wi-fi: past, present and future -...
TRANSCRIPT
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Wi-Fi: Past, Present and FutureSeptember 10, 2019
Christopher Hansen, Ph.D.
Covariant Corporation
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Outline
Speaker Background
What is Wi-Fi?
Wi-Fi Past IEEE 802.11 and the Wi-Fi Alliance Early applications Key enabling technologies
Wi-Fi Present (IEEE 802.11ax / Wi-Fi 6) New model Key technical changes
Wi-Fi Future New standards, new spectrum Expanding applications
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Speaker Background
Consulting since 2013 with Covariant Corporation
IEEE Senior Member, IEEE-SA member, IEEE-CNSV member
PATCA President
Wi-Fi chipset physical layer design, RF systems, signal processing
IEEE 802.11 standardization, 2000 – present
IP litigation support
Any and all opinions expressed in this document are those of the author.
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What is Wi-Fi?
Free internet access?
or
‘Wireless Ethernet’ based on IEEE Standards?
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What is Wi-Fi?
Wi-Fi is a brand name for devices that have passed a certification test from the Wi-Fi Alliance
Wi-Fi devices implement the IEEE (Institute of Electrical and Electronics Engineers) 802.11 protocol
the letters “a/b/g/n/ac/ax” are amendments
Wi-Fi devices transmit and receive IP (internet protocol) packets and control traffic
Access Point (AP)“wireless router”
Station (STA)“client”
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What is Wi-Fi?
Web browser or App
Data with “IP Address” or URL
Protocol stack running on computeror phone processor
Wi-Fi Driver also on processor• Encrypt / De-crypt• Connection management• Buffering
Data with “MAC Address”
Wi-Fi Chipset
Radio wavesto AP and onwardto the internet
pcie
coax
Inside your phone and PC
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What is Wi-Fi?
Differences between Wi-Fi and Cellular (GSM/LTE/5G)
Wi-Fi Cellular
Controlled interference byoperator and system design
Uncontrolled interference that ismitigated by protocol design• Networks will naturally share the
radio medium
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What is Wi-Fi?
‘Wireless Ethernet’
Wi-Fi is ‘wireless ethernet’ Media Access Control (MAC) / Physical layer (PHY) for carrying
packets over unlicensed radio bands Time division duplexed (i.e. one station transmits at a time)
CSMA/CA (Carrier sense multiple access with collision avoidance) Stations listen before transmitting and wait for the channel to be clear Packets are acknowledged by the receiver
No collision detection
Stations do not receive while transmitting
Unacknowledged packets are assumed to be lost and are re-transmitted
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What is Wi-Fi?
Channel Access
Station 1
AP
Packet 1
ACK 1
Station 2 Packet 2
ACK 1
Packet 3
SIFs(short interframespace16 us)
AIFs(arbitration interframespace ~27us)
Back-off SIFs AIFs Back-off
Overhead
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What is Wi-Fi?
Single chip
Modern Wi-Fi interfaces can be implemented on a single integrated circuit
Example Mediatek 4x4 802.11ac chip from ISSCC 2017 “An 802.11ac Dual-Band Reconfigurable Transceiver Supporting up to Four VHT80 Spatial Streams with 116fsrms-Jitter Frequency Synthesizer and Integrated LNA/PA Delivering 256QAM 19dBm per Stream Achieving 1.733Gb/s PHY Rate” by T. Chen et al
40 nm CMOS 40.8mm2
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Wi-Fi Past
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Wi-Fi Past
Example Pre-802.11 Wireless Networking
1990 NCR Wavelan – 915MHz / 2.4 GHz bands, 2 Mbps, CSMA/CA
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Wi-Fi Past
What enabled Wi-Fi?
FCC opened the ISM (Industrial/Scientific/Medical) radio bands for unlicensed data communication using spread spectrum in 1985. (Later added U-NII bands and allowed OFDM in ISM bands.)
Desktop computing era of the 1980s and 1990s transitioned to “laptops” in the late 1990s and early 2000s. Apple and IBM both promoted 802.11 in laptops.
