Consider the mobile communication system shown in Figure 2. Assume the tower is providing mobile communication to a cellphone user. The height of the base station (BS) tower is 100m. Assume the elevation of the cellphone from the ground is 2 m, which is insignificant and can be ignored. Assume the smartphone needs at least -50dBm of received power from the base station in order to be able to communicate. Assume the transmit power at the base station is 40dBm, the transmitter and receiver gains are 5 and 2, respectively. The cell phone operates at 1900MHz carrier frequency. B5 h 100m BS_MS_D Figure 2 a) Calculate how far you can be away from the base station (i.e., BS_MS_D distance) and still be within communication range of the base station, i.e., be able to receive the signal sent from the BS. You may use link budget analysis discussed in class. What should be the transmit power of the BS to allow the range R = 21 and still be able to communicate with the BS? Calculate the Path Loss (PL) in part (b), and suggest one way to reduce path loss

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Consider the mobile communication system shown in Figure 2. Assume the tower is
providing mobile communication to a cellphone user. The height of the base station (BS)
tower is 100m. Assume the elevation of the cellphone from the ground is 2 m, which is
insignificant and can be ignored. Assume the smartphone needs at least -50dBm of
received power from the base station in order to be able to communicate. Assume the
transmit power at the base station is 40dBm, the transmitter and receiver gains are 5 and 2,
respectively. The cell phone operates at 1900MHz carrier frequency.
B5 h 100m
BS_MS_D
Figure 2
a) Calculate how far you can be away from the base station (i.e., BS_MS_D
distance) and still be within communication range of the base station, i.e.,
be able to receive the signal sent from the BS. You may use link budget
analysis discussed in class.
What should be the transmit power of the BS to allow the range R = 21
and still be able to communicate with the BS?
Calculate the Path Loss (PL) in part (b), and suggest one way to
reduce path loss
Transcribed Image Text:Consider the mobile communication system shown in Figure 2. Assume the tower is providing mobile communication to a cellphone user. The height of the base station (BS) tower is 100m. Assume the elevation of the cellphone from the ground is 2 m, which is insignificant and can be ignored. Assume the smartphone needs at least -50dBm of received power from the base station in order to be able to communicate. Assume the transmit power at the base station is 40dBm, the transmitter and receiver gains are 5 and 2, respectively. The cell phone operates at 1900MHz carrier frequency. B5 h 100m BS_MS_D Figure 2 a) Calculate how far you can be away from the base station (i.e., BS_MS_D distance) and still be within communication range of the base station, i.e., be able to receive the signal sent from the BS. You may use link budget analysis discussed in class. What should be the transmit power of the BS to allow the range R = 21 and still be able to communicate with the BS? Calculate the Path Loss (PL) in part (b), and suggest one way to reduce path loss
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