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<!DOCTYPE html PUBLIC "-//W3C//DTD HTML 4.01 Transitional//EN">
<html>
  <head>
    <title>Scan Recognition Format File (.cht)</title>
    <meta http-equiv="content-type" content="text/html;
      charset=windows-1252">
    <meta name="author" content="Graeme Gill">
  </head>
  <body>
    <h2>Description of the .cht format</h2>
    [This is a rather inflexible format, that should really be replaced
    with a CGATS style file.]<br>
    <br>
    The <span style="font-weight: bold;">.cht</span> format file is
    used
    to hold the image recognition information that allows the <a
      href="scanin.html">scanin</a> program to align the input image
    with
    the specified sample boxes.<br>
    <br>
    A raw <span style="font-weight: bold;">.cht</span> file can be
    produced by running <a href="scanin.html">scanin</a>
    with the <a href="scanin.html#g">-g</a> option, although this will
    then need
    cleaning up manually, using a text editor. The cleanup consists of
    deleting
    any unwanted reference lines from the XLIST and YLISTs, adding the
    the
    sample
    box references, and possibly adding the expected sample values.<br>
    <br>
    The <span style="font-weight: bold;">.cht</span> image recognition
    file is usually set up to recognized a scanned test chart that
    includes
    the edges of the chart itself, <span style="font-weight: bold;">not</span>
    a cropped version of the chart that excludes the edges of the chart
    itself. This is to allow <span style="font-weight: bold;">scanin</span>
    to be used with scans that have just be roughly cropped, without
    requiring that a scan be treated in detail with an application such
    as
    Adobe Photoshop.<br>
    <br>
    The keywords and associated data must be used in the following
    order: <b>BOXES</b>,
    <b>BOX_SHRINK</b>, <b>REF_ROTATION</b>, <b>XLIST</b>, <b>YLIST</b>
    and <b>EXPECTED</b>.<br>
    <br>
    The physical units used for boxes and edge lists are arbitrary units
    (i.e.
    pixels as generated by scanin -g, but could be mm, inches etc. if
    created
    &nbsp;some other way), the only requirement is that the sample box
    definitions need to agree with the X/YLIST definitions. Typically if
    a
    scanned chart is used to build the reference, the units will be
    pixels
    of the scanned chart.<br>
    <br>
    The <b>BOXES</b> keyword introduces the list of diagnostic and
    sample
    boxes.
    The integer following this keyword must be the total number of
    diagnostic
    and sample boxes, but <span style="font-weight: bold;">not</span>
    including any fiducual marks. The lines following the BOXES keyword
    must
    then
    contain
    the fiducial mark, diagnostic or sample box definitions. Each box
    definition line
    consists
    of 11 space separated parameters, and can generate a grid of sample
    or
    diagnostic
    boxes:<br>
    <br>
    &nbsp;&nbsp; &nbsp;<b>kl lxs lxe lys lye w h xo yo xi yi</b><br>
    <br>
    with the following usage:<br>
    <br>
    &nbsp;&nbsp; &nbsp;<b>kl</b> is a key letter.<br>
    <br>
    &nbsp;&nbsp; &nbsp;&nbsp;&nbsp;&nbsp; <span style="font-weight:
      bold;">F</span>
    is used to define four fiducial marks that may be used for manual
    alignment of an image to the target. The four marks are nominally a
    top left mark, a top right mark, bottom right mark and a bottom left
    mark (ie. clockwise order from top left). The parameters are labeled
    as follows:<br>
    &nbsp;<b><br>
      &nbsp;&nbsp;&nbsp; &nbsp;&nbsp;&nbsp; </b><b>F _ _ x0 y0 x1 y1 x2
      y2
      x3 y3<br>
      <br>
      &nbsp;&nbsp;&nbsp; &nbsp;&nbsp;&nbsp; </b>Where the first two
    parameters are not used, and a '_' character should be used as
    a place holder, and the follows the X and Y coordinates for the four
    fiducial marks.<span style="font-weight: bold;"></span><span
      style="font-weight: bold;"></span> Typically fiducial marks are
    chosen
    to be at the corners of the overall bounding box, or at corner cross
    marks on the chart etc. Fiducial marks may be omitted, but in this
    case
    manual alignment cannot be used.<br>
    <br>
    &nbsp;&nbsp; &nbsp;&nbsp;&nbsp; &nbsp;<b>D</b> is used for a
    diagnostic
    box which will show up in the diagnostic raster output, but is not
    used
    as
    a sample box.&nbsp; The label information can be arbitrary.<br>
    &nbsp;&nbsp; &nbsp;<br>
    &nbsp;&nbsp; &nbsp;&nbsp;&nbsp; &nbsp;<b>X</b> is used for a
    sequence
    of boxes in which the X label comes first in the concatenated sample
    box label.<br>
    &nbsp;&nbsp; &nbsp;&nbsp;&nbsp; &nbsp;<br>
    &nbsp;&nbsp; &nbsp;&nbsp;&nbsp; &nbsp;<b>Y</b> is used for a
    sequence
    of boxes in which the Y label comes first in the concatenated sample
    box label.<br>
    <br>
    &nbsp;&nbsp; &nbsp;&nbsp;&nbsp; &nbsp;Boxes are created incrementing
    in
    the X direction fastest, and the Y direction slowest.<br>
    <br>
    &nbsp;&nbsp; &nbsp;<b>lxs</b> is the X axis starting label. This is