Moore’s Law – scaling of semiconductor transistor sizes to allow lower power / higher performance digital and RF transistors
The Internet
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Wi-Fi Past
Unlicensed spectrum, open standards and short range reduces costs
One or two frequency bands instead of multiple bands
Cheap radios
Infrastructure costs subsidized – company, university, coffee shop, homeowner
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Wi-Fi Past
Wireless LAN pioneers got together to form IEEE 802.11 committee in 1990
Wireless Ethernet Compatibility Alliance (WECA) formed in August 1999 to certify interoperability of 802.11b.
3COM Aironet Lucent Technologies Intersil Nokia Symbol Technologies
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Wi-Fi Development
Single Chip CMOS Radio
IEEE ISSCC 2003, H. Darabi, et al, “A Dual Mode 802.11b/Bluetooth Radio in 0.35um CMOS”
2.4 GHz RF TX/RXBluetooth mod/demodon chipBaseband analog interface for 802.11b
Radios in CMOS meanradios can be integratedwith other networkingpieces, reducing cost.
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Wi-Fi Development
Technology improves incrementally
802.11a/g brought spectral efficiency via OFDM (Orthogonal Frequency Division Multiplexing)
802.11n brings MIMO and MAC layer aggregation
802.11ac brings wider bandwidth, beamforming, and downlink MU-MIMO (multi-user MIMO)
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Wi-Fi Development
Mitigating Channel Impairments
Multipath channel has nulls in the spectrum
t1 – t0= 10 ns
null every 50 MHz
Signal (h0)
Reflections(h1…hn)
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Wi-Fi Development
ModernModulation and Coding
Wi-Fi must mitigate the effects of multipath reflections
OFDM (Orthogonal Frequency Division Multiplexing) – use a discrete Fourier Transform at the transmitter and receiver to generate parallel narrow channels some of which will be “good”
BICM (Bit Interleaved Coded Modulation) – use interleaving at the transmitter and receiver to spread the data over the narrow channels and an error correcting code to mitigate the “bad channels”
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Wi-Fi Development
Example 802.11ac 80 MHz Channel
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Wi-Fi Development
Backwards compatible
Legacy headerfor backwardcompatibility
Receiver training information
(Overhead)
From IEEE 802.11-2016
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Wi-Fi Development
Improving Throughput
Throughput is the measure of how fast useful data is carried from source to destination
Efficiency
Limited by the maximum PHY rate and by the overhead time
Minimum average Toverhead = 194.5 microseconds
Efficient transmission requires packets longer than 1 millisecond
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Wi-Fi Development
Improving Throughput
802.11n introduced aggregation to put packets together before transmission
Aggregation increases latency – the time to get data from transmitter to receiver
0 10 20 30 40 50 60
PHY rate (Mbps)
0
10
20
30
40
50
60
Pack
et T
hrou
ghpu
t (M
bps)
802.11g, no aggregation
802.11n, no aggregation
802.11n, 5 packet aggregation
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Wi-Fi Development
Multiple Input Multiple Output(MIMO)
Wi-Fi added MIMO capabilities in 802.11n and expanded them in 802.11ac
Employ multiple antennas and signal processing to generate distinct signal paths
Processing can be applied at both the transmitter (beamforming) and at the receiver
h00
h01
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Wi-Fi Development
Exploiting multipath benefits
Each path corresponds with a rank 1 channel matrix Hk
Reflections from walls, floors, and objects in the neighborhood create new paths
Spatial multiplexing
For MIMO to work, it is necessary to have both extra antennas andreflections from the radio environment
In practice, cell phones can only usually support 2 Wi-Fi antennas. Notebook PCs can support 3 or 4.
