Policy on Intellectual Property Right (IPR)
1 Introduction
2 Building entry loss
measurements (VHF & UHF, Europe)
3 Building entry loss measurements
(5.2 GHz, Japan)
4 Exit loss measurements
4.1 Measured result
5 Slant path measurements (500
MHz - 6 GHz)
5.1 UHF satellite signal
measurements (860 MHz – 2.6 GHz)
5.2 Slant-path
measurements from towers or high rise buildings
5.3 Helicopter
measurements to office building
5.4 Balloon measurements
to domestic buildings (1-6 GHz)
6 Impact of thermally-insulating
materials (88 MHz – 5.8 GHz)
6.1 Introduction
6.2 Median building entry
loss
6.3 Variability of loss
within a room
6.4 Variability of loss
from room-to-room
6.5 Impact of insulating
materials on loss
7 Measurements at 3.5 GHz
7.1 Environment
7.2 Measurement
configuration
7.3 Measurement results at
3.5 GHz
8 Measurements in Stockholm at
0.5 to 5 GHz
8.1 Configuration of the
set-up
8.2 General results
8.3 Average excess loss
results
8.4 Method 1 versus Method 2 results
9 Building entry loss measurement
at 3.5 GHz in Beijing
9.1 Measurement scenarios
9.1.1 Building A
9.1.2 Building B
9.1.3 Building C
9.2 Test methodology
9.2.1 Measuring
system and instrument
9.2.2 Calculation
method of building entry loss
9.3 Measurement results
9.3.1 Measurement
results and analysis of building A scenario
9.3.2 Measurement
results and analysis of building B scenario
9.3.3 Measurement
results and analysis of building C scenario
10 Building entry loss measurement
at 3.5 GHz in UK
10.1 UK measurements
10.2 Methodology
10.2.1 Hardware
10.2.2 Software
10.3 Test locations
10.3.1 Terraced
house
10.3.2 Small
office
10.3.3 Retail
buildings
10.4 Results
10.4.1 Building
entry loss
10.4.2 BEL
Variability
11 Building entry loss
measurements at 28 GHz
11.1 Scenario
11.2 Experimental Set-up
11.3 Data
collection/analysis
11.4 Results
11.5 Conclusion
12 Measurements at 5.2 GHz
13 Building Entry Loss from 5-32 GHz
13.1 Introduction
13.2 Experimental Setup
13.2.1 Building
descriptions
13.2.2 Testing
Locations
13.2.3 Data
post processing
13.3 Results
13.3.1 Tabulated
Results
13.3.2 Coverage
maps
13.3.3 Distance
dependency
13.3.4 PDF
Distributions
13.3.5 CDF
Distributions
13.4 Tables of Building
Parameters
13.5 Conclusion
14 Measurements at 3, 10 and 17
GHz
14.1 Measurement Campaign
14.1.1 Scenario
Description
14.1.2 Setup and
Procedure
14.2 Data Processing
14.3 Measurement results
and analysis
14.3.1 Measurement
validation (LoS cases)
14.3.2 Penetration
Losses and Delay Spread
14.4 Conclusion
14.5 References
15 Measurements in Stockholm in
the 2-60 GHz frequency range
15.1 Introduction
15.2 Measurement campaign
15.3 Monte Carlo simulation
of multi-pane glass window transmission loss
16 Measurements at 5-31 GHz in
China
16.1 Measurement scenarios
16.1.1 Building
A
16.1.2 Building
B
16.2 Test methodology
16.2.1 Measuring
system and instrument
16.3 Calculation method of building entry loss
16.4 Measurement results
16.4.1 Measurement
results and analysis of Building B scenario
17 Measurements below 6 GHz in a
modern office building
17.1 Method
17.2 Locations
17.3 Measurement procedure
17.4 Reference measurements
17.5 Results
17.5.1 Building
entry loss (median loss)
17.5.2 Building
entry loss statistics
17.6 Conclusions
17.7 Annex - link budgets
17.8 Annex - measurement
zones at Riverside House
18 Building loss in an urban
environment (Japan, 0.8-37 GHz)
18.1 Measurement methods
and parameters
18.2 Measurement results
from 0.8 to 37.1 GHz band
19 Multi-frequency sounder measurements in Canada (2.4 GHz, 3.5 GHz, 5.8
