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<title>Video (OpenCV 4.5.5 Java documentation)</title>
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<div class="subTitle">org.opencv.video</div>
<h2 title="Class Video" class="title">Class Video</h2>
</div>
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<ul class="inheritance">
<li>java.lang.Object</li>
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<li>org.opencv.video.Video</li>
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<pre>public class <span class="typeNameLabel">Video</span>
extends java.lang.Object</pre>
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<th class="colFirst" scope="col">Modifier and Type</th>
<th class="colLast" scope="col">Field and Description</th>
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<td class="colFirst"><code>static int</code></td>
<td class="colLast"><code><span class="memberNameLink"><a href="../../../org/opencv/video/Video.html#MOTION_AFFINE">MOTION_AFFINE</a></span></code>&nbsp;</td>
</tr>
<tr class="rowColor">
<td class="colFirst"><code>static int</code></td>
<td class="colLast"><code><span class="memberNameLink"><a href="../../../org/opencv/video/Video.html#MOTION_EUCLIDEAN">MOTION_EUCLIDEAN</a></span></code>&nbsp;</td>
</tr>
<tr class="altColor">
<td class="colFirst"><code>static int</code></td>
<td class="colLast"><code><span class="memberNameLink"><a href="../../../org/opencv/video/Video.html#MOTION_HOMOGRAPHY">MOTION_HOMOGRAPHY</a></span></code>&nbsp;</td>
</tr>
<tr class="rowColor">
<td class="colFirst"><code>static int</code></td>
<td class="colLast"><code><span class="memberNameLink"><a href="../../../org/opencv/video/Video.html#MOTION_TRANSLATION">MOTION_TRANSLATION</a></span></code>&nbsp;</td>
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<tr class="altColor">
<td class="colFirst"><code>static int</code></td>
<td class="colLast"><code><span class="memberNameLink"><a href="../../../org/opencv/video/Video.html#OPTFLOW_FARNEBACK_GAUSSIAN">OPTFLOW_FARNEBACK_GAUSSIAN</a></span></code>&nbsp;</td>
</tr>
<tr class="rowColor">
<td class="colFirst"><code>static int</code></td>
<td class="colLast"><code><span class="memberNameLink"><a href="../../../org/opencv/video/Video.html#OPTFLOW_LK_GET_MIN_EIGENVALS">OPTFLOW_LK_GET_MIN_EIGENVALS</a></span></code>&nbsp;</td>
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<tr class="altColor">
<td class="colFirst"><code>static int</code></td>
<td class="colLast"><code><span class="memberNameLink"><a href="../../../org/opencv/video/Video.html#OPTFLOW_USE_INITIAL_FLOW">OPTFLOW_USE_INITIAL_FLOW</a></span></code>&nbsp;</td>
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<tr class="rowColor">
<td class="colFirst"><code>static int</code></td>
<td class="colLast"><code><span class="memberNameLink"><a href="../../../org/opencv/video/Video.html#TrackerSamplerCSC_MODE_DETECT">TrackerSamplerCSC_MODE_DETECT</a></span></code>&nbsp;</td>
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<tr class="altColor">
<td class="colFirst"><code>static int</code></td>
<td class="colLast"><code><span class="memberNameLink"><a href="../../../org/opencv/video/Video.html#TrackerSamplerCSC_MODE_INIT_NEG">TrackerSamplerCSC_MODE_INIT_NEG</a></span></code>&nbsp;</td>
</tr>
<tr class="rowColor">
<td class="colFirst"><code>static int</code></td>
<td class="colLast"><code><span class="memberNameLink"><a href="../../../org/opencv/video/Video.html#TrackerSamplerCSC_MODE_INIT_POS">TrackerSamplerCSC_MODE_INIT_POS</a></span></code>&nbsp;</td>
</tr>
<tr class="altColor">
<td class="colFirst"><code>static int</code></td>
<td class="colLast"><code><span class="memberNameLink"><a href="../../../org/opencv/video/Video.html#TrackerSamplerCSC_MODE_TRACK_NEG">TrackerSamplerCSC_MODE_TRACK_NEG</a></span></code>&nbsp;</td>
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<tr class="rowColor">
<td class="colFirst"><code>static int</code></td>
<td class="colLast"><code><span class="memberNameLink"><a href="../../../org/opencv/video/Video.html#TrackerSamplerCSC_MODE_TRACK_POS">TrackerSamplerCSC_MODE_TRACK_POS</a></span></code>&nbsp;</td>
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<td class="colOne"><code><span class="memberNameLink"><a href="../../../org/opencv/video/Video.html#Video--">Video</a></span>()</code>&nbsp;</td>
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<caption><span id="t0" class="activeTableTab"><span>All Methods</span><span class="tabEnd">&nbsp;</span></span><span id="t1" class="tableTab"><span><a href="javascript:show(1);">Static Methods</a></span><span class="tabEnd">&nbsp;</span></span><span id="t4" class="tableTab"><span><a href="javascript:show(8);">Concrete Methods</a></span><span class="tabEnd">&nbsp;</span></span></caption>
<tr>
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<td class="colFirst"><code>static int</code></td>
<td class="colLast"><code><span class="memberNameLink"><a href="../../../org/opencv/video/Video.html#buildOpticalFlowPyramid-org.opencv.core.Mat-java.util.List-org.opencv.core.Size-int-">buildOpticalFlowPyramid</a></span>(<a href="../../../org/opencv/core/Mat.html" title="class in org.opencv.core">Mat</a>&nbsp;img,
java.util.List&lt;<a href="../../../org/opencv/core/Mat.html" title="class in org.opencv.core">Mat</a>&gt;&nbsp;pyramid,
<a href="../../../org/opencv/core/Size.html" title="class in org.opencv.core">Size</a>&nbsp;winSize,
int&nbsp;maxLevel)</code>
<div class="block">Constructs the image pyramid which can be passed to calcOpticalFlowPyrLK.</div>
</td>
</tr>
<tr id="i1" class="rowColor">
<td class="colFirst"><code>static int</code></td>
<td class="colLast"><code><span class="memberNameLink"><a href="../../../org/opencv/video/Video.html#buildOpticalFlowPyramid-org.opencv.core.Mat-java.util.List-org.opencv.core.Size-int-boolean-">buildOpticalFlowPyramid</a></span>(<a href="../../../org/opencv/core/Mat.html" title="class in org.opencv.core">Mat</a>&nbsp;img,
java.util.List&lt;<a href="../../../org/opencv/core/Mat.html" title="class in org.opencv.core">Mat</a>&gt;&nbsp;pyramid,
<a href="../../../org/opencv/core/Size.html" title="class in org.opencv.core">Size</a>&nbsp;winSize,
int&nbsp;maxLevel,
boolean&nbsp;withDerivatives)</code>
<div class="block">Constructs the image pyramid which can be passed to calcOpticalFlowPyrLK.</div>
</td>
</tr>
<tr id="i2" class="altColor">
<td class="colFirst"><code>static int</code></td>
<td class="colLast"><code><span class="memberNameLink"><a href="../../../org/opencv/video/Video.html#buildOpticalFlowPyramid-org.opencv.core.Mat-java.util.List-org.opencv.core.Size-int-boolean-int-">buildOpticalFlowPyramid</a></span>(<a href="../../../org/opencv/core/Mat.html" title="class in org.opencv.core">Mat</a>&nbsp;img,
java.util.List&lt;<a href="../../../org/opencv/core/Mat.html" title="class in org.opencv.core">Mat</a>&gt;&nbsp;pyramid,
<a href="../../../org/opencv/core/Size.html" title="class in org.opencv.core">Size</a>&nbsp;winSize,
int&nbsp;maxLevel,
boolean&nbsp;withDerivatives,
int&nbsp;pyrBorder)</code>
<div class="block">Constructs the image pyramid which can be passed to calcOpticalFlowPyrLK.</div>
</td>
</tr>
<tr id="i3" class="rowColor">
<td class="colFirst"><code>static int</code></td>
<td class="colLast"><code><span class="memberNameLink"><a href="../../../org/opencv/video/Video.html#buildOpticalFlowPyramid-org.opencv.core.Mat-java.util.List-org.opencv.core.Size-int-boolean-int-int-">buildOpticalFlowPyramid</a></span>(<a href="../../../org/opencv/core/Mat.html" title="class in org.opencv.core">Mat</a>&nbsp;img,
java.util.List&lt;<a href="../../../org/opencv/core/Mat.html" title="class in org.opencv.core">Mat</a>&gt;&nbsp;pyramid,
<a href="../../../org/opencv/core/Size.html" title="class in org.opencv.core">Size</a>&nbsp;winSize,
int&nbsp;maxLevel,
boolean&nbsp;withDerivatives,
int&nbsp;pyrBorder,
int&nbsp;derivBorder)</code>
<div class="block">Constructs the image pyramid which can be passed to calcOpticalFlowPyrLK.</div>
</td>
</tr>
<tr id="i4" class="altColor">
<td class="colFirst"><code>static int</code></td>
<td class="colLast"><code><span class="memberNameLink"><a href="../../../org/opencv/video/Video.html#buildOpticalFlowPyramid-org.opencv.core.Mat-java.util.List-org.opencv.core.Size-int-boolean-int-int-boolean-">buildOpticalFlowPyramid</a></span>(<a href="../../../org/opencv/core/Mat.html" title="class in org.opencv.core">Mat</a>&nbsp;img,
java.util.List&lt;<a href="../../../org/opencv/core/Mat.html" title="class in org.opencv.core">Mat</a>&gt;&nbsp;pyramid,
<a href="../../../org/opencv/core/Size.html" title="class in org.opencv.core">Size</a>&nbsp;winSize,
int&nbsp;maxLevel,
boolean&nbsp;withDerivatives,
int&nbsp;pyrBorder,
int&nbsp;derivBorder,
boolean&nbsp;tryReuseInputImage)</code>
<div class="block">Constructs the image pyramid which can be passed to calcOpticalFlowPyrLK.</div>
</td>
</tr>
<tr id="i5" class="rowColor">
<td class="colFirst"><code>static void</code></td>
<td class="colLast"><code><span class="memberNameLink"><a href="../../../org/opencv/video/Video.html#calcOpticalFlowFarneback-org.opencv.core.Mat-org.opencv.core.Mat-org.opencv.core.Mat-double-int-int-int-int-double-int-">calcOpticalFlowFarneback</a></span>(<a href="../../../org/opencv/core/Mat.html" title="class in org.opencv.core">Mat</a>&nbsp;prev,
<a href="../../../org/opencv/core/Mat.html" title="class in org.opencv.core">Mat</a>&nbsp;next,
<a href="../../../org/opencv/core/Mat.html" title="class in org.opencv.core">Mat</a>&nbsp;flow,
double&nbsp;pyr_scale,
int&nbsp;levels,
int&nbsp;winsize,
int&nbsp;iterations,
int&nbsp;poly_n,
double&nbsp;poly_sigma,
int&nbsp;flags)</code>
<div class="block">Computes a dense optical flow using the Gunnar Farneback's algorithm.</div>
</td>
</tr>
<tr id="i6" class="altColor">
<td class="colFirst"><code>static void</code></td>
<td class="colLast"><code><span class="memberNameLink"><a href="../../../org/opencv/video/Video.html#calcOpticalFlowPyrLK-org.opencv.core.Mat-org.opencv.core.Mat-org.opencv.core.MatOfPoint2f-org.opencv.core.MatOfPoint2f-org.opencv.core.MatOfByte-org.opencv.core.MatOfFloat-">calcOpticalFlowPyrLK</a></span>(<a href="../../../org/opencv/core/Mat.html" title="class in org.opencv.core">Mat</a>&nbsp;prevImg,
<a href="../../../org/opencv/core/Mat.html" title="class in org.opencv.core">Mat</a>&nbsp;nextImg,
<a href="../../../org/opencv/core/MatOfPoint2f.html" title="class in org.opencv.core">MatOfPoint2f</a>&nbsp;prevPts,
<a href="../../../org/opencv/core/MatOfPoint2f.html" title="class in org.opencv.core">MatOfPoint2f</a>&nbsp;nextPts,
<a href="../../../org/opencv/core/MatOfByte.html" title="class in org.opencv.core">MatOfByte</a>&nbsp;status,
<a href="../../../org/opencv/core/MatOfFloat.html" title="class in org.opencv.core">MatOfFloat</a>&nbsp;err)</code>
<div class="block">Calculates an optical flow for a sparse feature set using the iterative Lucas-Kanade method with
pyramids.</div>
</td>
</tr>
<tr id="i7" class="rowColor">
<td class="colFirst"><code>static void</code></td>
<td class="colLast"><code><span class="memberNameLink"><a href="../../../org/opencv/video/Video.html#calcOpticalFlowPyrLK-org.opencv.core.Mat-org.opencv.core.Mat-org.opencv.core.MatOfPoint2f-org.opencv.core.MatOfPoint2f-org.opencv.core.MatOfByte-org.opencv.core.MatOfFloat-org.opencv.core.Size-">calcOpticalFlowPyrLK</a></span>(<a href="../../../org/opencv/core/Mat.html" title="class in org.opencv.core">Mat</a>&nbsp;prevImg,
<a href="../../../org/opencv/core/Mat.html" title="class in org.opencv.core">Mat</a>&nbsp;nextImg,
<a href="../../../org/opencv/core/MatOfPoint2f.html" title="class in org.opencv.core">MatOfPoint2f</a>&nbsp;prevPts,