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Wi-Fi Development Multiuser MIMO
802.11n introduced single user MIMO
2 – 4 times PHY data rate
802.11ac introduced MU-MIMO
AP simultaneously transmit to more than one STA
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Wi-Fi Present
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Wi-Fi Present
802.11ax / Wi-Fi 6
Optimized for dense deployments Reduce MAC/PHY overhead Accommodate neighbors
New techniques OFDMA (on downlink and uplink) Target Wake Times (TWT)
New Spectrum (6 – 7.125 GHz)
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Wi-Fi Present
Motivation
Improvements in PHY rate do not improve the network access delay in dense networks that reach saturation
Wi-Fi 6 reduces access delay by allowing multiple transmissions at the same time and by limiting the number of stations contending at any time
Y. Xiao, “Performance Analysis of Priority Schemes for IEEE 802.11 and IEEE 802.11e Wireless LANs”, IEEETransactions on Wireless Communications, Vol 4, No. 4, July 2005
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Wi-Fi Present
OFDMA
From IEEE 802.11ax Draft 4.3 p.503
20 MHz Channel Bandwidth
Different signalingconfiguration
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Wi-Fi Present
OFDMA
OFDMA works best with wider channels (80 or 160 MHz)
Throughput gains from: Reduced contention for the channelMoving low data rate packets to small sub-
channels Reduced overhead
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Wi-Fi Present
OFDMA in both directions
Simultaneous one to many (downlink) or many to one (uplink)
Data and Acknowledgements
From IEEE 802.11ax Draft 4.3 p.314
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Wi-Fi Present
UL OFDMA Challenges
Uplink OFDMA increases complexity of STAs to allow the AP to simultaneously receive data from multiple devices
Used previously in cellular radio systems STA Synchronizes transmit clock / frequency reference
to the AP STA Pre-corrects transmitter power
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Wi-Fi Present
Target Wake Time (TWT)
Previously, Wi-Fi devices could transmit whenever the channel is free Same sleep / awake cycle
With TWT, STAs are assigned specific times to be awake and able to send and receive data (like factory shifts)
Reduces access delay and interference to neighbors
Helps save power (better sleep time)
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Wi-Fi Present
Target Wake Time and IOT
Mobile devicesAwake
Home OfficeSleeping
IOT Appliances Sleeping
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Wi-Fi Present
New Spectrum
802.11ax / Wi-Fi 6 will be able to employ new frequencies from 6-7.125 GHz
Availability expected in 2020No legacy 802.11b/g/n/ac devices Potentially a lot of bandwidth, although
probably not the enter 1.25 GHz
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Wi-Fi Present
802.11ax Data Rates
Max PHY rates about 39% higher than 802.11ac
From 802.11ax D4.3
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Wi-Fi Present
How long until we see the benefits of 802.11ax?
Roll out in new devices – mobile phones and APs Infrastructure upgrades Retiring old devices
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Wi-Fi Future
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Wi-Fi Future
mmWave – 802.11ay
Next Generation V2X – 802.11bd
Extremely High Throughput – 802.11be
Next Generation Positioning – 802.11az
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Wi-Fi Future
mmWave802.11ad and 802.11ay
60 GHz 802.11ad devices are available today Peraso Technologies IgniteNet Metrolinq Facebook Terragraph
Lots of bandwidth available (7 GHz)
Very fast (2 Gbps or higher)
Differences from other Wi-Fi devices Single carrier modulation instead of OFDM (lower peak
power) Highly directional antennas
New 802.11ay standard will increase range and data rates
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Wi-Fi Future
V2X 802.11bd
802.11p defined 5.9 GHz MAC/PHY for Vehicular Environments
Upper layers defined by other standards bodies
802.11bd enhances capabilities while being backward compatible
Enhanced range for safety messages
Sensor sharing Data from vehicles to
infrastructure Positioning Automated driving
assistance
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Wi-Fi Future
802.11beExtremely High Throughput
Expected successor to 802.11ax/Wi-Fi 6 Speeds up to 30 Gbps or higher Unlicensed bands between 1 – 7.250 GHz 320 MHz bandwidth Enhancements to MIMO HARQ (Hybrid Automatic Repeat Request) Adaptions to new regulations for 6 GHz band
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Wi-Fi Future
802.11azNext Generation Positioning
Distance from AP to STA is proportional to Round Trip Time (RTT)
802.11az adds security and authentication features for location measurements
Time when packet is transmitted (t1)
Time when packet is received (t2)and when acknowledgementis transmitted (t3)
Time when acknowledgement is received (t4)
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References
1. IEEE Std 802.11-2016 - Wireless LAN Medium Access Control (MAC) and Physical Layer (PHY) Specifications
2. Drafts for IEEE 802.11ax, 802.11az, and 802.11ay
3. Data Networks, 2nd Edition, D. Bertsekas and R. Gallager
4. Fundamentals of Wireless Communication, D. Tse and P. Viswanath
5. Next Generation Wireless LANs, 2nd Edition, E. Perahia and R. Stacey
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Backup
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Wi-Fi Radio Bands
Wi-Fi uses unlicensed spectrum 20, 40, 80 MHz channels are typical
2400-2483.5 MHz ISM band Shared with Bluetooth, microwave ovens, etc.
