Really glad this popped up on my feed, thanks for a great educational video, looking forward to more. I love to sail, great primer for making me think, wondering how this could be applied to grid mapping of current flow dynamics, coupling perhaps with Navier-Stokes, very difficult to model such a complex dynamic system to try and calculate considering the amount of entropy related to hydrodynamics and turbulent flow, thermocline, vector related topologies with atmosphere etc. Breaking the system into grids seems like an approachable way to contain the calculations to a smaller subset of the over all system.
Sir your videos are quite helpful. I have watched most of them relevant to my stream. Could you please tell me if there are any good tutors on RUclips for undergraduate students of civil engineering? Hoping to hear from you!!
Really glad this popped up on my feed, thanks for a great educational video, looking forward to more. I love to sail, great primer for making me think, wondering how this could be applied to grid mapping of current flow dynamics, coupling perhaps with Navier-Stokes, very difficult to model such a complex dynamic system to try and calculate considering the amount of entropy related to hydrodynamics and turbulent flow, thermocline, vector related topologies with atmosphere etc. Breaking the system into grids seems like an approachable way to contain the calculations to a smaller subset of the over all system.
Very interesting algorithm! But what if there a large area with the same value, than where to move?
Is it possible to extend the marching grid algorithm to n-dimensional spaces? For example, to extend to 10 variables instead of 2D only.
Sir your videos are quite helpful. I have watched most of them relevant to my stream. Could you please tell me if there are any good tutors on RUclips for undergraduate students of civil engineering? Hoping to hear from you!!
I'm afraid I don't know of any. Hopefully another viewer can give you a better answer.
purdueMET oh anyway thank you for taking the time to reply. :)
I haven't read your book, but is this like DoE Taguchi's "Quality Engineering"?
DoE and optimization are certainly related, but my book is an introduction to the basic idea in optimization, so it's much more general.