CONTENTS

Policy on Intellectual Property Right (IPR)
1 Technical characteristics of wideband spaceborne active sensors
1 Sharing between RLANs and radar altimeters
1.1 Introduction
1.2 Technical characteristics of the two systems
1.3 Interference from a single RLAN into altimeters
1.4 Estimation of the number of RLANs in the 3 dB footprint of an altimeter
Aggregate building attenuation
Activity factor
Transmitter power control
1.5 Interference from altimeters into RLANs
1.6 Summary of results
1 Introduction
2 Details of sharing issue
3 Simulations
3.1 Parameters used in the simulations
3.2 Simulation results and comments
4 Summary of results
1 Introduction
2 Technical characteristics of EESS
3 Technical characteristics of outdoor WAS/RLANs
4 Technical characteristics of indoor WAS/RLANs
5 Distribution of outdoor WAS/RLANs systems
6 Distribution of indoor WAS/RLAN systems
7 Interference into SAR2
8 Interference into SAR3
9 Summary of results
1 Introduction
2 Technical characteristics of wideband spaceborne SARs
3 Technical characteristics of WAS/RLAN systems
4 Performance and interference criteria for the spaceborne SAR
5 Aggregate interference from broadband RLANs into SARs
5.1 Interference from outdoor deployment of WAS transmitters in the 5 470‑5 570 MHz band
5.1.1 Interference from a single WAS transmitter located outdoors in the 5 470‑5 570 MHz band
5.1.2 Interference from outdoor deployment of WAS transmitters in the 5 470‑5 570 MHz band
5.2 Aggregate interference from a deployment of RLAN/WAS transmitters in the 5 GHz range
6 Interference from SARs into broadband RLANs
7 Summary of results
1 Introduction
2 Practical antennas conforming to the proposed e.i.r.p. mask
2.1 Base station or access point antennas for 5 GHz WAS/RLANs applications
3 Tilt sensors and their application to 5 GHz WAS/RLAN antennas
4 Summary of results