Slicer3:UIDesign

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Home < Slicer3:UIDesign

Return to Slicer3 Interface Design and Usability

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This page contains a catalog of user interface design and development notes for various aspects of Slicer 3.4, 3.6 (based on KWWidgets) and links to new work on Slicer 4.0 (based on Qt).

Contents

Slicer users

Core user communities:

  • (NAC) Longitudinal and multi-channel dataset analysis
  • (BIRN/NA-MIC) Individual and group analysis
  • (IGT/AMIGO) Real-time control and tracking in the operating theater
  • (IGT) Neurosurgical planning and guidance

Types of users:

  • Algorithm researchers (who work within 3DSlicer's development environment and with associated toolkits)
  • Biomedical engineers (who rely on 3DSlicer's interactive enironment and scripting capabilities)
  • Application scientists (who use 3DSlicer as a desktop application and turnkey system)


User Feedback: Feature, Resource, Application Convention Requests

Please add usability feedback to Slicer3's bug tracker. If you are not familiar with the bug tracker:

  • login or create an account
  • choose Slicer3 as your project (upper right corner)
  • and select Report Issue.
  • make sure to choose the correct category for your report (select "usability" for usability issues).

Early feature requests can also be found here.




Codes to mark contributions

These wiki pages can be hard to parse. Here's an experiment for marking feedback to make it easier to parse; (copy, paste and customize from below).

Opinion.png (wjp) Add a general comment or opinion.

Usability.png Flag a usability problem.

Idea.png Mark an idea.

Sketch.png Mark a link to related info.

Bug.png Report a bug.

Fire.png Report a really bad bug that's blocking work progress, or causing a crash.

MissingOrStaleDoc.png Report missing documentation.

MissingOrStaleDocLink.png Report bad documentation link.

WeakDoc.png Report insufficient documentation.

Slicer 4.0: Working problems in QT Interface Design and Implementation

See this link for ongoing project


Slicer 3.6: Working problems in Interaction and interface design for KWWidgets-based Slicer interface.

Working problem: Consolidated Load in Slicer including a Data Management System

Sketch.png Link to design sketches extending XNAT Desktop to have OsiriX-like UXP & functionality

Sketch.png Link to info for Slicer Consolidated Load Design integrating a local file management system

Sketch.png Link to user specifications and design sketches for a Qt-based Query Widget for XNAT Enterprise

Working problem: Mouse Modes in Slicer3

Since a left-mouse-button click in Slicer's 3D or Slice Viewers can mean different things at different times; this can be confusing to users, and can lead to mistakes. We are currently deciding a good paradigm for defining and controlling mouse modes in Slicer's 3D viewer and 2D slice windows. We rely on mouse interaction to transform the view, and to perform explicit actions like placing a fiducial, selecting and moving a fiducial, collecting voxel-value samples, and so on. The challenge is to make all actions possible with just the left mouse button (some mice have only one button), and to disambiguate what a left-mouse-button click in the 3D and Slice viewers means.

Goals: We'd like the interaction paradigm to have the following features:

  • Consistent in all slice windows and 3D viewer
  • Reflect common software conventions
  • Intuitive and easy for beginners
  • Fast for intermediate and expert users
  • Rely on only one mouse button (but accommodate multiple mouse buttons)
  • Support direct manipulation as much as possible
  • Provide clear visual feedback about current mouse mode
  • Support both view transformation (rotate, pan, zoom) as the primary mode, and a set of mouse actions (pick, manipulate, place, etc..., and window/level adjustments according to convention in medical imaging software packages.
  • Consistent classification of all direct-manipulable entities in slicer into a set of groups, and have consistent behavior for 'selecting' all entities within each group.


Current issues we want to address in existing Slicer3 implementation:

  • Mouse motion should default to "transform view" mode
  • Interaction relies on three mouse buttons (for rotate, pan, zoom, etc.) which aren't always present on all computers
  • It's currently easy to forget about persisting non-transform mouse modes (like pick or place) and assume that the view can be transformed -- leading to annoying errors. We want to avoid these errors
  • Would like to free up right mouse button to invoke the display of a 'context menu', but well-established convention uses right mouse button for zooming in all viewers.
  • Would like BOTH intuitive one-handed mouse-only interaction to be possible AND hot-key assisted shortcuts to be available.
  • We need to combine the concepts of active (volume or model, etc.), selected (volume or model...) and picked (volume or model...)
  • We need to design presentation treatments for all groups of selectable entities within Slicer, and a consistent presentation treatment for all selected entities within each group.


Sketch.png Link to Other software conventions...

