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Im Aaron Barzilai, I did this work in collaboration with Tom, Steve, Tom at JPL, and my advisor at Stanford, Tom. 5ddsdddd 4ɸ  @  `  M*# ,ddAbstract ,ddL}s F @dd[The seismological community would like an affordable, broadband seismometer. A geophone is an affordable seismometer used for high frequency measurements. Modifying a geophone to sense proof mass position capacitively enables its use in low frequency applications. A capacitive geophone requires feedback to maintain its high frequency capability.* [ m S [M@ddN@ddn@ddR@dd   `@  e B@L}*# ddId like to begin with a quick summary of my talk. First, well take a look at the instrumentation needs of the seismological community and their current options. Next, well ADDRESS the question of What is a geophone? The answer is Its a commercially available seismometer... Then, well discuss the real substance of this work, how to transform a geophone into a sensor appropriate for measuring low frequency signals. Well do this by changing it into a capacitive sensor. Now, this benefit trades off the geophones performance at high frequencies. At the end well take a look at how applying feedback will maintain the high frequency performance. 3ddpddxdddddd5dɠ  @ * ` M*# ,ddLow Frequency Seismology ,ddL}s F@ddThe Earth acts as a low pass filter. Only the low frequency components of a seismic signal will travel great distances. Information about the deep structure of the Earth can be obtained from studying low frequency signals. Low frequency signals are used for studying global seismicity. x %@ddS@ddg@dd>@dd  `@ d B@L}*# ddAs I said, this work focuses on improving the geophones performance at low frequencies. Theres really only one fact you need to know about low frequency seismology: The Earth acts as a low pass filter. As a result, if you want to measure waves that have traveled great distances, must study low frequency signals. There are a number of applications of studying waves that have traveled great distances. One of the most important is understanding the deep structure of the Earth. Much of what we know about the mantle and the core has been gathered from analysis of the seismic waves that have passed through those portions of the Earth. Also, studies of global seismicity rely on detecting waves from afar. Local and regional networks can rely on high frequency measurements, but distant earthquakes need low frequency measurements. Thus far weve established that there are many reasons to measure low frequency signals. Now lets look at some common, currently available seismometers. ddrddEdddddd!  D" @  p T `, `^ ` Ƙ `Dzp@`@`@`@` @`P` @ P@`PP}d-Streckeisen 8.33mHz-50Hz 0.01 ng/Hz $20,000< --- dd dd}fd#Guralp 33mHz-50Hz 1 ng/Hz $10,000 ###d d dd}J wd#Geophone 4.5Hz-400 Hz 1 ng/Hz $500 ### dd dd}Hd Type Bandwidth Resolution Price   d d ddM*# ,ddCommercial Seismometerso ,ddLs V @ddA $500, 33mHz-50Hz seismometer with a resolution of 1 ng/Hz would add another price-performance point to the currently available instrumentation options.  @dd(%C&' `@  c B@ ?L}*# ddThe Streckeisen brand of seismometers are generally concerned to be the state of the art seismometers, emphasizing the word art. These instruments are more like a Stradivarius than an HP. They have a wide bandwidth(120 sec to 50 Hz), and incredible resolution, but they cost a bundle and also have lead times as large as 6 months, as theyre made by one family owned business in Switzerland. Guralp is another company in the UK that produces broadband seismometers, they compete at the top-of-the line and also have their affordable version, which still has great performance and still sells for about $10,000. Meanwhile, people studying higher frequency signals typically use a geophone. You can see that commercially available geophones dont measure low frequency signals, but they do have good resolution and a great price. Putting this together, it seems that an affordable, broadband seismometer with good but not Streckeisen like performance would meet a need that is not being served by the current instrumentation options.  dddddddd-*+,$).   ˰   dM* ,dd5A New Broadband Seismometer: The Capacitive Geophone 55,55ddL F @ddThe existing mechanical system of a geophone provides the basis of the seismometer. Capacitively measuring coil displacement yields excellent low frequency sensitivity and resolution. A capacitive geophone can be made for under $200. T    m T@ddd@dd1@dd41PP'23 `@ d B@?L}*# ddWe propose to meet this target with a new, capacitive geophone. Well use the existing geophone as the basis of of our sensor, and then modify it to measure proof mass displacements capacitively. As well see, this will change the geophone from a high frequency sensor to one that is appropriate for low frequency sensing. Since these are relatively simple changes that will be made, they wont drastically increase the cost above that of a conventional geophone. The higher end seismometers cost more because they must be large to obtain their excellent resolution. Since were targeting a relatively middle-of-the-road performance, we can avoid the costs associated with the specifications of the Streckeisens. dd9678X05: @ < ~Ƙ ~q10 @]t +t @.Dz  "A;\ @.~Ɨ| a" *t1@pp@pp@pp P : : 99rr8r 8 8 8 8xxdd Cross-section    dddd Schematic    dd( ddAcceleration Input  ddddQ8kM ddMechanical System  dddd@ ddRelative Motion  ddddQk> ddElectrical System  dddd ddOutput Voltage ddddM*# ,ddConventional Geophone ,dd@= >? `@  a B@ L}*# ddSo, lets take a look at how a geophone works and why it is currently used in high frequency applications. I have a sketch of the inside of a geophone and a cross-section. Remember, a geophone is cylindrically symmetrical. Like all seismometers and accelerometers, a geophone first converts the acceleration it sees into relative motion of its proof mass. In the case of the a geophone, this motion is of a cylinder relative to the geophones housing. It is couple by leaf springs. This motion is then detected inductively, by the interaction of a coil of wire on the cylinder with a magnetic field that is stationary inside the geophone. So, the whole sensor shakes, causing relative motion. Then, this relative motion is measured. Lets take a look in more detail. dddddd^dd!ddEBCD <AF  @  a >1ǽ  >ǻ$ @` X 8 8?| $@ddDAcceleration Causes Relative Motion Between the Coil and the Housing DD$DD@dd $@dd1Constant Sensitivity Below the Resonant Frequency 11$11@ddM*# ,ddMechanical Sensitivity ,ddLIJK `@  B@ L}*# ddxThe mechanical system, which converts the input acceleration into relative motion, behaves like a typical second order system. Below the resonant frequency, the sensitivity is constant. Above the resonance, the sensitivity falls off at 40 dB/decade. Typically, higher order modes appear above 400 Hz and therefore dont affect the response over the frequencies of interest. xxxdd|ddQNOPdHMR b  @  1 >ƙ 5  @ 8 8L $DddEInductively Measure Motion of the Coil Relative to the Magnetic Field E $$9$EEDdd  $@dd6Output Voltage Proportional to the Proof Mass Velocity 6.$$66@ddM*# ,ddElectrical Sensitivity ,ddXUVW `@ a B@L}*# ddSince the measurement of relative motion is inductive, the output voltage is proportional to proof mass VELOCITY. Therefore, the electrical sensitivity is large at high frequencies and attenuated at low frequencies. dd]Z[\hTY^  @ Ǽ| o >  > @ 8 8T $DddMAt Low Frequency, Measurement of Proof Mass Velocity Reduces Sensitivity M.