Place).
T. Dinc, A. Chakrabarti and H. Krishnaswamy, “A 60GHz CMOS Full-Duplex Transceiver and Link with
Polarization-Based Antenna and RF Cancellation,” IEEE Journal of Solid-State Circuits, vol. 51, no. 5,
pp. 1125-1140, May 2016 (invited).
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60GHz Full Duplex Wireless Link
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Outline
• Introduction
• Integrated Full-Duplex Radios
– RF Frequency-Domain Equalization
– RF/mm-Wave TRX with Polarization-Based Antenna SIC
– Integrated Non-Magnetic Passive Circulator with Baseband SIC
• Cross-Layer Analysis and Design of Full-Duplex Wireless
Systems and Networks
• Summary
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[Ref: B. van Liempd, et
al., ISSCC 2015.]
>3dB
loss
>3dB
loss
Passive Linear Time-
Invariant system
Magnetic
Materials
[Ref: RF Circulator
Isolator, Inc..]
form factor
incompatible with CMOS
Shared-Antenna Interfaces
Active
Devices
[Ref: S. Tanaka, et al.,
Proc. of IEEE, 1965.]
poor linearity/noise
Distributedly
Modulated Capacitors
[Ref: S. Qin, et al., IEEE T-
MTT 2014.]
[Ref: N. Estep, et al.,
Nature Physics 2014.]
Parametric
Modulation of
Coupled Resonators
>20dB loss or linearity
extra duplexer
form factor
New techniques for low-
loss, compact, passive,
highly-linear circulators
are desirable.
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Staggered Commutation
Inspired by Faraday rotation, phase non-reciprocity
can be achieved by using staggered commutation.
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Non-Magnetic Passive Circulator25mm
25mm
5mm
5mm
25 X
>
N. Reiskarimian, and H. Krishnaswamy, “Magnetic-free Non-Reciprocity Based on Staggered
Commutation,” Nature Communications. 7:11217 doi: 10.1038/ncomms11217 (2016).
This is the first CMOS non-magnetic passive non-
reciprocal circulator IC.
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65nm CMOS FD Radio Prototype
J. Zhou, N. Reiskarimian, and H. Krishnaswamy, " Receiver with Integrated Magnetic-Free N-Path-Filter-
Based Non-Reciprocal Circulator and Baseband Self-Interference Cancellation for Full-Duplex
Wireless," in 2016 ISSCC, Feb. 2016.
N. Reiskarimian, J. Zhou, and H. Krishnaswamy,“A CMOS Passive LPTV Non-Magnetic Circulator and
Its Application in a Full-Duplex Receiver,” IEEE JSSC (in revision).
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SIC across ANT, Analog and Dig. Domains
PTX,avg
POUT
TX Average Output Power PTX,avg
(dBm)
First full-duplex link demonstration with –7dBm TX
output power and –92dBm noise floor based on an
integrated full-duplex radio.
Up to -7dBm
-92dBm
noise floor
85dB Overall Self-Interference
Cancellation
-92dBm
Noise Floor
-7dBm TX
Output
Power
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Outline
• Introduction
• Integrated Full-Duplex Radios
– SIC RX based on Frequency-Domain Equalization
– RF/mm-Wave TRX with Polarization-Based Antenna SIC
– Integrated Non-Magnetic Passive Circulator with Baseband SIC
• Cross-Layer Analysis and Design of Full-Duplex Wireless
Systems and Networks
• Conclusion
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Power Allocation and Rate Gains in
Practical Full-Duplex Systems
J. Marašević, J. Zhou, H. Krishnaswamy, Y. Zhong and G. Zussman, "Resource Allocation and Rate
Gains in Practical Full-Duplex Systems," in Proceedings of the 2015 ACM (Association for
Computing Machinery) SIGMETRICS, June 2015
J. Marašević, J. Zhou, H. Krishnaswamy, Y. Zhong, and G. Zussman, “Resource allocation and rate
gains in practical full-duplex systems,” IEEE/ACM Transactions on Networking, 2016.
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Prior Work Assumes Perfect SIC
▪ Prior work on resource allocation and rate gain characterization for full-
duplex wireless networks assumes perfect self-interference cancellation.
Our Work: Realistic MS Model
▪ The analytical study presented in the SIGMETRICS paper is based on a
mathematical model that captures the practical frequency-dependent SIC at
mobile stations (MSs) using integrated full-duplex radios.
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Modeling Cancellation at Integrated MSs
▪ A mathematical model is developed for the self-interference cancellation
achieved by compact integrated radios with frequency-flat cancellers.
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Power Allocation Under High SINR
Channel index
MS
Po
wer
Le
ve
ls
BS
Po
we
r L
eve
ls
Channel index
▪ A bidirectional link between a BS and a MS.
▪ 33 channels on a 20MHz bandwidth.
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Rate Improvements
Significant – over 60% throughput gains – are achieved
in the high SNR regime.
Average SNR (dB)
Gain
(%
)
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FD and TDFD Capacity Regions
𝑡
𝑡1 𝑡2
• Maximization of the sum of the rates gives us only one pair of uplink and downlink rates
• But, in many cases we want to prioritize one of the rates
• Using only full-duplex and varying the power allocation will give us one set of achievable rates, which may be non-convex
• Combining FD and TDD “convexifies” the capacity region →time-division FD (TDFD) region
• Having convex capacity region is important for scheduling (and in our case gives higher rates)
• We provide many structural and algorithmic results for constructing FD and TDFD capacity regions, in different single- and multi-channel settings
J. Marašević and G. Zussman, “On the Capacity Regions of Single-Channel and Multi-Channel
Full-Duplex Links,” in Proc. ACM MobiHoc'16, 2016.
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Full-Duplex Testbed for Evaluation of
MAC Algorithms
T. Chen, J. Zhou, N. Grimwood, R. Fogel, J. Marašević, H. Krishnaswamy, and G. Zussman,
“Demo: Full-duplex Wireless based on a Small-Form-Factor Analog Self-Interference Canceller," in
Proc. ACM MobiHoc'16, July 2016.
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Software-Defined Full-Duplex Transceiver
0.9GHz
Antenna
Circulator
Canceller
Controller
NI LabVIEW (host PC):
- Data transmission
- Adaptive RF SIC
- Real-time digital SIC
- Graphical user interface
MATLAB (host PC):
- RF canceller Control
Ethernet
Data + Control
USB
Control
Data
NI USRP
TX
RX
RF SI
Canceller
Emulating the RFIC
SI canceller
▪ The full-duplex transceiver is equipped with our adaptive RF SIC algorithm
and supports real-time digital SIC.
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Full-Duplex Demo at ACM MobiHoc 2016
Transmitted signal at Radio 1
Transmitted signal at Radio 2
Received signal after analog SIC at Radio 2
Received signal after digital SIC at Radio 2
Desired SignalSelf-Interference
~90dB overall self-interference-cancellation across the
antenna, RF, and digital domains.
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Conclusion• Integrated full-duplex radios with SIC at the antenna, RF,
analog, and digital domains are presented at both RF and mm-
wave frequencies.
• The first integrated non-reciprocal magnetic-free passive
circulator based staggered commutation is introduced.
• Full-duplex power allocation and rate gains are derived based
on the model of our integrated full-duplex radios
• Cross-layered full-duplex testbed with real-time SIC is
demonstrated.
flexicon.ee.columbia.edu