GHz, 13 GHz, 26 GHz, 38 GHz, and 61 GHz)
19.1 Introduction
19.2 Building description
19.3 Description of the BEL measurements through Building 76
19.4 Methodology used for the estimation of BEL
19.5 BEL measurement results and modelling
19.6 Description of building material loss measurements in the
anechoic chamber
19.7 Some key building material loss results suitable for BEL
modelling
19.8 References
20 BEL measurements at 3, 10, 17 and 60 GHz frequencies from Orange
20.1 Measurement campaign
20.2 Data processing
20.3 Measurement results and analysis
20.4 Conclusion
21 Some zero elevation angle BEL measurement results in China
21.1 Measurement scenarios
21.1.1 Building A
21.1.2 Building B
21.1.3 Building C
21.2 Test methodology
21.2.1 Measuring system and instrument
21.2.2 Calculation method of BEL
21.3 Conclusion
22 BEL measurements for two office buildings in the frequency range
800 MHz-28 GHz from Nokia
22.1 Introduction
22.2 Measurement description
22.3 Measurement results
22.4 Normal incidence
22.6 Summary
22.A1 Attachment 1: Measurement Scenarios
22.A1.1 Traditional Office Building (STV)
22.A1.2 Modern Office Building (AAU)
22.A2 Attachment 2: Methodology
22.A2.1 Measurement Setup
22.A2.2 Measurement Procedures and Data Processing
22.A3 Attachment 3: Measurements at Normal Incidence
23 BEL: Measurements covering 25 to 73 GHz frequency range in the United
Kingdom
23.1 Introduction
23.2 Overview of BEL measurement campaign
23.3 Measurement methodology and equipment
23.4 Campaign results
23.4.1 Traditional build houses
23.4.2 Modern Construction Houses
23.5 Concluding remarks
23.6 References
24 BEL from 5-39 GHz in the United States
24.1 Introduction
24.2 Experimental setup
24.2.1 Building descriptions
24.2.2 Testing locations
24.3 Results
24.3.1 Tabulated results
24.3.2 BEL vs depth
24.3.3 PDF distributions
24.3.4 CDF Distributions
24.3.5 BEL vs frequency
24.4 Conclusion
25 Measurements on slant-path BEL in bands around 24 GHz from Telstra
25.1 Introduction
25.2 Approach
25.3 Observations & Results
25.4 Conclusions
25.A1 Attachment 1: General Building Layout – Buildings G and E,
Victoria University, Melbourne, Australia
25.A2 Attachment 2: Detailed building illumination plans
25.A3 Attachment 3: Detailed measurement results (Tx2 – Frequency 2)
25.A4 Attachment 4: Detailed measurement results (Tx1 – Frequency 1)
25.A5 Attachment 5: Mean BEL vs AoA
25.A6 Attachment 6: Selected Polar Plots
26 BEL measurement results and modelling vary with elevation incident angle
in China
26.1 Introduction
26.A Attachment: BEL measurement
26.A.1 Measurement scenarios
26.A.2 Test methodology
26.A.3 Measurement results
26.A.4 Conclusion
27 BEL measurement and modelling results on elevation angle dependence from
Ericsson
27.1 Introduction
27.2 Measurement campaign
27.3 Analysis
28 BEL measurements for three buildings in the frequency range
800 MHz-5.2 GHz with varying elevation incident angle from Nokia
28.1 Introduction
28.2 Measurement overview
28.3 Measurement results and comparison with KED-based model
28.4 Summary
28.A Attachment: Methodology
28.A.1 Measurement Setup
28.A.2 Measurement Procedures and Data Processing
29 Building entry loss measurements at 3.5, 6, 10, 18, and 24 GHz
frequencies in the Republic of Korea
29.1 Introduction
29.2 Measurement methods
29.3 Measurement results
29.3.1 Window penetration loss (WPL) characteristics
29.3.2 BEL characteristics
29.4 Summary of the results