<a href="../../../org/opencv/core/MatOfPoint2f.html" title="class in org.opencv.core">MatOfPoint2f</a>&nbsp;nextPts,
<a href="../../../org/opencv/core/MatOfByte.html" title="class in org.opencv.core">MatOfByte</a>&nbsp;status,
<a href="../../../org/opencv/core/MatOfFloat.html" title="class in org.opencv.core">MatOfFloat</a>&nbsp;err,
<a href="../../../org/opencv/core/Size.html" title="class in org.opencv.core">Size</a>&nbsp;winSize)</code>
<div class="block">Calculates an optical flow for a sparse feature set using the iterative Lucas-Kanade method with
pyramids.</div>
</td>
</tr>
<tr id="i8" class="altColor">
<td class="colFirst"><code>static void</code></td>
<td class="colLast"><code><span class="memberNameLink"><a href="../../../org/opencv/video/Video.html#calcOpticalFlowPyrLK-org.opencv.core.Mat-org.opencv.core.Mat-org.opencv.core.MatOfPoint2f-org.opencv.core.MatOfPoint2f-org.opencv.core.MatOfByte-org.opencv.core.MatOfFloat-org.opencv.core.Size-int-">calcOpticalFlowPyrLK</a></span>(<a href="../../../org/opencv/core/Mat.html" title="class in org.opencv.core">Mat</a>&nbsp;prevImg,
<a href="../../../org/opencv/core/Mat.html" title="class in org.opencv.core">Mat</a>&nbsp;nextImg,
<a href="../../../org/opencv/core/MatOfPoint2f.html" title="class in org.opencv.core">MatOfPoint2f</a>&nbsp;prevPts,
<a href="../../../org/opencv/core/MatOfPoint2f.html" title="class in org.opencv.core">MatOfPoint2f</a>&nbsp;nextPts,
<a href="../../../org/opencv/core/MatOfByte.html" title="class in org.opencv.core">MatOfByte</a>&nbsp;status,
<a href="../../../org/opencv/core/MatOfFloat.html" title="class in org.opencv.core">MatOfFloat</a>&nbsp;err,
<a href="../../../org/opencv/core/Size.html" title="class in org.opencv.core">Size</a>&nbsp;winSize,
int&nbsp;maxLevel)</code>
<div class="block">Calculates an optical flow for a sparse feature set using the iterative Lucas-Kanade method with
pyramids.</div>
</td>
</tr>
<tr id="i9" class="rowColor">
<td class="colFirst"><code>static void</code></td>
<td class="colLast"><code><span class="memberNameLink"><a href="../../../org/opencv/video/Video.html#calcOpticalFlowPyrLK-org.opencv.core.Mat-org.opencv.core.Mat-org.opencv.core.MatOfPoint2f-org.opencv.core.MatOfPoint2f-org.opencv.core.MatOfByte-org.opencv.core.MatOfFloat-org.opencv.core.Size-int-org.opencv.core.TermCriteria-">calcOpticalFlowPyrLK</a></span>(<a href="../../../org/opencv/core/Mat.html" title="class in org.opencv.core">Mat</a>&nbsp;prevImg,
<a href="../../../org/opencv/core/Mat.html" title="class in org.opencv.core">Mat</a>&nbsp;nextImg,
<a href="../../../org/opencv/core/MatOfPoint2f.html" title="class in org.opencv.core">MatOfPoint2f</a>&nbsp;prevPts,
<a href="../../../org/opencv/core/MatOfPoint2f.html" title="class in org.opencv.core">MatOfPoint2f</a>&nbsp;nextPts,
<a href="../../../org/opencv/core/MatOfByte.html" title="class in org.opencv.core">MatOfByte</a>&nbsp;status,
<a href="../../../org/opencv/core/MatOfFloat.html" title="class in org.opencv.core">MatOfFloat</a>&nbsp;err,
<a href="../../../org/opencv/core/Size.html" title="class in org.opencv.core">Size</a>&nbsp;winSize,
int&nbsp;maxLevel,
<a href="../../../org/opencv/core/TermCriteria.html" title="class in org.opencv.core">TermCriteria</a>&nbsp;criteria)</code>
<div class="block">Calculates an optical flow for a sparse feature set using the iterative Lucas-Kanade method with
pyramids.</div>
</td>
</tr>
<tr id="i10" class="altColor">
<td class="colFirst"><code>static void</code></td>
<td class="colLast"><code><span class="memberNameLink"><a href="../../../org/opencv/video/Video.html#calcOpticalFlowPyrLK-org.opencv.core.Mat-org.opencv.core.Mat-org.opencv.core.MatOfPoint2f-org.opencv.core.MatOfPoint2f-org.opencv.core.MatOfByte-org.opencv.core.MatOfFloat-org.opencv.core.Size-int-org.opencv.core.TermCriteria-int-">calcOpticalFlowPyrLK</a></span>(<a href="../../../org/opencv/core/Mat.html" title="class in org.opencv.core">Mat</a>&nbsp;prevImg,
<a href="../../../org/opencv/core/Mat.html" title="class in org.opencv.core">Mat</a>&nbsp;nextImg,
<a href="../../../org/opencv/core/MatOfPoint2f.html" title="class in org.opencv.core">MatOfPoint2f</a>&nbsp;prevPts,
<a href="../../../org/opencv/core/MatOfPoint2f.html" title="class in org.opencv.core">MatOfPoint2f</a>&nbsp;nextPts,
<a href="../../../org/opencv/core/MatOfByte.html" title="class in org.opencv.core">MatOfByte</a>&nbsp;status,
<a href="../../../org/opencv/core/MatOfFloat.html" title="class in org.opencv.core">MatOfFloat</a>&nbsp;err,
<a href="../../../org/opencv/core/Size.html" title="class in org.opencv.core">Size</a>&nbsp;winSize,
int&nbsp;maxLevel,
<a href="../../../org/opencv/core/TermCriteria.html" title="class in org.opencv.core">TermCriteria</a>&nbsp;criteria,
int&nbsp;flags)</code>
<div class="block">Calculates an optical flow for a sparse feature set using the iterative Lucas-Kanade method with
pyramids.</div>
</td>
</tr>
<tr id="i11" class="rowColor">
<td class="colFirst"><code>static void</code></td>
<td class="colLast"><code><span class="memberNameLink"><a href="../../../org/opencv/video/Video.html#calcOpticalFlowPyrLK-org.opencv.core.Mat-org.opencv.core.Mat-org.opencv.core.MatOfPoint2f-org.opencv.core.MatOfPoint2f-org.opencv.core.MatOfByte-org.opencv.core.MatOfFloat-org.opencv.core.Size-int-org.opencv.core.TermCriteria-int-double-">calcOpticalFlowPyrLK</a></span>(<a href="../../../org/opencv/core/Mat.html" title="class in org.opencv.core">Mat</a>&nbsp;prevImg,
<a href="../../../org/opencv/core/Mat.html" title="class in org.opencv.core">Mat</a>&nbsp;nextImg,
<a href="../../../org/opencv/core/MatOfPoint2f.html" title="class in org.opencv.core">MatOfPoint2f</a>&nbsp;prevPts,
<a href="../../../org/opencv/core/MatOfPoint2f.html" title="class in org.opencv.core">MatOfPoint2f</a>&nbsp;nextPts,
<a href="../../../org/opencv/core/MatOfByte.html" title="class in org.opencv.core">MatOfByte</a>&nbsp;status,
<a href="../../../org/opencv/core/MatOfFloat.html" title="class in org.opencv.core">MatOfFloat</a>&nbsp;err,
<a href="../../../org/opencv/core/Size.html" title="class in org.opencv.core">Size</a>&nbsp;winSize,
int&nbsp;maxLevel,
<a href="../../../org/opencv/core/TermCriteria.html" title="class in org.opencv.core">TermCriteria</a>&nbsp;criteria,
int&nbsp;flags,
double&nbsp;minEigThreshold)</code>
<div class="block">Calculates an optical flow for a sparse feature set using the iterative Lucas-Kanade method with
pyramids.</div>
</td>
</tr>
<tr id="i12" class="altColor">
<td class="colFirst"><code>static <a href="../../../org/opencv/core/RotatedRect.html" title="class in org.opencv.core">RotatedRect</a></code></td>
<td class="colLast"><code><span class="memberNameLink"><a href="../../../org/opencv/video/Video.html#CamShift-org.opencv.core.Mat-org.opencv.core.Rect-org.opencv.core.TermCriteria-">CamShift</a></span>(<a href="../../../org/opencv/core/Mat.html" title="class in org.opencv.core">Mat</a>&nbsp;probImage,
<a href="../../../org/opencv/core/Rect.html" title="class in org.opencv.core">Rect</a>&nbsp;window,
<a href="../../../org/opencv/core/TermCriteria.html" title="class in org.opencv.core">TermCriteria</a>&nbsp;criteria)</code>
<div class="block">Finds an object center, size, and orientation.</div>
</td>
</tr>
<tr id="i13" class="rowColor">
<td class="colFirst"><code>static double</code></td>
<td class="colLast"><code><span class="memberNameLink"><a href="../../../org/opencv/video/Video.html#computeECC-org.opencv.core.Mat-org.opencv.core.Mat-">computeECC</a></span>(<a href="../../../org/opencv/core/Mat.html" title="class in org.opencv.core">Mat</a>&nbsp;templateImage,
<a href="../../../org/opencv/core/Mat.html" title="class in org.opencv.core">Mat</a>&nbsp;inputImage)</code>
<div class="block">Computes the Enhanced Correlation Coefficient value between two images CITE: EP08 .</div>
</td>
</tr>
<tr id="i14" class="altColor">
<td class="colFirst"><code>static double</code></td>
<td class="colLast"><code><span class="memberNameLink"><a href="../../../org/opencv/video/Video.html#computeECC-org.opencv.core.Mat-org.opencv.core.Mat-org.opencv.core.Mat-">computeECC</a></span>(<a href="../../../org/opencv/core/Mat.html" title="class in org.opencv.core">Mat</a>&nbsp;templateImage,
<a href="../../../org/opencv/core/Mat.html" title="class in org.opencv.core">Mat</a>&nbsp;inputImage,
<a href="../../../org/opencv/core/Mat.html" title="class in org.opencv.core">Mat</a>&nbsp;inputMask)</code>
<div class="block">Computes the Enhanced Correlation Coefficient value between two images CITE: EP08 .</div>
</td>
</tr>
<tr id="i15" class="rowColor">
<td class="colFirst"><code>static <a href="../../../org/opencv/video/BackgroundSubtractorKNN.html" title="class in org.opencv.video">BackgroundSubtractorKNN</a></code></td>
<td class="colLast"><code><span class="memberNameLink"><a href="../../../org/opencv/video/Video.html#createBackgroundSubtractorKNN--">createBackgroundSubtractorKNN</a></span>()</code>
<div class="block">Creates KNN Background Subtractor
whether a pixel is close to that sample.</div>
</td>
</tr>
<tr id="i16" class="altColor">
<td class="colFirst"><code>static <a href="../../../org/opencv/video/BackgroundSubtractorKNN.html" title="class in org.opencv.video">BackgroundSubtractorKNN</a></code></td>
<td class="colLast"><code><span class="memberNameLink"><a href="../../../org/opencv/video/Video.html#createBackgroundSubtractorKNN-int-">createBackgroundSubtractorKNN</a></span>(int&nbsp;history)</code>
<div class="block">Creates KNN Background Subtractor</div>
</td>
</tr>
<tr id="i17" class="rowColor">
<td class="colFirst"><code>static <a href="../../../org/opencv/video/BackgroundSubtractorKNN.html" title="class in org.opencv.video">BackgroundSubtractorKNN</a></code></td>
<td class="colLast"><code><span class="memberNameLink"><a href="../../../org/opencv/video/Video.html#createBackgroundSubtractorKNN-int-double-">createBackgroundSubtractorKNN</a></span>(int&nbsp;history,
double&nbsp;dist2Threshold)</code>
<div class="block">Creates KNN Background Subtractor</div>
</td>
</tr>
<tr id="i18" class="altColor">
<td class="colFirst"><code>static <a href="../../../org/opencv/video/BackgroundSubtractorKNN.html" title="class in org.opencv.video">BackgroundSubtractorKNN</a></code></td>
<td class="colLast"><code><span class="memberNameLink"><a href="../../../org/opencv/video/Video.html#createBackgroundSubtractorKNN-int-double-boolean-">createBackgroundSubtractorKNN</a></span>(int&nbsp;history,
double&nbsp;dist2Threshold,
boolean&nbsp;detectShadows)</code>
<div class="block">Creates KNN Background Subtractor</div>
</td>
</tr>
<tr id="i19" class="rowColor">
<td class="colFirst"><code>static <a href="../../../org/opencv/video/BackgroundSubtractorMOG2.html" title="class in org.opencv.video">BackgroundSubtractorMOG2</a></code></td>
<td class="colLast"><code><span class="memberNameLink"><a href="../../../org/opencv/video/Video.html#createBackgroundSubtractorMOG2--">createBackgroundSubtractorMOG2</a></span>()</code>
<div class="block">Creates MOG2 Background Subtractor
to decide whether a pixel is well described by the background model.</div>
</td>
</tr>
<tr id="i20" class="altColor">
<td class="colFirst"><code>static <a href="../../../org/opencv/video/BackgroundSubtractorMOG2.html" title="class in org.opencv.video">BackgroundSubtractorMOG2</a></code></td>
<td class="colLast"><code><span class="memberNameLink"><a href="../../../org/opencv/video/Video.html#createBackgroundSubtractorMOG2-int-">createBackgroundSubtractorMOG2</a></span>(int&nbsp;history)</code>
<div class="block">Creates MOG2 Background Subtractor</div>
</td>
</tr>
<tr id="i21" class="rowColor">
