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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。 #@OPi6.#!<
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模型 �;�v�eD?|�
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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。 6
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Table 1. AZ眼睛模型的定义 3p�&T?E�%
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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. WY�Tq�QqQk
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光源 Uzzm��2OS`
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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。 Lu.+J]�R�z
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图1. 光源和提示信息使用 El5}� f4sl
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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。 f\d�fKN�m6
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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。 rX?ZUw?u�&
图2. 字母F光源的设定方法光 �=/46;844T
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图3. 字母F在视网膜上位置点列图 O1�\Hx�8�^
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视网膜的散射 3�.�_�
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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。 *P�nO$q@�`
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图4. 视网膜朗伯散射设定 �k�*fU:q1
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注意在视网膜的表面有散射重点采样规格定义,在“Scatter”标签的底部可获取该信息。“toward pupil”指定散射光朝向光瞳,半角度10度。 Icrnu}pl�_
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图5. 视网膜重点采样规格设定 �z��ZCRe�j
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脚本 `R8&��(kQ�
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内置脚本使用对话框显示屈光度和光瞳直径的数值设置。使用FRED Basic脚本创建和使用对话框非常容易。图6显示了如何获取用户自定义对话框,如下图所示: D�1xGUz2r�
图6. 用户对话框的创建与编辑 Yw3'9��m^�
图7. 用户对话框编辑器 &�R<aRE:+R
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如果“OK”按钮按下,将会核对对话框下面的代码行,如果点击取消则脚本终止。然后输入的参数赋予变量,如果此处是保留为空白,则使用默认值。因此,如果没有值输入并点击“OK”按钮,则脚本是以屈光度为0,光瞳直径为4mm来运行的。 �1�]2]l*&3
余下的脚本计算与屈光度有关的所有参数。 ����
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分析 dn-
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屈光度为4,光瞳直径为4mm,字母F点在视网膜上所成的像。 |cma7��q}p
图7. 字母F在视网膜上颜色分析 ~<� bpdI0�
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脚本代码 �EYq?N�L='
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Option Explicit 'Remove this to enable non-dimensioned variables to be used. yKV{�V?�h?
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Dim entity As T_ENTITY �E:pk'G0bZ
Dim op As T_OPERATION `���sCaGCp
Dim mat As T_MODELMATERIAL (CxA5�u1|l
Dim A As Double T��(7`$<TQ
Dim pupilDiam As Double C!5�A,|�DX
Dim eID As Long +r8b�GS]ki
Dim parID As Long _� Nc�bo#G
Dim count As Integer W%g*s�c�*+
Dim taq As Double, Rant As Double, CCant As Double, Rpost As Double, CCpost As Double ;y�t6Yp.6e
Dim tlens As Double, nlens As Double 13!@L�bC��
Dim curv As Double, conic As Double ! d�z�gi:
Dim ok As Long ���h$l/�wn
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Sub Main OT])t<TF�6
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'用户输入对话框 �2H|:/��y
Begin Dialog UserDialog 320,126,"Input parameters" ' %GRID:10,7,1,1 |NfFe*q0;8
TextBox 220,21,40,21,.TextBox1 'default: 0 ��'�V:Q :�
Text 20,21,190,21,"Accommodation (in Diopters):",.Text1,1 K?^;|�m-��
OKButton 40,91,90,21 <�xy@��%
CancelButton 190,91,90,21 @�N�>7+
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Text 20,49,190,14,"Pupil diameter (4 mm default):",.Text2,1 m;Ov�O�c�,
TextBox 220,49,40,21,.TextBox2 'default: 4 d+JK")$9C�
End Dialog &$~fz":1!
Dim dlg As UserDialog ��YJ _�e�E
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ok = Dialog (dlg) 3^o(\=-JX�
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If ok=0 Then 'cancel button was pressed 6$��k#B ~~
Print "Execution cancelled." �R{�#<� NE
End t/�i��I!�}
End If AFz�:%m��
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'Assign accommodation and pupil diameter & use defaults if field left empty a$My�6�Qa#
If dlg.TextBox1 = "" Then K~�
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A = 0 'Default accommodation +94�)Bx�rY
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A = CDbl(dlg.TextBox1) ��U6]#�RxH
End If �XNYA\%:5S
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If dlg.TextBox2 = "" Then F(G..X�J�Q
pupilDiam = 4 'Default pupil diameter B�s~~C�8�+
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pupilDiam = CDbl(dlg.TextBox2) .��q@?sdGD
End If � q#�K{�~:
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Print " " �<>] ��DcA
Print "Accommodation = " & A & " Diopters" hw
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Print "Pupil Diameter = " & pupilDiam & " mm" O*xx63%j�R
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' Calculate new parameters with accommodation y���E$P�LM
taq = 0.55 + 2.97 - 0.04*A 'Aqueous thickness U z�y@�\
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Rant = 12.0 - 0.4*A 'Radius of anterior lens 6�6v��,/#K
CCant = -7.518749 + 1.285720*A 'Conic constant of anterior lens N�m*��(?1
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Rpost = -5.224557 + 0.2*A 'Radius of posterior lens �gQ+]�N*.�
CCpost = -1.353971 - 0.431762*A 'Conic constant of posterior lens 11H`WO�TQF
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tlens = 3.767 + 0.04*A 'Lens thickness 6j%%CWU{~�
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nlens = 1.42 + 0.00256*A - 0.00022*A^2 'Lens index of refraction �h�[
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'Adjust parameters to account for accommodation 37U��8�<�
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'************************************************************************* V*p[6{�U0
'Aqueous thickness (Position of Lens) B"�^�j>�SF
