Take the 2-minute tour ×
Stack Overflow is a question and answer site for professional and enthusiast programmers. It's 100% free, no registration required.

I have 3D point set lying on a vertical plane. This plane is not parallel to either X or Y axis but makes an angle (say, θ) to X axis. And also it has some (+ or −) intercept to the X axis.

Now, I want to update my X axis parallel to the azimuthal direction of my plane. And then I want to lie down the vertical plane to XY plane. So, I think I could use my original Z coordinates as the new Y coordinates. As the plane lie on XY plane, there should not be Z coordinates any more. So, I want to know how to get my new X coordinates from the original XYZ and θ.

Actually, I want to implement this modification in c++. But I am really poor in mathematics and struggling to figure out what should be the formula.

After doing this, I want to do some process with the new XY point coordinates. And at the end, I want to bring back all my coordinates to original system. That is finally I want to go back to my original XYZ axes. So I am also looking your assistant to get this case too.

Your assistant is highly appreciated.

Note: So what I did is; I found the azimuthal angle of the plane and then shift the point data with respect to smallest X and Y i.e. XY coordinates of the lower left corner of my point set. then, I got new X, Y as (X', Y'):

X' = X * cos (θ) + Y * sin(θ) 
Y' = Z

Not sure whether my way is correct or not.. I like to learn this.

share|improve this question
1  
cos and sine functions need to be used to solve the problem. Also, its easier and faster to align the plane to the initial coordinate system than to align the coordinate system to the plane. Computer graphics is the subject you need to get yourself familiar with. Transformation matrix may help too.. –  Akshay Feb 26 '13 at 11:28
1  
Try doing it in two dimensions first. If you can't work it out, show what you've tried. –  Peter Wood Feb 26 '13 at 11:30
    
@Peter Wood: I updated the post with what I did –  gnp Feb 26 '13 at 11:58
1  
After the first transformation, do you want the point (0,0,0) to be in the plane? –  Beta Feb 26 '13 at 13:56
1  
you can try algebraic transformation of the coordinate system for this –  Alexandr Feb 26 '13 at 15:30
show 4 more comments

1 Answer

up vote 3 down vote accepted

I can't make any sense out of what you said about "the lower left corner of my point set", but if I understand "the azimuthal angle of the plane" correctly, then the first transformation will be this:

X' =  X * cos(θ) + Y * sin(θ)
Y' = -X * sin(θ) + Y * cos(θ)
Z' =  Z

You should play around with this, make sure you understand it, make sure it's what you want, before you go any farther.

After this transformation, all points in the plane should have the same Y' value.

The second transformation ("lying down") will be this:

X" = X'
Y" = Y' + Z'
Z" = 0

You must remember what the Y' value was, in order to reverse this transformation later.

After you have done whatever you want to do in these coordinates, you can reverse the process to get back to your original coordinate system:

X' = X"
Y' = Y'
Z' = Y" - Y'

X = X' * cos(θ) - Y' * sin(θ)
Y = X' * sin(θ) + Y' * cos(θ)
Z = Z'
share|improve this answer
    
thank you. now it is clear. actually, I got - values for new xy coordinates so that i shifted the origin. But when I plot a points, then I realised that even though the point lie in first quadrant, after the rotation, those point might have neagative x,y values. thanks for your answer. I learnt a lot. thanks again –  gnp Feb 26 '13 at 21:02
add comment

Your Answer

 
discard

By posting your answer, you agree to the privacy policy and terms of service.

Not the answer you're looking for? Browse other questions tagged or ask your own question.