CHATLAB and Talktave

there is one indeed

11:51 AM

@flawr FEM halp plz plz

1:36 PM

@AnderBiguri good morn-fternoon

Q: How to compute the gradient of the function on a triangular mesh

1

Given an arbitrary (lets say 2D) triangular mesh, with known $(x_i,y_i)$ locations of points, and numerical values of a function $f$ on them (either in the nodes, or in the centroids of the triangles, doesn't matter) like this random example, how can I obtain a numerical approximation of the dire...

I posted it somewhere

When I realized the problem was harder than I thought

@flawr how you doing btw

hahaha, I just remembered that I edited my math.SE profile

> Despite all appearances I am not a sock puppet of user Ander Biguri; we just know each other from the MATLAB and Octave chatroom on Stack Overflow.

@AndrasDeak <3 I do remember XD

@AnderBiguri Piotrs answer makes most sense, provided you have the neighbours of each node

Yes, definitely I like that answer

still will leave the question open and read a bit more about the problem to be sure

1:50 PM

make sure that whatever you use is consistent with simple cases: planes and local maxima

What do you mean?

@Andy Nö, nur deutsche :D

@AnderBiguri evaluate e.g. a constant or a parabolic function, compute your gradient, quiver() it and make sure what you see makes sense.

I see

I'll write another answer based on the gradients on each triangle

Yeah! :D

I am still exploring my problem, but I think I need gradients in the nodes. However, my calculations will always result in me computing the values of the triangles. So I am interested!

1:55 PM

Yeah, I meant defining an exact plane on your mesh and checking that what gradient you get is ~the same as what you put into it. And looking at the max of a paraboloid. A constant plane wouldn't be too informative I'm afraid

@AndrasDeak Fortunately I am generating the meshes from images, so I should be able to test simple and complex cases

if you have whatever mesh the plane is as simple z=fun(x,y), z = a*x+b*y; end

the paraboloid is only marginally more complicated because you need to put its center around your node of interest, but basically z = a*(x-x0).^2 + b*(y-y0).^2;

Yup! So should I create a plane/paraboloid going trough an specific node? or just one for the entire mesh

@flawr wait, you're not Swiss, just among Swiss? Or do the Swiss in German cantons don't regard themselves as Swiss? :P

@AnderBiguri if you want numerical gradients, you'll probably need function values at neighbouring nodes ;)

I'd generate the full functions and just look at the grad at the node(s) of interest

@AndrasDeak yeah yeah XD But you mention outting the center of the paraboloid in the node

2:00 PM

yes, because that's the point where we know that the grad should be 0

this is just because its interesting to have a node in the local maxima, right?

@AndrasDeak I am swiss, just pretending to be german :)

any other point for the paraboloid will have nonzero gradient

yes, I get it

Thanks my differentiation friends

good luck :)

2:02 PM

∂Knoledge/∂friendship > 0

@flawr wait, I am missing something in that answer of yours.

what about different sized triangles. or triangles whose center is very far from the node?

oh, you edited

@AnderBiguri you have to judge yourself what you value more. when you have a more uniform mesh (all triangles have ~ the same size) both should work well

But I wont.

then the method weighing the angles would probably fare better

I know it's not in the question, but I will definitely not have a uniform mesh

@flawr makes sense!

another method would be (least squares)- fitting a plane through all neighbouring points.

2:12 PM

OK, so side question, that may be, or not, complicated (let me know if I should add to the question or open anew one if its too complicated): What if I only know values at the centroid of the triangle?

@flawr yup, that would work well for the plane and extremum tests

it will be a pain to compute though

then again least squares for a plane is pretty easy by hand

@AndrasDeak magic wand \?

but for every single node separately...

yep, I don't think you can get around that.

@AnderBiguri you can apply the same approches that were mentioned in those answers

yes I am an idiot

just my (x_i,y_i) is a different location

2:17 PM

But you should maybe consider what is needed for these: Some use knowledge of the incident edges, some require knowledge of the incident elements.

you have the dual of the mesh, right?

@AndrasDeak i.e. connection on elements among them, right? yes I do

@flawr what are you referring to? these? the methods?

@AnderBiguri yep

For flawr's method, I could compute the gradient of the element on the dual mesh, and then use the element->point angle weighed equation, for example

While for piotr's method, I could directly use the vectors from the node to the centroid of the elements, as long as I know which elements connect to each node

lots of things to test :D

2:40 PM

@AnderBiguri the dual mesh will not consist of triangles, right?

huh.... Not the voronoi mesh, nope

ps: why is it that you do not try to use meshes that are as "uniform" os possible?

@flawr because with the gradient, I will move the nodes location

@flawr but I do have the "connectivity" of the elements. Hum I have no idea of the mathematical implications of the dual mesh tbh

@AnderBiguri to optimize the mesh, or do you do that for something else?

