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人眼光学模型可用来设计眼科用设备,光学系统注定了要与人眼一起使用。本文演示了这样一个模型:Arizona眼睛模型,在Jim Schwiegerling教授的书中有详细描述:《Field Guide to Visual and Ophthalmic Optics》。AZ眼睛模型达到了基于平均临床数据所决定的轴上和轴外像差等级。FRED文件包含了此眼睛模型及几个用来分析它的光源,并包括一个基于想要的屈光度来调整模型的内嵌脚本。
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模型的定义如表1种所示,由半径、圆锥常数、折射率、阿贝数、到下一面的距离等一系列表面组成。一些参数由屈光度(A)来决定。 �H)(����jh
Table 1. AZ眼睛模型的定义 p(� LZ)7/�
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在FRED中使用0屈光度来创建的,光瞳加在了透镜的前面。材料是创建一个新的材料并选择类型“Model Material”,输入的参数是nd和vd. L�^`}J�7r�
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光源 ]uh3R�{�a/
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多个光源定义来分析该模型的不同特性。图1显示了所以的光源和提示信息告诉您他们可以用来做什么。 [k%4eO2p�"
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图1. 光源和提示信息使用 dA~
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除了“Letter F”之外的所有光源的光线位置设定在了孔径光阑位置处,并增加了pre-propagation distance= -8。尽管光线在光瞳处创建,规定的传输方向相对于光线位置在pre-propagation distance之后。这意味着光束沿着Z轴在眼睛的前面以平行光入射,而不是在光瞳处入射。 YwDt.6(+,
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在往下看是内置的脚本用来修改屈光度,使其为4(250mm),光源“Letter F”在视网膜处生成一个字母为F的图像。绿色的光线聚焦的非常好而红色和蓝色光线有一点的模糊。使用Positions Spot Diagram分析工具来观察最为合适。 !36]��ud&�
图2. 字母F光源的设定方法光 �Y3U9:V�B
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图3. 字母F在视网膜上位置点列图 PAF8W��l�g
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视网膜的散射 S�ZU
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在散射文件中,有一个名为“Retina surface”的72%的反射型朗伯散射,它为视网膜的散射提供了一个粗略的近似。为了模拟来自视网膜的散射,改变自定义元件“Eye ball” 下的视网膜的表面从“halt all” 到”Allow All”。并使几何中“plane”可追迹。 t+�Bf#�:��
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图4. 视网膜朗伯散射设定 Jh�/ E@}'�
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注意在视网膜的表面有散射重点采样规格定义,在“Scatter”标签的底部可获取该信息。“toward pupil”指定散射光朝向光瞳,半角度10度。 �I:j�3�s�y
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图5. 视网膜重点采样规格设定 ef"�?|�sn�
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脚本 Vm�1�-C<V9
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内置脚本使用对话框显示屈光度和光瞳直径的数值设置。使用FRED Basic脚本创建和使用对话框非常容易。图6显示了如何获取用户自定义对话框,如下图所示: Li{~=S@N*�
图6. 用户对话框的创建与编辑 ��2�@j";�+
图7. 用户对话框编辑器 @z`@f"l���
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如果“OK”按钮按下,将会核对对话框下面的代码行,如果点击取消则脚本终止。然后输入的参数赋予变量,如果此处是保留为空白,则使用默认值。因此,如果没有值输入并点击“OK”按钮,则脚本是以屈光度为0,光瞳直径为4mm来运行的。 v�a)%et0!�
余下的脚本计算与屈光度有关的所有参数。 �N@T.�T=r�
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分析 @* u�st>7�
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屈光度为4,光瞳直径为4mm,字母F点在视网膜上所成的像。 �RVw9�Y*]b
图7. 字母F在视网膜上颜色分析 ;�3�'�N�Mk
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脚本代码 � �v�b�{i
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Option Explicit 'Remove this to enable non-dimensioned variables to be used. �:Ixx<9�c.
