PRODUCTS | OnDemandSoft

iClear™ (Ultrasound Speckle Reduction Imaging Solution)

iClear™ is an image enhancement solution for medical imaging systems such as ultrasound, X-ray, CT, MRI, and mammography. It reduces noise and enhances edges in real time, improving contrast, resolution, and overall image clarity.

We provide multiple filter sets with different enhancement levels, optimized for the characteristics of our partners' medical imaging systems.

Select an image pair below to view in detail (Original vs Enhanced).

iPano™ (Ultrasound Panoramic Imaging Solution)

iPano™ is an ultrasound imaging technique that stitches multiple B-mode images together to create a single composite image with an increased field of view. It provides visualization of anatomical structures and their relationships in a single large field-of-view image, making it highly useful for diagnosis in musculoskeletal imaging, orthopedics & rehabilitation, obstetrics & fetal examination, vascular & neurology, and more.

Result panorama images are shown after speckle reduction and edge enhancement by iClear™.

Click a panoramic image to enlarge.

iClear3D™

The AI engine of iClear3D™ analyzes the contours and surfaces of structures visible in 3D images to accurately identify them. It then enhances the intensity and continuity of weaker signals that form these contours and surfaces, making them more distinct. Meanwhile, irregular surfaces and contours generated by noise in 2D images are smoothed and refined by weakening inconsistent signals, ultimately improving the overall quality of the 3D image.

By performing these high-precision enhancements automatically, without requiring additional user input, iClear3D™ delivers clearer imaging results in daily ultrasound scanning without extra manual adjustments. This efficiency optimizes workflow for medical professionals while enhancing overall satisfaction for both doctors and patients.

Example animated 3D fetal images processed with iClear3D™.

4D Ultrasound Volume Imaging Solution

Surface Rendering : The surface of the target object, shown in grayscale in the 2D image, is rendered into 3D, while liquid materials displayed in black in the 2D image are rendered as transparent, making them invisible in the 3D image.

Depthview Rendering : To enhance the distinction between near and far structures within 3D volume data on the monitor, the system utilizes a dual-color approach. The near structure is displayed in a user-selected color from the 3D palette, while the far structure is represented in blue or dark grey.

Realskin Rendering

To achieve a realistic skin effect, the system considers the location of the light source relative to the 3D volume and calculates its impact on the fetal surface structure. Users can freely adjust and reposition the light source around the 3D volume data.

Silhouette Rendering

Users can examine both the internal and external structures of the target object in the 3D volume by adjusting the transparency level. Increased transparency reveals more internal structural details with reduced surface visibility, while decreased transparency emphasizes the surface with fewer internal details visible.