submission doc.: ieee 802.11-15/0179r1 indoor wall propagation loss measurements january, 2015 chuck...
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Submission
doc.: IEEE 802.11-15/0179r1
Chuck Lukaszewski, Aruba Networks
Indoor Wall Propagation Loss Measurements
January, 2015
Slide 1
Date: 2015-01-14
Name Affiliations Address email Chuck Lukaszewski Aruba Networks 1344 Crossman Avenue
Sunnyvale, CA, 94089 USA
Authors:
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Submission
doc.: IEEE 802.11-15/0179r1
Chuck Lukaszewski, Aruba Networks
Abstract• It has been observed that the current Simulation Scenarios
significantly understate propagation loss across walls. [1]• SS#1 assumes 5dB per wall
• SS#2 assumes 7dB per wall
• SS#4a references SS#1 (Outside in penetration)
• This contribution presents field RF measurements from site surveys using professional grade software tools
• Recommend uniform loss value of 9 dB / wall in SS #1 and #2
January, 2015
Slide 2
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Submission
doc.: IEEE 802.11-15/0179r1
Framed vs. Concrete/Block Construction
Stud andWallboardConstruction(~10dB/wall)
Concrete WallConstruction(25-30dB/wall)
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Submission
doc.: IEEE 802.11-15/0179r1
Chuck Lukaszewski, Aruba Networks
70,000 Seat Stadium Skyboxes
January, 2015
Slide 4
Aluminum stud + wallboard (3.3m /11ft wide)
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Submission
doc.: IEEE 802.11-15/0179r1
Chuck Lukaszewski, Aruba Networks
70,000 Seat Stadium Skyboxes (5GHz)Aluminum stud + wallboard (3.3m /11ft wide)
January, 2015
Slide 5
-57dBm -66dBm
-60dBm
-70dBm
-58dBm
-67dBm
-62dBm
-69dBm
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Submission
doc.: IEEE 802.11-15/0179r1
Chuck Lukaszewski, Aruba Networks
Jan 2015 Hyatt Regency Ballroom (5 GHz)
January, 2015
Slide 6
AP in front of room47:e0:ccCh 165
-56dBm
-70dBm
-67dBm
-77dBm
Retracting partition wall
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Submission
doc.: IEEE 802.11-15/0179r1
Chuck Lukaszewski, Aruba Networks
Jan 2015 Hyatt Regency Ballroom (5 GHz)
January, 2015
Slide 7
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Submission
doc.: IEEE 802.11-15/0179r1
Chuck Lukaszewski, Aruba Networks
Jan 2015 Hyatt Regency Ballroom (5 GHz)
January, 2015
Slide 8
AP in next room4f:df:acCh 36
-62dBm
-50dBm
-69dBm
-56dBm
Retracting partition wall
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Submission
doc.: IEEE 802.11-15/0179r1
Chuck Lukaszewski, Aruba Networks
Jan 2015 Hyatt Regency Ballroom (2.4 GHz)
January, 2015
Slide 9
AP in front of roomce:41:58Ch 1
-35dBm
-51dBm
-42dBm
-52dBm
Retracting partition wall
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Submission
doc.: IEEE 802.11-15/0179r1
Chuck Lukaszewski, Aruba Networks
Private NY Area University Dorm
January, 2015
Slide 10
Concrete block walls – each dorm room is 3.1m /10ft wide
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Submission
doc.: IEEE 802.11-15/0179r1
Chuck Lukaszewski, Aruba Networks
Recommendation
• Based on data presented, 9 dB is a more conservative value for soundproofed interior walls separating tenants.
• This assumes wood-frame or aluminum-frame construction with wallboard and standard insulating materials.
• “Mass walls” made from concrete block, plaster-over-brick, and poured concrete walls have much higher values (at least 25dB)
• There is no structural reason to use a different value for residential & enterprise scenario. Insulated bearing walls will have similar loss. If anything, residential case will have slightly higher average loss than enterprise.
• Exterior walls in SS#4a should be modeled using a higher value than 9 dB
January, 2015
Slide 11
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Submission
doc.: IEEE 802.11-15/0179r1
Chuck Lukaszewski, Aruba Networks
Counterpoint
• 5dB is an appropriate value for interior, non-insulated walls that subdivide an office, house or apartment (when framed walls are used)• However, no SS currently uses interior subdividing walls
• Want to keep pressure on the simulators. Increasing wall loss will effectively reduce the number of interfering OBSS nodes. • We could knowingly accept a lower path loss value in order to
increase OBSS interference effect, thereby making SS result more conservative.
January, 2015
Slide 12
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Submission
doc.: IEEE 802.11-15/0179r1
Chuck Lukaszewski, Aruba Networks
Straw Poll
Do you agree that the penetration loss values in both SS#1 and SS#2 should be increased to 9 dB?
Yes/No/Abstain
January, 2015
Slide 13
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Submission
doc.: IEEE 802.11-15/0179r1
Chuck Lukaszewski, Aruba Networks
References
1. 14/1590r0 - Zhao, et al, “Multi-wall penetration loss model for HEW system level simulation” – Jan 2014
January, 2015
Slide 14