Your mature voice, absence of silly or needless anecdotes, and sensible and sober manner made this presentation easy to watch. You made me realize that I really didn't fully understand QAM. I still don't, but I am much better off than I was before I watched your presentation. Thank you.
I'm glad you liked it. I realize this is a little higher level than some viewers are looking for but it is primarily aimed at EE students who would like another point of view. I only hope it proves more useful than confusing.
![Seungmin "그렇게, 천천히, 우리(As we are)" | [Stray Kids : SKZ-PLAYER]](http://i.ytimg.com/vi/kAzmhLHePqU/mqdefault.jpg)
I feel that no matter how much math is involved, analog design, even within digital processing, is forever an art :)
You save me weeks at school with this tutorial thank you
Your mature voice, absence of silly or needless anecdotes, and sensible and sober manner made this presentation easy to watch. You made me realize that I really didn't fully understand QAM. I still don't, but I am much better off than I was before I watched your presentation. Thank you.
bravo! this is my 3 semesters of telecommunications engineering classes in one video minus antena theory 👏👏👏
Shannon & Weaver was and still is genius. It is great to see a modern and accurate treatment today. Thank you.
Awesome introduction of this fascinating topic. Thank you Tom!
First I tried to understand the maths....no chance
After your explications all seams easyer to understand
A very big thank you
don't stop just seeing the stick and the book, you love it after a while. thank you Tom it is very good presentation.
You're a hero. Exceptional quality of information, clear, concise, and thought provoking.
You are so coherent and clear there's no noise through the channel. Only cognitive bias and distortion
Thanks for breaking down what I have been struggling to understand for the last two weeks. Very simple and straight forward.
There need to be more artist tapping into this medium. Art unlocks pathways to new horizons or communication methods ;)
Amazing explanation, thank you
Thank you! Extremely clear and undertandable!
Very well and to the point explanation 👍.. thanks
A most excellent lecture ! Thank you
very clear presentation for Digital Modulation
at 1:44 I suggest to mentally insert t (for time) behind omega:
Y = sin(omega t + phi)
Thank you for your clear and helpful explanation.
I'm glad you liked it. I realize this is a little higher level than some viewers are looking for but it is primarily aimed at EE students who would like another point of view. I only hope it proves more useful than confusing.
Great video!
well explained
At 2:18 along with w( omega) time t must be multiplied to get radian or phase
Clear explanation, thank you very much sir
Learnt new things, THANK YOU
Great vid.
beautifull sir thank you so much for making this nice video , helped me a lot
GREAT job
amazing video sir! thank you!
think you so much your explanation.
Congratulations! Thank you🇧🇷
thanks a lot my brother, great work indeed, though i wish to watch all the other videos on Digital modulation; link please?
very good. thanks..
is that a chopstick?
GOOD..!!
does anyone else think he sounds a little bit like Winni Pooh ? Great presentation!
🙏🌹🙏
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