IMAGE PROCESSING APPARATUS, IMAGE PROCESSING METHOD, AND IMAGE PROCESSING PROGRAM

Organization Name

FUJIFILM Corporation

Inventor(s)

Hiroaki Kikuchi of Tokyo (JP)

IMAGE PROCESSING APPARATUS, IMAGE PROCESSING METHOD, AND IMAGE PROCESSING PROGRAM - A simplified explanation of the abstract

This abstract first appeared for US patent application 18466620 titled 'IMAGE PROCESSING APPARATUS, IMAGE PROCESSING METHOD, AND IMAGE PROCESSING PROGRAM

Simplified Explanation

The image processing apparatus described in this patent application performs various processes to detect and measure damage on a subject's surface using multiple images captured from different viewpoints. Here is a simplified explanation of the abstract:

• Acquiring multiple images of a subject captured from different viewpoints with overlapping imaging ranges.
• Detecting damage on the subject's surface by analyzing the acquired images.
• Generating three-dimensional point group data of feature points on the subject.
• Creating a three-dimensional patch model of the subject based on the generated point group data.
• Selecting an image corresponding to each patch of the patch model from the acquired images.
• Measuring the size of the damage in the selected image's region corresponding to the patch.
• Generating correction information to correct the measurement result of the damage size.
• Correcting the measurement result of the damage size based on the generated correction information.

Potential Applications

This technology has potential applications in various fields where damage assessment or inspection of surfaces is required. Some potential applications include:

• Manufacturing industry: It can be used for quality control and inspection of products, detecting and measuring defects or damage on surfaces.
• Automotive industry: It can be used for assessing the condition of car bodies, detecting and measuring scratches, dents, or other damages.
• Construction industry: It can be used for inspecting building surfaces, detecting and measuring cracks, chips, or other damages.
• Forensic investigations: It can be used for analyzing crime scenes, detecting and measuring damages on objects or surfaces.

Problems Solved

This technology addresses several problems related to damage detection and measurement on surfaces:

• Efficient and accurate detection: By analyzing multiple images from different viewpoints, it enables more accurate detection of damage on a subject's surface.
• Size measurement accuracy: By generating correction information and applying it to the measurement result, it improves the accuracy of measuring the size of the detected damage.
• Three-dimensional representation: By generating a three-dimensional patch model, it provides a more comprehensive representation of the subject's surface, aiding in damage assessment.

Benefits

The use of this image processing apparatus offers several benefits:

• Improved accuracy: By utilizing multiple images and generating correction information, it enhances the accuracy of damage detection and size measurement.
• Time and cost savings: The automated process reduces the need for manual inspection, saving time and labor costs.
• Comprehensive analysis: The three-dimensional patch model provides a detailed representation of the subject's surface, allowing for a more thorough assessment of damages.
• Versatility: The technology can be applied to various industries and scenarios where damage assessment or inspection is required.

Original Abstract Submitted

The image processing apparatus executes: processing of acquiring a plurality of images of a subject captured with overlapping imaging ranges from a plurality of viewpoints; processing of detecting damage to a surface of the subject from the acquired plurality of images; processing of generating three-dimensional point group data of feature points; processing of generating a three-dimensional patch model of the subject on the basis of the generated point group data; processing of selecting an image corresponding to each patch of the three-dimensional patch model from the acquired plurality of images; processing of measuring a size of the damage in a region corresponding to the patch in the selected image; processing of generating correction information necessary for correcting a measurement result of the size of the damage; and processing of correcting the measurement result of the size of the damage on the basis of the generated correction information.