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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