Sketch.png Link to Notes on Selection and Direct Manipulation

Sketch.png Link to Developer & user suggestions for what we need to pick

Sketch.png Link to User suggestions and Early draft

Sketch.png Link to Notes on State=Selected vs. State=Active in MRML


Working problem: CTSC: Facilitating Tumor Analysis Workflow in Slicer

Contributors: Ron Kikinis, Jeff Yapp, Randy Gollub, Wendy Plesniak

Goals: Perform the following analyses in Slicer and create presentation & tutorial materials

  • A. Single Volumetric Dataset Basic Volumetric Measurements for Tumor Assessement
    • Linear
    • Volumetric
  • B. Dynamic Volumetric Data Visualize & Analyze Perfusion Data
    • Define ROI
    • Interactive Plot of Contrast Dilution as Function of Time
    • Measure Peak (first priority) & Transit (second priority) times in Blood Pool & Tumor
    • Save timepoints
      • Intensity(t) for ROI1
      • Intensity(t) for ROI2
  • C. PET Dataset Basic Standardized Uptake Value (SUV) Analysis
    • Segment Tumor by Hand (ROI or VOI, circle or sphere will work)
    • Normalize by SUV (use maximum value)
    • Extract Parameters:
      • For single tumor: SUVmax_Baseline, SUVmax_Timepoint, %change
      • For multi tumor: SUM(SUVmax_Baseline) - SUM(SUVmax_Timepoint), %change
  • D. Visualization Requirements Displaying Static, Dynamic and PET data
  • E. Presentation Materials Powerpoint Slides for CTSA IRAT
    • Deadline: September (for October meeting)
      • Short slideset showing Slicer overview & BC tumor analysis
    • Deadline: November (for RSNA in December)
      • Full slidesets including Basic Training and Specific hands-on BC tumor analysis

Tutorial slides currently under development


Sketch.png Link to info for A. Volumetric Analysis

Sketch.png Link to info for B. Dynamic analysis

Sketch.png Link to info for C. PET Analysis

Working problem: Customizable layouts for Slicer3

Instead of a finite set of layout options, we would like to provide users the ability to select among a richer set of layouts, some created to be appropriate for analyzing certain kinds of studies, and the ability to customize their application layout as well. We have begun working on ideas at the NA-MIC January 2009 AHM.

Contributors: Jim Miller, Steve Pieper, Ron Kikinis, Julien Finet, Jean Christophe Fillion-Robin, Wendy Plesniak

Sketch.png Link to first draft of user experience design

Sketch.png Link to second draft of user experience design

Sketch.png Link to tabbed-slicer layout

Sketch.png Link to first ideas about layout architecture

Working problem: Slicer3 workflow for Tractography: usability issues, design & planning

Working with Dr. Jean-Jacques Lemaire, we are understanding the use of Slicer in a complicated tractography analysis, within the context of a particular workflow. This work is identifying usability issues, software bugs, and ideas for improvement. These pages are a touchstone for the project.

Contributors: Jean-Jacques Lemaire, Nicole Aucoin, Wendy Plesniak, Steve Pieper, Alex Yarmarkovich, Andriy Fedorov, Haiying Liu

General issues, comments and feature requests

Sketch.png Link to Organization of Presentation Layer

Sketch.png Link to Naming conventions

Workflow overview and details on sub-steps

Below is a rough outline of the tractography analysis workflow currently in use (pending a proofreading check by J-J). The workflow can be broken down into general stages:

  • setting up: including loading and saving and adjusting data display properties
  • registration of target dataset to a reference dataset
  • exploratory and analytic tractography

DTIworkflowOverview.png

(if the figure should be corrected, please let me know how to fix -- maybe deformation should be part of the registration step).Data loading happens up front, but data and the scene may be saved frequently throught the workflow. Highlighted are some areas where serious usability issues have been flagged.

A plan to address these issues will be discussed on Dec 29/30 2008 at the next Slicer Developers meeting. Notes from that meeting and a proposed development plan will be posted here.

The sections below contain collected comments and suggestions for all workflow stages: Setting up, Registration, and Tractography. Markers on the figures indicate places where problems are reported.


DTIworkflowSetup.png

Sketch.png Link to Comments on Data/Scene Loading

Sketch.png Link to Comments on Saving

Sketch.png Link to Comments on Quality check & Deformation (Pre-registration)

Sketch.png Link to Comments on Registration

DTIworkflowRegistration.png

Sketch.png Link to Comments on Tractography

DTIworkflowTractography.png


Working problem: Welcome Module for Slicer3.4 release

Sketch.png Link to Mockup

Sketch.png Link to First Draft Implementation

Sketch.png Link to Second Draft Implementation


Working problem: Design revision on Fiducials GUI for Slicer3.4 release

Sketch.png Link to Draft1

Sketch.png Link to Draft2

Sketch.png Link to Draft3

Working problem: Module Management Wizard Interface & Interaction Design Storyboard

This wizard allows users to uninstall modules from their current build or to download and install new modules. Currently working on a usable design. Storyboard roughed out during IGT project week Dec8-12 '08, (Terry Lorber, Steve Pieper, Wendy Plesniak)

Sketch.png Link to Draft 1

Sketch.png Link to Draft 2 (not yet ready)


Working problem: Consolidating Load functionality

Functionality to load data is spread all over the application... we want to begin consolidating it in some simple fashion and to gradually implement a more integrated and appropriate solution.

