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99 dBm/Hz
i Receiver Noise Figure 7 dB
j System Bandwidth 65.84331 dB
k Handoff Gain 3 dB
l Lognormal Fading Margin 7 dB
m Propagation Path Loss 143 dB d  1.5 km
n Building Penetration Loss 0 dB
o Various Implementation Loss 6 dB Implementation  Car Loss
p Rx Signal Power
116 dBm abcdeklmno
q Eb/(IoNo) 4.988487 dB
r Processing Gain 21.0721 dB
s Interference  Noise Floor
98.1464 dBm hij
t Ec/(IoNo)
17.8536 dB ps
u Sensitivity
118.138 dBm hiqv
v User Data Rate (12.2 KBps) 40.8636 dB
informative purposes, where the values can be changed depending on the deployment scenario, service
providers, and UE manufacturers. One can quickly vary parameters such as path loss and noise
rise to derive a first-order approximation to the cell??™s capacity, either number of users or normalized
throughput (bps/Hz).
REFERENCES
[1] J. G. Proakis, Digital Communications, McGraw-Hill, 1989, New York.
[2] B. Sklar, Digital Communications: Fundamental and Applications, Prentice Hall, 1988, New Jersey.
[3] G. L. Turin, ???Introduction to Spread-Spectrum Antimultipath Techniques and Their Application to Urban
Digital Radio,??? Proceedings of the IEEE, Vol. 68, No. 3, March 1980, pp. 328??“353.
[4] S.


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