$$$MMDdd $@dd8At High Frequency, Mechanical System Reduces Sensitivity 88$88@ddM*# ,ddTotal Sensitivity ,ddda.bc `@  G B@L}*# ddAs a result, at low frequencies the cylinder is undergoing large motions, but the electrical system does not measure them well. At higher frequencies, the electrical sensitivity is great but the mechanical system reduces the sensitivity. ddifwgh Ct`ej  @  [ Ǽ| @; @Td 6A $Ddd2DPoor resolution at low frequency is caused by reduced sensitivity. D!$$$$DDDdd2M*# ,dd Conventional Geophone Resolution  ,  ddpmȀ@'no `@  B@L}*# ddAs you probably know, the resolution is given by the noise over the sensitivity. In a geophone, the reduced sensitivity at low frequencies worsens the resolution. This is combined with 1/f noise in the electronics to produce a very steep slope below the resonance. The resolution drops off more slowly at high frequency because it is only affected by the decreasing sensitivity at high frequency. Thus, you can measure signals further from the resonance at the high end. This has led to geophone use for high frequency measurements, but the poor resolution at low frequency prevents its use as a broadband seismometer. As I said earlier, though, the problems at low frequency arise because of the inductive velocity measurement. By switching to a capacitive, displacement measurement of the relative motion, we can have constant sensitivity at low frequency, which will improve the geophones low frequency resolution. pdddd,ddurst4lqv  @ Ǽ| @`+- GM*# ,ddCapacitive Hardware ,dd|yz{ `@  c B@L}*# ddTo make a capacitive measurement, wed like to form a differential pair of capacitors as shown on the left. To do so, we have added a bit of hardware on the outside of a commercial geophone. We place a cylinder on the top and bottom of the housing, and attach two rings which will form the fixed electrodes in our circuit. Then, we attach another ring directly to the proof mass, the cylinder inside the geophone. This ring is clamped by tightening some screws. Now, as the cylinder moves, the gaps will vary. In general, we want the gaps balanced for maximum sensitivity, and typically the gaps are about 250 m, leading to capacitances of order 10 pF. The stray capacitance is of order 0.1pF.c dd~ x} @ Ǽ| I  @ hM*# ,ddCapacitive Electrical System ,ddL0 @ddVBR is a sine wave at the drive frequency with amplitude and phase modulated by y. A Lock-In Amplifier demodulates VBR and outputs the amplitude and phase of the signal.n   M  #  3 S@ddV@ddH `@ 0 B@6L}*# ddTo measure the motion, we apply sine waves approximately 180 degrees out of phase from each other to the fixed electrodes. The motion of the proof mass causes a modulated version of the driving sine wave to appear on the center electrode. This signal and the driving sine wave is fed into a Lock-In amplifier, which outputs the amplitude and phase of the signal at the center electrode. ddT @  @ ǽ L)dz LODzL @, @H@ < 7HH@H@ 71dd Predictedd  "  dd1$ddMeasured "ddM*# ,ddPhase Proportional to Position ,dd `@  A$ B@L}*# ddbIt turns out the phase is the signal were most interested in. You can see the relationship is non-linear, with the highest sensitivity occurring when the gaps are balanced. Our experiments have shown that in practice we obtain very high sensitivity of about 25 MV/m of 25 V/m, and that in the center the relationship is approximately linear. bbb[ddddddddddddddddǨ @ F8 @  ` @ @O]k @kz @& @7 @Lh] @ @T9 @] @L] @MR @X @  @LhT@]]/@]]&@]ff@fT@ZZ]@ZZ9@ZTZ@Z]Z @0@Z @\I @A @V @& @wR @]] @3-@]] @x  5HT Al 7`2P-dd Integrator    ddM*# ,ddOperate with Integral Feedback ,ddL]s F @dd|Integral feedback applies forces at frequencies below the range of interest to keep the coil centered and the gaps balanced. || ||@dd$$ `@  @ B@L}*# ddTo stay in the operating range with maximum sensitivity, we need to keep the capacitive gaps balanced. This is achieved by operating with integral feedback, which will apply forces at very low frequency. Signals in the frequency range of interested are virtually unaffected by feedback. The feedback force is applied by running current through the coil. Therefore, we are using the sensing element of a conventional geophone as the actuator in the capacitive geophone. dd4 @  d 1 > h @0 hX 8tt $DddConstant Sensitivity At Low Frequency since Output is Proportional to Proof Mass Displacement Attenuation at very Low Frequencies caused by Integral Control &$+$ $>$^Ddd>DddM*# ,dd"Sensitivity with Integral Feedback "",""dd. `@  B@L}*# ddSIn theory, operating with integral feedback will yield constant sensitivity at low frequencies and a 40 dB/decade attenuation above the mechanical resonant frequency. At very low frequencies the control forces attenuate the motion, yielding the low frequency rolloff. This model has been tested by experimentally measuring the sensitivity of an operating capacitive geophone. We had difficulty obtaining data at periods of 10 sec and 50 sec because of the large motions involved in exciting the geophone. We are currently working on methods to obtain valid low frequency sensitivity data. SSSRddddw4 @ ǻ P [L @@x @@x 8M*# ,ddCapacitive Geophone Resolution ,ddLms F @ddbThe resolution is currently worse than target. The likely cause is noise in the biasing circuitry. bb b/@dd3@dd@` `@ FD B@?L}*# ddWe have also measured the resolution of our capacitive geophone. Currently, it is good but not great, and above the predicted level of 100ng/Hz. The data was obtained by comparing the capacitive geophones output(green) to the output of a Guralp CMG-40T(black). At frequencies above 2 Hz, the two sensors measured the same signal. Below 2 Hz, the Guralp is presumably measuring actual signals while the capacitive geophones output is sensor noise. We believe the diminished resolution results from noise in the integral feedback circuitry. Currently we are investigating how to reduce this noise and therefore improve the resolution. dddddd @ 8   ǻ4: @" @m @3O= @n` @0L @p; @}b @n @0= @1| @<C @j- @0L}@AFAY@A=AO@Ak@kk}@>>@>>b@>}>=@>> @nF@> @@) @fj @j, @jO @[|@AA @/ @@AA@A @p` @ @n; @;}b @p @v=@@b@}=@b @ij @,f @fO @|u@@b@==@= @ V "" ,}"" @ @O 7 7$$jddLead Compensator dd4Fdd Integrator    ddM*# ,ddAdd Lead Compensator ,ddL=s F @ddNThe outer loop extends the bandwidth beyond the mechanical resonant frequency. NN NN@dd;  `@ 4 B@?L}*# ddThus far, we have measured the sensitivity and resolution of our capacitive geophone with integral feedback. The story could be done, expect that now the frequency range is limited at the high end by the resonance of the mechanical system. Since conventional geophones are typically used at frequencies well above their resonance, we have added a lead controller to extend the bandwidth. ddx @ ƙh !s >< @0 hX 8<X $Ddd\The bandwidth has been extended to 100 Hz. Discrepancies are based at 60 Hz and 180 Hz \\$\0Ddd,DddM*# ,ddClosed Loop Sensitivity ,dd. `@  B@L}*# ddFor our present controller, the model predicts a high frequency rolloff at 100 Hz. Our data seems to match this prediction, but there are some discrepancies. First, we have a constant error in our predicted sensitivity. Secondly, at 60 Hz and 180 Hz there are discrete jumps in the sensitivity. We believe this result is promising, but measurement errors are causing the discrepancies. We will continue to study this until our experimental results match our prediction.  ddw @ ǽ0 ` ǻlM*# ,dd Conclusions  ,  ddL}s F @ddModifying a geophone into a capacitive sensor leads to an affordable, broadband seismometer. A capacitive geophone has been fabricated based on a 40 Hz geophone. Current results are promising, but more testing needs to be performed. Future goals include obtaining resolution at the fundamental limits, implementing the modifications on a 4.5 Hz geophone, and measuring phase without a Lock-In amplifier.  ]@ddE@ddG@dd@dd[@ `@  B@L}*# ddIn conclusion, I want to emphasize a few major points. First, we have shown how modify a geophone so it can be an affordable, broadband seismometer. We have built and tested such a device. Currently we have not attained our predicted performance, so more work remains. In addition to maximizing the performance we obtain with a capacitive geophone based on a 40 Hz geophone, we are interested in implementing these changes on a 4.5 Hz geophone to obtain better sensitivity and resolution. Additionally we plan on developing a small phase measuring circuit to replace the Lock-In amplifier. These changes should lead to a small, affordable capacitive geophone prototype that could be used in the field. dd G @  ` 0M*# ,ddAcknowledgments ,ddL}s F @ddMarcos Alvarez at PASSCAL Center for Space Microelectronics Technology, Jet Propulsion Laboratory, California Institute of Technology NASA Office of Space Access and Technology NSF Career Award ECS-9502046 Charles Lee Powell Foundation Terman Fellowship  @dd@dd+@dd@dd@dd@dd `@  XX B@L}*# ddnMarcos Alvarez of PASSCAL provided valuable assistance, and this work was supported by a variety of sponsors. nnnndd G  #/;GS_kw, @ ( `   FJ h mFx JV4N - dd##  dd ddASME Winter Meeting 98  dd- ddAaron Barzilai  ddM*# ,dd Click to edit Master title style  ,  ddL}s F@ddRClick to edit Master text styles Second level Third level Fourth level Fifth level R!   R!@dd @dd @dd @dd @dd `@ | B@L}*# ddRClick to edit Master text styles Second level Third level Fourth level Fifth level RRR!dd dd dd dd ddͼ = > ,  C   I I I#currentpoint "I$/picTop exch def /picLeft exch def 4currentpoint /picBottom exch def /picRight exch def [ 1844 1737 2381 2066] 1 dict begin /s exch def picLeft picTop translate picRight picLeft sub s 2 get s 0 get sub div picBottom picTop sub s 1 get s 3 get sub div scale s 0 get neg s 3 get neg translate end /showpage {} def /copypage {} def %!PS-Adobe-2.0 EPSF-1.2 %%Title: AGU Win'98 OLGeoPic %%Creator: Aldus Freehand 4.0 %%CreationDate: 5/21/98 5:36 PM %%BoundingBox: 1844 1737 2381 2066 %%FHPathName:SMSSL Multimedia:Users:Barzilai:Presentations:AGU Spring 98:AGU Win'98 OLGeoPic %ALDOriginalFile:SMSSL Multimedia:Users:Barzilai:Presentations:AGU Spring 98:AGU Win'98 OLGeoPic %ALDBoundingBox: 1692 1584 2484 2196 %%DocumentSuppliedResources: procset Altsys_header 4 0 %%ColorUsage: Color %%DocumentProcessColors: Cyan Magenta Yellow 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eq}{false}ifelse { currenthalftone begin HalftoneType 4 le {graycalcs HalftoneType 1 sub get exec} { HalftoneType 5 eq { Default begin {graycalcs HalftoneType 1 sub get exec} end } {0 60} ifelse } ifelse end } { currentscreen pop exch } ifelse printerRes 300 max exch div exch 2 copy sin mul round dup mul 3 1 roll cos mul round dup mul add 1 add dup maxsteps gt {pop maxsteps} if } bdf /nextrelease defed { /languagelevel defed not { /framebuffer defed { 0 40 string framebuffer 9 1 roll 8 {pop} repeat dup 516 eq exch 520 eq or { /fhnumcolors 3 def /currentscreen {60 0 {pop pop 1}}bdf /calcgraysteps {maxsteps} bdf }if }if }if }if fhnumcolors 1 ne { /calcgraysteps {maxsteps} bdf } if /currentpagedevice defed { currentpagedevice /PreRenderingEnhance known { currentpagedevice /PreRenderingEnhance get { /calcgraysteps {256 maxsteps min} def } if } if } if /gradfrequency 144 def printerRes 1000 lt { /gradfrequency 72 def } if /adjnumsteps { dup dtransform abs exch abs max printerRes div gradfrequency mul round 5 max min }bdf /goodsep { spots exch get 4 get dup sepname eq exch (_vc_Registration) eq or }bdf /BeginGradation defed {/bb{BeginGradation}bdf} {/bb{}bdf} ifelse /EndGradation defed {/eb{EndGradation}bdf} {/eb{}bdf} ifelse /bottom -0 def /delta -0 def /frac -0 def /height -0 def /left -0 def /numsteps1 -0 def /radius -0 def /right -0 def /top -0 def /width -0 def /xt -0 def /yt -0 def /df currentflat def /tempstr 1 string def /clipflatness currentflat 1 add def /inverted? 0 currenttransfer exec .5 ge def /tc1 [0 0 0 1] def /tc2 [0 0 0 1] def /storerect{/top xdf /right xdf /bottom xdf /left xdf /width right left sub def /height top bottom sub def}bdf /concatprocs{ systemdict /packedarray known {dup type /packedarraytype eq 2 index type /packedarraytype eq or}{false}ifelse { /proc2 exch cvlit def /proc1 exch cvlit def proc1 aload pop proc2 aload pop proc1 length proc2 length add packedarray cvx } { /proc2 exch cvlit def /proc1 exch cvlit def /newproc proc1 length proc2 length add array def newproc 0 proc1 putinterval newproc proc1 length proc2 putinterval newproc cvx }ifelse }bdf /i{dup 0 eq {pop df dup} {dup} ifelse 1 add /clipflatness xdf setflat }bdf version cvr 38.0 le {/setrgbcolor{ currenttransfer exec 3 1 roll currenttransfer exec 3 1 roll currenttransfer exec 3 1 roll setrgbcolor}bdf}if /vms {/vmsv save def} bdf /vmr {vmsv restore} bdf /vmrs{vmsv restore /vmsv save def}bdf /eomode{ {/filler /eofill load def /clipper /eoclip load def} {/filler /fill load def /clipper /clip load def} ifelse }bdf /normtaper{}bdf /logtaper{9 mul 1 add log}bdf /CD{ /NF exch def { exch dup /FID ne 1 index/UniqueID ne and {exch NF 3 1 roll put} {pop pop} ifelse }forall NF }bdf /MN{ 1 index length /Len exch def dup length Len add string dup Len 4 -1 roll putinterval dup 0 4 -1 roll putinterval }bdf /RC{4 -1 roll /ourvec xdf 256 string cvs(|______)anchorsearch {1 index MN cvn/NewN exch def cvn findfont dup maxlength dict CD dup/FontName NewN put dup /Encoding ourvec put NewN exch definefont pop}{pop}ifelse}bdf /RF{ dup FontDirectory exch known {pop 3 -1 roll pop} {RC} ifelse }bdf /FF{dup 256 string cvs(|______)exch MN cvn dup FontDirectory exch known {exch pop findfont 3 -1 roll pop} {pop dup findfont dup maxlength dict CD dup dup /Encoding exch /Encoding get 256 array copy 7 -1 roll {3 -1 roll dup 4 -2 roll put}forall put definefont} ifelse}bdf /fps{ currentflat exch dup 0 le{pop 1}if { dup setflat 3 index stopped {1.3 mul dup 3 index gt{pop setflat pop pop stop}if} {exit} ifelse }loop pop setflat pop pop }bdf /fp{100 currentflat fps}bdf /clipper{clip}bdf /W{/clipper load 100 clipflatness dup setflat fps}bdf userdict begin /BDFontDict 29 dict def end BDFontDict begin /bu{}def /bn{}def /setTxMode{av 70 ge{pop}if pop}def /gm{m}def /show{pop}def /gr{pop}def /fnt{pop pop pop}def /fs{pop}def /fz{pop}def /lin{pop pop}def /:M {pop pop} def /sf {pop} def /S {pop} def /@b {pop pop pop pop pop pop pop pop} def /_bdsave /save load def /_bdrestore /restore load def /save { dup /fontsave eq {null} {_bdsave} ifelse } def /restore { dup null eq { pop } { _bdrestore } ifelse } def /fontsave null def end /MacVec 256 array def MacVec 0 /Helvetica findfont /Encoding get 0 128 getinterval putinterval MacVec 127 /DEL put MacVec 16#27 /quotesingle put MacVec 16#60 /grave put /NUL/SOH/STX/ETX/EOT/ ENQ/ACK/BEL/BS/HT/LF/VT/FF/CR/SO/SI /DLE/DC1/DC2/DC3/DC4/NAK/SYN/ETB/CAN/EM/SUB/ESC/FS/GS/RS/US MacVec 0 32 getinterval astore pop /Adieresis/Aring/Ccedilla/Eacute/Ntilde/Odieresis/Udieresis/aacute /agrave/acircumflex/adieresis/atilde/aring/ccedilla/eacute/egrave /ecircumflex/edieresis/iacute/igrave/icircumflex/idieresis/ntilde/oacute /ograve/ocircumflex/odieresis/otilde/uacute/ugrave/ucircumflex/udieresis /dagger/degree/cent/sterling/section/bullet/paragraph/germandbls /registered/copyright/trademark/acute/dieresis/notequal/AE/Oslash /infinity/plusminus/lessequal/greaterequal/yen/mu/partialdiff/summation /product/pi/integral/ordfeminine/ordmasculine/Omega/ae/oslash /questiondown/exclamdown/logicalnot/radical/florin/approxequal/Delta/guillemotleft /guillemotright/ellipsis/nbspace/Agrave/Atilde/Otilde/OE/oe /endash/emdash/quotedblleft/quotedblright/quoteleft/quoteright/divide/lozenge /ydieresis/Ydieresis/fraction/currency/guilsinglleft/guilsinglright/fi/fl /daggerdbl/periodcentered/quotesinglbase/quotedblbase /perthousand/Acircumflex/Ecircumflex/Aacute /Edieresis/Egrave/Iacute/Icircumflex/Idieresis/Igrave/Oacute/Ocircumflex /apple/Ograve/Uacute/Ucircumflex/Ugrave/dotlessi/circumflex/tilde /macron/breve/dotaccent/ring/cedilla/hungarumlaut/ogonek/caron MacVec 128 128 getinterval astore pop end %. AltsysDict %%EndResource %%EndProlog %%BeginSetup AltsysDict begin _bfh %%IncludeResource: font Symbol _efh 0 dict dup begin end /f0 /Symbol FF def _bfh %%IncludeResource: font Times-Roman _efh MacVec 256 array copy /f1 /|______Times-Roman dup RF findfont def end %. AltsysDict %%EndSetup AltsysDict begin /onlyk4{false}ndf /ccmyk{dup 5 -1 roll sub 0 max exch}ndf /cmyk2gray{ 4 -1 roll 0.3 mul 4 -1 roll 0.59 mul 4 -1 roll 0.11 mul add add add 1 min neg 1 add }bdf /setcmykcolor{1 exch sub ccmyk ccmyk ccmyk pop setrgbcolor}ndf /maxcolor { max max max } ndf /maxspot { pop } ndf /setcmykcoloroverprint{4{dup -1 eq{pop 0}if 4 1 roll}repeat setcmykcolor}ndf /findcmykcustomcolor{5 packedarray}ndf /setcustomcolor{exch aload pop pop 4{4 index mul 4 1 roll}repeat setcmykcolor pop}ndf /setseparationgray{setgray}ndf /setoverprint{pop}ndf /currentoverprint false ndf /cmykbufs2gray{ 0 1 2 index length 1 sub { 4 index 1 index get 0.3 mul 4 index 2 index get 0.59 mul 4 index 3 index get 0.11 mul 4 index 4 index get add add add cvi 255 min 255 exch sub 2 index 3 1 roll put }for 4 1 roll pop pop pop }bdf /colorimage{ pop pop [ 5 -1 roll/exec cvx 6 -1 roll/exec cvx 7 -1 roll/exec cvx 8 -1 roll/exec cvx /cmykbufs2gray cvx ]cvx image } %. version 47.1 on Linotronic of Postscript defines colorimage incorrectly (rgb model only) version cvr 47.1 le statusdict /product get (Lino) anchorsearch{pop pop true}{pop false}ifelse and{userdict begin bdf end}{ndf}ifelse fhnumcolors 1 ne {/yt save def} if /customcolorimage{ aload pop (_vc_Registration) eq { pop pop pop pop separationimage } { /ik xdf /iy xdf /im xdf /ic xdf ic im iy ik cmyk2gray /xt xdf currenttransfer {dup 1.0 exch sub xt mul add}concatprocs st image } ifelse }ndf fhnumcolors 1 ne {yt restore} if fhnumcolors 3 ne {/yt save def} if /customcolorimage{ aload pop (_vc_Registration) eq { pop pop pop pop separationimage } { /ik xdf /iy xdf /im xdf /ic xdf 1.0 dup ic ik add min sub 1.0 dup im ik add min sub 1.0 dup iy ik add min sub /ic xdf /iy xdf /im xdf currentcolortransfer 4 1 roll {dup 1.0 exch sub ic mul add}concatprocs 4 1 roll {dup 1.0 exch sub iy mul add}concatprocs 4 1 roll {dup 1.0 exch sub im mul add}concatprocs 4 1 roll setcolortransfer {/dummy xdf dummy}concatprocs{dummy}{dummy}true 3 colorimage } ifelse }ndf fhnumcolors 3 ne {yt restore} if fhnumcolors 4 ne {/yt save def} if /customcolorimage{ aload pop (_vc_Registration) eq { pop pop pop pop separationimage } { /ik xdf /iy xdf /im xdf /ic xdf currentcolortransfer {1.0 exch sub ik mul ik sub 1 add}concatprocs 4 1 roll {1.0 exch sub iy mul iy sub 1 add}concatprocs 4 1 roll {1.0 exch sub im mul im sub 1 add}concatprocs 4 1 roll {1.0 exch sub ic mul ic sub 1 add}concatprocs 4 1 roll setcolortransfer {/dummy xdf dummy}concatprocs{dummy}{dummy}{dummy} true 4 colorimage } ifelse }ndf fhnumcolors 4 ne {yt restore} if /separationimage{image}ndf /newcmykcustomcolor{6 packedarray}ndf /inkoverprint false ndf /setinkoverprint{pop}ndf /setspotcolor { spots exch get dup 4 get (_vc_Registration) eq {pop 1 exch sub setseparationgray} {0 5 getinterval exch setcustomcolor} ifelse }ndf /currentcolortransfer{currenttransfer dup dup dup}ndf /setcolortransfer{st pop pop pop}ndf /fas{}ndf /sas{}ndf /fhsetspreadsize{pop}ndf /filler{fill}bdf /F{gsave {filler}fp grestore}bdf /f{closepath F}bdf /S{gsave {stroke}fp grestore}bdf /s{closepath S}bdf /bc4 [0 0 0 0] def /_lfp4 { /yt xdf /xt xdf /ang xdf storerect /taperfcn xdf /k2 xdf /y2 xdf /m2 xdf /c2 xdf /k1 xdf /y1 xdf /m1 xdf /c1 xdf c1 c2 sub abs m1 m2 sub abs y1 y2 sub abs k1 k2 sub abs maxcolor calcgraysteps mul abs round height abs adjnumsteps dup 2 lt {pop 2} if 1 sub /numsteps1 xdf currentflat mark currentflat clipflatness /delta top bottom sub numsteps1 1 add div def /right right left sub def /botsv top delta sub def { { W xt yt translate ang rotate xt neg yt neg translate dup setflat /bottom botsv def 0 1 numsteps1 { numsteps1 div taperfcn /frac xdf bc4 0 c2 c1 sub frac mul c1 add put bc4 1 m2 m1 sub frac mul m1 add put bc4 2 y2 y1 sub frac mul y1 add put bc4 3 k2 k1 sub frac mul k1 add put bc4 vc 1 index setflat { mark {newpath left bottom right delta rectfill}stopped {cleartomark exch 1.3 mul dup setflat exch 2 copy gt{stop}if} {cleartomark exit}ifelse }loop /bottom bottom delta sub def }for } gsave stopped grestore {exch pop 2 index exch 1.3 mul dup 100 gt{cleartomark setflat stop}if} {exit}ifelse }loop cleartomark setflat }bdf /bcs [0 0] def /_lfs4 { /yt xdf /xt xdf /ang xdf storerect /taperfcn xdf /tint2 xdf /tint1 xdf bcs exch 1 exch put tint1 tint2 sub abs bcs 1 get maxspot calcgraysteps mul abs round height abs adjnumsteps dup 2 lt {pop 2} if 1 sub /numsteps1 xdf currentflat mark currentflat clipflatness /delta top bottom sub numsteps1 1 add div def /right right left sub def /botsv top delta sub def { { W xt yt translate ang rotate xt neg yt neg translate dup setflat /bottom botsv def 0 1 numsteps1 { numsteps1 div taperfcn /frac xdf bcs 0 1.0 tint2 tint1 sub frac mul tint1 add sub put bcs vc 1 index setflat { mark {newpath left bottom right delta rectfill}stopped {cleartomark exch 1.3 mul dup setflat exch 2 copy gt{stop}if} {cleartomark exit}ifelse }loop /bottom bottom delta sub def }for } gsave stopped grestore {exch pop 2 index exch 1.3 mul dup 100 gt{cleartomark setflat stop}if} {exit}ifelse }loop cleartomark setflat }bdf /_rfs4 { /tint2 xdf /tint1 xdf bcs exch 1 exch put /radius xdf /yt xdf /xt xdf tint1 tint2 sub abs bcs 1 get maxspot calcgraysteps mul abs round radius abs adjnumsteps dup 2 lt {pop 2} if 1 sub /numsteps1 xdf radius numsteps1 div 2 div /halfstep xdf currentflat mark currentflat clipflatness { { dup setflat W 0 1 numsteps1 { dup /radindex xdf numsteps1 div /frac xdf bcs 0 tint2 tint1 sub frac mul tint1 add put bcs vc 1 index setflat { newpath mark xt yt radius 1 frac sub mul halfstep add 0 360 { arc radindex numsteps1 ne { xt yt radindex 1 add numsteps1 div 1 exch sub radius mul halfstep add dup xt add yt moveto 360 0 arcn } if fill }stopped {cleartomark exch 1.3 mul dup setflat exch 2 copy gt{stop}if} {cleartomark exit}ifelse }loop }for } gsave stopped grestore {exch pop 2 index exch 1.3 mul dup 100 gt{cleartomark setflat stop}if} {exit}ifelse }loop cleartomark setflat }bdf /_rfp4 { /k2 xdf /y2 xdf /m2 xdf /c2 xdf /k1 xdf /y1 xdf /m1 xdf /c1 xdf /radius xdf /yt xdf /xt xdf c1 c2 sub abs m1 m2 sub abs y1 y2 sub abs k1 k2 sub abs maxcolor calcgraysteps mul abs round radius abs adjnumsteps dup 2 lt {pop 2} if 1 sub /numsteps1 xdf r adius numsteps1 div 2 div /halfstep xdf currentflat mark currentflat clipflatness { { dup setflat W 0 1 numsteps1 { dup /radindex xdf numsteps1 div /frac xdf bc4 0 c2 c1 sub frac mul c1 add put bc4 1 m2 m1 sub frac mul m1 add put bc4 2 y2 y1 sub frac mul y1 add put bc4 3 k2 k1 sub frac mul k1 add put bc4 vc 1 index setflat { newpath mark xt yt radius 1 frac sub mul halfstep add 0 360 { arc radindex numsteps1 ne { xt yt radindex 1 add numsteps1 div 1 exch sub radius mul halfstep add dup xt add yt moveto 360 0 arcn } if fill }stopped {cleartomark exch 1.3 mul dup setflat exch 2 copy gt{stop}if} {cleartomark exit}ifelse }loop }for } gsave stopped grestore {exch pop 2 index exch 1.3 mul dup 100 gt{cleartomark setflat stop}if} {exit}ifelse }loop cleartomark setflat }bdf /lfp4{_lfp4}ndf /lfs4{_lfs4}ndf /rfs4{_rfs4}ndf /rfp4{_rfp4}ndf /ScitexVignette defed /xt xdf xt not {/yt save def} if /anyeq { cvlit