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Combined display of all available logs of MIPAV. You can narrow down the view by selecting a log type, the username (case-sensitive), or the affected page (also case-sensitive).
- 12:56, 28 August 2012 Imported>Olga Vovk uploaded File:AnalyzepMapFiletab.jpg (NEI Retinal Registration: Analyze mpMap tab)
- 12:50, 28 August 2012 Imported>Olga Vovk uploaded File:CreateMPmapTab.jpg (NEI Retinal Registration: Create MP maps tab)
- 12:47, 28 August 2012 Imported>Olga Vovk uploaded File:OutputDirectories.jpg (NEI Retinal Registration: Figure - Output Directories: The plug in's input and output catalogs: given the Blue and Yellow as the input catalogs, the plug in created Output1, BlueReg1 and YellowReg1 catalogs after the first run and Output2, BlueReg2 and Ye)
- 12:39, 28 August 2012 Imported>Olga Vovk uploaded File:Examples.jpg (NEI Retinal Registration plug-in: Figure: (a) - the registered image, (b) - the MP map Yellow1 to Blue1 image, (c) - the MP map average image, (d) - the MP map standard deviation image, and (e) the Output directory)
- 18:36, 27 August 2012 Imported>Olga Vovk uploaded File:NEIPlugInEQ4.jpg (NEI retinal registration - equation4)
- 18:31, 27 August 2012 Imported>Olga Vovk uploaded File:NEIPlugInEQ3.jpg (NEI Retinal registration equation 3)
- 18:13, 27 August 2012 Imported>Olga Vovk uploaded File:NEIPlugInEQ2.jpg (NEI retinal registration plug-in, equation 2)
- 18:05, 27 August 2012 Imported>Olga Vovk uploaded File:NEIPlugInEQ1.jpg (NEI Retinal Registration: In equation 1, absorbers other than the MP and fluorophores other than RPE lipofuscin are neglected to simplify the process. Typically, contributions from rhodopsin absorption will confound these measurements. In typical Fundus c)
- 17:02, 27 August 2012 Imported>Olga Vovk uploaded File:RemovingBorder.jpg (NEI Retinal registration plug -in: Removing the black border from the GM image: A1 and B1 are the far left and right non border pixels, O is the center pixel)
- 19:39, 20 August 2012 Imported>Olga Vovk uploaded File:SarahShenPosterAugust2012.pdf (NIH’s Summer Research Program Poster Day 2012 August 9, 2012)
- 13:38, 20 August 2012 Imported>Olga Vovk uploaded File:CircleToRectangle1a.jpg (Transformation: Conformal mapping: Circle to Rectangle - The user inputs 2 point VOIs. The first point is located at the center of the circle. The second point can be any point located on the actual circle)
- 18:52, 17 August 2012 Imported>Olga Vovk uploaded File:CircularSectorToRectangleMapped.jpg (Transform Conformal Mapping: The region inside a circular sector is mapped to a rectangle: z1 is the upper right point on rmax, z2 is the upper left point on rmax, z3 is the lower left point on rmin, and z4 is the lower right point on rmin)
- 16:58, 17 August 2012 Imported>Olga Vovk uploaded File:Equation11.jpg
- 16:58, 17 August 2012 Imported>Olga Vovk uploaded File:Equation10.jpg
- 16:58, 17 August 2012 Imported>Olga Vovk uploaded File:Equation9.jpg
- 15:48, 17 August 2012 Imported>Olga Vovk uploaded File:CircularSectorToRectangleAngle.jpg (Transform Conformal Mapping : Calculating the angle of the circular segment)
- 15:45, 17 August 2012 Imported>Olga Vovk uploaded File:ConfMappingCircleCenter.jpg (Transform Conformal mapping: Calculating the center of the circle to which the circular segment belongs)
- 13:43, 13 August 2012 Imported>Olga Vovk uploaded File:N3Effects5.jpg (Shadig Correction N3 inhomo . correction - Figure 4. The effects of different settings for the Inhomogeneity N3 algorithm on an image)
- 15:04, 7 August 2012 Imported>Olga Vovk uploaded File:Fig14CumulativeHistogram.jpg (A 2D RGB image and its cumulative histograms)
- 15:01, 7 August 2012 Imported>Olga Vovk uploaded File:Fig13CumulativeHistogram.jpg (A 2D RGB image and its cumulative histograms for each channel (red -c, green-d and blue-b).)
- 14:55, 7 August 2012 Imported>Olga Vovk uploaded File:CumulHistogramBrain2CH.jpg (A 3D grayscale image (a) and its cumulative histogram (b).)
- 14:54, 7 August 2012 Imported>Olga Vovk uploaded File:CumulHistogramBrain2.jpg (A 3D grayscale image (a) and its cumulative histogram (b).)
