Slice image (FIB-SEM/medical/continuous section) alignment software

basic information

【5 Types of Diverse Automatic Alignment】 ◆ Feature Matching This is a fast automatic alignment method that refers to the features of the front and back images. It is effective for simple shapes and when there is little difference between the front and back images. ◆ Phase Matching This method performs a Fourier transform on two images and calculates the shift amount based on the phase image derived from their frequency spectrum, enabling fast automatic alignment. It is effective for materials with repeated complex structures. ◆ Template Matching This method sets a common image area (template) in the images and performs automatic alignment based on that reference. It is effective when a common image area can be established. It is also recommended to pre-process a reference structure in FIB-SEM. ◆ ROI Matching This method assumes that similar images will appear next, based on a rectangular area specified by the ROI tool, and repeats template matching for automatic alignment. The movement amount in the XY direction of the front and back images is calculated. Although the processing time is longer, it is a versatile processing method. ◆ Rotate Matching In addition to the ROI matching process, this method considers image rotation for automatic alignment. It has the longest processing time but is a versatile processing method.

Price information

Nationwide service, same-day estimates. Please feel free to contact us.

Delivery Time

P4

※Nationwide service, same-day estimates. Please feel free to contact us.

Applications/Examples of results

【Flexible manual alignment with 5 types of display modes】 ◆ Single Slice View Displays images one by one. Select the template area, which serves as the reference for alignment, using the ROI tool (purple frame). ◆ Processing View Allows comparison of images before and after processing in a split-screen format. In this view, 29 types of powerful batch image processing (such as binarization) can be performed. Appropriate preprocessing leads to better alignment results. ◆ Template View Displays the template area that serves as the reference for alignment. ◆ Alignment View Displays the before and after images in a semi-transparent overlapping state. Manual fine-tuning can be performed while observing the positions of the before and after images. After moving/rotating the before and after images and adjusting brightness/color, an aln file containing the paired before and after images is output. ◆ Multi Slice View Allows for a list display/save of the images after alignment. Images processed in each view can be transferred in bulk to this view with a single click.

Detailed information

• 

  Five types of diverse automatic alignment: - Feature matching: Effective when there is little difference between front and back images. - Phase matching: Effective for repeated complex structures such as materials. - Template matching: Effective when a common image area can be set. - ROI matching: Takes longer processing time but is a versatile processing method. - Rotate matching: Has the longest processing time but is a versatile processing method.

• 

  Single Slice View Displays images one by one. Select the template part that will serve as the alignment reference using the ROI tool (purple frame).

• 

  Processing View You can compare images before and after processing in a split-screen view. In this view, 29 types of powerful batch image processing (such as binarization) can be performed. With appropriate preprocessing, better alignment results can be achieved.

• 

  Alignment View The front and back images are displayed in a semi-transparent overlapping state. You can manually fine-tune the positions of the front and back images while viewing them. After moving/rotating the front and back images and adjusting brightness/color, an aln file containing the paired front and back images will be output.

• 

  Alignment View The front and back images are displayed in a semi-transparent overlapping state. You can manually fine-tune while checking the positions of the front and back images. After moving/rotating the front and back images and adjusting brightness/color, an aln file containing the paired front and back images will be output.

• 

  Alignment View The front and back images are displayed in a semi-transparent overlapping state. You can manually fine-tune while checking the positions of the front and back images. After moving/rotating the front and back images and adjusting brightness/color, an aln file containing the front and back images as a set will be output.

• 

  Multi-slice view You can display/save a list of images after alignment. You can transfer processed images from each view to this view in one click.

• 

  29 types of powerful batch image processing Equipped with 29 diverse image processing functions. You can perform tasks such as brightness unevenness correction, binarization, and noise reduction in bulk on a large number of slice images. This significantly reduces the tedious effort of manually processing each image one by one, which was previously done by hand.

• 

  3D conversion with ExFact VR after alignment After alignment with ExFact Slice Aligner, 3D conversion is possible with ExFact VR. ExFact VR is a 3D image analysis software developed by Japan Visual Science, a master of 20 years in 3D image analysis, for converting tomographic images (such as X-ray CT/FIB SEM) into 3D. *ExFact VR is sold separately.