exch cvlit exch 1 index type /arraytype eq 2 index type /packedarraytype eq or 1 index type /arraytype eq 2 index type /packedarraytype eq or and { 1 index length 1 index length eq { dup length 1 sub -1 0 { /ind exch def 1 index ind get 1 index ind get anyeq not {/ind -1 def exit} if } for pop pop ind 0 eq }{ pop pop false } ifelse }{ eq } ifelse } def /lfp4 where { pop /oldlfp /lfp4 load def /lfp4 { /yt xdf /xt xdf /ang xdf storerect /taperfcn xdf /kc2 xdf /yc2 xdf /mc2 xdf /cc2 xdf /kc1 xdf /yc1 xdf /mc1 xdf /cc1 xdf save 20 dict dup begin /VGVersion 0 def /typeOfVign 1 def /xDimension right left sub abs def /yDimension top bottom sub abs def /numOfColorPoints 2 def /verticalCoord [ top bottom ] def /horizontalCoord [ left left ] def /colorArray [ cc1 mc1 yc1 kc1 cc2 mc2 yc2 kc2 ] def /stepVectorFunction /taperfcn load {logtaper} anyeq {[1]}{[0]}ifelse def /smoothVG [0] def end W xt yt translate ang rotate xt neg yt neg translate ScitexVignette exch restore not { /BeginGradation where {pop BeginGradation} if cc1 mc1 yc1 kc1 cc2 mc2 yc2 kc2 /taperfcn load left bottom right top ang xt yt oldlfp /EndGradation where {pop EndGradation} if } if }bdf } if /lfs4 where { pop /oldlfs /lfs4 load def /lfs4 { /yt xdf /xt xdf /ang xdf storerect /taperfcn xdf /tint2 xdf /tint1 xdf /spotNum xdf save 20 dict dup begin /VGVersion 0 def /typeOfVign 1 def /xDimension right left sub abs def /yDimension top bottom sub abs def /numOfColorPoints 2 def /verticalCoord [ top bottom ] def /horizontalCoord [ left left ] def /colorArray [ tint2 spots spotNum get aload pop pop pop 4{4 index mul 4 1 roll}repeat 5 -1 roll pop tint1 spots spotNum get aload pop pop pop 4{4 index mul 4 1 roll}repeat 5 -1 roll pop ] def /stepVectorFunction /taperfcn load {logtaper} anyeq {[1]}{[0]}ifelse def /smoothVG [0] def end W xt yt translate ang rotate xt neg yt neg translate ScitexVignette exch restore not { /BeginGradation where {pop BeginGradation} if spotNum tint1 tint2 /taperfcn load left bottom right top ang xt yt oldlfs /EndGradation where {pop EndGradation} if } if }bdf } if /rfp4 where { pop /oldrfp /rfp4 load def /rfp4 { /kc2 xdf /yc2 xdf /mc2 xdf /cc2 xdf /kc1 xdf /yc1 xdf /mc1 xdf /cc1 xdf /radius xdf /yt xdf /xt xdf save 20 dict dup begin /VGVersion 0 def /typeOfVign 3 def /xDimension radius 2 mul def /yDimension radius 2 mul def /numOfColorPoints 2 def /verticalCoord [ yt yt ] def /horizontalCoord [ xt dup radius add ] def /colorArray [ cc2 mc2 yc2 kc2 cc1 mc1 yc1 kc1 ] def /stepVectorFunction [0] def /smoothVG [0] def end W ScitexVignette exch restore not { /BeginGradation where {pop BeginGradation} if xt yt radius cc1 mc1 yc1 kc1 cc2 mc2 yc2 kc2 oldrfp /EndGradation where {pop EndGradation} if } if } bdf } if /rfs4 where { pop /oldrfs /rfs4 load def /rfs4 { /tint2 xdf /tint1 xdf /spotNum xdf /radius xdf /yt xdf /xt xdf save 20 dict dup begin /VGVersion 0 def /typeOfVign 3 def /xDimension radius 2 mul def /yDimension radius 2 mul def /numOfColorPoints 2 def /verticalCoord [ yt yt ] def /horizontalCoord [ xt dup radius add ] def /colorArray [ tint2 spots spotNum get aload pop pop pop 4{4 index mul 4 1 roll}repeat 5 -1 roll pop tint1 spots spotNum get aload pop pop pop 4{4 index mul 4 1 roll}repeat 5 -1 roll pop ] def /stepVectorFunction [0] def /smoothVG [0] def end W ScitexVignette exch restore not { /BeginGradation where {pop BeginGradation} if xt yt radius spotNum tint1 tint2 oldrfs /EndGradation where {pop EndGradation} if } if } bdf } if xt not {yt restore} if /cvc [0 0 0 1] def /vc{ AltsysDict /cvc 2 index put aload length 4 eq {setcmykcolor} {setspotcolor} ifelse }bdf /origmtx matrix currentmatrix def /ImMatrix matrix currentmatrix def 0 setseparationgray /imgr {1692 1584 2484 2196 } def /bleed 0 def /clpr {1692 1584 2484 2196 } def /xs 1 def /ys 1 def /botx 0 def /overlap 0 def /wdist 18 def 0 2 mul fhsetspreadsize 0 0 ne {/df 0 def /clipflatness 0 def} if /maxsteps 256 def /currentpacking defed{false setpacking}if /spots[ 1 0 0 0 (Process Cyan) false newcmykcustomcolor 0 1 0 0 (Process Magenta) false newcmykcustomcolor 0 0 1 0 (Process Yellow) false newcmykcustomcolor 0 0 0 1 (Process Black) false newcmykcustomcolor ]def /makepattern defed /xt xdf xt not {/yt save def} if /PATmp{ exch dup length 3 add dict copy begin currentdict /Multi known not {/Multi 1 def} if Multi 1 ne { /UserProc /PaintProc load def /PaintProc { begin 0 1 Multi 1 sub { PaintColors 1 index get PATsc PaintData exch get gsave currentdict UserProc grestore }for end } bdf } if currentdict end exch makepattern }bdf /PATsp{ dup /PaintType get 2 eq { exch aload length 4 eq {5 -1 roll} {spots exch get 0 4 getinterval aload pop 4 {4 index mul 4 1 roll} repeat 6 -2 roll pop}ifelse [/Pattern /DeviceCMYK] setcolorspace }if setpattern }bdf /PATfill{{{eofill}fp}{{fill}fp}ifelse}bdf /PATprestroke{}bdf /PATstroke{stroke}bdf xt not {yt restore} if xt {/yt save def} if /PATtcalc{ gsave exch concat matrix currentmatrix exch 2 ne { dup 4 get exch dup 5 get exch XStep 0 dtransform round exch round exch XStep div exch XStep div exch 0 YStep dtransform round exch round exch YStep div exch YStep div exch 7 -3 roll astore } if grestore }bdf /PATmp{ exch dup length 8 add dict copy begin TilingType PATtcalc /PATcurrentMtx xdf currentdict /Multi known not {/Multi 1 def} if /FontType 3 def /Encoding 256 array def 3 string 0 1 255 {Encoding exch dup 3 index cvs cvn put} for pop /FontMatrix matrix def /FontBBox BBox def /BuildChar { mark 3 1 roll exch begin Multi 1 ne {PaintData exch get}{pop}ifelse PaintType 2 eq Multi 1 ne or {XStep 0 FontBBox aload pop setcachedevice} {XStep 0 setcharwidth}ifelse currentdict /PaintProc load end gsave exec grestore cleartomark }bdf currentdict end /foo exch definefont }bdf /PATsp{ /PATcurrent xdf PATcurrent /PaintType get 2 eq {/PATcolor xdf}if }bdf /PATpcalc{ PATcurrent begin gsave PATcurrentMtx setmatrix BBox aload pop pop pop translate pathbbox grestore YStep div ceiling 4 1 roll XStep div ceiling 4 1 roll YStep div floor 4 1 roll XStep div floor 4 1 roll 2 index sub cvi abs exch 3 index sub cvi abs exch 4 2 roll YStep mul exch XStep mul exch end }bdf /PATfill{ {{eoclip}fp}{{clip}fp}ifelse PATpcalc newpath PATcurrent dup begin setfont PATcurrentMtx setmatrix PaintType 2 eq {PATcolor vc} if 3 index string 0 1 Multi 1 sub { 3 index 3 index moveto Multi 1 ne {dup PaintColors exch get vc} if 0 1 7 index 1 sub { 2 index exch 2 index put } for pop 3 index { currentpoint 2 index show YStep add moveto }repeat }for 5 {pop} repeat end }bdf /PATprestroke{{strokepath}fp}bdf /PATstroke{false PATfill}bdf xt {yt restore} if /makepattern defed /xt xdf xt not {/yt save def} if userdict begin /fhpatdict 12 dict def end fhpatdict begin /PatternType 1 def /PaintType 1 def /TilingType 1 def /BBox [0 0 8 8] def /XStep 8 def /YStep 8 def /PatMtx [1 0 0 -1 0 8] def /PatIMtx [1 0 0 1 0 0] def /PaintProc {begin FHPatColor vc 8 8 true PatMtx PatData imagemask end} bdf /FHPatColor [0 0 0 0] def end /macpatorient{1 0 dtransform 0 eq exch 0 ne and}bdf /veccalc { dtransform round exch round exch idtransform dup mul exch dup mul exch add sqrt } bdf gsave macpatorient initmatrix 0 0 transform 2 copy round exch round exch 2 index sub exch 3 index sub exch idtransform translate pop pop 1 0 veccalc 0 1 veccalc scale {0}{-90}ifelse rotate matrix currentmatrix /PATmtx xdf grestore /pF{ gsave 1 setgray filler grestore fhpatdict begin /PatData xdf /FHPatColor xdf end save PATmtx setmatrix fhpatdict dup /PatIMtx get PATmp PATsp /clipper load /eoclip load eq PATfill restore }bdf /pS{ fhpatdict begin /PatData xdf /FHPatColor xdf end save PATprestroke PATmtx setmatrix gsave 1 setgray stroke grestore fhpatdict dup /PatIMtx get PATmp PATsp PATstroke