Thanks for these videos! Taking this class in Canada and I'm completely lost as my major is mechanical engineering. Having a second person explain this in a different method from my professor is helping tremendously!
K is the value of the received power at the reference distance. It can be measured. It dependes on the pathloss exponent and the medium of propagatin. If we do not know it, we may use the equation that you have used as an approximation. The equation that you have used assumes free space propagation, n=2. All the best @Ahmad Khalaf.
Thank you so much prof, I'm on my PhD in telecom Engr. Your video has helped alot. Can you please help with more explanation on how to calculate the parameters of CI and FI models of 5G. I'm working on large scale path loss modeling for 5G systems. I will very glad to hear from you Sir. Thanks Sir
Thanks for these videos! Taking this class in Canada and I'm completely lost as my major is mechanical engineering. Having a second person explain this in a different method from my professor is helping tremendously!
Thank you professor Ali, for the last question Plz ...... K= 20 log (0.15 ÷ 4 pi ) = -38.46 ..... why you assume -29.24 if fc = 2 Ghz
K is the value of the received power at the reference distance. It can be measured. It dependes on the pathloss exponent and the medium of propagatin. If we do not know it, we may use the equation that you have used as an approximation. The equation that you have used assumes free space propagation, n=2. All the best @Ahmad Khalaf.
@@alimuqaibel7619 Thank you sir for these valuable information
Thank you so much prof, I'm on my PhD in telecom Engr. Your video has helped alot. Can you please help with more explanation on how to calculate the parameters of CI and FI models of 5G.
I'm working on large scale path loss modeling for 5G systems. I will very glad to hear from you Sir. Thanks Sir
Doctor please can you help me. How to apply log normal shadowing model in matlab. Please