<td class="colFirst"><code>static <a href="../../../org/opencv/video/BackgroundSubtractorMOG2.html" title="class in org.opencv.video">BackgroundSubtractorMOG2</a></code></td>
<td class="colLast"><code><span class="memberNameLink"><a href="../../../org/opencv/video/Video.html#createBackgroundSubtractorMOG2-int-double-">createBackgroundSubtractorMOG2</a></span>(int&nbsp;history,
double&nbsp;varThreshold)</code>
<div class="block">Creates MOG2 Background Subtractor</div>
</td>
</tr>
<tr id="i22" class="altColor">
<td class="colFirst"><code>static <a href="../../../org/opencv/video/BackgroundSubtractorMOG2.html" title="class in org.opencv.video">BackgroundSubtractorMOG2</a></code></td>
<td class="colLast"><code><span class="memberNameLink"><a href="../../../org/opencv/video/Video.html#createBackgroundSubtractorMOG2-int-double-boolean-">createBackgroundSubtractorMOG2</a></span>(int&nbsp;history,
double&nbsp;varThreshold,
boolean&nbsp;detectShadows)</code>
<div class="block">Creates MOG2 Background Subtractor</div>
</td>
</tr>
<tr id="i23" class="rowColor">
<td class="colFirst"><code>static double</code></td>
<td class="colLast"><code><span class="memberNameLink"><a href="../../../org/opencv/video/Video.html#findTransformECC-org.opencv.core.Mat-org.opencv.core.Mat-org.opencv.core.Mat-">findTransformECC</a></span>(<a href="../../../org/opencv/core/Mat.html" title="class in org.opencv.core">Mat</a>&nbsp;templateImage,
<a href="../../../org/opencv/core/Mat.html" title="class in org.opencv.core">Mat</a>&nbsp;inputImage,
<a href="../../../org/opencv/core/Mat.html" title="class in org.opencv.core">Mat</a>&nbsp;warpMatrix)</code>&nbsp;</td>
</tr>
<tr id="i24" class="altColor">
<td class="colFirst"><code>static double</code></td>
<td class="colLast"><code><span class="memberNameLink"><a href="../../../org/opencv/video/Video.html#findTransformECC-org.opencv.core.Mat-org.opencv.core.Mat-org.opencv.core.Mat-int-">findTransformECC</a></span>(<a href="../../../org/opencv/core/Mat.html" title="class in org.opencv.core">Mat</a>&nbsp;templateImage,
<a href="../../../org/opencv/core/Mat.html" title="class in org.opencv.core">Mat</a>&nbsp;inputImage,
<a href="../../../org/opencv/core/Mat.html" title="class in org.opencv.core">Mat</a>&nbsp;warpMatrix,
int&nbsp;motionType)</code>&nbsp;</td>
</tr>
<tr id="i25" class="rowColor">
<td class="colFirst"><code>static double</code></td>
<td class="colLast"><code><span class="memberNameLink"><a href="../../../org/opencv/video/Video.html#findTransformECC-org.opencv.core.Mat-org.opencv.core.Mat-org.opencv.core.Mat-int-org.opencv.core.TermCriteria-">findTransformECC</a></span>(<a href="../../../org/opencv/core/Mat.html" title="class in org.opencv.core">Mat</a>&nbsp;templateImage,
<a href="../../../org/opencv/core/Mat.html" title="class in org.opencv.core">Mat</a>&nbsp;inputImage,
<a href="../../../org/opencv/core/Mat.html" title="class in org.opencv.core">Mat</a>&nbsp;warpMatrix,
int&nbsp;motionType,
<a href="../../../org/opencv/core/TermCriteria.html" title="class in org.opencv.core">TermCriteria</a>&nbsp;criteria)</code>&nbsp;</td>
</tr>
<tr id="i26" class="altColor">
<td class="colFirst"><code>static double</code></td>
<td class="colLast"><code><span class="memberNameLink"><a href="../../../org/opencv/video/Video.html#findTransformECC-org.opencv.core.Mat-org.opencv.core.Mat-org.opencv.core.Mat-int-org.opencv.core.TermCriteria-org.opencv.core.Mat-">findTransformECC</a></span>(<a href="../../../org/opencv/core/Mat.html" title="class in org.opencv.core">Mat</a>&nbsp;templateImage,
<a href="../../../org/opencv/core/Mat.html" title="class in org.opencv.core">Mat</a>&nbsp;inputImage,
<a href="../../../org/opencv/core/Mat.html" title="class in org.opencv.core">Mat</a>&nbsp;warpMatrix,
int&nbsp;motionType,
<a href="../../../org/opencv/core/TermCriteria.html" title="class in org.opencv.core">TermCriteria</a>&nbsp;criteria,
<a href="../../../org/opencv/core/Mat.html" title="class in org.opencv.core">Mat</a>&nbsp;inputMask)</code>&nbsp;</td>
</tr>
<tr id="i27" class="rowColor">
<td class="colFirst"><code>static double</code></td>
<td class="colLast"><code><span class="memberNameLink"><a href="../../../org/opencv/video/Video.html#findTransformECC-org.opencv.core.Mat-org.opencv.core.Mat-org.opencv.core.Mat-int-org.opencv.core.TermCriteria-org.opencv.core.Mat-int-">findTransformECC</a></span>(<a href="../../../org/opencv/core/Mat.html" title="class in org.opencv.core">Mat</a>&nbsp;templateImage,
<a href="../../../org/opencv/core/Mat.html" title="class in org.opencv.core">Mat</a>&nbsp;inputImage,
<a href="../../../org/opencv/core/Mat.html" title="class in org.opencv.core">Mat</a>&nbsp;warpMatrix,
int&nbsp;motionType,
<a href="../../../org/opencv/core/TermCriteria.html" title="class in org.opencv.core">TermCriteria</a>&nbsp;criteria,
<a href="../../../org/opencv/core/Mat.html" title="class in org.opencv.core">Mat</a>&nbsp;inputMask,
int&nbsp;gaussFiltSize)</code>
<div class="block">Finds the geometric transform (warp) between two images in terms of the ECC criterion CITE: EP08 .</div>
</td>
</tr>
<tr id="i28" class="altColor">
<td class="colFirst"><code>static int</code></td>
<td class="colLast"><code><span class="memberNameLink"><a href="../../../org/opencv/video/Video.html#meanShift-org.opencv.core.Mat-org.opencv.core.Rect-org.opencv.core.TermCriteria-">meanShift</a></span>(<a href="../../../org/opencv/core/Mat.html" title="class in org.opencv.core">Mat</a>&nbsp;probImage,
<a href="../../../org/opencv/core/Rect.html" title="class in org.opencv.core">Rect</a>&nbsp;window,
<a href="../../../org/opencv/core/TermCriteria.html" title="class in org.opencv.core">TermCriteria</a>&nbsp;criteria)</code>
<div class="block">Finds an object on a back projection image.</div>
</td>
</tr>
<tr id="i29" class="rowColor">
<td class="colFirst"><code>static <a href="../../../org/opencv/core/Mat.html" title="class in org.opencv.core">Mat</a></code></td>
<td class="colLast"><code><span class="memberNameLink"><a href="../../../org/opencv/video/Video.html#readOpticalFlow-java.lang.String-">readOpticalFlow</a></span>(java.lang.String&nbsp;path)</code>
<div class="block">Read a .flo file</div>
</td>
</tr>
<tr id="i30" class="altColor">
<td class="colFirst"><code>static boolean</code></td>
<td class="colLast"><code><span class="memberNameLink"><a href="../../../org/opencv/video/Video.html#writeOpticalFlow-java.lang.String-org.opencv.core.Mat-">writeOpticalFlow</a></span>(java.lang.String&nbsp;path,
<a href="../../../org/opencv/core/Mat.html" title="class in org.opencv.core">Mat</a>&nbsp;flow)</code>
<div class="block">Write a .flo to disk</div>
</td>
</tr>
</table>
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<h3>Methods inherited from class&nbsp;java.lang.Object</h3>
<code>equals, getClass, hashCode, notify, notifyAll, toString, wait, wait, wait</code></li>
</ul>
</li>
</ul>
</li>
</ul>
</div>
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<li class="blockList">
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<pre>public static final&nbsp;int MOTION_AFFINE</pre>
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<dd><a href="../../../constant-values.html#org.opencv.video.Video.MOTION_AFFINE">Constant Field Values</a></dd>
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<pre>public static final&nbsp;int MOTION_EUCLIDEAN</pre>
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<dd><a href="../../../constant-values.html#org.opencv.video.Video.MOTION_EUCLIDEAN">Constant Field Values</a></dd>
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<pre>public static final&nbsp;int MOTION_HOMOGRAPHY</pre>
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<dd><a href="../../../constant-values.html#org.opencv.video.Video.MOTION_HOMOGRAPHY">Constant Field Values</a></dd>
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<pre>public static final&nbsp;int MOTION_TRANSLATION</pre>
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<pre>public static final&nbsp;int OPTFLOW_FARNEBACK_GAUSSIAN</pre>
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<dd><a href="../../../constant-values.html#org.opencv.video.Video.OPTFLOW_FARNEBACK_GAUSSIAN">Constant Field Values</a></dd>
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<pre>public static final&nbsp;int OPTFLOW_LK_GET_MIN_EIGENVALS</pre>
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<dd><a href="../../../constant-values.html#org.opencv.video.Video.OPTFLOW_LK_GET_MIN_EIGENVALS">Constant Field Values</a></dd>
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<pre>public static final&nbsp;int OPTFLOW_USE_INITIAL_FLOW</pre>
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<dd><a href="../../../constant-values.html#org.opencv.video.Video.OPTFLOW_USE_INITIAL_FLOW">Constant Field Values</a></dd>
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<pre>public static final&nbsp;int TrackerSamplerCSC_MODE_DETECT</pre>
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<dd><a href="../../../constant-values.html#org.opencv.video.Video.TrackerSamplerCSC_MODE_DETECT">Constant Field Values</a></dd>
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<pre>public static final&nbsp;int TrackerSamplerCSC_MODE_INIT_NEG</pre>
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<dd><a href="../../../constant-values.html#org.opencv.video.Video.TrackerSamplerCSC_MODE_INIT_NEG">Constant Field Values</a></dd>
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<pre>public static final&nbsp;int TrackerSamplerCSC_MODE_INIT_POS</pre>
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<dd><a href="../../../constant-values.html#org.opencv.video.Video.TrackerSamplerCSC_MODE_INIT_POS">Constant Field Values</a></dd>
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<pre>public static final&nbsp;int TrackerSamplerCSC_MODE_TRACK_NEG</pre>
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<dd><a href="../../../constant-values.html#org.opencv.video.Video.TrackerSamplerCSC_MODE_TRACK_NEG">Constant Field Values</a></dd>
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<pre>public static final&nbsp;int TrackerSamplerCSC_MODE_TRACK_POS</pre>
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<dt><span class="seeLabel">See Also:</span></dt>
<dd><a href="../../../constant-values.html#org.opencv.video.Video.TrackerSamplerCSC_MODE_TRACK_POS">Constant Field Values</a></dd>
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<a name="Video--">
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<h4>Video</h4>
<pre>public&nbsp;Video()</pre>
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<a name="buildOpticalFlowPyramid-org.opencv.core.Mat-java.util.List-org.opencv.core.Size-int-">
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<h4>buildOpticalFlowPyramid</h4>
<pre>public static&nbsp;int&nbsp;buildOpticalFlowPyramid(<a href="../../../org/opencv/core/Mat.html" title="class in org.opencv.core">Mat</a>&nbsp;img,
java.util.List&lt;<a href="../../../org/opencv/core/Mat.html" title="class in org.opencv.core">Mat</a>&gt;&nbsp;pyramid,
<a href="../../../org/opencv/core/Size.html" title="class in org.opencv.core">Size</a>&nbsp;winSize,
int&nbsp;maxLevel)</pre>
<div class="block">Constructs the image pyramid which can be passed to calcOpticalFlowPyrLK.</div>
<dl>
<dt><span class="paramLabel">Parameters:</span></dt>
<dd><code>img</code> - 8-bit input image.</dd>
<dd><code>pyramid</code> - output pyramid.</dd>
<dd><code>winSize</code> - window size of optical flow algorithm. Must be not less than winSize argument of
calcOpticalFlowPyrLK. It is needed to calculate required padding for pyramid levels.</dd>
<dd><code>maxLevel</code> - 0-based maximal pyramid level number.