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Dim entity As T_ENTITY ._Zt�=j��B
Dim op As T_OPERATION {t�P�%ep�Q
Dim mat As T_MODELMATERIAL _"a=8a�06G
Dim A As Double )u:�Q)
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Dim pupilDiam As Double �'�I�}:�!Z
Dim eID As Long �]3�{�0J��
Dim parID As Long <cN~jv-w$
Dim count As Integer v6(E3)J��7
Dim taq As Double, Rant As Double, CCant As Double, Rpost As Double, CCpost As Double +�~zXDB�S9
Dim tlens As Double, nlens As Double sN�=6�gCau
Dim curv As Double, conic As Double F"�+o�@�9]
Dim ok As Long L�:nX�W��z
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Sub Main z�,SYw� &S
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'用户输入对话框 �_o��3e]{
Begin Dialog UserDialog 320,126,"Input parameters" ' %GRID:10,7,1,1 W~n�.Xeu{C
TextBox 220,21,40,21,.TextBox1 'default: 0 �R[tC�^]ai
Text 20,21,190,21,"Accommodation (in Diopters):",.Text1,1 [IZM�.�r`Z
OKButton 40,91,90,21 ~"x5U{K48S
CancelButton 190,91,90,21 q<vf,D@{ !
Text 20,49,190,14,"Pupil diameter (4 mm default):",.Text2,1 Y,�S\�2or$
TextBox 220,49,40,21,.TextBox2 'default: 4 �h!@,8�y[B
End Dialog Tb;d����.^
Dim dlg As UserDialog 5f'�D�o�T�
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ok = Dialog (dlg) koG{
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If ok=0 Then 'cancel button was pressed sUkm|�K`#�
Print "Execution cancelled." :;;E<74e
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End ;z��TuKex~
End If AEi��rj /�
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'Assign accommodation and pupil diameter & use defaults if field left empty eP�1n�Uy=T
If dlg.TextBox1 = "" Then F?+3%>/A�@
A = 0 'Default accommodation �sf�T+i;p�
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A = CDbl(dlg.TextBox1) ;E;To\NCYF
End If �q}|U4MJ�m
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If dlg.TextBox2 = "" Then Pf�_�F5�9"
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pupilDiam = CDbl(dlg.TextBox2) G`�h+�l<��
End If Z [Xa%~5>5
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Print " " l��U]un&[N
Print "Accommodation = " & A & " Diopters" �j�F"YT�r6
Print "Pupil Diameter = " & pupilDiam & " mm" @~
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' Calculate new parameters with accommodation 8�ip7^����
taq = 0.55 + 2.97 - 0.04*A 'Aqueous thickness 9-1�#( Y6S
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Rant = 12.0 - 0.4*A 'Radius of anterior lens 0�B�P�Mmk�
CCant = -7.518749 + 1.285720*A 'Conic constant of anterior lens ��7v��}x?I
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Rpost = -5.224557 + 0.2*A 'Radius of posterior lens .��9�G<y 4
CCpost = -1.353971 - 0.431762*A 'Conic constant of posterior lens !c�W[�G/W8
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tlens = 3.767 + 0.04*A 'Lens thickness /�TQ}}
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nlens = 1.42 + 0.00256*A - 0.00022*A^2 'Lens index of refraction #�G]!����%
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'Adjust parameters to account for accommodation -�4#2/GXNO
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'************************************************************************* '(+<UpG_Q}
'Aqueous thickness (Position of Lens) ^4Am
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'************************************************************************* a~LC+8|JW
eID = FindFullName( "Geometry.Arizona Eye.Lens" ) q�OV�[�TP,
GetCustomElement eID, entity ��~ A��Qp|
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parID = FindFullName( "Geometry.Arizona Eye" ) ;$j7H&UNQj
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' Delete any shift(s) in z w)�]�H ^�6
count = 0 {0�4�"LA�E
While GetOperationCount(eID)>count u�wIc�9�63
GetOperation eID, count, op ��V,v�[y�\
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'Set new shift in (Wl�I�w�KP
op.Type = "ShiftZ" V:NI4dv/�R
op.val1 = taq #%3r�TU�
op.parent = parID -��ZOBAG�*
AddOperation eID, op hv$yV%�.`�
Print "Set aqueous humor thickness = " & taq-0.55 Y�A(@5CZ�
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'Radius and conic constant of anterior lens m(O��vD!�
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eID = FindFullName( "Geometry.Arizona Eye.Lens.Anterior" ) %�~�|HF�Yd
GetConic eID, entity, curv, conic )