    generally a letter or number, and it will be incremented
    appropriately
    to reach <b>lxe</b><br>
    <br>
    &nbsp;&nbsp; &nbsp;<b>lxe</b> is the X axis ending label. When the X
    label reaches this this value (inclusively), the iteration in the X
    direction will reset.<br>
    <br>
    &nbsp;&nbsp; &nbsp;<b>lys</b> is the Y axis starting label. This is
    generally a letter or number, and it will be incremented
    appropriately
    to reach <b>lye</b><br>
    <br>
    &nbsp;&nbsp; &nbsp;<b>lye</b> is the Y axis ending label. When the Y
    label reaches this this value (inclusively), the iteration through
    the
    boxes will end.<br>
    <br>
    &nbsp;&nbsp; &nbsp;The X &amp; Y labels will be concatenated to form
    the sample box label.<br>
    <br>
    &nbsp;&nbsp; &nbsp;A sample label that consists of the character '_'
    is
    treated as a null label (useful for an array that only iterates in
    one
    direction).<br>
    <br>
    &nbsp;&nbsp; &nbsp;<b>w</b>,<b> h</b> are the width and height of
    each
    box in the array.<br>
    <br>
    &nbsp;&nbsp; &nbsp;<b>xo</b>, <b>yo</b> are the origin of the top
    left
    of the array.<br>
    <br>
    &nbsp;&nbsp; &nbsp;<b>xi</b>, <b>yi</b> are the increments between
    each
    box in the array.<br>
    <br>
    A blank line should follow the last box definition line.<br>
    <br>
    The keyword <b>BOX_SHRINK</b> marks the definition of how much each
    sample
    box should be shrunk on each edge before sampling the pixel values.
    This
    allows the sample boxes to be defined at their edges, while allowing
    a
    safety
    margin for the pixels actually sampled. The units are the same
    arbitrary units
    used for the sample box definitions.<br>
    <br>
    A blank line should follow this keyword.<br>
    <br>
    The optional <b>REF_ROTATION</b> keyword indicates the rotation in
    radians
    clockwise of the reference image when the edge lists were generated.
    This
    amount of rotation is undone to the image before applying the sample
    box
    location information. The rotation is about the origin
    (the
    origin is assumed to be upper left corner). If omitted, the
    reference
    rotation
    is assumed to be 0.0<br>
    <br>
    A blank line should follow this keyword.<br>
    <br>
    The <b>XLIST</b> is a list of vertical edge reference "ticks",
    along
    the
    X axis. Ticks are just edge transitions, typically being each edge
    of
    the sample boxes, but should include edges of any features that have
    significant width and a length that is at least 50% of the available
    space. It is these edge ticks that are used to locate the reference
    cells position within the input raster. The integer after the
    keyword
    "XLIST" is the number of entries
    in
    the list. The first number in the column is the offset of the tick
    from
    the
    origin, the second number is used to improve the correlation by
    representing
    the strength of that "tick" relative to the strongest tick which
    will
    have
    a value 1.0. Strength is measured by the relative length of the
    edge.<br>
    <br>
    The third number represents the relative number of times this "tick"
    is
    crossed by lines in the other direction. A line is regarded as
    crossing
    if part of it is closer to the "tick" line that half the distance to
    the next tick line. The number is normalized so that the largest
    crossing count has a weight of
    1.0. This may be set to 1.0 if it is not known or easily computed.<br>
    <br>
    A blank line should follow the last <b>XLIST</b> edge definition.<br>
    <br>
    The <b>YLIST</b> is same format and details as the <b>XLIST</b>,
    used
    for
    horizontal edges.<br>
    <br>
    The <b>EXPECTED</b> keyword introduces an optional list of <span
      style="text-decoration: underline;">approximate</span>
    expected
    sample
    box color values, allowing better identification of the possible
    rotation
    of a chart, particularly if it has no asymmetric patch shapes or
    locations
    in the chart. Following the keyword should either be <b>XYZ</b> or
    <b>LAB</b>,
    depending on the color space used to describe the reference values,
    then
    an integer indicating the number of entries in the list.<br>
    <br>
    Each following expected color entry consists of four values. The
    first
    is
    the sample box label, which should correspond to one of those
    defined
    by
    the <b>BOXES</b> entry above. It is an error if no corresponding
    box
    has
    been defined. The remaining three values are the <span
      style="text-decoration: underline;">approximate</span> XYZ or
    L*a*b*
    color value expected for that sample box. The XYZ values are assumed
    to
    be
    scaled to a maximum Y value of 100. An expected color value doesn't
    have
    to be provided for every defined sample box, nor is it expected to
    be
    accurate - it just has to represent the approximate expected color.