constructed without the gradients then calcOpticalFlowPyrLK will calculate them internally.
to force data copying.</dd>
<dt><span class="returnLabel">Returns:</span></dt>
<dd>number of levels in constructed pyramid. Can be less than maxLevel.</dd>
</dl>
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<h4>buildOpticalFlowPyramid</h4>
<pre>public static&nbsp;int&nbsp;buildOpticalFlowPyramid(<a href="../../../org/opencv/core/Mat.html" title="class in org.opencv.core">Mat</a>&nbsp;img,
java.util.List&lt;<a href="../../../org/opencv/core/Mat.html" title="class in org.opencv.core">Mat</a>&gt;&nbsp;pyramid,
<a href="../../../org/opencv/core/Size.html" title="class in org.opencv.core">Size</a>&nbsp;winSize,
int&nbsp;maxLevel,
boolean&nbsp;withDerivatives)</pre>
<div class="block">Constructs the image pyramid which can be passed to calcOpticalFlowPyrLK.</div>
<dl>
<dt><span class="paramLabel">Parameters:</span></dt>
<dd><code>img</code> - 8-bit input image.</dd>
<dd><code>pyramid</code> - output pyramid.</dd>
<dd><code>winSize</code> - window size of optical flow algorithm. Must be not less than winSize argument of
calcOpticalFlowPyrLK. It is needed to calculate required padding for pyramid levels.</dd>
<dd><code>maxLevel</code> - 0-based maximal pyramid level number.</dd>
<dd><code>withDerivatives</code> - set to precompute gradients for the every pyramid level. If pyramid is
constructed without the gradients then calcOpticalFlowPyrLK will calculate them internally.
to force data copying.</dd>
<dt><span class="returnLabel">Returns:</span></dt>
<dd>number of levels in constructed pyramid. Can be less than maxLevel.</dd>
</dl>
</li>
</ul>
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<h4>buildOpticalFlowPyramid</h4>
<pre>public static&nbsp;int&nbsp;buildOpticalFlowPyramid(<a href="../../../org/opencv/core/Mat.html" title="class in org.opencv.core">Mat</a>&nbsp;img,
java.util.List&lt;<a href="../../../org/opencv/core/Mat.html" title="class in org.opencv.core">Mat</a>&gt;&nbsp;pyramid,
<a href="../../../org/opencv/core/Size.html" title="class in org.opencv.core">Size</a>&nbsp;winSize,
int&nbsp;maxLevel,
boolean&nbsp;withDerivatives,
int&nbsp;pyrBorder)</pre>
<div class="block">Constructs the image pyramid which can be passed to calcOpticalFlowPyrLK.</div>
<dl>
<dt><span class="paramLabel">Parameters:</span></dt>
<dd><code>img</code> - 8-bit input image.</dd>
<dd><code>pyramid</code> - output pyramid.</dd>
<dd><code>winSize</code> - window size of optical flow algorithm. Must be not less than winSize argument of
calcOpticalFlowPyrLK. It is needed to calculate required padding for pyramid levels.</dd>
<dd><code>maxLevel</code> - 0-based maximal pyramid level number.</dd>
<dd><code>withDerivatives</code> - set to precompute gradients for the every pyramid level. If pyramid is
constructed without the gradients then calcOpticalFlowPyrLK will calculate them internally.</dd>
<dd><code>pyrBorder</code> - the border mode for pyramid layers.
to force data copying.</dd>
<dt><span class="returnLabel">Returns:</span></dt>
<dd>number of levels in constructed pyramid. Can be less than maxLevel.</dd>
</dl>
</li>
</ul>
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<h4>buildOpticalFlowPyramid</h4>
<pre>public static&nbsp;int&nbsp;buildOpticalFlowPyramid(<a href="../../../org/opencv/core/Mat.html" title="class in org.opencv.core">Mat</a>&nbsp;img,
java.util.List&lt;<a href="../../../org/opencv/core/Mat.html" title="class in org.opencv.core">Mat</a>&gt;&nbsp;pyramid,
<a href="../../../org/opencv/core/Size.html" title="class in org.opencv.core">Size</a>&nbsp;winSize,
int&nbsp;maxLevel,
boolean&nbsp;withDerivatives,
int&nbsp;pyrBorder,
int&nbsp;derivBorder)</pre>
<div class="block">Constructs the image pyramid which can be passed to calcOpticalFlowPyrLK.</div>
<dl>
<dt><span class="paramLabel">Parameters:</span></dt>
<dd><code>img</code> - 8-bit input image.</dd>
<dd><code>pyramid</code> - output pyramid.</dd>
<dd><code>winSize</code> - window size of optical flow algorithm. Must be not less than winSize argument of
calcOpticalFlowPyrLK. It is needed to calculate required padding for pyramid levels.</dd>
<dd><code>maxLevel</code> - 0-based maximal pyramid level number.</dd>
<dd><code>withDerivatives</code> - set to precompute gradients for the every pyramid level. If pyramid is
constructed without the gradients then calcOpticalFlowPyrLK will calculate them internally.</dd>
<dd><code>pyrBorder</code> - the border mode for pyramid layers.</dd>
<dd><code>derivBorder</code> - the border mode for gradients.
to force data copying.</dd>
<dt><span class="returnLabel">Returns:</span></dt>
<dd>number of levels in constructed pyramid. Can be less than maxLevel.</dd>
</dl>
</li>
</ul>
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<h4>buildOpticalFlowPyramid</h4>
<pre>public static&nbsp;int&nbsp;buildOpticalFlowPyramid(<a href="../../../org/opencv/core/Mat.html" title="class in org.opencv.core">Mat</a>&nbsp;img,
java.util.List&lt;<a href="../../../org/opencv/core/Mat.html" title="class in org.opencv.core">Mat</a>&gt;&nbsp;pyramid,
<a href="../../../org/opencv/core/Size.html" title="class in org.opencv.core">Size</a>&nbsp;winSize,
int&nbsp;maxLevel,
boolean&nbsp;withDerivatives,
int&nbsp;pyrBorder,
int&nbsp;derivBorder,
boolean&nbsp;tryReuseInputImage)</pre>
<div class="block">Constructs the image pyramid which can be passed to calcOpticalFlowPyrLK.</div>
<dl>
<dt><span class="paramLabel">Parameters:</span></dt>
<dd><code>img</code> - 8-bit input image.</dd>
<dd><code>pyramid</code> - output pyramid.</dd>
<dd><code>winSize</code> - window size of optical flow algorithm. Must be not less than winSize argument of
calcOpticalFlowPyrLK. It is needed to calculate required padding for pyramid levels.</dd>
<dd><code>maxLevel</code> - 0-based maximal pyramid level number.</dd>
<dd><code>withDerivatives</code> - set to precompute gradients for the every pyramid level. If pyramid is
constructed without the gradients then calcOpticalFlowPyrLK will calculate them internally.</dd>
<dd><code>pyrBorder</code> - the border mode for pyramid layers.</dd>
<dd><code>derivBorder</code> - the border mode for gradients.</dd>
<dd><code>tryReuseInputImage</code> - put ROI of input image into the pyramid if possible. You can pass false
to force data copying.</dd>
<dt><span class="returnLabel">Returns:</span></dt>
<dd>number of levels in constructed pyramid. Can be less than maxLevel.</dd>
</dl>
</li>
</ul>
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<h4>calcOpticalFlowFarneback</h4>
<pre>public static&nbsp;void&nbsp;calcOpticalFlowFarneback(<a href="../../../org/opencv/core/Mat.html" title="class in org.opencv.core">Mat</a>&nbsp;prev,
<a href="../../../org/opencv/core/Mat.html" title="class in org.opencv.core">Mat</a>&nbsp;next,
<a href="../../../org/opencv/core/Mat.html" title="class in org.opencv.core">Mat</a>&nbsp;flow,
double&nbsp;pyr_scale,
int&nbsp;levels,
int&nbsp;winsize,
int&nbsp;iterations,
int&nbsp;poly_n,
double&nbsp;poly_sigma,
int&nbsp;flags)</pre>
<div class="block">Computes a dense optical flow using the Gunnar Farneback's algorithm.</div>
<dl>
<dt><span class="paramLabel">Parameters:</span></dt>
<dd><code>prev</code> - first 8-bit single-channel input image.</dd>
<dd><code>next</code> - second input image of the same size and the same type as prev.</dd>
<dd><code>flow</code> - computed flow image that has the same size as prev and type CV_32FC2.</dd>
<dd><code>pyr_scale</code> - parameter, specifying the image scale (&lt;1) to build pyramids for each image;
pyr_scale=0.5 means a classical pyramid, where each next layer is twice smaller than the previous
one.</dd>
<dd><code>levels</code> - number of pyramid layers including the initial image; levels=1 means that no extra
layers are created and only the original images are used.</dd>
<dd><code>winsize</code> - averaging window size; larger values increase the algorithm robustness to image
noise and give more chances for fast motion detection, but yield more blurred motion field.</dd>
<dd><code>iterations</code> - number of iterations the algorithm does at each pyramid level.</dd>
<dd><code>poly_n</code> - size of the pixel neighborhood used to find polynomial expansion in each pixel;
larger values mean that the image will be approximated with smoother surfaces, yielding more
robust algorithm and more blurred motion field, typically poly_n =5 or 7.</dd>
<dd><code>poly_sigma</code> - standard deviation of the Gaussian that is used to smooth derivatives used as a
basis for the polynomial expansion; for poly_n=5, you can set poly_sigma=1.1, for poly_n=7, a
good value would be poly_sigma=1.5.</dd>
<dd><code>flags</code> - operation flags that can be a combination of the following:
<ul>
<li>
<b>OPTFLOW_USE_INITIAL_FLOW</b> uses the input flow as an initial flow approximation.