'************************************************************************* ��noZbsI4�
eID = FindFullName( "Geometry.Arizona Eye.Lens" ) �O=0�p}{3l
GetCustomElement eID, entity '�oa.-g�5�
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parID = FindFullName( "Geometry.Arizona Eye" ) Fy=GU<&A�I
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' Delete any shift(s) in z NQ�dwj�>_a
count = 0 �x@���-�K�
While GetOperationCount(eID)>count k�6�tC�fq;
GetOperation eID, count, op Xb�_
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If op.Type="ShiftZ" Then S���<mZ�s;
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End If 2I.FSR_G?�
count=count+1 '}OdF��*�L
Wend '@n"'vks(\
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'Set new shift in #VQZ"�7nI@
op.Type = "ShiftZ" *p�{p.%Qs:
op.val1 = taq
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op.parent = parID l�)u%�`Hcn
AddOperation eID, op dwA�"QVp�{
Print "Set aqueous humor thickness = " & taq-0.55 �}����z]d]
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'Radius and conic constant of anterior lens +��ai�3� �
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eID = FindFullName( "Geometry.Arizona Eye.Lens.Anterior" ) �xQ9t1b|{e
GetConic eID, entity, curv, conic zw<<st� Bp
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SetConic eID, entity, 1/Rant, CCant .][y�H[�F�
Print "Set anterior lens radius = " & Rant & " and conic constant = " & CCant �S^s-m�d�>
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'************************************************************************* �<��"�Y>|X
'Radius and conic constant of posterior lens �d�sIbr"�m
'************************************************************************* 8�:��Hh;nl
eID = FindFullName( "Geometry.Arizona Eye.Lens.Posterior" ) F}Zg3����#
GetConic eID, entity, curv, conic ;MfqI/B�{�
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SetConic eID, entity, 1/Rpost, CCpost ��^B.�Z�3Y
Print "Set posterior lens radius = " & Rpost & " and conic constant = " & CCpost wBt7S�!>�G
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'Lens thickness (Position of posterior lens surface) .-$3I|}X�=
'************************************************************************* S�����ct�
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parID = FindFullName( "Geometry.Arizona Eye.Lens" ) SFg4}*"C�/
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' Delete any z-shift(s) ivo3�pibk%
count = 0 �$HwF:�L)*
While GetOperationCount(eID)>count 3E�i^WDJ��
GetOperation eID, count, op EWJB�/iED�
If op.Type="ShiftZ" Then QMMpB{FZ`o
DeleteOperation eID,count uG�AQt9$>_
count=count-1 ��$�NCvF'
End If f@sC~A. 9\
count=count+1 }P���.��s�
Wend 0LW3VfvToN
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'Set new z-shift Rd8�m�n�'A
op.Type = "ShiftZ" WvU[9ME�^)
op.val1 = tlens <.`i,|?MHS
op.parent = parID WX Fm'5V�r
AddOperation eID, op /CALX���wL
Print "Set lens thickness = " & tlens PE{�<'�K\g
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'************************************************************************* �@+;.�W>^h
'Lens index of refraction t�|>�P9lX@
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eID = FindMaterial( "Lens" ) /yU�#UZ4;�
GetModelMaterial eID, mat @zGF9O<3,@
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mat.Nd = nlens o2|#_tGNUy
SetModelMaterial eID, mat � XY�)X-K$
Print "Set lens index of refraction = " & nlens N+���~
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'************************************************************************* +P�PQ"#1pS
'Pupil diameter ��Z7w�l~Hk
'************************************************************************* )4fQ~)����
eID = FindFullName( "Geometry.Arizona Eye.Pupil.Iris" ) /%&5Iq\:vA
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'Adjust pupil diameter (trimming volume inner hole) �M��_0��f{
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SetTrimVolHole eID, pupilDiam/2, pupilDiam/2, 0, 0, "Cylinder" :V�$�\y up
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' Adjust pupil location to just in front of the lens ]�9_t�to!/
parID = FindFullName( "Geometry.Arizona Eye" ) v�$��\<L�|
eID = FindFullName( "Geometry.Arizona Eye.Pupil" ) �"�}
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count = 0 _G)A$6we�U
While GetOperationCount(eID)>count v2gk1��a�&
GetOperation eID, count, op a �/�]Fl�T
If op.Type="ShiftZ" Then (e_<�~+E
DeleteOperation eID,count = y^5PjN��
count=count-1 4�S�UzR�\�
End If BN&)5M?Xt6
count=count+1 �1�N65 M=)
Wend ,g�'>�Ib%�
op.Type = "ShiftZ" Ay��U���w
op.val1 = taq-0.01 :~vg'v�~�C
op.parent = parID ���cK[=IE5
AddOperation eID, op ��7��oZ�Pb
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Print "Set pupil diameter = " & pupilDiam e��SIG+{;&
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'Update AZ Eye subassembly Description ��6y�Y�jZ<
eID = FindFullName( "Geometry.Arizona Eye" ) v?�8i���;[
GetEntity eID, entity �?@in($67
entity.Description = "Accommodation = " & A & "D" Ij��OB�Y
SetEntity eID, entity �6��
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Update &b>&X��MIK
Print "DONE!" �,^n&Q'�p3
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End Sub k�|>y��F�c
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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: rYV]�<[?~7
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Accommodation = 4 Diopters {o^tSEN!-�
Pupil Diameter = 4 mm 4n.J�RR�&;
Set aqueous humor thickness = 2.81 Uuf�i�g�)6
Set anterior lens radius = 10.4 and conic constant = -2.375869 �I��lO�,Ql
Set posterior lens radius = -4.424557 and conic constant = -3.081019 ��0N)DHD?U
Set lens thickness = 3.927 �M��^O�YQf
Set lens index of refraction = 1.42672 �x�C5Pv�">
Set pupil diameter = 4 Mb��"y{Fox
DONE! |
