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Transcript of Doc.: IEEE 802.11-13/0364r1 SubmissionEldad Perahia, Intel CorporationSlide 1 Date: 2013-03-20...
![Page 1: Doc.: IEEE 802.11-13/0364r1 SubmissionEldad Perahia, Intel CorporationSlide 1 Date: 2013-03-20 Authors: Antenna Array Gain from Measured Data for 802.11n/ac.](https://reader036.fdocuments.us/reader036/viewer/2022062518/56649e965503460f94b99e4c/html5/thumbnails/1.jpg)
doc.: IEEE 802.11-13/0364r1
Submission Eldad Perahia
, Intel Corpor
ation
Slide 1
Date: 2013-03-20
Name Company Address Phone email Eldad Perahia Intel
Corporation
2111 NE 25th Ave Hillsboro, OR 97124
503-712-8081 [email protected]
Vinko Erceg Broadcom
Nihar Jindal Broadcom
Authors:
Antenna Array Gain from Measured Data for 802.11n/ac TxBF
March 2013
![Page 2: Doc.: IEEE 802.11-13/0364r1 SubmissionEldad Perahia, Intel CorporationSlide 1 Date: 2013-03-20 Authors: Antenna Array Gain from Measured Data for 802.11n/ac.](https://reader036.fdocuments.us/reader036/viewer/2022062518/56649e965503460f94b99e4c/html5/thumbnails/2.jpg)
doc.: IEEE 802.11-13/0364r1
Submission
Abstract
• Theoretical calculation of antenna array gain is 10*log10(# of antenna elements)
• With 802.11n/ac MIMO/OFDM transmit beamforming (TxBF), antenna weights matrices are computed on a subcarrier basis
• In a multipath environment, while the TxBF PER performance gain will be substantial, the composite effective array gain will be much less than 10log10(N)
Eldad Perahia
, Intel Corpor
ation
Slide 2
March 2013
![Page 3: Doc.: IEEE 802.11-13/0364r1 SubmissionEldad Perahia, Intel CorporationSlide 1 Date: 2013-03-20 Authors: Antenna Array Gain from Measured Data for 802.11n/ac.](https://reader036.fdocuments.us/reader036/viewer/2022062518/56649e965503460f94b99e4c/html5/thumbnails/3.jpg)
doc.: IEEE 802.11-13/0364r1
Submission
Measurements in an Office Environment
• Measurements captured in 802.11n test bed deployed on one floor of an occupied indoor office environment– Dimensions of the floor of the
building are 90 ft X 90 ft (~27.4 m X 27.4 m)
– In center of floor are labs, elevators, and a kitchen area
– Along the walls are workspaces with groups of cubicles and conference rooms
– Numbered circles indicate device locations
Eldad Perahia
, Intel Corpor
ation
Slide 3
![Page 4: Doc.: IEEE 802.11-13/0364r1 SubmissionEldad Perahia, Intel CorporationSlide 1 Date: 2013-03-20 Authors: Antenna Array Gain from Measured Data for 802.11n/ac.](https://reader036.fdocuments.us/reader036/viewer/2022062518/56649e965503460f94b99e4c/html5/thumbnails/4.jpg)
doc.: IEEE 802.11-13/0364r1
Submission
Measurement Device Description
• Devices are actual 802.11n stations consisting of a desktop PC with an Intel Wi-Fi Wireless Link 5300 radio card and external antennas– 3 Tx antennas, 3 Rx antennas, 3
stream packet format– 5 GHz transmission on an empty
channel
Eldad Perahia
, Intel Corpor
ation
Slide 4
![Page 5: Doc.: IEEE 802.11-13/0364r1 SubmissionEldad Perahia, Intel CorporationSlide 1 Date: 2013-03-20 Authors: Antenna Array Gain from Measured Data for 802.11n/ac.](https://reader036.fdocuments.us/reader036/viewer/2022062518/56649e965503460f94b99e4c/html5/thumbnails/5.jpg)
