i have a stereo image pair with me..which is not directly taken from camera..then how could i get answer for my qn.?
getting x and y for 3d
2 visualizaciones (últimos 30 días)
Mostrar comentarios más antiguos
1.how can i obtain real world X and Y from x and y obtained from an image? 2.is scaling factor in x dirn*x=X and scaling factor in y dirn*y=Y ? if then how could i find the scaling factors?
Respuesta aceptada
Naz
el 16 de Oct. de 2011
A=yourPicture;
[H L]=size(A);
dx=theRealLengthOfTheView/H; %this you must know, otherwise you can not scale the image.
dy=theRealWidthOfTheView/L;
figure(1);imagesc(A);
h=impoint;
[y x] = getPosition(h);
X=dx*x;
Y=dy*y;
Where your X and Y will be the real world distances from the origin (0,0) at the top left corner of the picture.
3 comentarios
Walter Roberson
el 17 de Oct. de 2011
Neenu, this only works for 2D planes. Also, you will seldom directly have the "real length of the view" or the "real width of the view": you are more likely to have only the distance to the view and the camera aperture (which allows you to calculate the angle spanned by the image.)
HHWin
el 12 de Mzo. de 2012
Hi Naz,
I have tried the code but it doesn't work.
I also have problem with converting Pixel to mm for X-Axis only.
Más respuestas (3)
Image Analyst
el 15 de Oct. de 2011
You need to put a known object (of known length) in the image, such as a yard stick or meter stick or something else that you know the actual real world dimension of.
2 comentarios
Walter Roberson
el 15 de Oct. de 2011
Based upon earlier questions, I believe the question has to do with stereo image pairs and objects at different depths.
You still need a known object, but the perspective corrections complicate matters.
Image Analyst, did you reply to someone with a link to stereo work sometime around Wednesday?
Image Analyst
el 16 de Oct. de 2011
Could be. I think I remember this person asking 2 or 3 questions on essentially the same topic last week. If they want 3D modeling based on stereoscopic views, then that is a fairly common question and I gave an interesting link 11 days ago in the newsgroup: http://groups.google.com/group/comp.soft-sys.matlab/browse_frm/thread/3f817cb022050ab2/9b4f0176bc79e543?hl=en&lnk=gst&q=autocad#9b4f0176bc79e543 I'll just repeat it here:
Here's a way to make your own 3D models with your own digital camera.
Snap photos of a product, a room, a person, etc. with your own camera
and turn into a 3D model that people can manipulate on their computer
or mobile phone.
Autodesk Labs Utilities Project Photofly 2.0
http://labs.autodesk.com/utilities/photo_scene_editor/
Allows anyone with a digital camera to create near accurate 3D models
from photographs using the web. Utilizes common point and shoot
digital cameras. Harnesses the power of cloud computing to translate
photos into detailed 3D models. 3D models can be manipulated by design
software (e.g., AutoCAD, Inventor, 123D).
If you want a more professional system, see
http://www.3dmd.com/
http://www.canfieldsci.com/imaging_systems/…
Walter Roberson
el 16 de Oct. de 2011
Neenu, if you already have the stereo image pair and cannot go back and retake the images with an object of known size in the images, then you cannot reliably determine the "real world" scaling factors of the images.
When you are watching Star Wars, and the enormous Imperial Battle Cruiser flies across the screen, how big is that Battle Cruiser in the "real world" ? The real answer is "about half of a metre": they used a detailed model and filmed from very close up to give the impression of a very very big object. You could watch the IMAX 3D version of Star Wars and it would still be the case that the Battle Cruiser was really only about 0.5m long: false perspectives in 3D are still false perspectives.
2 comentarios
Image Analyst
el 21 de Oct. de 2011
You could also look at Chapter 11 in Richard Szeliski's book http://szeliski.org/Book/drafts/SzeliskiBook_20100903_draft.pdf
6 comentarios
Image Analyst
el 20 de Dic. de 2011
"the focal length for fixed-lens webcams should be considered infinite for any object beyond 1 1/2 meters or so." - I think you mean "depth of field" rather than focal length. The longer the focal length the more zoomed in you are (smaller field of view), so an infinite focal length would have you looking at a scene the size of an atom! If it had a fixed focal length and focus then anything from 1.5 m to infinity would be roughly "in focus."
Walter Roberson
el 20 de Dic. de 2011
Thanks, that is probably what I meant. Though the logitech support person did use focal length the same way I did, so at least I'm not alone in my errors ;-)
Ver también
Categorías
Más información sobre Camera Calibration en Help Center y File Exchange.
Community Treasure Hunt
Find the treasures in MATLAB Central and discover how the community can help you!
Start Hunting!