    (Actual chart reference values are provided as a separate CGATS file
    to
    <a href="scanin.html"><span style="font-weight: bold;">scanin</span></a>).<br>
    <br>
    A blank line should follow the last <b>EXPECTED</b> box value.<br>
    <br>
    <br>
    <hr size="2" width="100%"><br>
    The following is an example .cht file, suitable for a typical Q60
    IT8
    scan target.<br>
    <tt><br>
      <font size="-1"> BOXES 290<br>
        &nbsp; F _ _ _ _ 1 1&nbsp; 615.5 1.5&nbsp; 615 409<br>
        &nbsp; D ALL ALL _ _ 615 409 1 1 0 0<br>
        &nbsp; D MARK MARK _ _ 14 14 1 1 0 0<br>
        &nbsp; Y 01 22 A L 25.625 25.625 26.625 26.625 25.625 25.625<br>
        &nbsp; X GS00 GS23 _ _ 25.625 51.25 0.0 358.75 25.625 0.0<br>
        <br>
        BOX_SHRINK 3.0<br>
        <br>
        REF_ROTATION -0.002006<br>
        <br>
        XLIST 32<br>
        &nbsp; 1.799625 1.000000 0.312500<br>
        &nbsp; 27.064987 0.874039 0.750000<br>
        &nbsp; 52.592403 0.133439 0.687500<br>
        &nbsp; 78.196610 0.264191 0.687500<br>
        &nbsp; 104.117756 0.165427 0.937500<br>
        &nbsp; 129.377994 0.844432 0.937500<br>
        &nbsp; 155.144274 0.501218 0.875000<br>
        &nbsp; 180.839181 0.491428 0.937500<br>
        &nbsp; 206.359758 0.212384 0.937500<br>
        &nbsp; 232.038808 0.851851 0.937500<br>
        &nbsp; 257.854725 0.162956 0.625000<br>
        &nbsp; 283.552463 0.101243 0.812500<br>
        &nbsp; 300.534000 0.024750 0.812500<br>
        &nbsp; 309.507688 0.093829 1.000000<br>
        &nbsp; 334.711314 0.856821 1.000000<br>
        &nbsp; 360.428194 0.787677 1.000000<br>
        &nbsp; 385.849730 0.748130 0.937500<br>
        &nbsp; 386.650071 0.039487 0.687500<br>
        &nbsp; 394.630372 0.024725 0.687500<br>
        &nbsp; 411.835654 0.802501 0.750000<br>
        &nbsp; 414.017731 0.041974 0.937500<br>
        &nbsp; 437.133504 0.674062 0.937500<br>
        &nbsp; 437.975355 0.103714 1.000000<br>
        &nbsp; 462.938460 0.671643 1.000000<br>
        &nbsp; 463.880560 0.093836 0.937500<br>
        &nbsp; 488.517995 0.679022 1.000000<br>
        &nbsp; 514.338544 0.760511 1.000000<br>
        &nbsp; 540.037492 0.111108 0.625000<br>
        &nbsp; 565.856396 0.133330 0.562500<br>
        &nbsp; 591.114717 0.565475 0.562500<br>
        &nbsp; 603.447516 0.032097 0.312500<br>
        &nbsp; 615.984915 0.829608 0.250000<br>
        <br>
        YLIST 22<br>
        &nbsp; 2.477956 0.993407 0.142857<br>
        &nbsp; 12.988903 0.016393 0.190476<br>
        &nbsp; 14.739109 0.036082 0.190476<br>
        &nbsp; 26.746171 0.911487 0.428571<br>
        &nbsp; 52.537114 0.303282 0.904762<br>
        &nbsp; 78.060317 0.585303 0.857143<br>
        &nbsp; 103.498271 0.606862 0.761905<br>
        &nbsp; 128.994535 0.567266 0.761905<br>
        &nbsp; 154.483041 0.550814 0.714286<br>
        &nbsp; 179.935985 0.623055 0.666667<br>
        &nbsp; 205.552940 0.350826 0.714286<br>