doc.: IEEE 802.11-13/0364r1
Submission
Captured Measurements• CSI is measured by having each device in turn
transmit a stream of 802.11n packets, while all the other devices on the floor receive the packets– Packets are transmitted every 0.8 ms– 3000 packets– measured from the long training field of each packet– 3x3 CSI matrix
• Received signal level data and noise level data also captured– Used to compute received SNR
Eldad Perahia
, Intel Corpor
ation
Slide 5
![Page 6: Doc.: IEEE 802.11-13/0364r1 SubmissionEldad Perahia, Intel CorporationSlide 1 Date: 2013-03-20 Authors: Antenna Array Gain from Measured Data for 802.11n/ac.](https://reader036.fdocuments.us/reader036/viewer/2022062518/56649e965503460f94b99e4c/html5/thumbnails/6.jpg)
doc.: IEEE 802.11-13/0364r1
Submission
Antenna Gain Calculation
• 3x1 TxBF weights computed from CSI for each of the receive antennas
• Computation performed on each packet• Antenna gain computed from weights as shown on next slide• Computing statistics:
– antenna gain computed over 360 deg azimuth and 90 deg elevation for each subcarrier
– Average antenna gain (linear) computed over all subcarriers for each angle
– Maximum antenna gain found over all angles– Repeat for each time instance and CDF formed– Antenna gain reported at 50% and 90% probability point of CDF
Eldad Perahia
, Intel Corpor
ation
Slide 6
![Page 7: Doc.: IEEE 802.11-13/0364r1 SubmissionEldad Perahia, Intel CorporationSlide 1 Date: 2013-03-20 Authors: Antenna Array Gain from Measured Data for 802.11n/ac.](https://reader036.fdocuments.us/reader036/viewer/2022062518/56649e965503460f94b99e4c/html5/thumbnails/7.jpg)
doc.: IEEE 802.11-13/0364r1
Submission
Transmission at angle φ, θ
TX ofAP
x
xk
x
x
w1,k exp(-j2πkΔf)
w2,k exp(-j2πkΔf)
w3,k exp(-j2πkΔf)
exp(jπ cos(φ) sin(θ))
1
exp(j 2π cos(φ) sin(θ))
Eldad Perahia
, Intel Corpor
ation
Slide 7
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doc.: IEEE 802.11-13/0364r1
Submission
Summary of Array Gain Results (90% Prob)
Morning measurement Afternoon measurement
SRC Dest Rx ant 1 Rx ant 2 Rx ant 3 Rx ant 1 Rx ant 2 Rx ant 31 5 2.6 dB 2.3 dB 1.7 dB 2.5 dB 2.6 dB 2.0 dB
2 5 3.3 dB 3.2 dB 3.0 dB 2.0 dB 3.0 dB 1.0 dB
1 2 3.3 dB 2.1 dB 2.3 dB 1.5 dB 2.2 dB 2.5 dB
4 9 1.6 dB 2.9 dB 2.7 dB 1.6 dB 2.4 dB 2.0 dB
13 4 2.4 dB 3.3 dB 2.1 dB 2.7 dB 3.5 dB 2.0 dB
13 9 1.9 dB 2.3 dB 2.3 dB 1.9 dB 1.6 dB 2.3 dB
12 11 3.0 dB 1.9 dB 3.4 dB 2.3 dB 2.1 dB 1.6 dB
11 3 3.4 dB 2.3 dB 2.0 dB 3.4 dB 2.1 dB 2.1 dB
3 12 2.4 dB 2.5 dB 1.9 dB 2.6 dB 2.5 dB 2.7 dB
5 13 2.3 dB 2.5 dB 1.5 dB 1.5 dB 2.9 dB 2.3 dB
4 11 2.0 dB 1.9 dB 0.9 dB 1.1 dB 1.8 dB 2.1 dB
3 10 2.4 dB 3.1 dB 2.3 dB 1.9 dB 1.2 dB 2.4 dB
11 2 1.7 dB 2.0 dB 2.8 dB 1.5 dB 2.1 dB 2.7 dB
Eldad Perahia
, Intel Corpor
ation
Slide 8
![Page 9: Doc.: IEEE 802.11-13/0364r1 SubmissionEldad Perahia, Intel CorporationSlide 1 Date: 2013-03-20 Authors: Antenna Array Gain from Measured Data for 802.11n/ac.](https://reader036.fdocuments.us/reader036/viewer/2022062518/56649e965503460f94b99e4c/html5/thumbnails/9.jpg)
