Generating Intensity-Modulated Display Images

An intensity modulated display image is created by combining information from a ratio image (e.g., a FRET image) and a modulator image to accurately represent both intensity and ratio data in a single display. This process ensures that variations in intensity and the spatial distribution of the ratio values are visually preserved.

Steps to Generate an Intensity Modulated Display Image:

1. Convert the Ratio Image to an RGB Image:

   • The ratio image, often derived from fluorescence measurements (such as FRET), is first converted into an RGB image.
   • This step assigns color values to the ratio data, which represent the relative intensity or interaction levels in the original dataset.

2. Multiply by the Modulator Image:

   • The modulator image, which contains the intensity information, is then applied to the RGB ratio image through pixel-wise multiplication.
   • This step combines the ratio and intensity data, ensuring that both components contribute to the final visualization.
   • Areas with higher intensity values will appear brighter, while areas with lower intensity will appear dimmer, preserving the relationship between the ratio and intensity.

3. Normalize the Result:

   • The resulting image from the multiplication step is divided by 256.
   • This normalization step ensures that the resulting RGB values fall within the appropriate range for display (0-255 for each color channel).
   • Without this step, the resulting image might appear overly bright or contain artifacts due to out-of-range pixel values.

4. Display the Intensity Modulated Image:

   • The normalized RGB image is displayed as the intensity modulated image, where:
     • The color represents the ratio values (e.g., FRET efficiency).
     • The brightness represents the intensity or signal strength from the modulator image.

Why Use Intensity Modulated Images?

• Intensity modulated images are particularly useful for visualizing FRET data or other ratio-based measurements where both ratio and intensity information need to be presented simultaneously.
• This method avoids misinterpretation that could arise from viewing ratio data alone, as areas with low intensity are appropriately dimmed in the final display.

This process combines complex data into an easy-to-interpret format that maintains both spatial and quantitative information.