</li>
<li>
<b>OPTFLOW_FARNEBACK_GAUSSIAN</b> uses the Gaussian \(\texttt{winsize}\times\texttt{winsize}\)
filter instead of a box filter of the same size for optical flow estimation; usually, this
option gives z more accurate flow than with a box filter, at the cost of lower speed;
normally, winsize for a Gaussian window should be set to a larger value to achieve the same
level of robustness.
</li>
</ul>
The function finds an optical flow for each prev pixel using the CITE: Farneback2003 algorithm so that
\(\texttt{prev} (y,x) \sim \texttt{next} ( y + \texttt{flow} (y,x)[1], x + \texttt{flow} (y,x)[0])\)
<b>Note:</b>
<ul>
<li>
An example using the optical flow algorithm described by Gunnar Farneback can be found at
opencv_source_code/samples/cpp/fback.cpp
</li>
<li>
(Python) An example using the optical flow algorithm described by Gunnar Farneback can be
found at opencv_source_code/samples/python/opt_flow.py
</li>
</ul></dd>
</dl>
</li>
</ul>
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<h4>calcOpticalFlowPyrLK</h4>
<pre>public static&nbsp;void&nbsp;calcOpticalFlowPyrLK(<a href="../../../org/opencv/core/Mat.html" title="class in org.opencv.core">Mat</a>&nbsp;prevImg,
<a href="../../../org/opencv/core/Mat.html" title="class in org.opencv.core">Mat</a>&nbsp;nextImg,
<a href="../../../org/opencv/core/MatOfPoint2f.html" title="class in org.opencv.core">MatOfPoint2f</a>&nbsp;prevPts,
<a href="../../../org/opencv/core/MatOfPoint2f.html" title="class in org.opencv.core">MatOfPoint2f</a>&nbsp;nextPts,
<a href="../../../org/opencv/core/MatOfByte.html" title="class in org.opencv.core">MatOfByte</a>&nbsp;status,
<a href="../../../org/opencv/core/MatOfFloat.html" title="class in org.opencv.core">MatOfFloat</a>&nbsp;err)</pre>
<div class="block">Calculates an optical flow for a sparse feature set using the iterative Lucas-Kanade method with
pyramids.</div>
<dl>
<dt><span class="paramLabel">Parameters:</span></dt>
<dd><code>prevImg</code> - first 8-bit input image or pyramid constructed by buildOpticalFlowPyramid.</dd>
<dd><code>nextImg</code> - second input image or pyramid of the same size and the same type as prevImg.</dd>
<dd><code>prevPts</code> - vector of 2D points for which the flow needs to be found; point coordinates must be
single-precision floating-point numbers.</dd>
<dd><code>nextPts</code> - output vector of 2D points (with single-precision floating-point coordinates)
containing the calculated new positions of input features in the second image; when
OPTFLOW_USE_INITIAL_FLOW flag is passed, the vector must have the same size as in the input.</dd>
<dd><code>status</code> - output status vector (of unsigned chars); each element of the vector is set to 1 if
the flow for the corresponding features has been found, otherwise, it is set to 0.</dd>
<dd><code>err</code> - output vector of errors; each element of the vector is set to an error for the
corresponding feature, type of the error measure can be set in flags parameter; if the flow wasn't
found then the error is not defined (use the status parameter to find such cases).
level), if set to 1, two levels are used, and so on; if pyramids are passed to input then
algorithm will use as many levels as pyramids have but no more than maxLevel.
(after the specified maximum number of iterations criteria.maxCount or when the search window
moves by less than criteria.epsilon.
<ul>
<li>
<b>OPTFLOW_USE_INITIAL_FLOW</b> uses initial estimations, stored in nextPts; if the flag is
not set, then prevPts is copied to nextPts and is considered the initial estimate.
</li>
<li>
<b>OPTFLOW_LK_GET_MIN_EIGENVALS</b> use minimum eigen values as an error measure (see
minEigThreshold description); if the flag is not set, then L1 distance between patches
around the original and a moved point, divided by number of pixels in a window, is used as a
error measure.
optical flow equations (this matrix is called a spatial gradient matrix in CITE: Bouguet00), divided
by number of pixels in a window; if this value is less than minEigThreshold, then a corresponding
feature is filtered out and its flow is not processed, so it allows to remove bad points and get a
performance boost.
</li>
</ul>
The function implements a sparse iterative version of the Lucas-Kanade optical flow in pyramids. See
CITE: Bouguet00 . The function is parallelized with the TBB library.
<b>Note:</b>
<ul>
<li>
An example using the Lucas-Kanade optical flow algorithm can be found at
opencv_source_code/samples/cpp/lkdemo.cpp
</li>
<li>
(Python) An example using the Lucas-Kanade optical flow algorithm can be found at
opencv_source_code/samples/python/lk_track.py
</li>
<li>
(Python) An example using the Lucas-Kanade tracker for homography matching can be found at
opencv_source_code/samples/python/lk_homography.py
</li>
</ul></dd>
</dl>
</li>
</ul>
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<pre>public static&nbsp;void&nbsp;calcOpticalFlowPyrLK(<a href="../../../org/opencv/core/Mat.html" title="class in org.opencv.core">Mat</a>&nbsp;prevImg,
<a href="../../../org/opencv/core/Mat.html" title="class in org.opencv.core">Mat</a>&nbsp;nextImg,
<a href="../../../org/opencv/core/MatOfPoint2f.html" title="class in org.opencv.core">MatOfPoint2f</a>&nbsp;prevPts,
<a href="../../../org/opencv/core/MatOfPoint2f.html" title="class in org.opencv.core">MatOfPoint2f</a>&nbsp;nextPts,
<a href="../../../org/opencv/core/MatOfByte.html" title="class in org.opencv.core">MatOfByte</a>&nbsp;status,
<a href="../../../org/opencv/core/MatOfFloat.html" title="class in org.opencv.core">MatOfFloat</a>&nbsp;err,
<a href="../../../org/opencv/core/Size.html" title="class in org.opencv.core">Size</a>&nbsp;winSize)</pre>
<div class="block">Calculates an optical flow for a sparse feature set using the iterative Lucas-Kanade method with
pyramids.</div>
<dl>
<dt><span class="paramLabel">Parameters:</span></dt>
<dd><code>prevImg</code> - first 8-bit input image or pyramid constructed by buildOpticalFlowPyramid.</dd>
<dd><code>nextImg</code> - second input image or pyramid of the same size and the same type as prevImg.</dd>
<dd><code>prevPts</code> - vector of 2D points for which the flow needs to be found; point coordinates must be
single-precision floating-point numbers.</dd>
<dd><code>nextPts</code> - output vector of 2D points (with single-precision floating-point coordinates)
containing the calculated new positions of input features in the second image; when
OPTFLOW_USE_INITIAL_FLOW flag is passed, the vector must have the same size as in the input.</dd>
<dd><code>status</code> - output status vector (of unsigned chars); each element of the vector is set to 1 if
the flow for the corresponding features has been found, otherwise, it is set to 0.</dd>
<dd><code>err</code> - output vector of errors; each element of the vector is set to an error for the
corresponding feature, type of the error measure can be set in flags parameter; if the flow wasn't
found then the error is not defined (use the status parameter to find such cases).</dd>
<dd><code>winSize</code> - size of the search window at each pyramid level.
level), if set to 1, two levels are used, and so on; if pyramids are passed to input then
algorithm will use as many levels as pyramids have but no more than maxLevel.
(after the specified maximum number of iterations criteria.maxCount or when the search window
moves by less than criteria.epsilon.
<ul>
<li>
<b>OPTFLOW_USE_INITIAL_FLOW</b> uses initial estimations, stored in nextPts; if the flag is
not set, then prevPts is copied to nextPts and is considered the initial estimate.
</li>
<li>
<b>OPTFLOW_LK_GET_MIN_EIGENVALS</b> use minimum eigen values as an error measure (see
minEigThreshold description); if the flag is not set, then L1 distance between patches
around the original and a moved point, divided by number of pixels in a window, is used as a
error measure.
optical flow equations (this matrix is called a spatial gradient matrix in CITE: Bouguet00), divided
by number of pixels in a window; if this value is less than minEigThreshold, then a corresponding
feature is filtered out and its flow is not processed, so it allows to remove bad points and get a
performance boost.
</li>
</ul>
The function implements a sparse iterative version of the Lucas-Kanade optical flow in pyramids. See
CITE: Bouguet00 . The function is parallelized with the TBB library.
<b>Note:</b>
<ul>
<li>
An example using the Lucas-Kanade optical flow algorithm can be found at
opencv_source_code/samples/cpp/lkdemo.cpp
</li>
<li>
(Python) An example using the Lucas-Kanade optical flow algorithm can be found at
opencv_source_code/samples/python/lk_track.py
</li>
<li>
(Python) An example using the Lucas-Kanade tracker for homography matching can be found at
opencv_source_code/samples/python/lk_homography.py
</li>
</ul></dd>
</dl>
</li>
</ul>
<a name="calcOpticalFlowPyrLK-org.opencv.core.Mat-org.opencv.core.Mat-org.opencv.core.MatOfPoint2f-org.opencv.core.MatOfPoint2f-org.opencv.core.MatOfByte-org.opencv.core.MatOfFloat-org.opencv.core.Size-int-">
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<h4>calcOpticalFlowPyrLK</h4>
<pre>public static&nbsp;void&nbsp;calcOpticalFlowPyrLK(<a href="../../../org/opencv/core/Mat.html" title="class in org.opencv.core">Mat</a>&nbsp;prevImg,
<a href="../../../org/opencv/core/Mat.html" title="class in org.opencv.core">Mat</a>&nbsp;nextImg,
<a href="../../../org/opencv/core/MatOfPoint2f.html" title="class in org.opencv.core">MatOfPoint2f</a>&nbsp;prevPts,
<a href="../../../org/opencv/core/MatOfPoint2f.html" title="class in org.opencv.core">MatOfPoint2f</a>&nbsp;nextPts,
<a href="../../../org/opencv/core/MatOfByte.html" title="class in org.opencv.core">MatOfByte</a>&nbsp;status,
<a href="../../../org/opencv/core/MatOfFloat.html" title="class in org.opencv.core">MatOfFloat</a>&nbsp;err,
<a href="../../../org/opencv/core/Size.html" title="class in org.opencv.core">Size</a>&nbsp;winSize,
int&nbsp;maxLevel)</pre>
<div class="block">Calculates an optical flow for a sparse feature set using the iterative Lucas-Kanade method with
pyramids.</div>
<dl>
<dt><span class="paramLabel">Parameters:</span></dt>
<dd><code>prevImg</code> - first 8-bit input image or pyramid constructed by buildOpticalFlowPyramid.</dd>
<dd><code>nextImg</code> - second input image or pyramid of the same size and the same type as prevImg.</dd>
<dd><code>prevPts</code> - vector of 2D points for which the flow needs to be found; point coordinates must be
single-precision floating-point numbers.</dd>
<dd><code>nextPts</code> - output vector of 2D points (with single-precision floating-point coordinates)
containing the calculated new positions of input features in the second image; when
OPTFLOW_USE_INITIAL_FLOW flag is passed, the vector must have the same size as in the input.</dd>
<dd><code>status</code> - output status vector (of unsigned chars); each element of the vector is set to 1 if
the flow for the corresponding features has been found, otherwise, it is set to 0.</dd>
<dd><code>err</code> - output vector of errors; each element of the vector is set to an error for the
corresponding feature, type of the error measure can be set in flags parameter; if the flow wasn't
found then the error is not defined (use the status parameter to find such cases).</dd>
<dd><code>winSize</code> - size of the search window at each pyramid level.</dd>
<dd><code>maxLevel</code> - 0-based maximal pyramid level number; if set to 0, pyramids are not used (single
level), if set to 1, two levels are used, and so on; if pyramids are passed to input then
algorithm will use as many levels as pyramids have but no more than maxLevel.
