hey

Hello

How are you Nicolas?

Thanks for your time

Im good ;) yea no pb

So from the start\

I know my camera calibration is great

ok so this is a good start

as I mentioned when using empty rotation / translation

I can directly compare the results with the ones from Opennis camera to world coordinates

and they are or less the same

now with as far the projector goes,

to make a little test , I decided to do a solvePnP with the points I was feeding

and use those rvecs and tvec to transform 3d points to projector 2d points

which also works better than I expected, for the taught depth, all projector surface is corresponding quite nicely

But for the love of me the stereo calibration fails quite much

first of all, it actually changes the camera matrix and coeffs of both the projector and cameras, which I can so not explain,

so wait about this solvePnP

I use projector coordinates, and 3d world coordinates which I get from the camera

let me understand clearly what you are doing exactly

after calibrating the projector insintrics

I use the projector coordinates of the 4 edge circles,

how do you know which projector coordinate correspond to the 3D world coordinates you get from the camera, is it because the projector is projecting a chessboard ?

I calculate from the camera the 3d coordinates of those 4 points

its projecting a circle pattern

so wait, starting again

you do the camera calibration and you checked that it worked well

yeah

then I project a circle pattern

then you calibrated the projector intrinsics, but using a single view

using the circle pattern ok

I read with circle pattern on the camera, and get their 3d coordinates

for 0 depth, with it being at the same depth as the physical chessboard

ok how do you detect the circles ? you have a custom function for that ?

opencv detect circle grid

ok

right ?

and you project the circles at the same depth than you projected the chessboard

so with single view, after calibrating the projector

which with your conventions you call depth 0

exactly

ok

I have assumed that the chess corner is the 0,0,0 for all sensors

so wait, here it is not clear

it is not "for all sensors"

I can have more than one sensors, but only a single I want to calibrate with the projector.

you defined a coordinate frame whose origin is on the top left corner and whose Z axis is perpendicular to the wall

yes

that z distance of course from the camera is known

let's call this one the "wall" coordinate frame, but you also have two other coordinates frames, one centered on the projector, one centered on the camera

but not used at the moment

yes

good

now, if I use the wall coordinate system,

with 0 depth,

everything seems to be quite great,

and even when doing the stereo calibration

the tvec I get seems really logical

the tvec camera projector that is\

that you get from solvePjnP ?

that I get from the Stereo calibration

ok

the SolvePnP is just additional rvecs and tvec , lets call them camera to wall

ok wait i don't get this

projector to wall I meant ***

you were talking about the projector intrinsic calibration no ?

yes

so why now you mention stereo calibration ?

after I get the projector insintrics, I procced in doing stereo calibration between camera and projector or ?

ok, so this is the next step

but just to finish with the projector intrinsics calibration

you project a single circle grid, detect it with the camera, reproject it in 3D and then you run calibrateCamera with one pair of corresponding 2D/3D points to get the cameraMatrix and distCoeffs for the projector

right ?

any idea if this is accurate ?

on the wall depth it is yeah

I mean if those cameraMatrix and distCoefs are accurate ?

if they were not, I would assume that I wouldln't be able to use the 3dcoordinates afterwards

that I get from the camera and project with the projector on this exact position

by using project points that is

and the rvec & tvec for the camera you get it from a solvePnP before right ?

yes

ok

I tried also for the camera, to use the camera as point of reference

translate 0,0,0 rvecs 1,0, 0 etc etc

but then I had to provide depth for calculating the 3d points, which kind fucked the resukts

so let me understand this

maybe its better if I write down the steps in sequence:

yes

1) I use a chess board and detect it over 100 frames, while moving the camera ( or chessboard) around

2) I use solvepnp and get a rvecs and tvec that corresponds to the top left corner of the chess board.

3) I project a circle pattern from the projector and detected it on the camera.

4) I collect set of points. The 2d points are the ones collected by the projector. The 3d points are those I get from the camera, in relation to the top left corner of the chessboard. Eg if the first circle was directly on the top left corner, the first circle would be at 0,0,0 the the right on on 10,0,0 etc

the 10 Is the actually real world distance in mms

as good as the camera can read that ofcourse

After a few set of points I use those points to get the projector intrinsics

wait

for 4) ho do you collect the 2D points for the projector, using detectCircleGrid ?

Yes, with detect grid, I get the position of the circlers in the camera

in the camera ok, but in the projector ?

For the projector I still detect those points in the camera, and then convert them to the real world coordinates

So the 3d points of the projected circlers are actually the real world coordinates if we measure them from the top left corner

from the point of origin lets call it

but those 3D points you measure them manually with a ruler or you get them by backprojecting the 3D points that you detect in the camera ?

I back project the 3d points

and also confirmed it by using a ruler

ok, so to get the 3D points in your step 4), you first detect the circles in the camera, then undistort them using the cameraMatrix and distCoefs of the camera, then apply the inverse rvec and tvec computed in step 2)

exaclty

also before applying the inverse rvec & tvec you need to use the depth you get from the depth camera, but ok

and now for the 2D points for your step 4), how do you get them ,

?

the 2d are the position of the circlers on the projector window

yes

you get them manually ?

I manually generate the circle pattern

so I have access to their coordinates

Ah ok I see now

and last question

where is the chessboard when you do this, is it still hanged on the wall ?