Sketch.png Link to Draft 1


Working problem: Save Data Widget

Sketch.png Link to Draft 1 and notes

Sketch.png Link to Draft 2 and notes

Sketch.png Link to Draft 3 and notes

Sketch.png Link to Draft 4 and notes

Sketch.png Link to Draft 5 and notes


Working problem: Slicer & XNAT Informatics

Sketch.png Link to Fetch Medical Informatics (FetchMI) implementation 1 notes

Sketch.png Link to Fetch Medical Informatics (FetchMI) and RemoteIO profiling/refining notes

Sketch.png Link to CTSC Use-case: Grant & Pienaar at Children's Hospital Boston

Sketch.png Link to CTSC Use-case: Brad Dickerson at Mass General NMR

Sketch.png Link to CTSC Use-case: Warfield & Weisen at Children's

Sketch.png Link to CTSC Use-case: Managing Image Guided Therapy (NCIGT) Restrospective Data at Brigham & Women's Hospital

Sketch.png Link to FetchMI XNE extension planning (work with Curtis Lisle)


Working problem: Scene Snapshot Interface

Sketch.png Link to Scene Snapshot UI Design


Working problem: Application-wide support for ROI definition

GOALS:

  • determine relationships between label maps, implicit regions (spheres, circles, ellipses), and vector-format region definitions.
  • determine what kinds of ROIs we will allow users to create/edit at application level
  • determine how to expose ROI functionality application-wide (without "wormholing" to an ROI module)
  • provide tools for defining, editing ROIs
  • provide tools for converting ROIs into label maps (?)
  • provide good mouse+hotkey design
  • generalize implementation to eventually accommodate DICOM-format ROIs
  • determine relationship between fiducial lists and ROIs (from implementation pov).

Sketch.png Link to Draft ROI design

Sketch.png Link to Interface & interaction design drafted at June NA-MIC Project Week

Sketch.png Link to Earlier notes from Editor module usability sessions


Working problem: Consistent checkbuttons and radiobuttons across platforms (Issue Resolved)

GOALS

Currently, radiobutton and checkbutton indicators display their state differently on different platforms Slicer supports. For instance, visually similar indicators on linux and windows actually represent different states. This can be confusing for people who work on both platforms. So instead of using the default Tk bitmaps for the indicators, we are proposing to use our own image data which will display the same on all platforms.

  • develop a custom slicer widget as an extension of vtkKWCheckButton
  • disambiguate current "deslected" radiobutton icon state -- it can be read as "disabled"
  • override method for turning the old indicator visible/invisible (always keep it off)
  • develop visually parseable convention for icons to represent:
    • selected
    • deselected
    • disabled
  • use methods SetImageToIcon and SetSelectImageToIcon to display selected/deselected icons, selected/deselected icons+indicators
  • provide blank icons with and without indicators for people to download.

Sketch.png Link to Radio and check button tests


Working problem: Navigating with fiducials (Issue resolved: implemented in Editor module and Edit Box)

GOALS:

  • use fiducials as markers for features of interest
  • allow navigation to fiducial points within a slice window and
  • allow navigation to same fiducial point in all slice windows (a feature we're calling 'jumpslice').
  • want to read-out which fiducial is currently being viewed while navigating
  • want to expose these features in top level in each slice controller widget
  • want also to keep the slice scrollbar from getting too small to use.
  • want to indicate which slice scrollbar direction is R,L, S,I, A,P, depending on orientation


Sketch.png Link to Fiducial navigation UI design sketches


Working problem: Cine display for viewing and analyzing multi-volume data in Slicer3

Sketch.png Link to Drafts of UI for Cine Display


Working problem: Linked controls in Slicer3

Goals

Slice viewing can operate in the context of a single slice reformation or in a linked state where multiple slice viewers respond to interactions with any slice viewer. When Slice Viewers are linked, a number of viewing geometry and view representation parameters are linked across viewers.

Sketch.png Link to Drafts of UI for Linked Controls


Background: Slicer 3.2 usability & ideas for Slicer 3.3

Some Embodiment History


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