What book or resources did you use to learn signals? You make it seem so easy!!! I think it's one of those classes that just isn't taught well or any real good resources to deeply understand whats happening. and real nice video!
thank you very much for your feedback. You are very kind and supportive. Probably it was not just one book or resource. It is a combination of many books, articles and applications. I have many gray hair from signal processing ;) cheers!
Hey Mamdouh, there are four possible ROCs in the example. As long as ROC is bounded by poles or extends to infinity, it is a valid ROC. Hope this helps.
I swear I watched like 10 videos about roc from really big channels with like 500k views each and this one was the clearest
Thanks for your feedback! I wish I had 500K views on this. Lol!
Probably the best description of roc in such a short video. Thank you.
Glad it was helpful!
Thank you Iman, you teach complicated stuff and make them so easy! Love it! I wish I had the chance to watch your videos during my undergrad!
Thanks for your kind words! I really appreciate your feedback.
Such an amazing explaination with great examples. Thank you!
Glad you enjoyed it!
You are the best Iman!, You deserves milions of subs!!!!!
Thank you very much
What book or resources did you use to learn signals? You make it seem so easy!!! I think it's one of those classes that just isn't taught well or any real good resources to deeply understand whats happening. and real nice video!
thank you very much for your feedback. You are very kind and supportive. Probably it was not just one book or resource. It is a combination of many books, articles and applications. I have many gray hair from signal processing ;) cheers!
this was amazing!!! thank you so much, you're one talented teacher :)
Appreciate your kind words!
At 05:45, why u plot the value of S=1 as bounded to the left direction, not the right direction?
Hey Mamdouh, there are four possible ROCs in the example. As long as ROC is bounded by poles or extends to infinity, it is a valid ROC. Hope this helps.
Super ! Speedy understandable
Thanks a lot!
Nice video. Make a serie for Z transform too.
Sure, DSP (including Z transform) would be my next course.
simple explanation, thx
Glad it helped!
thank u. i am waiting for your videos. i have process control this term 😆
Thank you Morteza and sorry to keep you waiting for this chapter. Best of luck with your control course.
감사합니다 정말 많은 도움이 되었습니다
아니에요
Laplace Transform converges (gives finite value) in ROC. How is this information (the finite value of LT) help us anyhow?
Keep it up ... We need Z transform also
Sure my friend.
How do we know the signal is right sided ,left sided or bounded ?
Hey, I provided an example for each signal in the lecture. Hope this helps!
@@Kuchdelan oh yea ! my bad thanks for replying
INSTANT LIKE!!!
cheers!