Yes, but at this point I don't really use it

ok

now next step

so I have the 2d and 3d points

the 3d points always to relation of the top left corner

always with depth 0 since the cameras rvecs and tvec and also taught on that depth

ok

and I have confirmed with a ruler that the 3d points are correcrt

yes the camera should remain fixed with respect to the wall

ok

yes it is

now I do first a solvePnP with the points I have

and I get the rvecs and tvec of the projector, in relation to my point of origin

wait

this is strictly in relation to the point of origin, not the camera or anything else

so in step 4) you actually generated multiple circle grids, you accumulated the 2D/3D points correspondences and you ran calibrateCamera to get the cameraMatrix and fistCoefs for the projector right ?

yes

but you never moved the projector

not really, not

ok, might be a problem, but let's see the following

if I were to move the projector

or use a piece of paper to change the depth

I would have to provide different depth on the 3d points?

and it won't be possible to teach it with a zero depth all of them right:

if you used a piece of paper, yes, but if you move the projector and still project on the same wall, no need

actually even with the piece of paper

but even if I didn't project on another depth, just moved the projector, I could still get an accurate calibration of the projector intrintrics right?

since you get the depth from your depth camera

yes

Ok cool

just to finish with the idea of the piece of paper, it is the same

So after the solve pvp, I save those rvecs and tvec, as projector to poi matrices

afterwards, I go on and perform the stereo calibration

I am using the same set I used before, 2d of the projector, 3d points and the circles points as detected on camera image

you detect the circle grid in the camera, get the depth (which would be closer to what you usually get from the wall), undistort apply the inverse rvec & tvec of the camera, then you will get a 3D point which does not have depth zero but it should still work

anyway

and of course all the intrentrics

and I get the rvecs and tvec for the projector and camera

I mean between them

ok

the values I get are actually appropriate, and the translation vector seems to be correct

one question here, for the stereo calibration I need a size of the image

do I use the camera size or the projector size?

until now I am using the camera size

I am not quite sure about this

in the opencv docs they say it is the size of the image used to initialize the intrinsics

so you probably don't care too much

ok cool

so afterwards, theoretically I should have everything I ever wanted

also because you did the intrinsics calibration before, you could call the calibrateStereo with the CALIB_FIX_INTRINSIC flag

yes you should

off

ohhh

I thought the calib fix intrinsics refers to the new intrinsics

not the provided ones

the thing I am quite sure about is that to get a good stereo calibration you need to vary the depth at which the circles are projected

actually you should use two flags:

CALIB_FIX_INTRINSIC and CALIB_USE_INTRINSIC_GUESS

have a look here: docs.opencv.org/3.4.0/d9/d0c/…

a cool

anyways, I definitely think your problems come from the lack of depth variation for the stereo calibration

but the thing is,

hmmm

but yes in you case it is tricky

so you suggest I should be using depth values for the projector calibration?

and not only on the wall depth

I suggest you find a way to project not always on the same wall

but on a sheet or big paper plane that you move around

ok

or another way: you mount the projector and the camera on a rolling thing

and you move both at the same time

if I do that, the 3d coordinates I provide, will need to have a depth right?

yes

but you could do that as a separate step

like do all as before for the intrinsics of the camera and of the projector

and then use new points for the stereo calibration

but use the projector intrinsics from the wall only calibration

I seee

yes

actually the problem I had, was that when providing depth values on the 3d points

the projector calibration gave huge error

then one thing is that your rvec and tvec might not be valid anymore if you move your projector+camera thing

and shitiv values

so its probably better to use a sheet or piece of paper to change the depth

I have separate buttons to teach the rvecs and tvecs only

so I don't need to do a complete calibration to change them

now to finish , for a give point on the wall, I can get its 3d coordinates from the camera

and by using the rvecs and tvec of the projector relative to the point of origin

I can backproject those points

again only on the depth of the wall

but with great precision

yes

the problem offourse I have currently, without the stereo calibration , is what to do on different depth

what I thought, is shouldn't it be possible lets stay if the wall is at distance of 500 cm

for a point at 300 to calculate where it would hit the wall at the wall depth and so to generate the projection this way

basically ray tracing the hit point

since I have all the matrices and distcoeffs and even the translations and rvecs between camera and projector?

well not really

because of parallax

ohh

the projection of the point on the wall will not project at the same place than the point a bit before the wall

Yes , but if you find the projector point 0,0,0

you could recast it with the second point right?

you could probably compute the effect of the parallax and simulate it to estimate a correction to be applied to the projection of the wall point

rey cast it meant

didn't get that last comment

so my question is, how to find the 0,0,0 of the projector relative to the camera?

for a point in space lets say 10,10,500

if I knew the one more point ( which is the projector itself relative to the camera)

?

so you mean the origin of the coordinate frame of the projector

yes

well if you know the rvec and tvec it is pretty easy

you get the rotation matrix which correspond to rvec via the opencv function rodrigues()

that's the rvecs and tvec of the projector relative to the camera I get from the stereo calibration right :?

yes

you need to be careful which direction they map, i.e. if (rvec, tvec) map from the projector to the camera or the opposite

its from camera to projector I do currently

but yeah true

so if I had those rvecs and tvec,

how could I actually calculate the 0,0,0 of the projector in camera coordinates?

if (rvec, tvec) map from camera to projector, then tvec is actually the position of the camera in the coordinate frame of the projector, and -R^T.tvec is the position of the projector in the camera coordinate frame

where R = rodrigues(rvec)

and R^T is the transpose of R

OK, it is getting late I really have to go

Ok

thanks a lot!

sure

let me know if you work this out

you really helped me alot

ofcourse

have a nice evening!

you too bye