doc.: IEEE 802.11-13/0364r1
Submission
Summary of Array Gain Results (50% Prob)
Morning measurement Afternoon measurement
SRC Dest Rx ant 1 Rx ant 2 Rx ant 3 Rx ant 1 Rx ant 2 Rx ant 31 5 2.1 dB 1.6 dB 1.1 dB 2.2 dB 2.3 dB 1.6 dB
2 5 2.4 dB 2.6 dB 1.2 dB 1.8 dB 2.9 dB 0.8 dB
1 2 2.7 dB 1.4 dB 1.8 dB 1.0 dB 1.5 dB 1.8 dB
4 9 1.1 dB 2.3 dB 2.2 dB 1.6 dB 2.2 dB 1.7 dB
13 4 2.1 dB 3.1 dB 1.9 dB 2.5 dB 3.0 dB 1.1 dB
13 9 1.2 dB 1.8 dB 2.2 dB 1.7 dB 1.3 dB 2.2 dB
12 11 2.9 dB 1.9 dB 3.4 dB 1.7 dB 1.3 dB 1.1 dB
11 3 3.3 dB 2.1 dB 2.0 dB 3.4 dB 2.0 dB 2.0 dB
3 12 2.1 dB 2.1 dB 1.4 dB 2.4 dB 2.4 dB 2.6 dB
5 13 1.9 dB 2.1 dB 1.2 dB 0.9 dB 2.4 dB 1.4 dB
4 11 1.6 dB 1.3 dB 0.6 dB 0.8 dB 1.4 dB 1.7 dB
3 10 1.9 dB 2.6 dB 2.2 dB 1.7 dB 1.1 dB 2.4 dB
11 2 1.3 dB 1.5 dB 2.3 dB 1.1 dB 1.7 dB 2.3 dB
Eldad Perahia
, Intel Corpor
ation
Slide 9
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doc.: IEEE 802.11-13/0364r1
Submission
Observations• Array gain for 3 TX antennas is typically less that 3
dBi• Results can vary quite a bit even between RX antennas• Large variation in time
– 2-3 dB variation can occur over 2.5 sec• Results vary from morning measurements to
afternoon measurements• 90th percentile (spatially) over 50 percentile (temporal)
gain values (slide 8) – = 2.7 dB– 2 dB less than 10log(3)
Eldad Perahia
, Intel Corpor
ation
Slide 10
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doc.: IEEE 802.11-13/0364r1
Submission
EXAMPLE ANALYSIS
Eldad Perahia
, Intel Corpor
ation
Slide 11
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doc.: IEEE 802.11-13/0364r1
Submission
SRC = 1; Dest = 5RX antenna 1
Eldad Perahia
, Intel Corpor
ation
Slide 12
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doc.: IEEE 802.11-13/0364r1
Submission
1
2
3
30
210
60
240
90
270
120
300
150
330
180 0
BW = 20 MHz, all subcarriers
angle (deg)
Arr
ay G
ain
Eldad Perahia
, Intel Corpor
ation
Slide 13
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doc.: IEEE 802.11-13/0364r1
Submission
0.5
1
1.5
2
2.5
30
210
60
240
90
270
120
300
150
330
180 0
One subcarrier
angle (deg)
Arr
ay G
ain
Eldad Perahia
, Intel Corpor
ation
Slide 14
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doc.: IEEE 802.11-13/0364r1
Submission
0 5 10 15 20 25 30-15
-10
-5
0
5BW = 20 MHz, single angle
Subcarriers
Arr
ay G
ain
(dB
)
Eldad Perahia
, Intel Corpor
ation
Slide 15
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doc.: IEEE 802.11-13/0364r1
Submission
0.5
1
1.5
2
30
210
60
240
90
270
120
300
150
330
180 0
BW = 20 MHz, averaged over all subcarriers
angle (deg)
Arr
ay G
ain
Eldad Perahia
, Intel Corpor
ation
Slide 16
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doc.: IEEE 802.11-13/0364r1
Submission
max array gain over angles for each time instance; CDF over all instances
0 0.5 1 1.5 2 2.5 30
0.1
0.2
0.3
0.4
0.5
0.6
0.7
0.8
0.9
1
Array Gain (dB)
Pro
babi
lity
20 MHz
Eldad Perahia
, Intel Corpor
ation
Slide 17
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doc.: IEEE 802.11-13/0364r1
Submission
SRC = 1; Dest = 5RX antenna 2
Eldad Perahia
, Intel Corpor
ation
Slide 18
