KEY POINT CORRECTION SYSTEM, KEY POINT CORRECTION METHOD, AND NONTRANSITORY COMPUTER READABLE MEDIUM

Organization Name

TOYOTA JIDOSHA KABUSHIKI KAISHA

Inventor(s)

Yusuke Nakano of Nagoya-shi Aichi-ken (JP)

KEY POINT CORRECTION SYSTEM, KEY POINT CORRECTION METHOD, AND NONTRANSITORY COMPUTER READABLE MEDIUM - A simplified explanation of the abstract

This abstract first appeared for US patent application 17982696 titled 'KEY POINT CORRECTION SYSTEM, KEY POINT CORRECTION METHOD, AND NONTRANSITORY COMPUTER READABLE MEDIUM

Simplified Explanation

The key point correction apparatus described in this patent application is designed to detect and correct key points of a target object from captured images. Here is a simplified explanation of the abstract:

• The apparatus detects multiple key points of a target object from each captured image.
• It determines whether the key points satisfy an appropriacy condition.
• If the key points meet the condition, the apparatus calculates a correction parameter for the target object using the key points.
• Once a correction parameter is determined, the apparatus corrects the key points of the target object using the parameter.

Potential Applications

This technology has the potential to be applied in various fields, including:

• Computer vision: The apparatus can be used in computer vision systems to improve the accuracy of object recognition and tracking.
• Augmented reality: By correcting key points of objects in real-time, this technology can enhance the realism and stability of augmented reality applications.
• Robotics: The apparatus can aid in object detection and manipulation tasks for robots, improving their ability to interact with the environment.

Problems Solved

The key point correction apparatus addresses the following problems:

• Inaccurate key point detection: By detecting and correcting key points, the apparatus improves the accuracy of object analysis and recognition.
• Unstable object tracking: Correcting key points helps maintain stable tracking of objects, even in challenging conditions such as occlusion or motion blur.
• Real-time correction: The apparatus enables real-time correction of key points, allowing for immediate feedback and adjustment in various applications.

Benefits

The key point correction apparatus offers several benefits:

• Improved object recognition: By correcting key points, the apparatus enhances the accuracy and reliability of object recognition systems.
• Enhanced augmented reality experience: Real-time correction of key points improves the realism and stability of virtual objects in augmented reality applications.
• Increased robotic capabilities: The apparatus enables robots to better perceive and interact with objects, enhancing their overall performance and versatility.

Original Abstract Submitted

A key point correction apparatus detects a plurality of key points of a target object from each of a plurality of captured images. The key point correction apparatus decides whether or not a plurality of key points of the target object detected from the captured image satisfy an appropriacy condition. When the key points of the target object satisfy the appropriacy condition, the key point correction apparatus determines a correction parameter regarding the target object using the key points. When a correction parameter has been determined for the target object detected from the captured image, the key point correction apparatus corrects the key points of the target object using a correction parameter.