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