Users

From BioImageXD Wiki
(Difference between revisions)
Jump to: navigation, search
(Video links)
 
(3 intermediate revisions by one user not shown)
Line 4: Line 4:
 
* [http://www.nature.com/nmeth/journal/v9/n7/extref/nmeth.2047-S5.mp4 Animation]. Illustrates how a camera path animation is created, all the way to the finished video file product.
 
* [http://www.nature.com/nmeth/journal/v9/n7/extref/nmeth.2047-S5.mp4 Animation]. Illustrates how a camera path animation is created, all the way to the finished video file product.
 
* [http://www.nature.com/nmeth/journal/v9/n7/extref/nmeth.2047-S7.mp4 Segmentation]. Illustrates how a procedure list for segmentation is set up and used to analyze receptor clusters on cell surface.
 
* [http://www.nature.com/nmeth/journal/v9/n7/extref/nmeth.2047-S7.mp4 Segmentation]. Illustrates how a procedure list for segmentation is set up and used to analyze receptor clusters on cell surface.
* [http://webmeeting.utu.fi/p99743655/?launcher=false&fcsContent=true&pbMode=normal Webinar: Easy visualization and analysis with BioImageXD]. Teaches you how to use BioImageXD in practise
+
* [http://webmeeting.utu.fi/p99743655/?launcher=false&fcsContent=true&pbMode=normal Webinar: Easy visualization and analysis with BioImageXD]. Teaches you how to use BioImageXD in practise.
 +
* [http://www.screencast.com/t/OGSqFPsWVUt Tracking]. Video presenting tracking features of BioImageXD made by Al Bahnson from Kairos Instruments.
  
 
== List of BioImageXD features ==
 
== List of BioImageXD features ==

Latest revision as of 17:28, 26 October 2012

Contents

Video links

  • 3D rendering. Illustrates how multi-channel 3D renderings can be created, changed, adjusted and interacted with.
  • Animation. Illustrates how a camera path animation is created, all the way to the finished video file product.
  • Segmentation. Illustrates how a procedure list for segmentation is set up and used to analyze receptor clusters on cell surface.
  • Webinar: Easy visualization and analysis with BioImageXD. Teaches you how to use BioImageXD in practise.
  • Tracking. Video presenting tracking features of BioImageXD made by Al Bahnson from Kairos Instruments.

List of BioImageXD features

General

  • Open source code
  • Free
  • Supports both 32-bit and 64-bit operating systems: Win, Mac OSX, Linux
  • Single installable package
  • 3D timelapse support in all functionality
  • Features extensively adjustable
  • Image data read only on demand (not upon file loading)
  • Extendable program architecture, supports selected libraries (VTK, ITK)

Graphical user interface

  • Single large window with re-sizeable panes/parts that are also switchable visible/invisible
  • Main panes/parts: main tool bar, file tree, view panel (maximizable), dataset info, task panel
  • Other panes/parts: view panel top toolbar, view panel side toolbar, view panel configuration, histograms, Python shell
  • Color coding (expert features & settings are colored red)
  • Short explanation texts always on screen for most features

File input/output features

  • Internal file tree (switchable visible/invisible, contents savable for next program start)
  • Open dataset (supports 10 common bioimaging file formats)
  • Save dataset (supports BioImageXD file format; timepoints selectable upon saving)
  • Open/save settings
  • Save snapshot image (supports 3 common image file formats)
  • Open/save 3D view scene
  • Import/export images (supports 5 common image file formats)

View panel features

  • Operates in any of 5 visualization modes: Slices, Gallery, Orthogonal, Projection, 3D
  • Sliders for choosing timepoints/z-slices when applicable
  • Zoom in/out/to fit/to user-selected region
  • View angle/axis selection/rotation buttons (in 3D mode)
  • Changeable interaction modes (trackball/joystick/camera/actor) (in 3D mode)
  • Interpolation method adjustable (4 options)
  • Displays current/original dataset dimensions
  • Hold-down button for switching between original/processed dataset
  • Button for switching between resized/original dataset
  • Eyedropper tool for retrieving pixel/voxel information
  • Regions of interest (ROIs) can be drawn with 3 tools: circle, rectangle, polygon
  • Scalebar drawing
  • Annotations (such as ROIs) can be deleted, moved, resized and their color changed
  • Convert ROI to mask / mask selection

Visualization modes

Slices visualization mode

  • Displays chosen slice

Gallery visualization mode

  • Displays all slices of chosen timepoint or all timepoints of chosen slice as small images

Orthogonal visualization mode

  • Displays orthogonal sections (positions selectable) through the dataset along the three spatial axes (X, Y, Z)

Projection visualization mode

  • Displays either a maximum intensity projection or an average intensity projection

3D visualization mode

  • Displays 3D renderings interactively, can be rotated, panned and zoomed with mouse
  • General settings for lighting, background color and view angle
  • 3D mode settings can be saved/opened
  • Renderings are created by 11 different modules that can be loaded/unloaded and switched on/off
  • Several rendering modules can be combined, each rendering also different data channels
  • Angle measurement module (for measuring/drawing angles in 3D with mouse)
  • Axes module (draws X/Y/Z axes, with adjustable lengths)
  • Clipping box module (clips all or selected modules inside/outside defined box)
  • Clipping plane module (clips all or selected modules on one side of defined plane)
  • Distance measurement module (for measuring/drawing distances in 3D with mouse)
  • Orthogonal slices module (displays adjustable orthogonal slices along all three spatial axes)
  • Surface rendering module (creates one or several surfaces at selectable iso-values, adjustable surface transparency and intensity, 4 different surface rendering methods, several smoothing and simplifying options)
  • Visualize protein databank file module (input selection for PDB file to visualize, adjustable tube & sphere radii)
  • Visualize motion tracks module (input selection for tracks file to visualize, tracks can be individually chosen from a list and visualized with same/actual starting points, minimum track length specifiable, adjustable tube & sphere radii)
  • Volume rendering module (graphical color and opacity transfer function editor (RGBA) with feehand/node adjustment and opening/saving of look-up-tables, 4 different volume rendering methods, adjustable interpolation and rendering quality, shading)
  • Warp scalar module (displays 2D slice as 3D map, selectable slice, adjustable scale factor and adjustable surface smoothing)