        &nbsp; 212.051372 0.016393 0.714286<br>
        &nbsp; 231.153547 0.824618 0.857143<br>
        &nbsp; 256.697418 0.744268 0.952381<br>
        &nbsp; 282.145841 0.736126 0.904762<br>
        &nbsp; 307.899015 0.536075 0.952381<br>
        &nbsp; 333.262903 0.903282 0.809524<br>
        &nbsp; 340.217754 0.019722 0.190476<br>
        &nbsp; 344.988867 0.019671 0.095238<br>
        &nbsp; 346.988885 0.018032 0.095238<br>
        &nbsp; 358.840278 0.999967 1.000000<br>
        &nbsp; 409.201393 1.000000 0.000000<br>
        <br>
        EXPECTED XYZ 264<br>
        &nbsp; A1&nbsp;&nbsp;&nbsp; 3.85 3.22 1.9<br>
        &nbsp; A2&nbsp;&nbsp;&nbsp; 4.89 3.27 1.6<br>
        &nbsp; A3&nbsp;&nbsp;&nbsp; 5.87 3.31 1.33<br>
        &nbsp; A4&nbsp;&nbsp;&nbsp; 6.3 3.38 1.19<br>
        &nbsp; A5&nbsp;&nbsp;&nbsp; 13.01 11.44 7.64<br>
        &nbsp; A6&nbsp;&nbsp;&nbsp; 16.14 11.99 6.81<br>
        &nbsp; A7&nbsp;&nbsp;&nbsp; 19.35 12.41 6.06<br>
        &nbsp; A8&nbsp;&nbsp;&nbsp; 20.41 11.97 5.3<br>
        &nbsp; A9&nbsp;&nbsp;&nbsp; 43.5 42.81 32.65<br>
        &nbsp; A10&nbsp;&nbsp; 45.58 42.37 30.95<br>
        &nbsp; A11&nbsp;&nbsp; 48.99 43.2 29.9<br>
        &nbsp; A12&nbsp;&nbsp; 50.73 44.02 29.96<br>
        &nbsp; A13&nbsp;&nbsp; 74.46 78.76 66.06<br>
        &nbsp; A14&nbsp;&nbsp; 75.66 76.42 64.08<br>
        &nbsp; A15&nbsp;&nbsp; 78.36 81.34 65.41<br>
        &nbsp; A16&nbsp;&nbsp; 70.52 73.3 59.16<br>
        &nbsp; A17&nbsp;&nbsp; 74.98 75.98 60.69<br>
        &nbsp; A18&nbsp;&nbsp; 72.85 77.3 60.25<br>
        &nbsp; A19&nbsp;&nbsp; 73.09 75.52 64.54<br>
        &nbsp; B1&nbsp;&nbsp;&nbsp; 3.47 3.08 1.41<br>
        &nbsp; B2&nbsp;&nbsp;&nbsp; 4.41 3.25 0.9<br>
        &nbsp; B3&nbsp;&nbsp;&nbsp; 5.04 3.23 0.58<br>
        &nbsp; B4&nbsp;&nbsp;&nbsp; 5.19 3.11 0.47<br>
        &nbsp; B5&nbsp;&nbsp;&nbsp; 13.36 11.59 5.56<br>
        &nbsp; B6&nbsp;&nbsp;&nbsp; 15.97 12.03 3.69<br>
        &nbsp; B7&nbsp;&nbsp;&nbsp; 19.2 12.49 2.2<br>
        &nbsp; B8&nbsp;&nbsp;&nbsp; 19.73 11.52 1.17<br>
        &nbsp; B9&nbsp;&nbsp;&nbsp; 42.19 41.84 29.34<br>
        &nbsp; B10&nbsp;&nbsp; 44.83 42.17 25.93<br>
        &nbsp; B11&nbsp;&nbsp; 48.06 42.9 23.01<br>
        &nbsp; B12&nbsp;&nbsp; 49.63 43.08 21.34<br>
        &nbsp; B13&nbsp;&nbsp; 66.21 72.54 64.61<br>
        &nbsp; B14&nbsp;&nbsp; 70.16 67.1 60.33<br>
        &nbsp; B15&nbsp;&nbsp; 75.46 78.69 51.58<br>
        &nbsp; B16&nbsp;&nbsp; 57.47 59.58 47.66<br>
        &nbsp; B17&nbsp;&nbsp; 68.33 66.45 49.05<br>
        &nbsp; B18&nbsp;&nbsp; 63.89 70.29 51.3<br>
        &nbsp; B19&nbsp;&nbsp; 61.12 62.16 59.79<br>
        &nbsp; C1&nbsp;&nbsp;&nbsp; 4.97 4.75 1.98<br>
        &nbsp; C2&nbsp;&nbsp;&nbsp; 5.18 4.65 1.23<br>
        &nbsp; C3&nbsp;&nbsp;&nbsp; 5.51 4.58 0.71<br>
        &nbsp; C4&nbsp;&nbsp;&nbsp; 5.77 4.61 0.67<br>
        &nbsp; C5&nbsp;&nbsp;&nbsp; 24.57 23.44 10.14<br>
        &nbsp; C6&nbsp;&nbsp;&nbsp; 28.1 24.64 5.22<br>
        &nbsp; C7&nbsp;&nbsp;&nbsp; 31.15 25.28 2.2<br>