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SetConic eID, entity, 1/Rant, CCant `�Kl�`VP=c
Print "Set anterior lens radius = " & Rant & " and conic constant = " & CCant �=�T�vzS%U
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'Radius and conic constant of posterior lens !hxI�lVd�{
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eID = FindFullName( "Geometry.Arizona Eye.Lens.Posterior" ) \g)Xt?w0Wo
GetConic eID, entity, curv, conic !7�B\Xl'S�
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SetConic eID, entity, 1/Rpost, CCpost "v*�8_�El
Print "Set posterior lens radius = " & Rpost & " and conic constant = " & CCpost 0\{B���WNK
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'Lens thickness (Position of posterior lens surface) ?`?T7w|3
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parID = FindFullName( "Geometry.Arizona Eye.Lens" ) l?E ��a#�
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' Delete any z-shift(s) gW(gJ;
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count = 0 �|t�Mn��={
While GetOperationCount(eID)>count Jw�n��AW}=
GetOperation eID, count, op J<j�&;:IRd
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count=count+1 )n7l'�}o?+
Wend u9-nt}hGYM
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'Set new z-shift DLE8+NV8
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op.Type = "ShiftZ" �[�^H"FA[
op.val1 = tlens �L7Dh(y=;7
op.parent = parID "H�M�P$)d�
AddOperation eID, op ��cRv�vzX�
Print "Set lens thickness = " & tlens D6D1S/:ij'
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'************************************************************************* �gA#R�M5x@
'Lens index of refraction {W��N(&eax
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eID = FindMaterial( "Lens" ) R_�P}���~l
GetModelMaterial eID, mat Tz&Y�]�#h_
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mat.Nd = nlens G��Da�N��
SetModelMaterial eID, mat }H:�F< z�*
Print "Set lens index of refraction = " & nlens C�@�y8.#l�
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'************************************************************************* a�jhEL?�%D
'Pupil diameter >�r5P�3G1�
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eID = FindFullName( "Geometry.Arizona Eye.Pupil.Iris" ) s,VX��c��/
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'Adjust pupil diameter (trimming volume inner hole) D,�l,`jv�*
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SetTrimVolHole eID, pupilDiam/2, pupilDiam/2, 0, 0, "Cylinder" �pI�+!92Z
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' Adjust pupil location to just in front of the lens |�C� \�}�P
parID = FindFullName( "Geometry.Arizona Eye" ) �BI[JATZG�
eID = FindFullName( "Geometry.Arizona Eye.Pupil" ) AT
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count = 0 co�4h��*?q
While GetOperationCount(eID)>count vE�M(b�T=H
GetOperation eID, count, op wJb#�g�0�
If op.Type="ShiftZ" Then ewNz%�_�2�
DeleteOperation eID,count �b��t�e�~c
count=count-1 x���� LBQ
End If �1&=0Wg0ig
count=count+1 mwv(��j�_
Wend oj,�l���z?
op.Type = "ShiftZ" <<A`aU�^fX
op.val1 = taq-0.01 2],_^X�BvB
op.parent = parID <3PL@o�rO�
AddOperation eID, op X���8�eJ4%
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Print "Set pupil diameter = " & pupilDiam F�U�K3)lT�
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'Update AZ Eye subassembly Description 6~:Sgt �nU
eID = FindFullName( "Geometry.Arizona Eye" ) n@C~e�v@%S
GetEntity eID, entity �r�I$`9�d�
entity.Description = "Accommodation = " & A & "D" :yT-9�Ze%q
SetEntity eID, entity �6!iJ;1PeE
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Update {�M�AQ/�5�
Print "DONE!" NBh%:�tu7M
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End Sub !�;@_VW��R
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如果屈光度是4,光瞳直径是4,则会输出如下数据: `+lHe�Lz':
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Accommodation = 4 Diopters RI�M�`om�M
Pupil Diameter = 4 mm ? ]sM8�Bd}
Set aqueous humor thickness = 2.81 ,[p
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Set anterior lens radius = 10.4 and conic constant = -2.375869 R`Aj|�C�
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Set posterior lens radius = -4.424557 and conic constant = -3.081019 sGDV���]~E
Set lens thickness = 3.927 #0��I{.Wy]
Set lens index of refraction = 1.42672 �fHrt+_Zn|
Set pupil diameter = 4 D;G�D<zC]�
DONE! |
