Canon kabushiki kaisha (20240176035). RADIATION IMAGING SYSTEM simplified abstract
RADIATION IMAGING SYSTEM
Organization Name
Inventor(s)
RADIATION IMAGING SYSTEM - A simplified explanation of the abstract
This abstract first appeared for US patent application 20240176035 titled 'RADIATION IMAGING SYSTEM
Simplified Explanation
The radiation imaging system described in the abstract includes a radiation imaging apparatus and a control apparatus that work together to generate and analyze radiation images.
- The radiation imaging apparatus generates a radiation image based on radiation emitted from a radiation generation apparatus.
- The control apparatus acquires information from both the radiation imaging apparatus and the radiation generation apparatus.
- The control apparatus includes an image determination unit that determines if the acquired radiation image is a failed image.
- It also includes an irradiation information acquisition unit that gathers irradiation information from the radiation generation apparatus.
- A factor determination unit in the control apparatus determines the factor causing the acquisition of the failed image based on the results of the image determination unit and the information from the irradiation information acquisition unit.
Potential Applications
This technology can be applied in medical imaging systems, security screening devices, and industrial inspection equipment.
Problems Solved
This technology helps in identifying and addressing issues related to failed radiation images, improving the overall quality and accuracy of imaging processes.
Benefits
The system enhances the efficiency and reliability of radiation imaging, leading to better diagnostic results, increased safety, and reduced errors in various applications.
Potential Commercial Applications
Potential commercial applications of this technology include medical imaging devices, security scanners, and quality control systems in manufacturing.
Possible Prior Art
One possible prior art could be the use of similar control apparatus in other imaging systems to analyze and improve image quality.
What are the specific components of the radiation imaging apparatus and the control apparatus in this system?
The radiation imaging apparatus includes components such as detectors, collimators, and image processors, while the control apparatus consists of an image determination unit, an irradiation information acquisition unit, and a factor determination unit.
How does this technology compare to existing radiation imaging systems in terms of image quality and error detection capabilities?
This technology offers improved error detection capabilities and enhanced image quality compared to existing radiation imaging systems by efficiently identifying and addressing failed images.
Original Abstract Submitted
a radiation imaging system includes a radiation imaging apparatus configured to generate a radiation image based on radiation emitted from a radiation generation apparatus, and a control apparatus configured to acquire information from the radiation imaging apparatus and the radiation generation apparatus. the control apparatus includes an image determination unit configured to determine whether the radiation image acquired from the radiation imaging apparatus is a failed image, an irradiation information acquisition unit configured to acquire irradiation information from the radiation generation apparatus, and a factor determination unit configured to determine a factor in acquisition of the failed image, based on a determination result of the image determination unit and information in the irradiation information acquisition unit.