        &nbsp; C8&nbsp;&nbsp;&nbsp; 30.85 23.68 1.35<br>
        &nbsp; C9&nbsp;&nbsp;&nbsp; 49.16 49.36 32.37<br>
        &nbsp; C10&nbsp;&nbsp; 51.72 50.72 26.53<br>
        &nbsp; C11&nbsp;&nbsp; 55.24 53.14 21.93<br>
        &nbsp; C12&nbsp;&nbsp; 56.87 53.62 18.46<br>
        &nbsp; C13&nbsp;&nbsp; 57.68 65.65 62.7<br>
        &nbsp; C14&nbsp;&nbsp; 63.46 56.66 55.49<br>
        &nbsp; C15&nbsp;&nbsp; 73 76.11 40.78<br>
        &nbsp; C16&nbsp;&nbsp; 44.73 46.38 36.8<br>
        &nbsp; C17&nbsp;&nbsp; 60.64 55.73 38.1<br>
        &nbsp; C18&nbsp;&nbsp; 52.15 60.27 41.5<br>
        &nbsp; C19&nbsp;&nbsp; 48.13 49.18 54.38<br>
        &nbsp; D1&nbsp;&nbsp;&nbsp; 4.19 4.41 1.93<br>
        &nbsp; D2&nbsp;&nbsp;&nbsp; 4.48 4.72 1.24<br>
        &nbsp; D3&nbsp;&nbsp;&nbsp; 4.55 4.78 0.8<br>
        &nbsp; D4&nbsp;&nbsp;&nbsp; 4.32 4.53 0.78<br>
        &nbsp; D5&nbsp;&nbsp;&nbsp; 27.33 28.55 12.95<br>
        &nbsp; D6&nbsp;&nbsp;&nbsp; 28.68 30.04 7.25<br>
        &nbsp; D7&nbsp;&nbsp;&nbsp; 29.51 31.01 3.41<br>
        &nbsp; D8&nbsp;&nbsp;&nbsp; 27.55 28.44 1.83<br>
        &nbsp; D9&nbsp;&nbsp;&nbsp; 56.06 58.19 38.21<br>
        &nbsp; D10&nbsp;&nbsp; 56.03 58.46 30.02<br>
        &nbsp; D11&nbsp;&nbsp; 56.2 59.33 24.44<br>
        &nbsp; D12&nbsp;&nbsp; 56.19 59.41 19.14<br>
        &nbsp; D13&nbsp;&nbsp; 48.21 57.42 59.53<br>
        &nbsp; D14&nbsp;&nbsp; 58.18 49.14 51.36<br>
        &nbsp; D15&nbsp;&nbsp; 70.98 73.73 33.63<br>
        &nbsp; D16&nbsp;&nbsp; 34.31 35.73 28.22<br>
        &nbsp; D17&nbsp;&nbsp; 54.27 47.53 29.58<br>
        &nbsp; D18&nbsp;&nbsp; 41.67 50.64 32.28<br>
        &nbsp; D19&nbsp;&nbsp; 36.95 37.82 48.09<br>
        &nbsp; E1&nbsp;&nbsp;&nbsp; 4.15 4.75 2.03<br>
        &nbsp; E2&nbsp;&nbsp;&nbsp; 4 4.98 1.37<br>
        &nbsp; E3&nbsp;&nbsp;&nbsp; 3.3 4.49 0.86<br>
        &nbsp; E4&nbsp;&nbsp;&nbsp; 3.11 4.3 0.86<br>
        &nbsp; E5&nbsp;&nbsp;&nbsp; 13.11 14.9 7.06<br>
        &nbsp; E6&nbsp;&nbsp;&nbsp; 12.26 15.23 4.18<br>
        &nbsp; E7&nbsp;&nbsp;&nbsp; 11.53 15.57 2.27<br>
        &nbsp; E8&nbsp;&nbsp;&nbsp; 9.69 13.74 1.51<br>
        &nbsp; E9&nbsp;&nbsp;&nbsp; 39.15 42.08 27.33<br>
        &nbsp; E10&nbsp;&nbsp; 37.43 41.51 22.23<br>
        &nbsp; E11&nbsp;&nbsp; 36.99 42.5 18.85<br>
        &nbsp; E12&nbsp;&nbsp; 36.4 42.58 16.27<br>
        &nbsp; E13&nbsp;&nbsp; 39.97 49.81 56.15<br>
        &nbsp; E14&nbsp;&nbsp; 52.08 41.07 46.36<br>
        &nbsp; E15&nbsp;&nbsp; 68.71 70.76 26.45<br>
        &nbsp; E16&nbsp;&nbsp; 25.7 26.97 21.28<br>
        &nbsp; E17&nbsp;&nbsp; 48.53 40.6 22<br>
        &nbsp; E18&nbsp;&nbsp; 31.62 40.82 23.35<br>
        &nbsp; E19&nbsp;&nbsp; 31.19 31.19 43.4<br>
        &nbsp; F1&nbsp;&nbsp;&nbsp; 1.51 1.91 1.06<br>
        &nbsp; F2&nbsp;&nbsp;&nbsp; 1.29 2.04 0.98<br>
        &nbsp; F3&nbsp;&nbsp;&nbsp; 1.16 2.09 0.82<br>
        &nbsp; F4&nbsp;&nbsp;&nbsp; 1.14 2.04 0.8<br>
        &nbsp; F5&nbsp;&nbsp;&nbsp; 6.53 8.25 5.13<br>