(after the specified maximum number of iterations criteria.maxCount or when the search window
moves by less than criteria.epsilon.
<ul>
<li>
<b>OPTFLOW_USE_INITIAL_FLOW</b> uses initial estimations, stored in nextPts; if the flag is
not set, then prevPts is copied to nextPts and is considered the initial estimate.
</li>
<li>
<b>OPTFLOW_LK_GET_MIN_EIGENVALS</b> use minimum eigen values as an error measure (see
minEigThreshold description); if the flag is not set, then L1 distance between patches
around the original and a moved point, divided by number of pixels in a window, is used as a
error measure.
optical flow equations (this matrix is called a spatial gradient matrix in CITE: Bouguet00), divided
by number of pixels in a window; if this value is less than minEigThreshold, then a corresponding
feature is filtered out and its flow is not processed, so it allows to remove bad points and get a
performance boost.
</li>
</ul>
The function implements a sparse iterative version of the Lucas-Kanade optical flow in pyramids. See
CITE: Bouguet00 . The function is parallelized with the TBB library.
<b>Note:</b>
<ul>
<li>
An example using the Lucas-Kanade optical flow algorithm can be found at
opencv_source_code/samples/cpp/lkdemo.cpp
</li>
<li>
(Python) An example using the Lucas-Kanade optical flow algorithm can be found at
opencv_source_code/samples/python/lk_track.py
</li>
<li>
(Python) An example using the Lucas-Kanade tracker for homography matching can be found at
opencv_source_code/samples/python/lk_homography.py
</li>
</ul></dd>
</dl>
</li>
</ul>
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<h4>calcOpticalFlowPyrLK</h4>
<pre>public static&nbsp;void&nbsp;calcOpticalFlowPyrLK(<a href="../../../org/opencv/core/Mat.html" title="class in org.opencv.core">Mat</a>&nbsp;prevImg,
<a href="../../../org/opencv/core/Mat.html" title="class in org.opencv.core">Mat</a>&nbsp;nextImg,
<a href="../../../org/opencv/core/MatOfPoint2f.html" title="class in org.opencv.core">MatOfPoint2f</a>&nbsp;prevPts,
<a href="../../../org/opencv/core/MatOfPoint2f.html" title="class in org.opencv.core">MatOfPoint2f</a>&nbsp;nextPts,
<a href="../../../org/opencv/core/MatOfByte.html" title="class in org.opencv.core">MatOfByte</a>&nbsp;status,
<a href="../../../org/opencv/core/MatOfFloat.html" title="class in org.opencv.core">MatOfFloat</a>&nbsp;err,
<a href="../../../org/opencv/core/Size.html" title="class in org.opencv.core">Size</a>&nbsp;winSize,
int&nbsp;maxLevel,
<a href="../../../org/opencv/core/TermCriteria.html" title="class in org.opencv.core">TermCriteria</a>&nbsp;criteria)</pre>
<div class="block">Calculates an optical flow for a sparse feature set using the iterative Lucas-Kanade method with
pyramids.</div>
<dl>
<dt><span class="paramLabel">Parameters:</span></dt>
<dd><code>prevImg</code> - first 8-bit input image or pyramid constructed by buildOpticalFlowPyramid.</dd>
<dd><code>nextImg</code> - second input image or pyramid of the same size and the same type as prevImg.</dd>
<dd><code>prevPts</code> - vector of 2D points for which the flow needs to be found; point coordinates must be
single-precision floating-point numbers.</dd>
<dd><code>nextPts</code> - output vector of 2D points (with single-precision floating-point coordinates)
containing the calculated new positions of input features in the second image; when
OPTFLOW_USE_INITIAL_FLOW flag is passed, the vector must have the same size as in the input.</dd>
<dd><code>status</code> - output status vector (of unsigned chars); each element of the vector is set to 1 if
the flow for the corresponding features has been found, otherwise, it is set to 0.</dd>
<dd><code>err</code> - output vector of errors; each element of the vector is set to an error for the
corresponding feature, type of the error measure can be set in flags parameter; if the flow wasn't
found then the error is not defined (use the status parameter to find such cases).</dd>
<dd><code>winSize</code> - size of the search window at each pyramid level.</dd>
<dd><code>maxLevel</code> - 0-based maximal pyramid level number; if set to 0, pyramids are not used (single
level), if set to 1, two levels are used, and so on; if pyramids are passed to input then
algorithm will use as many levels as pyramids have but no more than maxLevel.</dd>
<dd><code>criteria</code> - parameter, specifying the termination criteria of the iterative search algorithm
(after the specified maximum number of iterations criteria.maxCount or when the search window
moves by less than criteria.epsilon.
<ul>
<li>
<b>OPTFLOW_USE_INITIAL_FLOW</b> uses initial estimations, stored in nextPts; if the flag is
not set, then prevPts is copied to nextPts and is considered the initial estimate.
</li>
<li>
<b>OPTFLOW_LK_GET_MIN_EIGENVALS</b> use minimum eigen values as an error measure (see
minEigThreshold description); if the flag is not set, then L1 distance between patches
around the original and a moved point, divided by number of pixels in a window, is used as a
error measure.
optical flow equations (this matrix is called a spatial gradient matrix in CITE: Bouguet00), divided
by number of pixels in a window; if this value is less than minEigThreshold, then a corresponding
feature is filtered out and its flow is not processed, so it allows to remove bad points and get a
performance boost.
</li>
</ul>
The function implements a sparse iterative version of the Lucas-Kanade optical flow in pyramids. See
CITE: Bouguet00 . The function is parallelized with the TBB library.
<b>Note:</b>
<ul>
<li>
An example using the Lucas-Kanade optical flow algorithm can be found at
opencv_source_code/samples/cpp/lkdemo.cpp
</li>
<li>
(Python) An example using the Lucas-Kanade optical flow algorithm can be found at
opencv_source_code/samples/python/lk_track.py
</li>
<li>
(Python) An example using the Lucas-Kanade tracker for homography matching can be found at
opencv_source_code/samples/python/lk_homography.py
</li>
</ul></dd>
</dl>
</li>
</ul>
<a name="calcOpticalFlowPyrLK-org.opencv.core.Mat-org.opencv.core.Mat-org.opencv.core.MatOfPoint2f-org.opencv.core.MatOfPoint2f-org.opencv.core.MatOfByte-org.opencv.core.MatOfFloat-org.opencv.core.Size-int-org.opencv.core.TermCriteria-int-">
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<h4>calcOpticalFlowPyrLK</h4>
<pre>public static&nbsp;void&nbsp;calcOpticalFlowPyrLK(<a href="../../../org/opencv/core/Mat.html" title="class in org.opencv.core">Mat</a>&nbsp;prevImg,
<a href="../../../org/opencv/core/Mat.html" title="class in org.opencv.core">Mat</a>&nbsp;nextImg,
<a href="../../../org/opencv/core/MatOfPoint2f.html" title="class in org.opencv.core">MatOfPoint2f</a>&nbsp;prevPts,
<a href="../../../org/opencv/core/MatOfPoint2f.html" title="class in org.opencv.core">MatOfPoint2f</a>&nbsp;nextPts,
<a href="../../../org/opencv/core/MatOfByte.html" title="class in org.opencv.core">MatOfByte</a>&nbsp;status,
<a href="../../../org/opencv/core/MatOfFloat.html" title="class in org.opencv.core">MatOfFloat</a>&nbsp;err,
<a href="../../../org/opencv/core/Size.html" title="class in org.opencv.core">Size</a>&nbsp;winSize,
int&nbsp;maxLevel,
<a href="../../../org/opencv/core/TermCriteria.html" title="class in org.opencv.core">TermCriteria</a>&nbsp;criteria,
int&nbsp;flags)</pre>
<div class="block">Calculates an optical flow for a sparse feature set using the iterative Lucas-Kanade method with
pyramids.</div>
<dl>
<dt><span class="paramLabel">Parameters:</span></dt>
<dd><code>prevImg</code> - first 8-bit input image or pyramid constructed by buildOpticalFlowPyramid.</dd>
<dd><code>nextImg</code> - second input image or pyramid of the same size and the same type as prevImg.</dd>
<dd><code>prevPts</code> - vector of 2D points for which the flow needs to be found; point coordinates must be
single-precision floating-point numbers.</dd>
<dd><code>nextPts</code> - output vector of 2D points (with single-precision floating-point coordinates)
containing the calculated new positions of input features in the second image; when
OPTFLOW_USE_INITIAL_FLOW flag is passed, the vector must have the same size as in the input.</dd>
<dd><code>status</code> - output status vector (of unsigned chars); each element of the vector is set to 1 if
the flow for the corresponding features has been found, otherwise, it is set to 0.</dd>
<dd><code>err</code> - output vector of errors; each element of the vector is set to an error for the
corresponding feature, type of the error measure can be set in flags parameter; if the flow wasn't
found then the error is not defined (use the status parameter to find such cases).</dd>
<dd><code>winSize</code> - size of the search window at each pyramid level.</dd>
<dd><code>maxLevel</code> - 0-based maximal pyramid level number; if set to 0, pyramids are not used (single
level), if set to 1, two levels are used, and so on; if pyramids are passed to input then
algorithm will use as many levels as pyramids have but no more than maxLevel.</dd>
<dd><code>criteria</code> - parameter, specifying the termination criteria of the iterative search algorithm
(after the specified maximum number of iterations criteria.maxCount or when the search window
moves by less than criteria.epsilon.</dd>
<dd><code>flags</code> - operation flags:
<ul>
<li>
<b>OPTFLOW_USE_INITIAL_FLOW</b> uses initial estimations, stored in nextPts; if the flag is
not set, then prevPts is copied to nextPts and is considered the initial estimate.
</li>
<li>
<b>OPTFLOW_LK_GET_MIN_EIGENVALS</b> use minimum eigen values as an error measure (see
minEigThreshold description); if the flag is not set, then L1 distance between patches
around the original and a moved point, divided by number of pixels in a window, is used as a
error measure.
optical flow equations (this matrix is called a spatial gradient matrix in CITE: Bouguet00), divided
by number of pixels in a window; if this value is less than minEigThreshold, then a corresponding
feature is filtered out and its flow is not processed, so it allows to remove bad points and get a
performance boost.
</li>
</ul>
The function implements a sparse iterative version of the Lucas-Kanade optical flow in pyramids. See
CITE: Bouguet00 . The function is parallelized with the TBB library.
