b) The power delay profile of a typical urban mobile radio channel is given in Table 1. Answer the following questions. Please show all working. Relative delay Average relative power (dB) -1.5 (ms) 0 -4.43 -5.85 -17.79 -23.00 -35.61 Table 1: Power delay profile for an urban cellular radio channel. 0.5 2.6 4.7 4.8 9.4 i) Define the terms: excess delay and total excess delay. iii) Calculate the mean delay. ii) Compute the average relative power in Watts.
b) The power delay profile of a typical urban mobile radio channel is given in Table 1. Answer the following questions. Please show all working. Relative delay Average relative power (dB) -1.5 (ms) 0 -4.43 -5.85 -17.79 -23.00 -35.61 Table 1: Power delay profile for an urban cellular radio channel. 0.5 2.6 4.7 4.8 9.4 i) Define the terms: excess delay and total excess delay. iii) Calculate the mean delay. ii) Compute the average relative power in Watts.
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![b) The power delay profile of a typical urban mobile radio channel is given in Table 1. Answer the
following questions. Please show all working.
Relative delay Average relative power
(dB)
-1.5
-4.43
-5.85
-17.79
-23.00
-35.61
Table 1: Power delay profile for an urban cellular radio channel.
(ms)
0
0.5
2.6
4.7
iii) Calculate the mean delay.
4.8
9.4
i) Define the terms: excess delay and total excess delay.
ii) Compute the average relative power in Watts.](/v2/_next/image?url=https%3A%2F%2Fcontent.bartleby.com%2Fqna-images%2Fquestion%2F0ffe1087-b356-4afd-895c-32160dfc4175%2F71900bd8-0bf1-4c81-bf72-90607c6d26a0%2Fpmnrnf_processed.png&w=3840&q=75)
Transcribed Image Text:b) The power delay profile of a typical urban mobile radio channel is given in Table 1. Answer the
following questions. Please show all working.
Relative delay Average relative power
(dB)
-1.5
-4.43
-5.85
-17.79
-23.00
-35.61
Table 1: Power delay profile for an urban cellular radio channel.
(ms)
0
0.5
2.6
4.7
iii) Calculate the mean delay.
4.8
9.4
i) Define the terms: excess delay and total excess delay.
ii) Compute the average relative power in Watts.
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