        &nbsp; F6&nbsp;&nbsp;&nbsp; 5.61 8.66 4.38<br>
        &nbsp; F7&nbsp;&nbsp;&nbsp; 4.6 8.77 3.7<br>
        &nbsp; F8&nbsp;&nbsp;&nbsp; 3.45 7.63 2.78<br>
        &nbsp; F9&nbsp;&nbsp;&nbsp; 37.8 41.07 30.91<br>
        &nbsp; F10&nbsp;&nbsp; 35.92 40.76 29.03<br>
        &nbsp; F11&nbsp;&nbsp; 35.42 41.99 29.07<br>
        &nbsp; F12&nbsp;&nbsp; 34 41.8 28<br>
        &nbsp; F13&nbsp;&nbsp; 32.13 42.12 51.99<br>
        &nbsp; F14&nbsp;&nbsp; 45.72 33.34 40.77<br>
        &nbsp; F15&nbsp;&nbsp; 66.26 67.29 19.65<br>
        &nbsp; F16&nbsp;&nbsp; 17.02 18.07 14.4<br>
        &nbsp; F17&nbsp;&nbsp; 41.59 32.53 15.16<br>
        &nbsp; F18&nbsp;&nbsp; 26.26 35.26 18.81<br>
        &nbsp; F19&nbsp;&nbsp; 24.3 23.6 37.48<br>
        &nbsp; G1&nbsp;&nbsp;&nbsp; 2.31 3 2.27<br>
        &nbsp; G2&nbsp;&nbsp;&nbsp; 2 3.21 2.58<br>
        &nbsp; G3&nbsp;&nbsp;&nbsp; 1.66 3.21 2.75<br>
        &nbsp; G4&nbsp;&nbsp;&nbsp; 1.58 3.03 2.6<br>
        &nbsp; G5&nbsp;&nbsp;&nbsp; 8.99 11.08 8.79<br>
        &nbsp; G6&nbsp;&nbsp;&nbsp; 7.68 11.3 9.56<br>
        &nbsp; G7&nbsp;&nbsp;&nbsp; 6.52 11.5 10.2<br>
        &nbsp; G8&nbsp;&nbsp;&nbsp; 5.5 10.85 10.55<br>
        &nbsp; G9&nbsp;&nbsp;&nbsp; 38.29 41.75 33.45<br>
        &nbsp; G10&nbsp;&nbsp; 35.83 41.16 34.11<br>
        &nbsp; G11&nbsp;&nbsp; 34.56 41.83 35.63<br>
        &nbsp; G12&nbsp;&nbsp; 33.69 42.14 36.7<br>
        &nbsp; G13&nbsp;&nbsp; 25.95 35.68 48<br>
        &nbsp; G14&nbsp;&nbsp; 40.6 27.62 36.14<br>
        &nbsp; G15&nbsp;&nbsp; 63.72 63.63 14.35<br>
        &nbsp; G16&nbsp;&nbsp; 10.85 11.82 9.58<br>
        &nbsp; G17&nbsp;&nbsp; 37.23 27.64 11.62<br>
        &nbsp; G18&nbsp;&nbsp; 20.28 28.97 14.15<br>
        &nbsp; G19&nbsp;&nbsp; 17.7 16.74 31.7<br>
        &nbsp; H1&nbsp;&nbsp;&nbsp; 2.56 3.04 2.92<br>
        &nbsp; H2&nbsp;&nbsp;&nbsp; 2.34 3.2 4.12<br>
        &nbsp; H3&nbsp;&nbsp;&nbsp; 2.12 3.28 5.43<br>
        &nbsp; H4&nbsp;&nbsp;&nbsp; 2.06 3.18 5.29<br>
        &nbsp; H5&nbsp;&nbsp;&nbsp; 10.07 11.6 11.24<br>
        &nbsp; H6&nbsp;&nbsp;&nbsp; 9.01 11.68 14.81<br>
        &nbsp; H7&nbsp;&nbsp;&nbsp; 8.22 12 19.42<br>
        &nbsp; H8&nbsp;&nbsp;&nbsp; 7.25 11.55 21.45<br>
        &nbsp; H9&nbsp;&nbsp;&nbsp; 39.25 42.31 36.81<br>
        &nbsp; H10&nbsp;&nbsp; 37.58 41.85 40.37<br>
        &nbsp; H11&nbsp;&nbsp; 37.16 43.07 45.79<br>
        &nbsp; H12&nbsp;&nbsp; 36.27 43.78 49.47<br>
        &nbsp; H13&nbsp;&nbsp; 21.47 30.78 44.22<br>
        &nbsp; H14&nbsp;&nbsp; 36.49 23.35 32.38<br>
        &nbsp; H15&nbsp;&nbsp; 61.58 60.55 10.95<br>
        &nbsp; H16&nbsp;&nbsp; 8.21 8.71 6.91<br>
        &nbsp; H17&nbsp;&nbsp; 33.04 23.26 8.38<br>
        &nbsp; H18&nbsp;&nbsp; 16.22 24.35 10.41<br>
        &nbsp; H19&nbsp;&nbsp; 12.86 11.84 26.82<br>
        &nbsp; I1&nbsp;&nbsp;&nbsp; 4.22 4.44 5.28<br>
        &nbsp; I2&nbsp;&nbsp;&nbsp; 4.35 4.48 8.36<br>
        &nbsp; I3&nbsp;&nbsp;&nbsp; 4.4 4.44 11.94<br>
