That comment at 2:06 "We are engineers after all" so much swag but so true after all :D anyway, thanks for a good explanation. It's quite helpful as the teacher just gave us these plots rather than telling us we need to assume the norm has to give a unit value.
That's the notation used to consider more than one norm. The numbers below can be used on Minkowski Distance equation to summarize them into one only equation.
However its difficult understanding the implementation of Norm in metric space, For example how is the Norm infinity = Sup {Xn} where Xn represents bounded sequences...
This was so clearly explained and so helpful! I looked so many places for something like this and am glad I finally found it!
That comment at 2:06 "We are engineers after all" so much swag but so true after all :D
anyway, thanks for a good explanation. It's quite helpful as the teacher just gave us these plots rather than telling us we need to assume the norm has to give a unit value.
The best explanation so far ... the best!. 5 Star *****
ohh !!
thank you so much for such a clear and easy explanation.
Nice presentation❤❤❤
Well put together. Thanks!
finally, I understood the norms. thanks for the video
Thank you so much for this video!
Thanks, Thanks and Thanks alot .....
You are the best .... :)
Why do we change the sub index of the norm ¦¦x¦¦ with 1,2,3...n?
That's the notation used to consider more than one norm. The numbers below can be used on Minkowski Distance equation to summarize them into one only equation.
The norm comparison at the end, only valid for vector norm and not for matrix norm
why is that?
@@SwavimanKumar sorry bro, i got a really good cache memory
@@akash9907 I don't get you. Can you please help me understand why the norm comparison here is not valid for matrix norm
is this video part of a playlist?
However its difficult understanding the implementation of Norm in metric space, For example how is the Norm infinity = Sup {Xn} where Xn represents bounded sequences...
Amazing!
amazing
Perfect
nice thanks
well explained!
How can i call u ...give me any thing to call u plz