restore }bdf xt not {yt restore} if xt {/yt save def} if /macpatstring 8 string def /macpattint 0 def /macpatcol [] def /macpatangle{1 0 matrix defaultmatrix dtransform exch atan}bdf /macpatorient{1 0 dtransform 0 eq exch 0 ne and}bdf /macpatcountbits { 0 exch { cvi 0 1 8 { pop dup 1 and 0 ne { exch 1 add exch } if -1 bitshift } for pop } forall }bdf /macpatset { macpatstring copy pop 9.375 macpatangle macpatorient not{-90 add}if { 1 add 4 mul cvi macpatstring exch get exch 1 add 4 mul cvi 7 sub bitshift 1 and inverted? {1 exch sub} if } setscreen 64 macpatstring macpatcountbits sub 64 div inverted? {.9921875 exch sub} if /macpattint xdf {} st fhnumcolors 1 ne { cvc dup length array copy /macpatcol xdf /macpattint 1 macpattint sub def macpatcol length 4 eq { 0 1 3 { macpatcol exch 2 copy get .25 lt{0}{macpattint}ifelse put }for } { macpatcol dup 0 get .25 lt{0}{macpattint}ifelse 0 exch put }ifelse macpatcol vc } { currentgray 1 ne {macpattint setseparationgray} if } ifelse }bdf /pF{ gsave exch vc macpatset {filler}fp grestore }bdf /pS{ gsave exch vc macpatset {stroke}fp grestore }bdf xt {yt restore} if /pf{closepath pF}bdf /ps{closepath pS}bdf /textopf false def /curtextmtx{}def /otw .25 def /msf{dup/curtextmtx xdf makefont setfont}bdf /makesetfont/msf load def /curtextheight{.707104 .707104 curtextmtx dtransform dup mul exch dup mul add sqrt}bdf /ta{1 index {tempstr 0 2 index put tempstr 2 index gsave exec grestore tempstr stringwidth rmoveto 5 index eq{6 index 6 index rmoveto}if 3 index 3 index rmoveto }forall 7{pop}repeat}bdf /sts{/textopf currentoverprint def vc setoverprint /ts{awidthshow}def exec textopf setoverprint}bdf /stol{/xt currentlinewidth def setlinewidth vc newpath /ts{{false charpath stroke}ta}def exec xt setlinewidth}bdf /strk{/textopf currentoverprint def vc setoverprint /ts{{false charpath stroke}ta}def exec textopf setoverprint }bdf n [] 0 d 3.863708 M 1 w 0 j 0 J false setoverprint 0 i false eomode [0 0 0 1] vc vms 1875.703 1783.3522 m 1875.6685 1798.1408 L 1856.7749 1793.7991 1845.0362 1787.744 1845.0362 1780.7178 C 1845.0362 1767.6231 1886.2255 1757.0081 1937.0365 1757.0081 C 1987.8474 1757.0081 2029.0367 1767.6231 2029.0367 1780.7178 C 2029.0367 1787.788 2017.029 1794.1354 1997.9825 1798.4793 C 1997.9822 1783.0937 L 1997.9825 1774.5322 1970.602 1767.6254 1936.8255 1767.6254 C 1903.3985 1767.6254 1876.2083 1774.9538 1875.703 1783.3522 C [0.38 0.38 0.48 0] vc f 0.8648 w 3.863693 M [0 0 0 1] vc S n 1875.4556 1925.2712 m 1868.2092 1927.9825 1864.0088 1931.2048 1864.0088 1934.6618 C 1864.0088 1938.1581 1868.3049 1941.4141 1875.7562 1944.1443 C 1875.7562 1946.1595 L 1866.3025 1942.8795 1860.7455 1938.8233 1860.7455 1934.4326 C 1860.7455 1923.5203 1895.0698 1914.6745 1937.4123 1914.6745 C 1979.7547 1914.6745 2014.0791 1923.5203 2014.0791 1934.4326 C 2014.0791 1938.9391 2008.2251 1943.0932 1998.3699 1946.4173 C 1998.3699 1944.0793 L 2005.6604 1941.3625 2009.8887 1938.1303 2009.8887 1934.6618 C 2009.8887 1931.1879 2005.5414 1927.6704 1998.2298 1924.951 C 1985.1965 1920.0847 1962.6396 1916.868 1936.9962 1916.868 C 1911.2627 1916.868 1888.4143 1920.3763 1875.4556 1925.2712 C [0.23 0.25 0.79 0.08] vc f [0 0 0 1] vc S n 1860.3696 1934.8313 m 1860.3696 1821.5513 L 1860.7084 1810.9789 1894.885 1801.8728 1936.9612 1801.8728 C 1979.2812 1801.8728 2013.7034 1810.8598 2013.7033 1821.5513 C 2013.3626 1934.1817 L 2013.3627 1923.4901 1979.0566 1914.851 1936.7366 1914.851 C 1894.6604 1914.851 1860.7084 1924.259 1860.3696 1934.8313 C [0.23 0.25 0.79 0.08] vc f [0 0 0 1] vc S n 3.863708 M S n 1937.1312 1821.9483 m 1937.1844 1821.7837 1937.0513 1821.6465 1936.9182 1821.5092 C 1936.9448 1821.7013 1936.9981 1821.8111 1937.1312 1821.9483 C s n 2013.5873 1831.0031 m 2011.381 1820.6005 1977.9522 1812.3407 1937.0365 1812.3407 C 1896.0473 1812.3407 1862.5719 1820.6301 1860.4739 1831.059 C S n 2013.5873 1834.2766 m 2011.381 1823.8741 1977.9522 1815.6142 1937.0365 1815.6142 C 1896.0473 1815.6142 1862.5719 1823.9037 1860.4739 1834.3326 C S n 2013.5873 1837.371 m 2011.381 1826.9684 1977.9522 1818.7085 1937.0365 1818.7085 C 1896.0473 1818.7085 1862.5719 1826.998 1860.4739 1837.4269 C S n 2013.5873 1840.4653 m 2011.381 1830.0627 1977.9522 1821.8029 1937.0365 1821.8029 C 1896.0473 1821.8029 1862.5719 1830.0924 1860.4739 1840.5212 C S n 2013.5873 1843.5596 m 2011.381 1833.157 1977.9522 1824.8972 1937.0365 1824.8972 C 1896.0473 1824.8972 1862.5719 1833.1867 1860.4739 1843.6156 C S n 2013.5873 1846.6539 m 2011.381 1836.2514 1977.9522 1827.9915 1937.0365 1827.9915 C 1896.0473 1827.9915 1862.5719 1836.281 1860.4739 1846.7099 C S n 2013.5873 1849.7482 m 2011.381 1839.3457 1977.9522 1831.0858 1937.0365 1831.0858 C 1896.0473 1831.0858 1862.5719 1839.3753 1860.4739 1849.8042 C S n 2013.5873 1852.8426 m 2011.381 1842.44 1977.9522 1834.1802 1937.0365 1834.1802 C 1896.0473 1834.1802 1862.5719 1842.4697 1860.4739 1852.8986 C S n 2013.5873 1855.9369 m 2011.381 1845.5344 1977.9522 1837.2745 1937.0365 1837.2745 C 1896.0473 1837.2745 1862.5719 1845.564 1860.4739 1855.9928 C S n 2013.5873 1859.0312 m 2011.381 1848.6287 1977.9522 1840.3688 1937.0365 1840.3688 C 1896.0473 1840.3688 1862.5719 1848.6583 1860.4739 1859.0872 C S n 2013.5873 1862.1255 m 2011.381 1851.723 1977.9522 1843.4632 1937.0365 1843.4632 C 1896.0473 1843.4632 1862.5719 1851.7526 1860.4739 1862.1815 C S n 2013.5873 1865.2199 m 2011.381 1854.8173 1977.9522 1846.5575 1937.0365 1846.5575 C 1896.0473 1846.5575 1862.5719 1854.8469 1860.4739 1865.2758 C S n 2013.5873 1868.3142 m 2011.381 1857.9117 1977.9522 1849.6518 1937.0365 1849.6518 C 1896.0473 1849.6518 1862.5719 1857.9413 1860.4739 1868.3702 C S n true eomode 1936.9558 1877.5907 m 1937.009 1877.426 1936.8759 1877.2888 1936.7428 1877.1516 C 1936.7695 1877.3437 1936.8227 1877.4535 1936.9558 1877.5907 C [0 0 0 0] <0000000000000000> pf S n vmrs 2013.4119 1886.6454 m 2011.2056 1876.2429 1977.7768 1867.983 1936.8611 1867.983 C 1895.872 1867.983 1862.3966 1876.2725 1860.2985 1886.7014 C 0.8648 w S n 2013.4119 1889.919 m 2011.2056 1879.5165 1977.7768 1871.2566 1936.8611 1871.2566 C 1895.872 1871.2566 1862.3966 1879.5461 1860.2985 1889.9749 C S n 2013.4119 1893.0133 m 2011.2056 1882.6107 1977.7768 1874.3509 1936.8611 1874.3509 C 1895.872 1874.3509 1862.3966 1882.6404 1860.2985 1893.0693 C S n 2013.4119 1896.1077 m 2011.2056 1885.7051 1977.7768 1877.4453 1936.8611 1877.4453 C 1895.872 1877.4453 1862.3966 1885.7347 1860.2985 1896.1636 C S n 2013.4119 1899.202 m 2011.2056 1888.7994 1977.7768 1880.5396 1936.8611 1880.5396 C 1895.872 1880.5396 1862.3966 1888.829 1860.2985 1899.2579 C S n 2013.4119 1902.2963 m 2011.2056 1891.8937 1977.7768 1883.6339 1936.8611 1883.6339 C 1895.872 1883.6339 1862.3966 1891.9234 1860.2985 1902.3523 C S n 2013.4119 1905.3907 m 2011.2056 1894.9881 1977.7768 1886.7282 1936.8611 1886.7282 C 1895.872 1886.7282 1862.3966 1895.0177 1860.2985 1905.4466 C S n 2013.4119 1908.485 m 2011.2056 1898.0824 1977.7768 1889.8226 1936.8611 1889.8226 C 1895.872 1889.8226 1862.3966 1898.112 1860.2985 1908.5409 C S n 2013.4119 1911.5793 m 2011.2056 1901.1768 1977.7768 1892.9169 1936.8611 1892.9169 C 1895.872 1892.9169 1862.3966 1901.2064 1860.2985 1911.6352 C S n 2013.4119 1914.6736 m 2011.2056 1904.271 1977.7768 1896.0112 1936.8611 1896.0112 C 1895.872 1896.0112 1862.3966 1904.3007 1860.2985 1 914.7296 C S n 2013.4119 1917.7679 m 2011.2056 1907.3654 1977.7768 1899.1055 1936.8611 1899.1055 C 1895.872 1899.1055 1862.3966 1907.395 1860.2985 1917.8239 C S n 2013.4119 1920.8623 m 2011.2056 1910.4597 1977.7768 1902.1999 1936.8611 1902.1999 C 1895.872 1902.1999 1862.3966 1910.4893 1860.2985 1920.9182 C S n 2013.4119 1923.9566 m 2011.2056 1913.554 1977.7768 1905.2942 1936.8611 1905.2942 C 1895.872 