        &nbsp; I4&nbsp;&nbsp;&nbsp; 4.48 4.58 12.17<br>
        &nbsp; I5&nbsp;&nbsp;&nbsp; 15.15 15.78 15.23<br>
        &nbsp; I6&nbsp;&nbsp;&nbsp; 14.56 15.12 19.52<br>
        &nbsp; I7&nbsp;&nbsp;&nbsp; 14.37 14.81 24.48<br>
        &nbsp; I8&nbsp;&nbsp;&nbsp; 14.11 14.76 30.03<br>
        &nbsp; I9&nbsp;&nbsp;&nbsp; 41.03 42.58 36.94<br>
        &nbsp; I10&nbsp;&nbsp; 40.85 42.23 40.73<br>
        &nbsp; I11&nbsp;&nbsp; 40.86 42.33 45.05<br>
        &nbsp; I12&nbsp;&nbsp; 41.31 42.73 47.77<br>
        &nbsp; I13&nbsp;&nbsp; 17.26 25.93 40.23<br>
        &nbsp; I14&nbsp;&nbsp; 32.66 19.63 28.81<br>
        &nbsp; I15&nbsp;&nbsp; 59.37 57.18 7.79<br>
        &nbsp; I16&nbsp;&nbsp; 4.97 5.32 4.32<br>
        &nbsp; I17&nbsp;&nbsp; 28.62 18.88 5.48<br>
        &nbsp; I18&nbsp;&nbsp; 11.58 18.98 7.25<br>
        &nbsp; I19&nbsp;&nbsp; 9.58 8.34 22.87<br>
        &nbsp; I20&nbsp;&nbsp; 0.45 0.4 0.33<br>
        &nbsp; I21&nbsp;&nbsp; 2.28 1.78 0.98<br>
        &nbsp; I22&nbsp;&nbsp; 2.37 1.95 0.85<br>
        &nbsp; J1&nbsp;&nbsp;&nbsp; 2.15 1.9 2.6<br>
        &nbsp; J2&nbsp;&nbsp;&nbsp; 2.57 2 4.72<br>
        &nbsp; J3&nbsp;&nbsp;&nbsp; 2.93 1.95 8.1<br>
        &nbsp; J4&nbsp;&nbsp;&nbsp; 3.15 1.92 10.76<br>
        &nbsp; J5&nbsp;&nbsp;&nbsp; 11.73 11.6 11.81<br>
        &nbsp; J6&nbsp;&nbsp;&nbsp; 12.98 11.93 16.19<br>
        &nbsp; J7&nbsp;&nbsp;&nbsp; 13.91 12.07 20.95<br>
        &nbsp; J8&nbsp;&nbsp;&nbsp; 14.01 11.59 24.35<br>
        &nbsp; J9&nbsp;&nbsp;&nbsp; 40.75 41.22 36.34<br>
        &nbsp; J10&nbsp;&nbsp; 41.26 41.07 39.74<br>
        &nbsp; J11&nbsp;&nbsp; 42.63 41.68 44.51<br>
        &nbsp; J12&nbsp;&nbsp; 44.02 41.78 49.25<br>
        &nbsp; J13&nbsp;&nbsp; 13.82 21.69 35.98<br>
        &nbsp; J14&nbsp;&nbsp; 28.87 16.33 25.08<br>
        &nbsp; J15&nbsp;&nbsp; 56.04 52.29 4.97<br>
        &nbsp; J16&nbsp;&nbsp; 2.46 2.63 2.29<br>
        &nbsp; J17&nbsp;&nbsp; 24.04 14.75 3.15<br>
        &nbsp; J18&nbsp;&nbsp; 8.12 14.49 4.55<br>
        &nbsp; J19&nbsp;&nbsp; 5.98 4.79 17.76<br>
        &nbsp; J20&nbsp;&nbsp; 8.26 5.37 1.04<br>
        &nbsp; J21&nbsp;&nbsp; 11.52 7.81 1.62<br>
        &nbsp; J22&nbsp;&nbsp; 14.67 10.72 2.6<br>
        &nbsp; K1&nbsp;&nbsp;&nbsp; 5.63 4.7 4.86<br>
        &nbsp; K2&nbsp;&nbsp;&nbsp; 6.74 4.58 7.23<br>
        &nbsp; K3&nbsp;&nbsp;&nbsp; 8.04 4.48 9.73<br>
        &nbsp; K4&nbsp;&nbsp;&nbsp; 9.39 4.76 11.79<br>
        &nbsp; K5&nbsp;&nbsp;&nbsp; 16.66 15.39 14.44<br>
        &nbsp; K6&nbsp;&nbsp;&nbsp; 18.72 15.18 18.23<br>
        &nbsp; K7&nbsp;&nbsp;&nbsp; 21.56 15.5 22.97<br>
        &nbsp; K8&nbsp;&nbsp;&nbsp; 23 15.02 25.37<br>
        &nbsp; K9&nbsp;&nbsp;&nbsp; 42.5 42.02 36.05<br>
        &nbsp; K10&nbsp;&nbsp; 44.55 41.63 39.71<br>
        &nbsp; K11&nbsp;&nbsp; 47.19 41.96 44.03<br>
        &nbsp; K12&nbsp;&nbsp; 49.9 43.14 47.21<br>
        &nbsp; K13&nbsp;&nbsp; 10.61 17.44 31.24<br>
        &nbsp; K14&nbsp;&nbsp; 24.84 13.19 21<br>
        &nbsp; K15&nbsp;&nbsp; 53.12 48.05 3.19<br>
