Policy on Intellectual Property Right (IPR)
1 Introduction
2 Technical studies
2.1 Interference from FSS
earth stations into receiving IMT stations
2.1.1 Study #1
2.1.2 Study #2
2.2 Interference from IMT
stations into receiving FSS space stations
2.2.1 Study #3
2.2.2 Study #4
3 Technical characteristics
3.1 FSS earth stations
parameters
3.2 FSS space stations
parameters
3.2.1 Study #3
3.2.2 Study #4
3.3 IMT stations
parameters
3.4 Other study elements
4 Results
5 Summary
Annex 1 Interference assessment into indoor IMT small cells
from fixed-satellite service earth stations in the 5 925-6 425 MHz frequency
band
1 Introduction
2 Background
3 Technical characteristics
3.1 IMT systems
characteristics and assumptions
3.2 FSS ES characteristics
and assumptions
4 Analysis
4.1 Assumptions and
methodology
4.2 Calculations and
results
4.3 Mitigation techniques
5 Summary
Annex 2 Compatibility study between IMT and FSS transmit
earth stations operating in the 5 850-6 425 MHz frequency band
1 Introduction
2 Background
3 Technical characteristics
4 Analysis
4.1 Assumptions
4.2 Methodology
4.3 Results
5 Summary
Attachment 1 to Annex 2
Annex 3 Sharing and compatibility between IMT systems and FSS
receiving space stations in the 5 925-6 425 MHz frequency band
1 Introduction
2 Background
3 Technical characteristics
3.1 IMT systems
characteristics and assumptions
3.1.1 IMT
stations parameters
3.1.2 IMT base
stations density assumptions
3.1.3 Indoor
penetration loss values
3.1.4 Omission
of user terminals in interference calculation
3.2 FSS GSO networks
characteristics
3.3 FSS NGSO networks
characteristics
4 Analysis
4.1 Impact on FSS GSO
networks
4.1.1 Assumptions
4.1.2 Methodology
4.1.3 Example of
calculations
4.1.4 Results
4.2 Impact on FSS NGSO
networks
4.2.1 Assumptions
4.2.2 Methodology
4.2.3 Example of
calculations
4.2.4 Results
5 Summary
Attachment 1 to Annex 3 Population distribution
Attachment 2 to Annex 3 FSS NGSO network
characteristics
Annex 4 Sharing and compatibility between IMT systems and FSS
receiving space stations in the 5 925-6 425 MHz frequency band
1 Introduction
2 Technical characteristics
2.1 IMT system
characteristics
2.2 Building attenuation
2.3 Propagation model
2.4 FSS GSO network
characteristic
3 Analysis
3.1 Methodology
3.2 Results
4 Conclusions