IMAGE ENHANCEMENT SYSTEM AND IMPLEMENTATION METHOD THEREFOR

Organization Name

ZUMAX MEDICAL CO., LTD.

Inventor(s)

Jilong Wang of Suzhou (CN)

Bobby Nadeau of Suzhou (CN)

Jianyue Li of Suzhou (CN)

Bin Huang of Suzhou (CN)

Jian Chen of Suzhou (CN)

Jin He of Suzhou (CN)

Tao Qiu of Suzhou (CN)

ZhuangZhuang Hu of Suzhou (CN)

IMAGE ENHANCEMENT SYSTEM AND IMPLEMENTATION METHOD THEREFOR - A simplified explanation of the abstract

This abstract first appeared for US patent application 20240280796 titled 'IMAGE ENHANCEMENT SYSTEM AND IMPLEMENTATION METHOD THEREFOR

Simplified Explanation: The patent application describes an image enhancement system for microscopes that superimposes additional information onto the observation field of view, improving the operator's ability to observe, compare, and analyze information alongside real objects under the microscope.

• The system includes a media signal processing apparatus, an image enhancement apparatus, a microscope body, and a binocular tube.
• The image enhancement apparatus consists of a housing, a display device, and a superposition lens group.
• The display device receives information data from the media signal processing apparatus and converts it into an optical image.
• The superposition lens group superimposes the optical image onto the main optical path of the microscope body to create a superposed image.
• Operators can observe the superposed image through the binocular tube, allowing for more intuitive observation and analysis of information alongside real objects under the microscope.

Potential Applications: 1. Medical field for detailed analysis of biological samples. 2. Scientific research for enhanced observation of specimens. 3. Industrial applications for quality control and inspection processes.

Problems Solved: 1. Difficulty in observing and analyzing additional information alongside real objects under a microscope. 2. Lack of precision and accuracy in comparing and fusing information with real objects.

Benefits: 1. Improved operation accuracy and precision. 2. Enhanced ability to observe and analyze information alongside real objects. 3. Better comparison, superposition, and fusion of information for detailed analysis.

Commercial Applications: Enhanced image enhancement systems can be utilized in medical laboratories, research facilities, and industrial settings for improved observation and analysis processes, leading to better decision-making and quality control measures.

Prior Art: Prior art related to this technology may include existing image enhancement systems for microscopes and similar devices used in various industries for observation and analysis purposes.

Frequently Updated Research: Ongoing research in image processing algorithms and display technologies can further enhance the capabilities of image enhancement systems for microscopes, leading to more advanced and efficient solutions.

Questions about Image Enhancement System: 1. How does the superposition lens group work in the image enhancement apparatus? 2. What are the potential limitations of superimposing additional information onto the observation field of view of a microscope?

Original Abstract Submitted

the present invention discloses an image enhancement system and an implementation method therefor. the system comprises a media signal processing apparatus, an image enhancement apparatus, a microscope body, and a binocular tube. the image enhancement apparatus comprises a housing, and a display device and a superposition lens group that are disposed in the housing, the display device is connected to the media signal processing apparatus, the superposition lens group is disposed on a main optical path of the microscope body, the binocular tube is disposed on the microscope body, the display device is configured to receive information data sent by the media signal processing apparatus and convert the received information data into an optical image, the optical image sent by the display device is superposed to the main optical path of the microscope body through the superposition lens group to form a superposed image, and the superposed image can be observed through the binocular tube. in this application, some images with additional information may be superposed into an observation field of view of a microscope, so that an operator can observe required information more intuitively, and compare, superpose, and fuse the information with a real object under the microscope better, thereby improving operation accuracy and precision.