        &nbsp; K16&nbsp;&nbsp; 1.05 1.14 1.13<br>
        &nbsp; K17&nbsp;&nbsp; 19.93 11.34 1.67<br>
        &nbsp; K18&nbsp;&nbsp; 5.3 10.47 2.73<br>
        &nbsp; K19&nbsp;&nbsp; 3.95 2.76 13.94<br>
        &nbsp; K20&nbsp;&nbsp; 30.61 26.43 11.04<br>
        &nbsp; K21&nbsp;&nbsp; 34.91 29.6 11.78<br>
        &nbsp; K22&nbsp;&nbsp; 38.95 34.57 18.4<br>
        &nbsp; L1&nbsp;&nbsp;&nbsp; 3.88 3.12 2.32<br>
        &nbsp; L2&nbsp;&nbsp;&nbsp; 4.93 3.2 2.69<br>
        &nbsp; L3&nbsp;&nbsp;&nbsp; 5.75 3.14 3.02<br>
        &nbsp; L4&nbsp;&nbsp;&nbsp; 7.31 3.79 3.4<br>
        &nbsp; L5&nbsp;&nbsp;&nbsp; 13.29 11.54 9.39<br>
        &nbsp; L6&nbsp;&nbsp;&nbsp; 16.22 11.73 10.32<br>
        &nbsp; L7&nbsp;&nbsp;&nbsp; 19.95 12.08 12.06<br>
        &nbsp; L8&nbsp;&nbsp;&nbsp; 20.79 11.31 12.01<br>
        &nbsp; L9&nbsp;&nbsp;&nbsp; 43.22 42.09 33.78<br>
        &nbsp; L10&nbsp;&nbsp; 45.52 41.88 34.65<br>
        &nbsp; L11&nbsp;&nbsp; 49.04 42.87 35.98<br>
        &nbsp; L12&nbsp;&nbsp; 51.03 43.83 37.78<br>
        &nbsp; L13&nbsp;&nbsp; 7.45 12.77 25.59<br>
        &nbsp; L14&nbsp;&nbsp; 21.26 10.76 17.73<br>
        &nbsp; L15&nbsp;&nbsp; 49.45 43.12 2.14<br>
        &nbsp; L16&nbsp;&nbsp; 0.47 0.49 0.5<br>
        &nbsp; L17&nbsp;&nbsp; 16.04 8.49 0.78<br>
        &nbsp; L18&nbsp;&nbsp; 2.91 6.5 1.39<br>
        &nbsp; L19&nbsp;&nbsp; 2.5 1.45 10.28<br>
        &nbsp; L20&nbsp;&nbsp; 38.7 33.98 20.86<br>
        &nbsp; L21&nbsp;&nbsp; 39.36 35.23 21.23<br>
        &nbsp; L22&nbsp;&nbsp; 41.36 38.77 23.51<br>
        &nbsp; GS0&nbsp;&nbsp;&nbsp; 79.47 82.51 69.04<br>
        &nbsp; GS1&nbsp;&nbsp;&nbsp; 72.62 74.94 59.17<br>
        &nbsp; GS2&nbsp;&nbsp;&nbsp; 63.15 65.11 51.57<br>
        &nbsp; GS3&nbsp;&nbsp;&nbsp; 54.72 56.51 45.03<br>
        &nbsp; GS4&nbsp;&nbsp;&nbsp; 48.1 49.81 39.24<br>
        &nbsp; GS5&nbsp;&nbsp;&nbsp; 42.22 43.64 34.45<br>
        &nbsp; GS6&nbsp;&nbsp;&nbsp; 37.33 38.7 30.5<br>
        &nbsp; GS7&nbsp;&nbsp;&nbsp; 32.38 33.61 26.11<br>
        &nbsp; GS8&nbsp;&nbsp;&nbsp; 27.56 28.7 22.11<br>
        &nbsp; GS9&nbsp;&nbsp;&nbsp; 22.5 23.4 17.99<br>
        &nbsp; GS10&nbsp;&nbsp; 18.77 19.55 14.83<br>
        &nbsp; GS11&nbsp;&nbsp; 15.48 16.08 12.04<br>
        &nbsp; GS12&nbsp;&nbsp; 12.69 13.29 9.98<br>
        &nbsp; GS13&nbsp;&nbsp; 10.35 10.81 7.97<br>
        &nbsp; GS14&nbsp;&nbsp; 8.39 8.77 6.37<br>
        &nbsp; GS15&nbsp;&nbsp; 6.45 6.79 4.97<br>
        &nbsp; GS16&nbsp;&nbsp; 4.95 5.18 3.7<br>
        &nbsp; GS17&nbsp;&nbsp; 3.58 3.82 2.76<br>
        &nbsp; GS18&nbsp;&nbsp; 2.76 2.89 2.06<br>
        &nbsp; GS19&nbsp;&nbsp; 1.97 2.08 1.45<br>
        &nbsp; GS20&nbsp;&nbsp; 1.22 1.31 0.98<br>
        &nbsp; GS21&nbsp;&nbsp; 1 1.05 0.74<br>
        &nbsp; GS22&nbsp;&nbsp; 0.87 0.89 0.65<br>
        &nbsp; GS23&nbsp;&nbsp; 0.34 0.32 0.32<br>
        <br>
      </font> </tt><br>
    <tt> <br>
    </tt><br>
    <br>
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