1905.2942 1862.3966 1913.5837 1860.2985 1924.0126 C S n 1862.6872 1782.9743 m 1862.6872 1787.9138 L 1867.5854 1790.658 L 1857.7454 1793.4102 L S n 1860.2443 1823.8065 m 1860.3696 1819.9048 L S n 2011.486 1782.9354 m 2011.486 1787.8749 L 2016.3842 1790.6191 L 2006.5441 1793.3712 L S n 2011.1853 1936.0013 m 2011.1853 1940.9408 L 2016.0835 1943.685 L 2006.2435 1946.4371 L S n vmrs 1862.9127 1935.4927 m 1862.9127 1940.4323 L 1867.8109 1943.1765 L 1857.9709 1945.9286 L 0.8648 w S n 2006.5406 1793.1316 m 2016.666 1796.1172 L 2006.6568 1798.5321 L 2016.7725 1801.386 L 2006.4438 1803.4716 L 2016.5595 1806.6549 L 2006.4438 1809.2893 L 2016.4719 1812.1933 L 2011.4296 1814.3983 L 2011.4364 1816.36 L S n 1857.7417 1793.1706 m 1867.8672 1796.1561 L 1857.8579 1798.571 L 1867.9737 1801.425 L 1857.645 1803.5105 L 1867.7607 1806.6938 L 1857.645 1809.3282 L 1867.673 1812.2322 L 1862.6308 1814.4373 L 1862.6391 1816.8432 L S n 1868.0742 1953.9081 m 1867.5604 1954.0724 L S n 1857.9673 1945.689 m 1868.0928 1948.6746 L 1858.0835 1951.0895 L 1868.0742 1953.9081 L S n 2006.2399 1946.1975 m 2016.3654 1949.1831 L 2006.3561 1951.598 L 2016.4719 1954.452 L 2010.5346 1955.6507 L S n 1875.4556 1809.7797 m 1866.2138 1812.9855 1860.6518 1816.9379 1860.38 1821.2218 C S n 2013.6848 1821.1133 m 2013.3204 1816.7953 2007.5811 1812.8186 1998.1225 1809.61 C S n 1875.703 1809.5763 m 1875.703 1783.3522 L 1876.0221 1774.693 1903.3609 1767.5457 1937.0365 1767.5457 C 1970.9104 1767.5457 1998.3699 1774.6225 1998.3699 1783.3522 C 1998.1225 1809.61 L 1984.1207 1804.8601 1961.9686 1801.7932 1937.0365 1801.7932 C 1911.8086 1801.7932 1889.6744 1804.7299 1875.703 1809.5763 C [0.53 1 0.8981 0] vc f [0 0 0 1] vc S n 3.863693 M S n 1875.4556 1952.0419 m 1856.7265 1956.3822 1844.9485 1962.6754 1844.9485 1969.6777 C 1844.9485 1982.7724 1886.1378 1993.3875 1936.9488 1993.3875 C 1987.7597 1993.3875 2028.9489 1982.7724 2028.9489 1969.6777 C 2028.9489 1962.6346 2017.0335 1956.309 1998.1143 1951.9664 C S n 1875.703 1925.45 m 1875.703 1951.9985 L 1891.9373 1948.2317 1913.3414 1945.9679 1936.9488 1945.9679 C 1960.4309 1945.9679 1982.1136 1948.2344 1998.3699 1951.9657 C 1998.3699 1925.2035 L 1985.394 1920.3773 1962.7145 1917.2089 1936.9488 1917.2089 C 1911.1124 1917.2089 1888.6612 1920.6017 1875.703 1925.45 C [0.53 1 0.8981 0] vc f 3.863708 M [0 0 0 1] vc S n 1845.4248 1969.577 m 1845.4248 1982.5504 1886.5187 1993.0672 1937.212 1993.0672 C 1987.9054 1993.0672 2028.9993 1982.5504 2028.9993 1969.577 C 2028.9993 1956.6035 1987.9054 1946.0867 1937.212 1946.0867 C 1886.5187 1946.0867 1845.4248 1956.6035 1845.4248 1969.577 C [0.38 0.38 0.48 0] vc f 3.863693 M [0 0 0 1] vc S n true eomode 2028.7826 1779.6892 m 2028.332 1767.176 1987.5554 1757.0672 1937.3185 1757.0672 C 1887.2349 1757.0672 1845.6773 1767.1598 1845.0362 1779.6201 C 1845.0362 1764.9113 L 1844.9449 1764.631 1845.0362 1765.1941 1845.0362 1764.9113 C 1845.0362 1751.8166 1886.2255 1741.2016 1937.0365 1741.2016 C 1987.8474 1741.2016 2029.0367 1751.8166 2029.0367 1764.9113 C 2029.0367 1765.1978 2029.0413 1765.5851 2029.0022 1765.8691 C 2028.7826 1779.6892 L [0.38 0.38 0.48 0] vc f [0 0 0 1] vc S n false eomode 2158.9116 1961.057 m 2165.3572 1961.057 L 2165.3572 1769.1989 L 2158.9116 1769.1989 L 2158.9116 1961.057 L [0.23 0.25 0.79 0.08] vc f 1.2891 w 3.863708 M [0 0 0 1] vc S n 2320.0502 1961.057 m 2326.4958 1961.057 L 2326.4958 1769.1989 L 2320.0502 1769.1989 L 2320.0502 1961.057 L [0.23 0.25 0.79 0.08] vc f [0 0 0 1] vc S n 2178.2483 1785.1871 m 2178.2483 1945.0688 L 2191.1394 1945.0688 L 2191.1394 1961.057 L 2229.8125 1961.057 L 2229.8125 1977.0452 L 2255.5948 1977.0452 L 2255.5948 1961.057 L 2294.2681 1961.057 L 2294.2681 1945.0688 L 2307.1591 1945.0688 L 2307.1591 1785.1871 L 2294.2681 1785.1871 L 2294.2681 1769.1989 L 2255.5948 1769.1989 L 2255.5948 1753.2108 L 2229.8125 1753.2108 L 2229.8125 1769.1989 L 2191.1394 1769.1989 L 2191.1394 1785.1871 L 2178.2483 1785.1871 L [0.9829 0.1971 0.1971 0] vc f [0 0 0 1] vc S n 2190.7602 1988.6126 m 2222.9879 1988.6126 L 2222.9879 1964.6303 L 2190.7602 1964.6303 L 2190.7602 1988.6126 L [0.53 1 0.8981 0] vc f [0 0 0 1] vc S n vmrs 2261.6611 1988.6126 m 2293.8889 1988.6126 L 2293.8889 1964.6303 L 2261.6611 1964.6303 L 2261.6611 1988.6126 L [0.53 1 0.8981 0] vc f 1.2891 w [0 0 0 1] vc S n 2148.1691 1988.7033 m 2337.2383 1988.7033 L 8 w 3.863693 M [0.38 0.38 0.48 0] vc S n 2155.2554 1952.6012 m 2155.2554 1953.6339 2155.9305 1954.4711 2156.7631 1954.4711 C 2157.5958 1954.4711 2158.2708 1953.6339 2158.2708 1952.6012 C 2158.2708 1951.5685 2157.5958 1950.7313 2156.7631 1950.7313 C 2155.9305 1950.7313 2155.2554 1951.5685 2155.2554 1952.6012 C 0.6445 w [0 0 0 1] vc s n 2155.2554 1948.9373 m 2155.2554 1949.97 2155.9305 1950.8072 2156.7631 1950.8072 C 2157.5958 1950.8072 2158.2708 1949.97 2158.2708 1948.9373 C 2158.2708 1947.9045 2157.5958 1947.0674 2156.7631 1947.0674 C 2155.9305 1947.0674 2155.2554 1947.9045 2155.2554 1948.9373 C s n 2155.2554 1945.2734 m 2155.2554 1946.3061 2155.9305 1947.1433 2156.7631 1947.1433 C 2157.5958 1947.1433 2158.2708 1946.3061 2158.2708 1945.2734 C 2158.2708 1944.2406 2157.5958 1943.4034 2156.7631 1943.4034 C 2155.9305 1943.4034 2155.2554 1944.2406 2155.2554 1945.2734 C s n 2155.2554 1941.6094 m 2155.2554 1942.6421 2155.9305 1943.4793 2156.7631 1943.4793 C 2157.5958 1943.4793 2158.2708 1942.6421 2158.2708 1941.6094 C 2158.2708 1940.5766 2157.5958 1939.7395 2156.7631 1939.7395 C 2155.9305 1939.7395 2155.2554 1940.5766 2155.2554 1941.6094 C s n 2155.2554 1937.9454 m 2155.2554 1938.9782 2155.9305 1939.8154 2156.7631 1939.8154 C 2157.5958 1939.8154 2158.2708 1938.9782 2158.2708 1937.9454 C 2158.2708 1936.9127 2157.5958 1936.0755 2156.7631 1936.0755 C 2155.9305 1936.0755 2155.2554 1936.9127 2155.2554 1937.9454 C s n 2155.2554 1934.2815 m 2155.2554 1935.3142 2155.9305 1936.1514 2156.7631 1936.1514 C 2157.5958 1936.1514 2158.2708 1935.3142 2158.2708 1934.2815 C 2158.2708 1933.2487 2157.5958 1932.4115 2156.7631 1932.4115 C 2155.9305 1932.4115 2155.2554 1933.2487 2155.2554 1934.2815 C s n 2155.2554 1930.6175 m 2155.2554 1931.6502 2155.9305 1932.4874 2156.7631 1932.4874 C 2157.5958 1932.4874 2158.2708 1931.6502 2158.2708 1930.6175 C 2158.2708 1929.5848 2157.5958 1928.7476 2156.7631 1928.7476 C 2155.9305 1928.7476 2155.2554 1929.5848 2155.2554 1930.6175 C s n 2155.2554 1926.9535 m 2155.2554 1927.9863 2155.9305 1928.8235 2156.7631 1928.8235 C 2157.5958 1928.8235 2158.2708 1927.9863 2158.2708 1926.9535 C 2158.2708 1925.9208 2157.5958 1925.0836 2156.7631 1925.0836 C 2155.9305 1925.0836 2155.2554 1925.9208 2155.2554 1926.9535 C s n 2155.2554 1923.2896 m 2155.2554 1924.3223 2155.9305 1925.1595 2156.7631 1925.1595 C 2157.5958 1925.1595 2158.2708 1924.3223 2158.2708 1923.2896 C 2158.2708 1922.2569 2157.5958 1921.4197 2156.7631 1921.4197 C 2155.9305 1921.4197 2155.2554 1922.2569 2155.2554 1923.2896 C s n 2155.2554 1919.6256 m 2155.2554 1920.6584 2155.9305 1921.4956 2156.7631 1921.4956 C 2157.5958 1921.4956 2158.2708 1920.6584 2158.2708 1919.6256 C 2158.2708 1918.5929 2157.5958 1917.7557 2156.7631 1917.7557 C 2155.9305 1917.7557 2155.2554 1918.5929 2155.2554 1919.6256 C s n 2155.2554 1915.9617 m 2155.2554 1916.9944 2155.9305 1917.8316 2156.7631 1917.8316 C 2157.5958 1917.8316 2158.2708 1916.9944 2158.2708 1915.9617 C 2158.2708 1914.929 2157.5958 1914.0918 2156.7631 1914.0918 C 2155.9305 1914.0918 2155.2554 1914.929 2155.2554 1915.9617 C s n 2155.2554 1912.2977 m 2155.2554 1913.3304 2155.9305 1914.1676 2156.7631 1914.1676 C 2157.5958 1914.1676 2158.2708 1913.3304 2158.2708 1912.2977 C 2158.2708 1911.2649 2157.5958 1910.4277 2156.7631 1910.4277 C 2155.9305 1910.4277 2155.2554 1911.2649 2155.2554 1912.2977 C s n 2155.2554 1908.6338 m 