sir i am really grateful for this video ! this is a game changer , we were just introduced about it in college and just ignored .. your explanation made it look so easy 🙏 thanks a lot sir i am sharing these with all my mates , and also it would be really wonderful of you if you can cover more of LTE in the future i wish and pray for the success of your channel ! much much thanks from India
You are most welcome. OK, I'll think about a few more LTE based topics. Thanks for your feedback and the suggestion. And thanks for sharing with your mates.
Many thanks for your clear and interesting presentations Iain, I hope you are making some money out of the mind blowingly banal adverts RUclips intersperses them with, you certainly are the shine-ola of the presentation 😁
Great explanation sir! I need a small clarification. When do we use rayleigh fading and rician fading. In other words, when do we consider the line of sight path and when do we ignore it?
Really the only thing that differentiates the paths is their Path Gain (and their delay of course, but in this case we are assuming that all the paths arrive within a timeframe that is much shorter than the transmitted modulated symbol duration). If there is one path (or a small number of paths) that have a much stronger gain than all the others, then the distribution will be Rician. Generally a LoS path has the characteristic of being significantly stronger than the other (reflected) paths. But it could also be the case that there is no LoS path, but there is a strong reflected path, that is significantly stronger than all the other reflected paths (perhaps it is bouncing off a metal wall for example). It's not a case of "considering" or "ignoring" the LoS path.
Hello. Thank you for the good lecture. I have a question, I want to measure the Rician K-factor in the environment. What is the peak amplitude of the dominant signal? What is the unit of power of delayed signals measured by channel impulse response? Amplitude is in units and measured values are in RSSI (received strength signal indicator) dBm, but Rician is called Voltage Amplitude, which is confusing.
I was at the rock bottom in my antenna course concepts, and you saved my life. Thank you so much SIR!!! for this magical simple explanations.
Glad it helped!
I just love how simple and concrete explanation are giving in your courses .. You're doing a great job!!
Thanks a lot! Glad you like them.
sir i am really grateful for this video ! this is a game changer , we were just introduced about it in college and just ignored ..
your explanation made it look so easy 🙏 thanks a lot sir
i am sharing these with all my mates , and also it would be really wonderful of you if you can cover more of LTE in the future
i wish and pray for the success of your channel !
much much thanks from India
You are most welcome. OK, I'll think about a few more LTE based topics. Thanks for your feedback and the suggestion. And thanks for sharing with your mates.
this is reeeeeeeaaaaaally helpful, looking forward to your more videos!!!!
Glad it helped. Have you seen my webpage, which has a categorised list of all the videos on the channel so far: iaincollings.com
@@iain_explains yes sir, I've seen it. And I think I will go to your website each time I have some doubts.
You are a genius, man...
Wow, thanks.
Many thanks for your clear and interesting presentations Iain, I hope you are making some money out of the mind blowingly banal adverts RUclips intersperses them with, you certainly are the shine-ola of the presentation 😁
I'm glad you like the videos. ... and thanks for watching the adverts too 🤪
Thank you 🙏
You’re welcome 😊
Thank you so much.
You're welcome!
amazing!
Glad you found it helpful.
Great explanation sir! I need a small clarification. When do we use rayleigh fading and rician fading. In other words, when do we consider the line of sight path and when do we ignore it?
Really the only thing that differentiates the paths is their Path Gain (and their delay of course, but in this case we are assuming that all the paths arrive within a timeframe that is much shorter than the transmitted modulated symbol duration). If there is one path (or a small number of paths) that have a much stronger gain than all the others, then the distribution will be Rician. Generally a LoS path has the characteristic of being significantly stronger than the other (reflected) paths. But it could also be the case that there is no LoS path, but there is a strong reflected path, that is significantly stronger than all the other reflected paths (perhaps it is bouncing off a metal wall for example). It's not a case of "considering" or "ignoring" the LoS path.
Hello. Thank you for the good lecture. I have a question, I want to measure the Rician K-factor in the environment.
What is the peak amplitude of the dominant signal? What is the unit of power of delayed signals measured by channel impulse response? Amplitude is in units and measured values are in RSSI (received strength signal indicator) dBm, but Rician is called Voltage Amplitude, which is confusing.
I'm not exactly sure what you are asking here, but don't forget that P=V^2/R, so Power is directly proportional to the square of the voltage.
Hi, thanks for the nice explanation. I’m wondering what is the distribution of the channel phase for the Rician fading channel?
It's a uniform distribution.
Like and comment to support the channel
Thanks. I appreciate it.
You can make a dog understand General Relativity 😎😎😎 O Captain my Captain 😇😇😇
Nice one. Glad you like the videos.