Again, its not a FEM. My objective is finding edges that are in the continuous function f

for that, I will move the nodes, to match the edges

my function is an X-ray image though

2:50 PM

so you want to align the edges of the mesh with the edges within the image?

yes, the unknown image

It is complicated, but I honestly do not have the XY problem :P

I promise

I essentially need to do image processing stuff in triangular meshes

@AnderBiguri that in itself sounds horrible enough^^

I gain memory, but lose on "easiness". E.g. Gradient is easy in an image

@flawr ah, research

It is actually challenging and fun

we will see if it works

@AnderBiguri blink with your left eye if you're forced by your boss to say this!

hahaha

it is genuinely nice. I like coding this kind of stuff. Almost anythign else that I would be doing, I'd need some 3rd party software, and that is boring. As no one has worked on what I am, I need to figure out everything

its fun

and frustrating, but that is why I have my maths friends <3

2:57 PM

awww <3

56 mins ago, by Ander Biguri

∂Knoledge/∂friendship > 0

partial knowledge divided by partial friendship is greater than zero?

yes, the more friendship the more knowledge

positive

OK, im an idiot

I thought it was complex analysis because all my friends are imaginary.

badum tsss

3:03 PM

:D

question: I have some trimesh plots, and I need to print them out, is there an ink-saving colour map?

Andy

"snowflakes" colormap...

red-blue?

a I could make one myself

the plots are zero almost everywhere

so I should have white there

then the red-blue one will work

3:10 PM

@AnderBiguri flag?

uk.mathworks.com/matlabcentral/fileexchange/…

doesnt exist in matlab

@AnderBiguri oooh cool, thx!

@AnderBiguri Dutch flag!

@Adriaan we shoudl report it, and rename it

@Adriaan you obviously mean the french flag XD

Loren on the Art of MATLAB: Get Smart, Be Logical!

3:19 PM

@flawr No, that's rotated. The image clearly shows a vertical colourbar

Feeds

posted on January 30, 2018 by Loren Shure

Recently a customer asked me an interesting question about a good way to compute something. Before I sat down to tackle it, I happened to mention the problem to my pal, Sean. And he quickly answered, "max logical". It took me just a moment to realize what he was saying, and it is the answer to the problem. But when I heard it, I heard a person's name "Max Logical", and though I didn't kno…

3:59 PM

@Feeds "Have You Embraced Logical Indexing?"

Sounds like a cult

4:26 PM

@flawr easier to get to hot list from maths aparently

you may get some random upbvotes

@AnderBiguri I'm more concerned about the spelling of MATLAB directly beneath the arrow :P

Its a common one

gnovice

5:04 PM

@AnderBiguri Have you given thanks to your Lord and Savior accumarray?!

"Oh, he, that adds to all things"

gnovice

5:21 PM

"Oh, he, that brings us together, like with like"

ballBreaker

7:15 PM

@Dev-iL my job has been bumming me in the anoos for the past few months haha, I've barely even had time to be here!

Dev-iL

8:06 PM

Yeah, I figured you could top Sam's despair easily :|

8:48 PM

Hi people !

how do you test if your Jacobian matrix is right?

9:03 PM

@feddy use finite differences to approximate it and compare?

or jacobian

@fla

@fed

lol

@flawr thanks, I didn't know that command. I used to compute the fifference quotient, taking a small h: lim as h \rarr 0 of (F(u+hv)-F(u))/h, with u and v random vectors

@feddy right, that is what I'd do otherwise:)

Good :)
But it is suffering from numerical cancellation, right? How do you choose that h?

9:12 PM

@feddy I'd plot the errors you get for `h = 2^0, 2^-1, 2^-2, 2^-3,.... and check if you get the right order of convergence for the difference quotient you used

Ok, it's everything clear :) Thanks @flawr :)

@feddy np:)

oh and regarding the cancellation: you probably expect that around 10^-15 provided your function f is more or less stable. (because matlabs machine eps = 2.2204e-16)

Luis Mendo

9:52 PM

Just got StackOverflow/ServerFault keyboard. My life is so easy. I can solve all problems now. Via https://www.reddit.com/user/Soullesswaffle

Tweeted by nixcraft on September 28, 2017 at 2:23 PM

3

@feddy for analytical functions there's also complex step differentiation. Damn useful stuff

@flawr that's not matlab's eps, that's double precision :)

@AndrasDeak it is matlab's, not every langauge uses double

some use single

some half

some quarter

@ballBreaker ye bloody wanker, finally found time to gloat about you having a job? ;) Welcome back you slacker!

10:09 PM

@AndrasDeak why are they comparing a single sided difference quotient to a double sided one?

@AndrasDeak I'm gonna read it... so interesting :)

@AndrasDeak I don't quite get why this should be better than any other old direction:/

@flawr read what I linked. It avoids the loss of precision by not taking the difference of two small numbers

@flawr I don't remember the details but I think the forward difference would be even worse (less stable)

@AndrasDeak it is just using two complex number instead (you probably wanted to say to very close numbers)

could be, as I said the details are hazy, and I was astonished when I first read it. The point is that is just works

@flawr there are different representations, sure. But all the languages I'm familiar with use IEEE 754 doubles by default

10:21 PM

I have the impression that you could also have functions where the "real" way works better, not sure?

@AndrasDeak sure, I was just joking, wanted to post the link there :)

Fpc = @(x,h) imag(F(x+i*h))/h; <-- where's the difference of small numbers?

oh, yes, very close numbers. But anyway, the complex one doesn't take a difference at all

@AndrasDeak d'oh now I see, thank you!

I've seen too many difference quotients in my life, now I even see them where there aren't any.

From now on I deny the existence of non-analytic functions.

10:38 PM

it's actually not that practical, because usually you either have numeric data or you can compute everything on paper. But feddy's problem is a rare exception where you have an analytical function but wnat to compute its numerical derivative :)

as an alternative you could just continue using finite differences but use quadruple instead of double

good luck with that :P

did you read the IEEE754-RRP quarter precision floating point specs I posted above? :)