30 Effect of antenna beamwidth on building entry loss (Republic of Korea,
32.4 GHz)
30.1 Introduction
30.2 Measurement overview
30.3 Measurement results
30.4 Model development
31 New measurements of domestic buildings (UK, 169 MHz – 60 GHz)
31.1 Introduction
31.2 Measurement method
31.2.1 Target buildings
31.2.2 Measurement equipment
31.2.3 Procedure
31.2.4 Data processing
31.3 Results
31.3.1 Median BEL results averaged over all rooms
31.3.2 Median BEL results for each room in each house
31.3.3 Cumulative distributions of BEL
31.3.4 Comparison with Recommendation ITU-R P.2109 model
31.4 Summary of results
32 Independent and joint statistics of clutter loss and building entry loss
– initial measurements (UK, 100 MHz – 100 GHz)
32.1 Introduction
32.2 Experimental arrangement
32.2.1 Measurement equipment
32.2.2 Procedure
32.3 Results
32.3.1 Building loss in isolation
32.3.2 Building loss measured over a cluttered path
32.4 Summary of the results
32.5 References
33 Building entry loss measurements in an urban environment at 27.5 and
39.5 GHz (China)
33.1 Introduction
33.2 Measurement environment
33.2.1 Indoor office environment (3rd floor in
Building A5)
33.2.2 Corridor environment (4th floor in
Building A5)
33.3 Measurement setup and procedure
33.3.1 Principles of time domain measurement method
33.3.2 Measurement system and measurement instruments
33.4 Data processing
33.5 Measurement results and analysis
33.6 Summary of the results
34 Effect of azimuth incidence angle on building entry loss (Republic of Korea)
34.1 Introduction
34.2 Incidence angle dependency in other standard models
34.3 Measurement overview
34.4 Analysis
34.5 References
35 Building entry loss measurements for heavy industry factory at 3, 6, 10,
18 and 24 GHz (Republic of Korea)
35.1 Introduction
35.2 Measurement environment
35.3 Measurement results
35.3.1 Outdoor reference measurements
35.3.2 BEL characteristics
35.4 Summary of the results
36 Measurements for building entry loss into a basement at frequency
1.5 GHz and 3 GHz (Republic of Korea)
36.1 Introduction
36.2 Measurement of building entry loss
36.2.1 Measurement campaign
36.2.2 Measurement results of building entry loss in the
basement
36.3 Analysis of propagation path between the ground and basement
floors
36.3.1 Measurement of the propagation path on the first
floor
36.3.2 Propagation loss between the first floor and the
basement
36.3.3 Comparison of the propagation path from the open
entrance with direct propagation
36.4 Summary of the results
37 BEL measurements in a line-of-sight (LoS) and cluttered path
37.1 Introduction
37.2 Measurement overview
37.2.1 Measurement scenario
37.2.2 Measurement systems
37.3 Measurement results
37.3.1 BEL characteristics
37.3.2 Received power analysis
37.4 Summary of the results
38 On joint statistics of clutter loss and building entry loss at frequency
3 GHz and 24 GHz
38.1 Introduction
38.2 Experimental arrangement
38.3 Results
38.4 Summary of the results
39 Combined and independent statistics of clutter loss and building entry
loss measurements at 26 GHz
39.0 Introduction
39.1 Measurement campaign 2019
39.1.1 Scenario
39.1.2 Location of the measurement points
39.1.3 Experimental setup
39.1.4 Building entry loss over cluttered path
measurements
39.1.5 Building entry loss isolated building measurements
39.1.6 Data analysis
39.2 BEL from 2018 experimental campaign
39.3 Clutter loss from 2017 experimental campaign
39.4 Summary of the results
39.5 References
Annex 1 BEL in point-to-area applications below 3 GHz