<b>Note:</b>
<ul>
<li>
An example using the Lucas-Kanade optical flow algorithm can be found at
opencv_source_code/samples/cpp/lkdemo.cpp
</li>
<li>
(Python) An example using the Lucas-Kanade optical flow algorithm can be found at
opencv_source_code/samples/python/lk_track.py
</li>
<li>
(Python) An example using the Lucas-Kanade tracker for homography matching can be found at
opencv_source_code/samples/python/lk_homography.py
</li>
</ul></dd>
</dl>
</li>
</ul>
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<h4>calcOpticalFlowPyrLK</h4>
<pre>public static&nbsp;void&nbsp;calcOpticalFlowPyrLK(<a href="../../../org/opencv/core/Mat.html" title="class in org.opencv.core">Mat</a>&nbsp;prevImg,
<a href="../../../org/opencv/core/Mat.html" title="class in org.opencv.core">Mat</a>&nbsp;nextImg,
<a href="../../../org/opencv/core/MatOfPoint2f.html" title="class in org.opencv.core">MatOfPoint2f</a>&nbsp;prevPts,
<a href="../../../org/opencv/core/MatOfPoint2f.html" title="class in org.opencv.core">MatOfPoint2f</a>&nbsp;nextPts,
<a href="../../../org/opencv/core/MatOfByte.html" title="class in org.opencv.core">MatOfByte</a>&nbsp;status,
<a href="../../../org/opencv/core/MatOfFloat.html" title="class in org.opencv.core">MatOfFloat</a>&nbsp;err,
<a href="../../../org/opencv/core/Size.html" title="class in org.opencv.core">Size</a>&nbsp;winSize,
int&nbsp;maxLevel,
<a href="../../../org/opencv/core/TermCriteria.html" title="class in org.opencv.core">TermCriteria</a>&nbsp;criteria,
int&nbsp;flags,
double&nbsp;minEigThreshold)</pre>
<div class="block">Calculates an optical flow for a sparse feature set using the iterative Lucas-Kanade method with
pyramids.</div>
<dl>
<dt><span class="paramLabel">Parameters:</span></dt>
<dd><code>prevImg</code> - first 8-bit input image or pyramid constructed by buildOpticalFlowPyramid.</dd>
<dd><code>nextImg</code> - second input image or pyramid of the same size and the same type as prevImg.</dd>
<dd><code>prevPts</code> - vector of 2D points for which the flow needs to be found; point coordinates must be
single-precision floating-point numbers.</dd>
<dd><code>nextPts</code> - output vector of 2D points (with single-precision floating-point coordinates)
containing the calculated new positions of input features in the second image; when
OPTFLOW_USE_INITIAL_FLOW flag is passed, the vector must have the same size as in the input.</dd>
<dd><code>status</code> - output status vector (of unsigned chars); each element of the vector is set to 1 if
the flow for the corresponding features has been found, otherwise, it is set to 0.</dd>
<dd><code>err</code> - output vector of errors; each element of the vector is set to an error for the
corresponding feature, type of the error measure can be set in flags parameter; if the flow wasn't
found then the error is not defined (use the status parameter to find such cases).</dd>
<dd><code>winSize</code> - size of the search window at each pyramid level.</dd>
<dd><code>maxLevel</code> - 0-based maximal pyramid level number; if set to 0, pyramids are not used (single
level), if set to 1, two levels are used, and so on; if pyramids are passed to input then
algorithm will use as many levels as pyramids have but no more than maxLevel.</dd>
<dd><code>criteria</code> - parameter, specifying the termination criteria of the iterative search algorithm
(after the specified maximum number of iterations criteria.maxCount or when the search window
moves by less than criteria.epsilon.</dd>
<dd><code>flags</code> - operation flags:
<ul>
<li>
<b>OPTFLOW_USE_INITIAL_FLOW</b> uses initial estimations, stored in nextPts; if the flag is
not set, then prevPts is copied to nextPts and is considered the initial estimate.
</li>
<li>
<b>OPTFLOW_LK_GET_MIN_EIGENVALS</b> use minimum eigen values as an error measure (see
minEigThreshold description); if the flag is not set, then L1 distance between patches
around the original and a moved point, divided by number of pixels in a window, is used as a
error measure.</dd>
<dd><code>minEigThreshold</code> - the algorithm calculates the minimum eigen value of a 2x2 normal matrix of
optical flow equations (this matrix is called a spatial gradient matrix in CITE: Bouguet00), divided
by number of pixels in a window; if this value is less than minEigThreshold, then a corresponding
feature is filtered out and its flow is not processed, so it allows to remove bad points and get a
performance boost.
</li>
</ul>
The function implements a sparse iterative version of the Lucas-Kanade optical flow in pyramids. See
CITE: Bouguet00 . The function is parallelized with the TBB library.
<b>Note:</b>
<ul>
<li>
An example using the Lucas-Kanade optical flow algorithm can be found at
opencv_source_code/samples/cpp/lkdemo.cpp
</li>
<li>
(Python) An example using the Lucas-Kanade optical flow algorithm can be found at
opencv_source_code/samples/python/lk_track.py
</li>
<li>
(Python) An example using the Lucas-Kanade tracker for homography matching can be found at
opencv_source_code/samples/python/lk_homography.py
</li>
</ul></dd>
</dl>
</li>
</ul>
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<h4>CamShift</h4>
<pre>public static&nbsp;<a href="../../../org/opencv/core/RotatedRect.html" title="class in org.opencv.core">RotatedRect</a>&nbsp;CamShift(<a href="../../../org/opencv/core/Mat.html" title="class in org.opencv.core">Mat</a>&nbsp;probImage,
<a href="../../../org/opencv/core/Rect.html" title="class in org.opencv.core">Rect</a>&nbsp;window,
<a href="../../../org/opencv/core/TermCriteria.html" title="class in org.opencv.core">TermCriteria</a>&nbsp;criteria)</pre>
<div class="block">Finds an object center, size, and orientation.</div>
<dl>
<dt><span class="paramLabel">Parameters:</span></dt>
<dd><code>probImage</code> - Back projection of the object histogram. See calcBackProject.</dd>
<dd><code>window</code> - Initial search window.</dd>
<dd><code>criteria</code> - Stop criteria for the underlying meanShift.
returns
(in old interfaces) Number of iterations CAMSHIFT took to converge
The function implements the CAMSHIFT object tracking algorithm CITE: Bradski98 . First, it finds an
object center using meanShift and then adjusts the window size and finds the optimal rotation. The
function returns the rotated rectangle structure that includes the object position, size, and
orientation. The next position of the search window can be obtained with RotatedRect::boundingRect()
See the OpenCV sample camshiftdemo.c that tracks colored objects.
<b>Note:</b>
<ul>
<li>
(Python) A sample explaining the camshift tracking algorithm can be found at
opencv_source_code/samples/python/camshift.py
</li>
</ul></dd>
<dt><span class="returnLabel">Returns:</span></dt>
<dd>automatically generated</dd>
</dl>
</li>
</ul>
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<h4>computeECC</h4>
<pre>public static&nbsp;double&nbsp;computeECC(<a href="../../../org/opencv/core/Mat.html" title="class in org.opencv.core">Mat</a>&nbsp;templateImage,
<a href="../../../org/opencv/core/Mat.html" title="class in org.opencv.core">Mat</a>&nbsp;inputImage)</pre>
<div class="block">Computes the Enhanced Correlation Coefficient value between two images CITE: EP08 .</div>
<dl>
<dt><span class="paramLabel">Parameters:</span></dt>
<dd><code>templateImage</code> - single-channel template image; CV_8U or CV_32F array.</dd>
<dd><code>inputImage</code> - single-channel input image to be warped to provide an image similar to
templateImage, same type as templateImage.
SEE:
findTransformECC</dd>
<dt><span class="returnLabel">Returns:</span></dt>
<dd>automatically generated</dd>
</dl>
</li>
</ul>
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<h4>computeECC</h4>
<pre>public static&nbsp;double&nbsp;computeECC(<a href="../../../org/opencv/core/Mat.html" title="class in org.opencv.core">Mat</a>&nbsp;templateImage,
<a href="../../../org/opencv/core/Mat.html" title="class in org.opencv.core">Mat</a>&nbsp;inputImage,
<a href="../../../org/opencv/core/Mat.html" title="class in org.opencv.core">Mat</a>&nbsp;inputMask)</pre>
<div class="block">Computes the Enhanced Correlation Coefficient value between two images CITE: EP08 .</div>
<dl>
<dt><span class="paramLabel">Parameters:</span></dt>
<dd><code>templateImage</code> - single-channel template image; CV_8U or CV_32F array.</dd>
<dd><code>inputImage</code> - single-channel input image to be warped to provide an image similar to
templateImage, same type as templateImage.</dd>
<dd><code>inputMask</code> - An optional mask to indicate valid values of inputImage.
SEE:
findTransformECC</dd>
<dt><span class="returnLabel">Returns:</span></dt>
<dd>automatically generated</dd>
</dl>
</li>
</ul>
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<h4>createBackgroundSubtractorKNN</h4>
<pre>public static&nbsp;<a href="../../../org/opencv/video/BackgroundSubtractorKNN.html" title="class in org.opencv.video">BackgroundSubtractorKNN</a>&nbsp;createBackgroundSubtractorKNN()</pre>
<div class="block">Creates KNN Background Subtractor
whether a pixel is close to that sample. This parameter does not affect the background update.
speed a bit, so if you do not need this feature, set the parameter to false.</div>
<dl>
<dt><span class="returnLabel">Returns:</span></dt>
<dd>automatically generated</dd>
</dl>
</li>
</ul>
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<h4>createBackgroundSubtractorKNN</h4>
<pre>public static&nbsp;<a href="../../../org/opencv/video/BackgroundSubtractorKNN.html" title="class in org.opencv.video">BackgroundSubtractorKNN</a>&nbsp;createBackgroundSubtractorKNN(int&nbsp;history)</pre>
<div class="block">Creates KNN Background Subtractor</div>
<dl>
<dt><span class="paramLabel">Parameters:</span></dt>
<dd><code>history</code> - Length of the history.
whether a pixel is close to that sample. This parameter does not affect the background update.
speed a bit, so if you do not need this feature, set the parameter to false.</dd>
<dt><span class="returnLabel">Returns:</span></dt>
<dd>automatically generated</dd>
</dl>
</li>
</ul>
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<h4>createBackgroundSubtractorKNN</h4>
<pre>public static&nbsp;<a href="../../../org/opencv/video/BackgroundSubtractorKNN.html" title="class in org.opencv.video">BackgroundSubtractorKNN</a>&nbsp;createBackgroundSubtractorKNN(int&nbsp;history,
double&nbsp;dist2Threshold)</pre>
<div class="block">Creates KNN Background Subtractor</div>
<dl>
<dt><span class="paramLabel">Parameters:</span></dt>
<dd><code>history</code> - Length of the history.</dd>
<dd><code>dist2Threshold</code> - Threshold on the squared distance between the pixel and the sample to decide
whether a pixel is close to that sample. This parameter does not affect the background update.
speed a bit, so if you do not need this feature, set the parameter to false.</dd>
<dt><span class="returnLabel">Returns:</span></dt>
<dd>automatically generated</dd>
</dl>
</li>
</ul>
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<pre>public static&nbsp;<a href="../../../org/opencv/video/BackgroundSubtractorKNN.html" title="class in org.opencv.video">BackgroundSubtractorKNN</a>&nbsp;createBackgroundSubtractorKNN(int&nbsp;history,
double&nbsp;dist2Threshold,
boolean&nbsp;detectShadows)</pre>
<div class="block">Creates KNN Background Subtractor</div>
<dl>
<dt><span class="paramLabel">Parameters:</span></dt>
<dd><code>history</code> - Length of the history.</dd>
<dd><code>dist2Threshold</code> - Threshold on the squared distance between the pixel and the sample to decide
whether a pixel is close to that sample. This parameter does not affect the background update.</dd>
<dd><code>detectShadows</code> - If true, the algorithm will detect shadows and mark them. It decreases the
speed a bit, so if you do not need this feature, set the parameter to false.</dd>
<dt><span class="returnLabel">Returns:</span></dt>
<dd>automatically generated</dd>
</dl>
</li>
</ul>
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<h4>createBackgroundSubtractorMOG2</h4>
<pre>public static&nbsp;<a href="../../../org/opencv/video/BackgroundSubtractorMOG2.html" title="class in org.opencv.video">BackgroundSubtractorMOG2</a>&nbsp;createBackgroundSubtractorMOG2()</pre>
<div class="block">Creates MOG2 Background Subtractor
to decide whether a pixel is well described by the background model. This parameter does not
affect the background update.
speed a bit, so if you do not need this feature, set the parameter to false.</div>
<dl>
<dt><span class="returnLabel">Returns:</span></dt>
<dd>automatically generated</dd>
</dl>
</li>
</ul>
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<h4>createBackgroundSubtractorMOG2</h4>
<pre>public static&nbsp;<a href="../../../org/opencv/video/BackgroundSubtractorMOG2.html" title="class in org.opencv.video">BackgroundSubtractorMOG2</a>&nbsp;createBackgroundSubtractorMOG2(int&nbsp;history)</pre>
<div class="block">Creates MOG2 Background Subtractor</div>
<dl>
<dt><span class="paramLabel">Parameters:</span></dt>
<dd><code>history</code> - Length of the history.
to decide whether a pixel is well described by the background model. This parameter does not
affect the background update.
