��E�*C�cV;
close all;clear all;clc �n-�a�fDV
N=512;x=1:N; �<z0WLw0'z
y=1:N;[x,y]=meshgrid(x,y);R=240;r=90; V|F�r�N*�m
z=zeros(N); bToq$�%sCg
for i=1:N �/�q1s��;I
for j=1:N f��_\_9o"l
if(sqrt((i-N/2)^2+(j-N/2)^2)<sqrt(R*R-r*r)) |>�1�hu��1
z(i,j)=.25*((sqrt(R*R-(i-N/2).*(i-N/2)-(j-N/2).*(j-N/2))-r)); %%%%修改第一个乘号前面的数字 ~`cwG`
�'N
end .<�&s�%{EW
end -x��]`DQUg
end �mT�f����<
z=0.02*z; P�CE�4W^ns
figure,mesh(z);xlabel('x'),ylabel('y'),zlabel('z') %%%物体的显示,三维 J;Q�UPpH�Z
f0=0.01;%%%----------------光栅条纹的频率即周期的倒数1/T--------------------------%% P�e� ~c��
a=2*pi*x*f0; l-O$����m�
cowx=(-1).*(-1).^floor(a/pi).*(2*a/pi-(2*floor(a/pi)+1)); �V�xdp���|
sowx=(-1).^round(a/pi).*(2*a/pi-2*round(a/pi)); �}iww�:H-1
noise=0; bB�6[Xj{��
i01=0.5+0.5*cowx+noise.*rand(size(z));%%%-----------投影的正弦条纹图,以下分别为相移后的条纹图,4步相移,共4帧 �Qn+:/�zA;
i02=0.5-0.5*sowx+noise.*rand(size(z)); EX
"|H.�(
i03=0.5-0.5*cowx+noise.*rand(size(z)); �M$S]�}�
�
i04=0.5+0.5*sowx+noise.*rand(size(z)); <��b�Ue/�m
figure,imshow(i01);%%%光栅条纹的图像 S�~�y�R5cb
% axis off;imwrite(i01,'C:\Documents and Settings\Administrator\My Documents\My Pictures\1.bmp','bmp'); ejePD�gi_[
figure,imshow(i02);%%%光栅条纹的图像
���}31Z�X
% axis off;imwrite(i02,'C:\Documents and Settings\Administrator\My Documents\My Pictures\2.bmp','bmp'); r4{<��Z3*N
figure,imshow(i03);%%%光栅条纹的图像 Hf��c"�L�>
% axis off;imwrite(i03,'C:\Documents and Settings\Administrator\My Documents\My Pictures\3.bmp','bmp'); @,OT/egF4:
figure,imshow(i04);%%%光栅条纹的图像 HuI`#.MpWE
% axis off;imwrite(i04,'C:\Documents and Settings\Administrator\My Documents\My Pictures\4.bmp','bmp'); )D@�~|�j:�
% q2=-atan2((i01*sin(0*pi/4)+i02*sin(2*pi/4)+i03*sin(4*pi/4)+i04*sin(6*pi/4)),(i01*cos(0*pi/4)+i02*cos(2*pi/4)+i03*cos(4*pi/4)+i04*cos(6*pi/4))); W�eJ@�x��L
q2=atan2((i04-i02),(i01-i03)); �^k/i-%�k0
figure,mesh(q2);xlabel('x'),ylabel('y'),zlabel('z')%-----------q2为通过公式计算出的相位,被截断在幅角主值范围内 �$yb@
Hhx>
%%%-------------------------------------%% �d8x%SQ!V�
temp=ones(size(q2)); �|m*��.LTO
q21=LingXingUnwrap2(q2,temp,100,100);%%%--------------------进行相位展开,成为展开的相位,应该为一斜面--------------- <"����tDAx
figure,mesh(q21); p�2O~>97t1
% q21=my_unwrap(q2); �+��c$I&JO
b=2*pi*f0*x+2*pi*z; o�cQ�WQ� �
cowx=(-1).*(-1).^floor(b/pi).*(2*b/pi-(2*floor(b/pi)+1)); �1�~yZ T��
sowx=(-1).^round(b/pi).*(2*b/pi-2*round(b/pi)); B6M+mx��"G
i1=0.5+0.5*cowx+noise.*rand(size(z));%%%%-------------投影到物体上的变形光栅像----------------------- q{' �~+Nq�
figure,imshow(i1)%%%携带物体信息的变形光栅条纹的图像 "v]%3i.*
-
% axis off;imwrite(i1,'C:\Documents and Settings\Administrator\My Documents\My Pictures\5.bmp','bmp'); �R.R�SQk7;
i2=0.5-0.5*sowx+noise.*rand(size(z));
��dt�,3"J
figure,imshow(i2)%%%携带物体信息的变形光栅条纹的图像 6NLW(?�]
% axis off;imwrite(i2,'C:\Documents and Settings\Administrator\My Documents\My Pictures\6.bmp','bmp'); {=Q7��m�`1
i3=0.5-0.5*cowx+noise.*rand(size(z)); :E_�a�0�!'
figure,imshow(i3)%%%携带物体信息的变形光栅条纹的图像 LR&_2e��^[
% axis off;imwrite(i3,'C:\Documents and Settings\Administrator\My Documents\My Pictures\7.bmp','bmp'); �D4Nu8�Wr$
i4=0.5+0.5*sowx+noise.*rand(size(z)); {^ec�(EsO#
figure,imshow(i4)%%%携带物体信息的变形光栅条纹的图像 -,#��+`�>w
% axis off;imwrite(i4,'C:\Documents and Settings\Administrator\My Documents\My Pictures\8.bmp','bmp'); QwW�W�!��8
%q1=-atan2((i1*sin(0*pi/4)+i2*sin(2*pi/4)+i3*sin(pi)+i4*sin(6*pi/4)),(i1*cos(0*pi/4)+i2*cos(2*pi/4)+i3*cos(pi)+i4*cos(6*pi/4))); �~���(X�(&
q1=atan2((i4-i2),(i1-i3)); mOBA��CTY^
figure,mesh(q1);xlabel('x'),ylabel('y'),zlabel('z') %-----------q1为通过公式计算出的携带物体信息的相位,被截断在幅角主值范围内 m�,�MSMw1p
xBM>�u,0.F
q11=LingXingUnwrap2(q1,temp,100,100);%%%------携带物体信息的连续相位分布,此图像应为斜面上有高度起伏的现象的一幅图------------------%% zF&�=U`v
% q11=my_unwrap(q1); �OI/@3�"L{
figure,mesh(q11); <nHkg<O6�Y
%%%------------------------------------%% -�1%O�lK�C
% qq=q11-q21; b=qq./(2*pi); +pmu2}E.3�
% wu=qq./(2*pi)-z; ��[0@�`�wZ
b=(q11-q21)./(2*pi); �grom\����
wu=(q11-q21)./(2*pi)-z; U�RTzX
2'[
%err2=max(max(wu)) >�,5i60��Q
figure,mesh(q21);xlabel('x'),ylabel('y'),zlabel('z')%%%--------------------参考面展开的相位,应该为一斜面--------------- �.qD@
Y3�-
figure,mesh(q11);xlabel('x'),ylabel('y'),zlabel('z')%%%------携带物体信息的连续相位分布,此图像应为斜面上有高度起伏的现象的一幅图---%% \�Owp��D,'
figure,mesh(b);xlabel('x'),ylabel('y'),zlabel('z')%%%恢复的物体 �N/F��$bv�
figure,mesh(wu);xlabel('x'),ylabel('y'),zlabel('z')%%%测量误差