- 14:49, 7 August 2012 Imported>Olga Vovk uploaded File:CumulativeHistogramSample.jpg (A sample cumulative histogram)
- 13:55, 7 August 2012 Imported>Olga Vovk uploaded File:HoughEllipseGeometry.jpg (Hough Transform: Calculating a center of an ellipse: x1, x2, x3 - three ellipse points; (t, x1), (t, x2) and (t, x3) the tangents of the points x1, x2 and x3 correspondingly; m is the midpoint of (x1, x2), m1 is the midpoint of (x2, x3); o is the center o)
- 13:11, 7 August 2012 Imported>Olga Vovk uploaded File:TwoLinesHoughTransform.jpg (Hough Transform: The two bright spots are the Hough parameters of the two lines. From these spots' positions, r and theta parameters for two lines in the input image can be determined)
- 13:06, 7 August 2012 Imported>Olga Vovk uploaded File:ParametricLineHough.jpg (Parametric Hough transform: (a) a straight line in the original coordinates described in terms of the length of a normal from the origin to the line - r and orientation theta; (b) the Hough plane where points A, B, and C are transformed into three sinusoi)
- 13:04, 7 August 2012 Imported>Olga Vovk uploaded File:LinearHough.jpg (A set of image points (a), and how they can be fit into various line segments - (b) and (c))
- 19:29, 6 August 2012 Imported>Olga Vovk uploaded File:HoughParabolaDB.jpg (Running the Hough Transform for Parabola Detection algorithm. Note that the detected parabola appears in red)
- 19:24, 6 August 2012 Imported>Olga Vovk uploaded File:HoughEllipsesDialogBoxes1.jpg (Running the Hough Transform for Ellipse Detection algorithm. Note that isolated ellipses checked for display appear in red)
- 19:19, 6 August 2012 Imported>Olga Vovk uploaded File:HoughCirclesDialogBoxes.jpg (Running the Hough Transform for Circle Detection algorithm. Note that only two of three isolated circles are shown in the result image, because only two were checked in the Hough Transform Circle Selection dialog box)
- 19:17, 6 August 2012 Imported>Olga Vovk uploaded File:LinearHoughTransformAlgorithm.jpg (Running the Hough Transform for Line Filling algorithm)
- 17:05, 6 August 2012 Imported>Olga Vovk uploaded File:AutocorrScheme.jpg (AutoCorrelation Function: Visualization of ACF)
- 16:47, 6 August 2012 Imported>Olga Vovk uploaded File:AutocorrDialog.jpg (Autocorrelation: Calculating autocorrelation for 2D grayscale image)
- 16:18, 6 August 2012 Imported>Olga Vovk uploaded File:AutoCovar12D.jpg (Auto covariance coeff: For a discrete set of data this becomes)
- 16:17, 6 August 2012 Imported>Olga Vovk uploaded File:AutoCovar11D.jpg (Autocovariance coeff: If the random intensity variable, i, is a function of two independent variables, x and y, then, it is possible to define a corresponding two-dimensional auto-covariance function)
- 16:16, 6 August 2012 Imported>Olga Vovk uploaded File:AutoCovar10D.jpg (When the data consist of a set of N discrete points, the averaging is performed as sums, then in spatial domain the 1D auto-covariance function is calculated by)
- 13:45, 6 August 2012 Imported>Olga Vovk uploaded File:WaterShedDialogHelp.jpg (The Watershed dialog box)
- 13:13, 6 August 2012 Imported>Olga Vovk uploaded File:WatershedIll3Small.jpg (Watershed algorithm: (c) the result segmented image)
- 13:12, 6 August 2012 Imported>Olga Vovk uploaded File:WatershedIll2Small.jpg (Watershed algorithm: (a) - the original image with two VOIs: the VOI1 highlights the image background and VOI2 is a group of three VOI delineated inside the objects we wish to segment)
- 13:05, 6 August 2012 Imported>Olga Vovk uploaded File:Watershed1D.jpg (Figure 1. 1D example of watershed segmentation: (a) grey level profile of the image data, (b) watershed segmentation)
- 16:45, 31 July 2012 Imported>Olga Vovk uploaded File:DialogBoxFRETEfficiencyColor.jpg (FRET Efficiency dialog box)
- 16:37, 31 July 2012 Imported>Olga Vovk uploaded File:DialogBoxFRETEfficiency.jpg (FRET Efficiency dialog box (A) color images and (B) grayscale images)
- 16:22, 31 July 2012 Imported>Olga Vovk uploaded File:DialogBoxFRETBleedThrough ColorImages.jpg (FRET Bleed Through dialog box)
- 16:15, 31 July 2012 Imported>Olga Vovk uploaded File:LoadImageFRETBleedThrough.jpg (The loaded images in the FRET Bleed Through dialog box)
- 16:07, 31 July 2012 Imported>Olga Vovk uploaded File:FRET DonorRunVOIs7.jpg (Donor only run: FP1 image with a background VOI in blue and an active VOI in orange (example image: Y5_488Y.tif))
- 16:00, 31 July 2012 Imported>Olga Vovk uploaded File:DonorDyeOnly.jpg (FRET Donor dye only selection)
- 15:49, 31 July 2012 Imported>Olga Vovk uploaded File:ExampleFRET AcceptorRunVOIs11.jpg (Acceptor only run: FP1 image with a background VOI in blue and an active VOI in orange (example image: R3_543F.tif))
- 15:43, 31 July 2012 Imported>Olga Vovk uploaded File:DialogboxFRETBleedThroughFilledOutComparison12.jpg
- 15:02, 31 July 2012 Imported>Olga Vovk uploaded File:FretNineImages.jpg (Nine example images used to calculate FRET efficiency)
- 14:55, 31 July 2012 Imported>Olga Vovk uploaded File:FretOptions.jpg (To obtain the FRET efficiency, you need to have a complete set of nine images modeled after the images listed here)