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wavesight™ Performance
vs. Actual Measurement
Â…Tested In The Real World
wavesight™ has been tested in over 80 locations worldwide, delivering almost 1000 km of testing route. This intense testing lead to a model that can be used for all kinds of cities without adjustment.
Sample 1: Paris - Microcell
Transmitter:
Omni directional antenna, 8 m height, Frequency 900 MHz
Building
layout:
Average
building heights 20 m
Receivers:
located within 800 m from transmitter on a 3.5 km route
Prediction computing time:2 minutes on a Pentium II 266
Error
with Measurements: Mean and standard deviation are 1.4 and
5.8 dB
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Sample 2: Bern - Macrocell
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Transmitter:
Omni directional antenna, 632 m height, Frequency 1800 MHz
Building
layout:Average building heights 614 m
Receivers:located
within 1500 m from transmitter on a 20 km route
Prediction computing time:6 minutes on a Pentium II 266
Error
with Measurements:Mean and standard deviation are 0 and 7.5
dB
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Sample 3: Bern - Small
Cell
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Transmitter:
Omni directional antenna, 625 m height, Frequency 1800 MHz
Building
layout: Average building heights 614 m
Receivers:
located within 1500 m from transmitter on a 4 km route
Prediction computing time: 6 minutes on a Pentium II 266
Error
with Measurements: Mean and standard deviation are .5 and
5.4 dB
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Sample 4: Bern - Microcell
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Transmitter:
Omni directional antenna, 613 m height, Frequency 1800 MHz
Building
layout: Average building heights 614 m
Receivers:
located within 1000 m from transmitter on a 2.5 km route
Prediction computing time: 2 minutes on a Pentium II 266
Error
with Measurements: Mean and standard deviation are -1.5 and
8.2 dB
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Sample 5: Munich - Small
Cell
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Transmitter:
Omni directional antenna, 13 m height, Frequency 900 MHz
Building
layout: Average building heights 16m
Receivers:
located within 2500 m from transmitter on a 10 km route
Prediction computing time: 7 minutes on a Pentium II 266
Error
with Measurements: Mean and standard deviation are -0.2 and
6.4 dB
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Sample 6: Munich - Small
Cell (2)
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Transmitter:
Omni directional antenna, 13 m height, Frequency 900 MHz
Building
layout: Average building heights 16m
Receivers:
located within 2500 m from transmitter on a 10 km route
Prediction computing time: 4 minutes on a Pentium II 266
Error
with Measurements: Mean and standard deviation are -1.5 and
5.8 dB
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Sample 7: The Hague - Microcell
Transmitter:
Omni directional antenna, 8 m height, Frequency 900 MHz
Building
layout: Average building heights 11m
Receivers:
located within 3000 m from transmitter on a 25 km route
Prediction computing time: 8 minutes on a Pentium II 266
Error
with Measurements: Mean and standard deviation are 3.5 and
6.8 dB
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Sample 8: The Hague - Small
Cell
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Transmitter:
Omni directional antenna, 11 m height, Frequency 900 MHz
Building
layout: Average building heights 11m
Receivers:
located within 3000 m from transmitter on a 25 km route
Prediction computing time: 8 minutes on a Pentium II 266
Error
with Measurements: Mean and standard deviation are 4.1 and
6.8 dB
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Sample 9: The Hague - Small
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Transmitter:
Omni directional antenna, 11 m height, Frequency 900 MHz
Building
layout: Average building heights 11m
Receivers:
located within 3000 m from transmitter on a 25 km route
Prediction computing time: 8 minutes on a Pentium II 266
Error
with Measurements: Mean and standard deviation are 4.1 and
6.8 dB
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Sample 10: The Hague - Macrocell
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Transmitter:
Omni directional antenna, 15 m height, Frequency 900 MHz
Building
layout: Average building heights 11m
Receivers:
located within 3000 m from transmitter on a 25 km route
Prediction computing time: 8 minutes on a Pentium II 266
Error
with Measurements: Mean and standard deviation are 2.5 and
8.3 dB
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