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doc.: IEEE 802.11-13/0364r1
Submission
1
2
3
30
210
60
240
90
270
120
300
150
330
180 0
BW = 20 MHz, all subcarriers
angle (deg)
Arr
ay G
ain
Eldad Perahia
, Intel Corpor
ation
Slide 19
![Page 20: Doc.: IEEE 802.11-13/0364r1 SubmissionEldad Perahia, Intel CorporationSlide 1 Date: 2013-03-20 Authors: Antenna Array Gain from Measured Data for 802.11n/ac.](https://reader036.fdocuments.us/reader036/viewer/2022062518/56649e965503460f94b99e4c/html5/thumbnails/20.jpg)
doc.: IEEE 802.11-13/0364r1
Submission
0.5
1
1.5
2
30
210
60
240
90
270
120
300
150
330
180 0
One subcarrier
angle (deg)
Arr
ay G
ain
Eldad Perahia
, Intel Corpor
ation
Slide 20
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doc.: IEEE 802.11-13/0364r1
Submission
0 5 10 15 20 25 30-8
-6
-4
-2
0
2
4
6BW = 20 MHz, single angle
Subcarriers
Arr
ay G
ain
(dB
)
Eldad Perahia
, Intel Corpor
ation
Slide 21
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doc.: IEEE 802.11-13/0364r1
Submission
0.5
1
1.5
2
30
210
60
240
90
270
120
300
150
330
180 0
BW = 20 MHz, averaged over all subcarriers
angle (deg)
Arr
ay G
ain
Eldad Perahia
, Intel Corpor
ation
Slide 22
![Page 23: Doc.: IEEE 802.11-13/0364r1 SubmissionEldad Perahia, Intel CorporationSlide 1 Date: 2013-03-20 Authors: Antenna Array Gain from Measured Data for 802.11n/ac.](https://reader036.fdocuments.us/reader036/viewer/2022062518/56649e965503460f94b99e4c/html5/thumbnails/23.jpg)
doc.: IEEE 802.11-13/0364r1
Submission
max array gain over angles for each time instance; CDF over all instances
0.5 1 1.5 2 2.5 30
0.1
0.2
0.3
0.4
0.5
0.6
0.7
0.8
0.9
1
Array Gain (dB)
Pro
babi
lity
20 MHz
Eldad Perahia
, Intel Corpor
ation
Slide 23
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doc.: IEEE 802.11-13/0364r1
Submission
SRC = 1; Dest = 5RX antenna 3
Eldad Perahia
, Intel Corpor
ation
Slide 24
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doc.: IEEE 802.11-13/0364r1
Submission
1
2
3
30
210
60
240
90
270
120
300
150
330
180 0
BW = 20 MHz, all subcarriers
angle (deg)
Arr
ay G
ain
Eldad Perahia
, Intel Corpor
ation
Slide 25
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doc.: IEEE 802.11-13/0364r1
Submission
1
2
3
30
210
60
240
90
270
120
300
150
330
180 0
One subcarrier
angle (deg)
Arr
ay G
ain
Eldad Perahia
, Intel Corpor
ation
Slide 26
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doc.: IEEE 802.11-13/0364r1
Submission
0 5 10 15 20 25 30-25
-20
-15
-10
-5
0
5BW = 20 MHz, single angle
Subcarriers
Arr
ay G
ain
(dB
)
Eldad Perahia
, Intel Corpor
ation
Slide 27
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doc.: IEEE 802.11-13/0364r1
Submission
0.5
1
1.5
30
210
60
240
90
270
120
300
150
330
180 0
BW = 20 MHz, averaged over all subcarriers
angle (deg)
Arr
ay G
ain
Eldad Perahia
, Intel Corpor
ation
Slide 28
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doc.: IEEE 802.11-13/0364r1
Submission
max array gain over angles for each time instance; CDF over all instances
0 0.5 1 1.5 2 2.5 30
0.1
0.2
0.3
0.4
0.5
0.6
0.7
0.8
0.9
1
Array Gain (dB)
Pro
babi
lity
20 MHz
Eldad Perahia
, Intel Corpor
ation
Slide 29