Amazing explanation! I needed to see what happened in image space when one point in k space is altered before I could understand k-space, and you made that happen. Thank you.
It may seem dreadful when you've never come across it before, but these concepts are used for much more than MRI. They're fundamental to a lot of audio and image processing inside computers. Even the humble and everyday JPEG format stores images in a form somewhat similar to k-space.
This is not a million miles away from how JPEG image compression works. Images are stored as Fourier frequency amplitudes, and pictures are compressed by discarding high frequency image data.
Amazing explanation! I needed to see what happened in image space when one point in k space is altered before I could understand k-space, and you made that happen. Thank you.
An amazing video, really insightful.
Best k-space explanation I've seen!!! Thank you so much!
what a great scientific explanation. bravo hats-off
thank you so much. I real had trouble understanding this concept prior to your video
phenomenal explanation, very grateful
Excellent presentation. Thanks.
Thank you. Really. Now it's clear.
That's great! Thank you.
Very helpful! Thanks!
extremely helpful, thanks a lot
So clear!
Great tutorial!
super helpful, thank you!
Thank you, perfect explaination
U saved my grade!!!!!
dankeee👍👍
Best explanation of this dreadful k-space, simple and forward, thanks
It may seem dreadful when you've never come across it before, but these concepts are used for much more than MRI. They're fundamental to a lot of audio and image processing inside computers. Even the humble and everyday JPEG format stores images in a form somewhat similar to k-space.
to the point!
How did you record this with the background? It looks really nice.
This is not a million miles away from how JPEG image compression works. Images are stored as Fourier frequency amplitudes, and pictures are compressed by discarding high frequency image data.