5150-5350, 5490-5875 MHz UNII and ISM bands Some sub-bands shared with radar systems
57-65 GHz mmwave band (802.11ad) 2.16 GHz channels
sub 1 GHz 802.11ah
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Wi-Fi versus Cellular
Wi-Fi
Unlicensed spectrum
Primarily indoor
Balanced costs model (both sides of link have the same design)
Distributed protocols All stations defer to each
other
Cellular
Licensed spectrum
Originally outdoor
Asymmetric model –expensive basestation / inexpensive mobile device
Centralized protocol Base-station controls the
medium
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Near – Far Problem
The Near-Far problem affects all wireless systems
Longer distances reduce signal power at the receiver, which reduces the data rate
Low data rates are often used for management (broadcast) traffic because the AP does not know how far away the client devices will be
1 Mbps beacons versus 144 Mbps data
HighDataRate
LowDataRate
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Limit #1 –802.11 DCF Overhead
Fairness to legacy devices forces overhead timings to remain fixed
Higher data rates will increase throughput only for long sequences of aggregated packets
Only way around this is new spectrum 60 GHz – WiGig / 802.11ad Shorter overhead times
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Overlapping BSS (Basic Service Set) Problem
Overlapping AP coverage on the same channel can be common
802.11 DCF protocol has graceful degradation
Low data rate management traffic wastes bandwidth
Dense environments become congested
HighDataRate
HighDataRate
Low DataRate
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Limit #2 –Dense Environments
The dense environment problem is similar to the problem of maintaining conversations at a loud cocktail party
802.11 DCF is akin to letting only one person speak at a time, which works for a small group
802.11ax offers several protocol improvements to help OBSS Detection – Determine when there is dense overlap BSS Color – Partially overlapping regions can limit their sensitivity to
neighboring transmissions Similar to forming sub-groups and tuning out the group next to you
802.11ax won’t help much until people upgrade their phones (!)
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Fundamental Limits for the Physical Layer
Channel Capacity (bits per second) –The “speed of light” for communications
W is bandwidth in Hz
S is signal power – set by the amount of radio signal picked up by the receive antenna
N is the noise power – set by the noise from environment and receiver electronics
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Channel Capacity
Signal power from transmitter (FriisEquation)
Noise power from everywhere (thermal)
Approaching capacity means increasing data rate at a given range
To approach capacity we need to know S and N to select the proper signaling
Transmitter
Receiver
Signal
Noise from objects in theneighborhood
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802.11 PHY Header To approach channel capacity, the receiver needs to know the
radio channel Frequency response, signal level, and noise level
Transmitter need to tell the receiver how the data will be modulated
All information appears at the start of a Wi-Fi packet
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802.11 Modulation
IEEE 802.11a/g/n/ac/ax employ Orthogonal Frequency Division Multiplexing (OFDM)
Data is encoded with either a binary convolution code (BCC) or a low density parity check (LDPC) code
Coded data is interleaved into bins Binned data is modulated with BPSK, QPSK, or QAM An FFT (Fast Fourier Transform) is applied to the bins to generated a
time domain waveform A cyclic prefix is applied to mitigate against inter-symbol
interference The entire signal is modulated onto a microwave carrier, filtered,
and amplified
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Actual DeviceSensitivity(Lowest operating signal level)
Claimed receiver sensitivity data from a Cisco product
https://www.cisco.com/c/en/us/products/collateral/interfaces-modules/aironet-access-point-module-802-11ac/data_sheet_c78-727794.html
Can compare with noise floor of -174 dBm/Hz
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Channel Capacity versus Data Sheet
-100 -95 -90 -85 -80 -75 -70 -65 -60 -55
Signal power (dBm)
50
100
150
200
250
300