speed a bit, so if you do not need this feature, set the parameter to false.</dd>
<dt><span class="returnLabel">Returns:</span></dt>
<dd>automatically generated</dd>
</dl>
</li>
</ul>
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<h4>createBackgroundSubtractorMOG2</h4>
<pre>public static&nbsp;<a href="../../../org/opencv/video/BackgroundSubtractorMOG2.html" title="class in org.opencv.video">BackgroundSubtractorMOG2</a>&nbsp;createBackgroundSubtractorMOG2(int&nbsp;history,
double&nbsp;varThreshold)</pre>
<div class="block">Creates MOG2 Background Subtractor</div>
<dl>
<dt><span class="paramLabel">Parameters:</span></dt>
<dd><code>history</code> - Length of the history.</dd>
<dd><code>varThreshold</code> - Threshold on the squared Mahalanobis distance between the pixel and the model
to decide whether a pixel is well described by the background model. This parameter does not
affect the background update.
speed a bit, so if you do not need this feature, set the parameter to false.</dd>
<dt><span class="returnLabel">Returns:</span></dt>
<dd>automatically generated</dd>
</dl>
</li>
</ul>
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<li class="blockList">
<h4>createBackgroundSubtractorMOG2</h4>
<pre>public static&nbsp;<a href="../../../org/opencv/video/BackgroundSubtractorMOG2.html" title="class in org.opencv.video">BackgroundSubtractorMOG2</a>&nbsp;createBackgroundSubtractorMOG2(int&nbsp;history,
double&nbsp;varThreshold,
boolean&nbsp;detectShadows)</pre>
<div class="block">Creates MOG2 Background Subtractor</div>
<dl>
<dt><span class="paramLabel">Parameters:</span></dt>
<dd><code>history</code> - Length of the history.</dd>
<dd><code>varThreshold</code> - Threshold on the squared Mahalanobis distance between the pixel and the model
to decide whether a pixel is well described by the background model. This parameter does not
affect the background update.</dd>
<dd><code>detectShadows</code> - If true, the algorithm will detect shadows and mark them. It decreases the
speed a bit, so if you do not need this feature, set the parameter to false.</dd>
<dt><span class="returnLabel">Returns:</span></dt>
<dd>automatically generated</dd>
</dl>
</li>
</ul>
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<h4>findTransformECC</h4>
<pre>public static&nbsp;double&nbsp;findTransformECC(<a href="../../../org/opencv/core/Mat.html" title="class in org.opencv.core">Mat</a>&nbsp;templateImage,
<a href="../../../org/opencv/core/Mat.html" title="class in org.opencv.core">Mat</a>&nbsp;inputImage,
<a href="../../../org/opencv/core/Mat.html" title="class in org.opencv.core">Mat</a>&nbsp;warpMatrix)</pre>
</li>
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<h4>findTransformECC</h4>
<pre>public static&nbsp;double&nbsp;findTransformECC(<a href="../../../org/opencv/core/Mat.html" title="class in org.opencv.core">Mat</a>&nbsp;templateImage,
<a href="../../../org/opencv/core/Mat.html" title="class in org.opencv.core">Mat</a>&nbsp;inputImage,
<a href="../../../org/opencv/core/Mat.html" title="class in org.opencv.core">Mat</a>&nbsp;warpMatrix,
int&nbsp;motionType)</pre>
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<pre>public static&nbsp;double&nbsp;findTransformECC(<a href="../../../org/opencv/core/Mat.html" title="class in org.opencv.core">Mat</a>&nbsp;templateImage,
<a href="../../../org/opencv/core/Mat.html" title="class in org.opencv.core">Mat</a>&nbsp;inputImage,
<a href="../../../org/opencv/core/Mat.html" title="class in org.opencv.core">Mat</a>&nbsp;warpMatrix,
int&nbsp;motionType,
<a href="../../../org/opencv/core/TermCriteria.html" title="class in org.opencv.core">TermCriteria</a>&nbsp;criteria)</pre>
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<h4>findTransformECC</h4>
<pre>public static&nbsp;double&nbsp;findTransformECC(<a href="../../../org/opencv/core/Mat.html" title="class in org.opencv.core">Mat</a>&nbsp;templateImage,
<a href="../../../org/opencv/core/Mat.html" title="class in org.opencv.core">Mat</a>&nbsp;inputImage,
<a href="../../../org/opencv/core/Mat.html" title="class in org.opencv.core">Mat</a>&nbsp;warpMatrix,
int&nbsp;motionType,
<a href="../../../org/opencv/core/TermCriteria.html" title="class in org.opencv.core">TermCriteria</a>&nbsp;criteria,
<a href="../../../org/opencv/core/Mat.html" title="class in org.opencv.core">Mat</a>&nbsp;inputMask)</pre>
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<h4>findTransformECC</h4>
<pre>public static&nbsp;double&nbsp;findTransformECC(<a href="../../../org/opencv/core/Mat.html" title="class in org.opencv.core">Mat</a>&nbsp;templateImage,
<a href="../../../org/opencv/core/Mat.html" title="class in org.opencv.core">Mat</a>&nbsp;inputImage,
<a href="../../../org/opencv/core/Mat.html" title="class in org.opencv.core">Mat</a>&nbsp;warpMatrix,
int&nbsp;motionType,
<a href="../../../org/opencv/core/TermCriteria.html" title="class in org.opencv.core">TermCriteria</a>&nbsp;criteria,
<a href="../../../org/opencv/core/Mat.html" title="class in org.opencv.core">Mat</a>&nbsp;inputMask,
int&nbsp;gaussFiltSize)</pre>
<div class="block">Finds the geometric transform (warp) between two images in terms of the ECC criterion CITE: EP08 .</div>
<dl>
<dt><span class="paramLabel">Parameters:</span></dt>
<dd><code>templateImage</code> - single-channel template image; CV_8U or CV_32F array.</dd>
<dd><code>inputImage</code> - single-channel input image which should be warped with the final warpMatrix in
order to provide an image similar to templateImage, same type as templateImage.</dd>
<dd><code>warpMatrix</code> - floating-point \(2\times 3\) or \(3\times 3\) mapping matrix (warp).</dd>
<dd><code>motionType</code> - parameter, specifying the type of motion:
<ul>
<li>
<b>MOTION_TRANSLATION</b> sets a translational motion model; warpMatrix is \(2\times 3\) with
the first \(2\times 2\) part being the unity matrix and the rest two parameters being
estimated.
</li>
<li>
<b>MOTION_EUCLIDEAN</b> sets a Euclidean (rigid) transformation as motion model; three
parameters are estimated; warpMatrix is \(2\times 3\).
</li>
<li>
<b>MOTION_AFFINE</b> sets an affine motion model (DEFAULT); six parameters are estimated;
warpMatrix is \(2\times 3\).
</li>
<li>
<b>MOTION_HOMOGRAPHY</b> sets a homography as a motion model; eight parameters are
estimated;\<code>warpMatrix\</code> is \(3\times 3\).</dd>
<dd><code>criteria</code> - parameter, specifying the termination criteria of the ECC algorithm;
criteria.epsilon defines the threshold of the increment in the correlation coefficient between two
iterations (a negative criteria.epsilon makes criteria.maxcount the only termination criterion).
Default values are shown in the declaration above.</dd>
<dd><code>inputMask</code> - An optional mask to indicate valid values of inputImage.</dd>
<dd><code>gaussFiltSize</code> - An optional value indicating size of gaussian blur filter; (DEFAULT: 5)
</li>
</ul>
The function estimates the optimum transformation (warpMatrix) with respect to ECC criterion
(CITE: EP08), that is
\(\texttt{warpMatrix} = \arg\max_{W} \texttt{ECC}(\texttt{templateImage}(x,y),\texttt{inputImage}(x',y'))\)
where
\(\begin{bmatrix} x' \\ y' \end{bmatrix} = W \cdot \begin{bmatrix} x \\ y \\ 1 \end{bmatrix}\)
(the equation holds with homogeneous coordinates for homography). It returns the final enhanced
correlation coefficient, that is the correlation coefficient between the template image and the
final warped input image. When a \(3\times 3\) matrix is given with motionType =0, 1 or 2, the third
row is ignored.
Unlike findHomography and estimateRigidTransform, the function findTransformECC implements an
area-based alignment that builds on intensity similarities. In essence, the function updates the
initial transformation that roughly aligns the images. If this information is missing, the identity
warp (unity matrix) is used as an initialization. Note that if images undergo strong
displacements/rotations, an initial transformation that roughly aligns the images is necessary
(e.g., a simple euclidean/similarity transform that allows for the images showing the same image
content approximately). Use inverse warping in the second image to take an image close to the first
one, i.e. use the flag WARP_INVERSE_MAP with warpAffine or warpPerspective. See also the OpenCV
sample image_alignment.cpp that demonstrates the use of the function. Note that the function throws
an exception if algorithm does not converges.
SEE:
computeECC, estimateAffine2D, estimateAffinePartial2D, findHomography</dd>
<dt><span class="returnLabel">Returns:</span></dt>
<dd>automatically generated</dd>
</dl>
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<h4>meanShift</h4>
<pre>public static&nbsp;int&nbsp;meanShift(<a href="../../../org/opencv/core/Mat.html" title="class in org.opencv.core">Mat</a>&nbsp;probImage,
<a href="../../../org/opencv/core/Rect.html" title="class in org.opencv.core">Rect</a>&nbsp;window,
<a href="../../../org/opencv/core/TermCriteria.html" title="class in org.opencv.core">TermCriteria</a>&nbsp;criteria)</pre>
<div class="block">Finds an object on a back projection image.</div>
<dl>
<dt><span class="paramLabel">Parameters:</span></dt>
<dd><code>probImage</code> - Back projection of the object histogram. See calcBackProject for details.</dd>
<dd><code>window</code> - Initial search window.</dd>
<dd><code>criteria</code> - Stop criteria for the iterative search algorithm.
returns
: Number of iterations CAMSHIFT took to converge.
The function implements the iterative object search algorithm. It takes the input back projection of
an object and the initial position. The mass center in window of the back projection image is
computed and the search window center shifts to the mass center. The procedure is repeated until the
specified number of iterations criteria.maxCount is done or until the window center shifts by less
than criteria.epsilon. The algorithm is used inside CamShift and, unlike CamShift , the search
window size or orientation do not change during the search. You can simply pass the output of
calcBackProject to this function. But better results can be obtained if you pre-filter the back
projection and remove the noise. For example, you can do this by retrieving connected components
with findContours , throwing away contours with small area ( contourArea ), and rendering the
remaining contours with drawContours.</dd>
<dt><span class="returnLabel">Returns:</span></dt>
<dd>automatically generated</dd>
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<pre>public static&nbsp;<a href="../../../org/opencv/core/Mat.html" title="class in org.opencv.core">Mat</a>&nbsp;readOpticalFlow(java.lang.String&nbsp;path)</pre>
<div class="block">Read a .flo file</div>
<dl>
<dt><span class="paramLabel">Parameters:</span></dt>
<dd><code>path</code> - Path to the file to be loaded
The function readOpticalFlow loads a flow field from a file and returns it as a single matrix.
Resulting Mat has a type CV_32FC2 - floating-point, 2-channel. First channel corresponds to the
flow in the horizontal direction (u), second - vertical (v).</dd>
<dt><span class="returnLabel">Returns:</span></dt>
<dd>automatically generated</dd>
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<pre>public static&nbsp;boolean&nbsp;writeOpticalFlow(java.lang.String&nbsp;path,
<a href="../../../org/opencv/core/Mat.html" title="class in org.opencv.core">Mat</a>&nbsp;flow)</pre>
<div class="block">Write a .flo to disk</div>
<dl>
<dt><span class="paramLabel">Parameters:</span></dt>
<dd><code>path</code> - Path to the file to be written</dd>
<dd><code>flow</code> - Flow field to be stored
The function stores a flow field in a file, returns true on success, false otherwise.
The flow field must be a 2-channel, floating-point matrix (CV_32FC2). First channel corresponds
to the flow in the horizontal direction (u), second - vertical (v).</dd>
<dt><span class="returnLabel">Returns:</span></dt>
<dd>automatically generated</dd>
</dl>
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