2155.2554 19 09.6665 2155.9305 1910.5037 2156.7631 1910.5037 C 2157.5958 1910.5037 2158.2708 1909.6665 2158.2708 1908.6338 C 2158.2708 1907.601 2157.5958 1906.7639 2156.7631 1906.7639 C 2155.9305 1906.7639 2155.2554 1907.601 2155.2554 1908.6338 C s n 2155.2554 1904.9698 m 2155.2554 1906.0025 2155.9305 1906.8397 2156.7631 1906.8397 C 2157.5958 1906.8397 2158.2708 1906.0025 2158.2708 1904.9698 C 2158.2708 1903.937 2157.5958 1903.0999 2156.7631 1903.0999 C 2155.9305 1903.0999 2155.2554 1903.937 2155.2554 1904.9698 C s n 2155.2554 1900.9727 m 2155.2554 1902.0055 2155.9305 1902.8427 2156.7631 1902.8427 C 2157.5958 1902.8427 2158.2708 1902.0055 2158.2708 1900.9727 C 2158.2708 1899.94 2157.5958 1899.1028 2156.7631 1899.1028 C 2155.9305 1899.1028 2155.2554 1899.94 2155.2554 1900.9727 C s n 2155.2554 1896.9757 m 2155.2554 1898.0084 2155.9305 1898.8456 2156.7631 1898.8456 C 2157.5958 1898.8456 2158.2708 1898.0084 2158.2708 1896.9757 C 2158.2708 1895.943 2157.5958 1895.1058 2156.7631 1895.1058 C 2155.9305 1895.1058 2155.2554 1895.943 2155.2554 1896.9757 C s n 2155.2554 1892.9787 m 2155.2554 1894.0114 2155.9305 1894.8486 2156.7631 1894.8486 C 2157.5958 1894.8486 2158.2708 1894.0114 2158.2708 1892.9787 C 2158.2708 1891.9459 2157.5958 1891.1088 2156.7631 1891.1088 C 2155.9305 1891.1088 2155.2554 1891.9459 2155.2554 1892.9787 C s n 2155.2554 1888.9816 m 2155.2554 1890.0144 2155.9305 1890.8516 2156.7631 1890.8516 C 2157.5958 1890.8516 2158.2708 1890.0144 2158.2708 1888.9816 C 2158.2708 1887.9489 2157.5958 1887.1117 2156.7631 1887.1117 C 2155.9305 1887.1117 2155.2554 1887.9489 2155.2554 1888.9816 C s n vmrs 2155.2554 1842.0164 m 2155.2554 1843.0491 2155.9305 1843.8863 2156.7631 1843.8863 C 2157.5958 1843.8863 2158.2708 1843.0491 2158.2708 1842.0164 C 2158.2708 1840.9836 2157.5958 1840.1465 2156.7631 1840.1465 C 2155.9305 1840.1465 2155.2554 1840.9836 2155.2554 1842.0164 C 0.6445 w 3.863693 M s n 2155.3897 1838.0193 m 2155.3897 1839.052 2156.0647 1839.8892 2156.8974 1839.8892 C 2157.7301 1839.8892 2158.4051 1839.052 2158.4051 1838.0193 C 2158.4051 1836.9866 2157.7301 1836.1494 2156.8974 1836.1494 C 2156.0647 1836.1494 2155.3897 1836.9866 2155.3897 1838.0193 C s n 2155.3897 1834.0222 m 2155.3897 1835.0549 2156.0647 1835.8921 2156.8974 1835.8921 C 2157.7301 1835.8921 2158.4051 1835.0549 2158.4051 1834.0222 C 2158.4051 1832.9895 2157.7301 1832.1523 2156.8974 1832.1523 C 2156.0647 1832.1523 2155.3897 1832.9895 2155.3897 1834.0222 C s n 2155.3897 1830.0253 m 2155.3897 1831.058 2156.0647 1831.8952 2156.8974 1831.8952 C 2157.7301 1831.8952 2158.4051 1831.058 2158.4051 1830.0253 C 2158.4051 1828.9925 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1784.1878 2156.8974 1784.1878 C 2156.0647 1784.1878 2155.3897 1785.025 2155.3897 1786.0577 C s n 2155.3897 1782.0607 m 2155.3897 1783.0935 2156.0647 1783.9306 2156.8974 1783.9306 C 2157.7301 1783.9306 2158.4051 1783.0935 2158.4051 1782.0607 C 2158.4051 1781.028 2157.7301 1780.1908 2156.8974 1780.1908 C 2156.0647 1780.1908 2155.3897 1781.028 2155.3897 1782.0607 C s n 2155.3897 1778.0637 m 2155.3897 1779.0964 2156.0647 1779.9336 2156.8974 1779.9336 C 2157.7301 1779.9336 2158.4051 1779.0964 2158.4051 1778.0637 C 2158.4051 1777.0309 2157.7301 1776.1937 2156.8974 1776.1937 C 2156.0647 1776.1937 2155.3897 1777.0309 2155.3897 1778.0637 C s n 2165.3572 1953.063 m 2171.8027 1953.063 L S n 2171.5105 1953.4867 m 2174.7332 1953.4867 2176.076 1956.8175 2178.4931 1959.1491 C 2181.9845 1962.8131 2185.8392 1962.7836 2190.6734 1963.1167 C 2205.1047 1963.0555 L S n 2319.6474 1954.1834 m 2313.3146 1954.1834 L S n vmrs 2313.6018 1954.5535 m 2310.4353 1954.5535 2309.116 1957.4628 2306.7412 1959.4994 C 2303.3109 1962.6997 2299.5236 1962.6739 2294.774 1962.9649 C 2280.595 1962.9115 L 0.6445 w 3.863693 M S n 2190.2231 1765.7774 m 2222.4508 1765.7774 L 2222.4508 1741.7952 L 2190.2231 1741.7952 L 2190.2231 1765.7774 L [0.53 1 0.8981 0] vc f 1.2891 w 3.863708 M [0 0 0 1] vc S n 2261.1241 1765.7774 m 2293.3518 1765.7774 L 2293.3518 1741.7952 L 2261.1241 1741.7952 L 2261.1241 1765.7774 L [0.53 1 0.8981 0] vc f [0 0 0 1] vc S n 2148.3033 1741.8857 m 2337.2383 1741.8857 L 8 w 3.863693 M [0.38 0.38 0.48 0] vc S n 2165.3572 1777.193 m 2171.8027 1777.193 L 0.6445 w [0 0 0 1] vc S n 2171.5105 1776.7693 m 2174.7332 1776.7693 2176.076 1773.4384 2178.4931 1771.1068 C 2181.9845 1767.4428 2185.8392 1767.4723 2190.6734 1767.1393 C 2205.1047 1767.2004 L S n 2319.6474 1776.0726 m 2313.3146 1776.0726 L S n 2313.6018 1775.7024 m 2310.4353 1775.7024 2309.116 1772.7931 2306.7412 1770.7565 C 2303.3109 1767.5562 2299.5236 1767.582 2294.774 1767.291 C 2280.595 1767.3445 L S n 2326.7337 1951.8065 m 2326.7337 1952.8392 2327.4088 1953.6764 2328.2414 1953.6764 C 2329.0741 1953.6764 2329.7491 1952.8392 2329.7491 1951.8065 C 2329.7491 1950.7737 2329.0741 1949.9366 2328.2414 1949.9366 C 2327.4088 1949.9366 2326.7337 1950.7737 2326.7337 1951.8065 C s n 2326.7337 1948.1425 m 2326.7337 1949.1752 2327.4088 1950.0125 2328.2414 1950.0125 C 2329.0741 1950.0125 2329.7491 1949.1752 2329.7491 1948.1425 C 2329.7491 1947.1098 2329.0741 1946.2726 2328.2414 1946.2726 C 2327.4088 1946.2726 2326.7337 1947.1098 2326.7337 1948.1425 C s n 2326.7337 1944.4785 m 2326.7 337 1945.5113 2327.4088 1946.3485 2328.2414 1946.3485 C 2329.0741 1946.3485 2329.7491 1945.5113 2329.7491 1944.4785 C 2329.7491 1943.4458 2329.0741 1942.6086 2328.2414 1942.6086 C 2327.4088 1942.6086 2326.7337 1943.4458 2326.7337 1944.4785 C s n 2326.7337 1940.8146 m 2326.7337 1941.8473 2327.4088 1942.6845 2328.2414 1942.6845 C 2329.0741 1942.6845 2329.7491 1941.8473 2329.7491 1940.8146 C 2329.7491 1939.7818 2329.0741 1938.9446 2328.2414 1938.9446 C 2327.4088 1938.9446 2326.7337 1939.7818 2326.7337 1940.8146 C s n 2326.7337 1937.1507 m 2326.7337 1938.1834 2327.4088 1939.0206 2328.2414 1939.0206 C 2329.0741 1939.0206 2329.7491 1938.1834 2329.7491 1937.1507 C 2329.7491 1936.1179 2329.0741 1935.2807 2328.2414 1935.2807 C 2327.4088 1935.2807 2326.7337 1936.1179 2326.7337 1937.1507 C s n 2326.7337 1933.4867 m 2326.7337 1934.5194 2327.4088 1935.3566 2328.2414 1935.3566 C 2329.0741 1935.3566 2329.7491 1934.5194 2329.7491 1933.4867 C 2329.7491 1932.4539 2329.0741 1931.6167 2328.2414 1931.6167 C 2327.4088 1931.6167 2326.7337 1932.4539 2326.7337 1933.4867 C s n 2326.7337 1929.8227 m 2326.7337 1930.8555 2327.4088 1931.6927 2328.2414 1931.6927 C 2329.0741 1931.6927 2329.7491 1930.8555 2329.7491 1929.8227 C 2329.7491 1928.79 2329.0741 1927.9528 2328.2414 1927.9528 C 2327.4088 1927.9528 2326.7337 1928.79 2326.7337 1929.8227 C s n 2326.7337 1926.1588 m 2326.7337 1927.1915 2327.4088 1928.0287 2328.2414 1928.0287 C 2329.0741 1928.0287 2329.7491 1927.1915 2329.7491 1926.1588 C 2329.7491 1925.126 2329.0741 1924.2888 2328.2414 1924.2888 C 2327.4088 1924.2888 2326.7337 1925.126 2326.7337 1926.1588 C s n 2326.7337 1922.4948 m 2326.7337 1923.5275 2327.4088 1924.3647 2328.2414 1924.3647 C 2329.0741 1924.3647 2329.7491 1923.5275 2329.7491 1922.4948 C 2329.7491 1921.4621 2329.0741 1920.6249 2328.2414 1920.6249 C 2327.4088 1920.6249 2326.7337 1921.4621 2326.7337 1922.4948 C s n 2326.7337 1918.8309 m 2326.7337 1919.8636 2327.4088 1920.7008 2328.2414 1920.7008 C 2329.0741 1920.7008 2329.7491 1919.8636 2329.7491 1918.8309 C 2329.7491 1917.7981 2329.0741 1916.961 2328.2414 1916.961 C 2327.4088 1916.961 2326.7337 1917.7981 2326.7337 1918.8309 C s n 2326.7337 1915.1669 m 2326.7337 1916.1996 2327.4088 1917.0368 2328.2414 1917.0368 C 2329.0741 1917.0368 2329.7491 1916.1996 2329.7491 1915.1669 C 2329.7491 1914.1342 2329.0741 1913.297 2328.2414 1913.297 C 2327.4088 1913.297 2326.7337 1914.1342 2326.7337 1915.1669 C s n 2326.7337 1911.5029 m 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