350
400
450
Dat
a ra
te (M
ps)
Channel Capacity
Wi-Fi Product
>10 dB gap
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Gap Budget
Practical system noise figure Loss from antenna to LNA (low noise amplifier) LNA noise figure
Local oscillator stability (phase noise)
System design Modulation and Coding Rate reduction to allow compensation for radio channels Residual estimation error from channel preamble
End-to-end linearity (high SNR regime) Transmit power amplifier DAC / ADC bits
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Gap Details
-2 0 2 4 6 8 10 12
SNR (dB)
0
0.1
0.2
0.3
0.4
0.5
0.6
0.7
0.8
0.9
1
Dat
a R
ate
(bits
)
Channel Capacity
BPSK Capacity
802.11 BCC
Implementation
Absolute best possible Best possible with Binary Phase Shift Keying
BCC Coding gap5.3 dB
Excess noise and estimation error4.7 dB
Cyclicprefixloss
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Coding(Forward Error Correction)
Shannon Capacity is a bound assuming infinite delay Gaussian signaling
1 dB loss for binary signaling 4.3 dB loss with mandatory convolutional code
Long codes require greater computations per bit at the receiver and longer latency to process
802.11 has a response time (SIFS) for packets of 16 microseconds which limits the use of long codes
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Channel Estimation Error
There are two main sources of error Initial Estimation Error
Radio channel characteristics are determined at the start of a packet from the known sequences
Shorter sequences waste less time but lead to more estimation error
Channel changes over the course of the packet Movement of transmitter or receiver Some tracking might be possible Longer packets at highest data rates (i.e. the high throughput ones) are
impacted the most
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Overcoming Gaps to Capacity
Reducing any particular gap involves Making packets longer – latency problem Increased cost Increased power consumption Developing a method for backward compatibility Industry inertia
Industry goals Speed Cost Robustness Operation in dense environments
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High SNR
Large constellations (up to 256 QAM for 802.11ac / 1024 QAM for 802.11ax)
Limited by circuit linearity instead of Gaussian noise
Higher code rates but coding performance goes down
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Transmitter Linearity Limits High SNR Error Vector Magnitude (EVM) is a measure of non-linear distortion
in the Wi-Fi transmitter.
Distortion looks like noise to the receiver.
Limits the maximum constellation size (bits per symbol) and resulting PHY data rate.
Example Mediatek 4x4 802.11ac chip from ISSCC 2017 “An 802.11ac Dual-Band Reconfigurable Transceiver Supporting up to Four VHT80 Spatial Streams with 116fsrms-Jitter Frequency Synthesizer and Integrated LNA/PA Delivering 256QAM 19dBm per Stream Achieving 1.733Gb/s PHY Rate” by T. Chen et al
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Limit #3 Channel Capacity and Circuit Linearity
At lower SNR, the physical layer can approach capacity to within a few dB
At higher SNR, the gap to capacity widens because of poorer code performance and practical limitations in electronic circuit linearity (dynamic range)
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Limit #4 MIMO and Physical Channels
SU-MIMO increases capacity by spatial multiplexing (2 – 4)
MU-MIMO increases capacity when multiple receivers are spatially separated
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Summary
At lower SNR, Wi-Fi can operate within about 10 dB of the Shannon limit.
At higher SNR, the gap increases because of limits in device linearity and the ability to estimate time varying radio channels
MIMO techniques are often used to increase physical layer data rates by a factor of 2 to 4.
Wi-Fi media access protocols limit channel throughput and increase latency, however they also allow graceful degradation in congested channels.
Channel sharing improvements will come with 802.11ax, but will require legacy devices to be retired.
mmWave systems (802.11ad/802.11ay) can achieve the best combination of high data rate and low latency
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Some Numbersfor 802.11ac
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Some Numbers for 802.11ad