Tasks

Adjust task

  • Graphical intensity transfer function, adjustable timepointwise
  • Controllers for brightness, contrast, gamma, min/max values & thresholds, smooth start/end 
  • Interpolation with up to 5 specifiable timepoints, for bleaching correction etc.

Merge task

  • Combines gray scale datasets into an RGB color image (which can subsequently be volume rendered in 3D mode)
  • Each channel adjustable with graphical intensity transfer function (same as in Adjust task)
  • Alpha channel construction method selectable (3 options)

Colocalization task

  • Analyzes and visualizes colocalization between two channels
  • Both manual and automatic threshold determination
  • 2D histogram (savable as image)
  • 3 methods for P-value calculation
  • Calculates approximately 40 colocalization parameters (savable as CSV file)

Procedure list task

  • Creates command pipelines (savable as presets) from approximately 90 different available procedures (each fully adjustable by clicking them)
  • To help assembling procedure lists, each procedure has on-screen explanation text with acceptable inputs and outputs
  • Outputs both images and analysis results (latter exportable as CSV files)
  • Noise removal (Gaussian smooth, Gradient anisotropic diffusion, Median, Anisotropic diffusion, Hybrid median 2D, Mean)
  • Iterative deconvolution and PSF generation
  • Feature detection (Gradient magnitude, Find local maxima, Sobel, Difference of Gaussians, Canny edge detection, Sobel edge detection, City block distance, Danielsson distance map, Euclidean distance)
  • Morphological operations (Dilate, Erode, Variance, Range, Binary thinning, Grayscale fill hole)
  • Fourier transforms and filters (FFT, Inverse FFT, Butterworth low pass, Butterworth high pass, Ideal low pass, Ideal high pass)
  • Non-uniform illumination correction and Sigmoid filter
  • Image arithmetics (Subtract, Add, Divide, Multiply, Sin, Cos, Exp, Log, Sqrt, Invert, Shift and scale)
  • Logical operations (And, Or, Xor, Not, Nor, Nand)
  • Automatic background subtraction (3 methods)
  • Thresholding (Threshold for maximum object number, Otsu threshold, Otsu multiple thresholds, Dynamic threshold, Threshold)
  • Morphological watershed segmentation
  • Region growing (Confidence connected threshold, Connected threshold, Neighborhood connected threshold)
  • Active contours
  • Segmented object processing (Re-label image, Connected component labeling, Object separation, Filter objects)
  • Segmentation-based analyses (Analyze polydata, Analyze motion tracks, Analyze segmented objects), calculate in total approx. 70 parameters
  • Voxel-based analyses (FRAP analysis, Timepoint correlation, Analyze region of interest), calculate in total approx. 20 parameters
  • Colocalization analyses (Calculate thresholds for colocalization, Analyze colocalization, Object colocalization), calculate in total approx. 55 parameters
  • Region of interest processing (Extract a subset, Subtract ROI, Use ROI mask)
  • Simulations (4D particle simulations)
  • Registration (Translation registration, Versor rigid registration, Rigid registration 2D, Deformable registration, Translation registration 2D, Multi resolution translation registration, Slices translation registration 2D)
  • Tracking (Create motion tracks, Visualize motion tracks 2D)
  • Dataset conversions (Combine time series, Convert data type, Convert to polygonal data, Combine images, Extract components, Combine different intensity range images)

Batch Processor

  • Processes all selected datasets, outputs both images and analysis results
  • Supports multiple procedure lists (either channel specific or for all channels)
  • Aggregates selected results (of approximately 120 available parameters) into spreadsheet format (CSV file)
  • Presets from Procedure list task available
  • Analysis settings can be saved/opened

Animator

  • Creates movies of the scene rendered in 3D mode
  • Adjustable frame size, frame rate and duration
  • Two combinable animation techniques: keyframe and camera path (can be set to share a frame for smooth transition between techniques)
  • Animation movements adjusted in 3D preview window
  • Camera path features: free motion path, circular paths and movement pause
  • Video-editor type interface based 3 types of tracks (timepoint changes, keyframes, camera path nodes)
  • Tracks items can be resized and moved individually or in batches from menus
  • Output as series of still images (5 formats) and/or videos (8 formats) with adjustable quality

Other

  • Preferences dialogue (for setting up default paths, performance options, automatic resampling etc.)
  • View panel updating switchable on/off/automatic
  • Editor for look-up-tables (palettes) with freehand/node editing of RGB color transfer function and saving/opening of palettes
  • Resize dataset (in X/Y/Z; one button switching original/resized)
  • Convert dataset to 8-bit (with adjustable mapping of values)
  • Previous path locations are remembered
  • Mouse tooltips
  • Getting Started Guide (viewable from software)
  • Automatic bug reporting feature (activates after program crash)
  • Manual bug reporting feature (activatable by user at any time)
Personal tools
Namespaces
Variants
Actions
Navigation
Toolbox