I just finished watching whole of me564 and me565 series over the past 2-3 months. Absolutely loved the way it was taught even though I knew some of the topics from my grad course, it still felt fresh because of the way it was explained and in the perspective it was presented, I ended up almost binge watching the series. Thank you so much professor Steve for putting this on youtube.
Hello Sir, This is Students from India, I recently started watching your explanations, they are mind blowing they literally lit up my mind and give greater understanding of implementation into real world. Great pleasure to learn from you!
Wonderful lecture with informative example. That's how a smart teacher can present the theoretical concepts. Thanks a lot for the accessible MATLAB code
Finally, Finished all 59 lectures. It took me a while, I'm started understanding mathematical equations. You're best in class, I definitely recommend people to take this course. Please do a course on Numerical methods and CFD as well... :) thank you so much for all the good content.
Very Nice Lecture. I struggled a bit with the inner product. Here is some small explanation in case someone else had the same problem. Steve says in a point after we have done the SVD and found the eigenfacespace (3 columns), we project every image into this eigeface space by doing inner product. How did that come??? In my calculations & after some simplification I come out with the following system we have to solve to find the 3 numbers for the plot & Considering A' * A = I. Thereafter: A * x(hat) = Projb = A * (A' * A)^-1 * A' * b A * x(hat) = A * A' * b. x(hat) = A' * b Where A is m * 3, x(hat) is 3 * 1, A' is A transpose 3 * m b is m * 1. The image
Hi, professor. I think you accidentally reassigned the value of count equal to 0 when you plot Stallone, so count is equal to 20 instead of 40, which is the number of pictures.
Sir Im going to become self taught computer sciencetis , Before Im going to university ... Please tell me that with this lecture seiris can I cover all mathematical parts need for computer science
I just finished watching whole of me564 and me565 series over the past 2-3 months. Absolutely loved the way it was taught even though I knew some of the topics from my grad course, it still felt fresh because of the way it was explained and in the perspective it was presented, I ended up almost binge watching the series. Thank you so much professor Steve for putting this on youtube.
That is awesome to hear!! So glad you liked the videos and they were helpful -- and congratulations on finishing!! :)
Finally finished, I enjoyed the lecture series very much, especially when you sprinkled in math history here and there
Thank you professor. Truly I enjoyed the lectures and leaned a lot more than I could image.
Excellent!
Hello Sir,
This is Students from India, I recently started watching your explanations, they are mind blowing they literally lit up my mind and give greater understanding of implementation into real world.
Great pleasure to learn from you!
Thank you for watching!
You are a great lecturer, amazing clarity!
Wonderful lecture with informative example. That's how a smart teacher can present the theoretical concepts. Thanks a lot for the accessible MATLAB code
Finally, Finished all 59 lectures. It took me a while, I'm started understanding mathematical equations. You're best in class, I definitely recommend people to take this course. Please do a course on Numerical methods and CFD as well... :) thank you so much for all the good content.
i just finished im so happy and i feel so good even though it's not my major but i love it so much
Very Nice Lecture.
I struggled a bit with the inner product. Here is some small explanation in case someone else had the same problem.
Steve says in a point after we have done the SVD and found the eigenfacespace (3 columns),
we project every image into this eigeface space by doing inner product. How did that come???
In my calculations & after some simplification I come out with the following system we have to solve
to find the 3 numbers for the plot & Considering A' * A = I. Thereafter:
A * x(hat) = Projb = A * (A' * A)^-1 * A' * b
A * x(hat) = A * A' * b.
x(hat) = A' * b
Where
A is m * 3,
x(hat) is 3 * 1,
A' is A transpose 3 * m
b is m * 1. The image
Awesome lecture. Thank you.
Hi, professor. I think you accidentally reassigned the value of count equal to 0 when you plot Stallone, so count is equal to 20 instead of 40, which is the number of pictures.
it's been a wonderful journey
that was great I learned a lot . Thank you
Done, thank you!
really nice lecture
ill be here soon, just came over to check the comments
Sir Im going to become self taught computer sciencetis , Before Im going to university ... Please tell me that with this lecture seiris can I cover all mathematical parts need for computer science