How to Use ET Viewer — Tips for Beginners

How to Use ET Viewer — Tips for BeginnersET Viewer is a lightweight, user-friendly tool designed to help users view, analyze, and interact with electromagnetic tomography (ET) data, medical imaging files, or similarly structured datasets. Whether you’re a student, researcher, clinician, or hobbyist, this guide will walk you step-by-step through installing ET Viewer, opening files, navigating the interface, basic analysis workflows, and handy tips to speed up your learning curve.

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What is ET Viewer?

ET Viewer is a visualization application for electromagnetic tomography and related imaging data. It supports multiple file formats (commonly DICOM, NIfTI, and proprietary ET output files), enables slice-by-slice inspection, 3D rendering, and basic quantitative tools such as region-of-interest (ROI) measurements.

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System requirements and installation

Before installing, verify your system meets the typical minimum requirements:

• Operating system: Windows ⁄₁₁, macOS 11+, or a modern Linux distro
• CPU: Dual-core 2 GHz or better
• RAM: 8 GB minimum (16 GB recommended for large datasets)
• GPU: Any GPU with OpenGL 3.3+ support for 3D rendering (integrated GPUs often work)
• Disk: 500 MB for program files; additional space for datasets

Installation steps (general):

1. Download the installer or package from the official ET Viewer website or your organization’s distribution.
2. On Windows: run the .exe and follow the installer prompts. On macOS: open the .dmg and drag the app to Applications. On Linux: unpack the tarball or use the provided .deb/.rpm and follow package manager instructions.
3. Launch ET Viewer and complete any first-run setup (license activation or preferences).

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Opening and importing files

ET Viewer typically accepts several formats. To open a file:

1. File → Open (or drag-and-drop).
2. For multi-file datasets (like DICOM series), choose the folder containing the series; ET Viewer should auto-detect the series and stack slices in correct order.
3. If your data uses a proprietary format, use File → Import or the dedicated importer plugin.

Tips:

• Verify metadata (scan date, voxel size, orientation) after loading.
• If slices appear reversed or rotated, use the rotate/flip tools to correct orientation.

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Understanding the interface

Most ET Viewer interfaces include these panels:

• Slice viewer(s): axial, sagittal, coronal views—click and drag to move through slices.
• 3D rendering viewport: interactive volume or surface rendering.
• Toolbar: quick-access tools (pan, zoom, window/level, measurement, ROI).
• Sidebar/Inspector: shows metadata, layer controls, and display options.
• Timeline or series selector (for time-series or multi-echo data).

Mouse/trackpad controls (common mappings):

• Left-click drag: rotate (in 3D) / select
• Right-click drag or scroll: zoom
• Middle-click drag or two-finger drag: pan
• Scroll wheel: move through slices

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Basic image navigation and display adjustments

Windowing/leveling:

• Use window (width) and level (center) controls to adjust contrast and brightness. Dragging the window/level tool horizontally/vertically often adjusts these continuously.

Zoom & pan:

• Zoom to focus on detail; pan to reposition. Use fit-to-screen to reset.

Annotations:

• Add labels, arrows, or text annotations through the Annotation tool. Save annotated views for presentations.

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Measurements and ROIs

Creating a region-of-interest (ROI):

1. Select the ROI tool (rectangle, ellipse, polygon, or freehand).
2. Draw on the slice. Many viewers allow propagation of ROIs across slices (planar or volumetric ROI creation).

Common measurements:

• Area and perimeter (2D ROIs)
• Volume (for segmented 3D ROIs)
• Mean, median, min, max intensity within ROI
• Distance measurement between points (useful for lesion sizing)

Exporting measurements:

• Use Export → Measurements to save CSV or spreadsheet-compatible files.

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3D rendering and surface extraction

Volume rendering:

• Enables semi-transparent rendering of the whole volume. Adjust transfer functions to highlight tissues or structures of interest.

Surface rendering / isosurface:

• Extract a surface by selecting an isovalue (threshold) to create a mesh. Useful for visualizing organs or high-contrast structures.

Tips:

• Use smoothing and decimation to reduce mesh complexity for presentation.
• Combine ROI masks with surface extraction to visualize specific structures.

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Working with time-series or dynamic datasets

If your dataset contains multiple timepoints:

• Use the timeline or series slider to scrub through time.
• Consider creating a video export (File → Export → Video) for presentations or analysis.

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Common troubleshooting

• Slices appear out of order: check metadata and ensure correct sorting by InstanceNumber or SliceLocation.
• Slow performance with large volumes: enable GPU acceleration or downsample data for interactive review.
• Incorrect orientation: use reorient tools (rotate/flip/transpose axes).
• Missing plugins/codecs: install any necessary format plugins or convert files to a supported format (e.g., NIfTI).

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Useful shortcuts and workflow tips

• Learn keyboard shortcuts for switching tools, toggling panels, and navigating slices.
• Create a default workspace tailored to your tasks (e.g., large slice viewers for diagnosis, single 3D view for presentations).
• Use scripted batch processing (if supported) to apply the same analysis pipeline to multiple datasets.
• Regularly save session states or scene files to preserve your workspace setup and annotations.

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Privacy and data handling

Always follow your institution’s policies and local laws regarding patient data. De-identify datasets when sharing and use encrypted storage/transfer methods if the viewer does not provide built-in encryption.

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Further learning resources

• Official ET Viewer user manual and FAQ (check the app Help menu).
• Community forums or user groups for tips and shared workflows.
• Tutorials and video walkthroughs for hands-on demonstrations.

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If you want, I can: provide a quick checklist for first-time setup, write a short script to batch-convert common ET formats to NIfTI, or create annotated screenshots for a specific ET Viewer version. Which would you prefer?