Ophthalmologic operation training system and method based on movement capturing and mixed reality

Abstract

The invention provides an ophthalmologic operation training system and method based on movement capturing and mixed reality. According to the ophthalmologic operation training system based on movementcapturing and the mixed reality, front three-dimensional images of an animal eyeball specimen during an operation are collected in real time through a 3D camera microscope, an operation tool is positioned by arranging a pulse laser detector on the operation tool, the position of the operation tool is compared with a standard position through a central processor, position correcting information isgiven, guide information is given through the central processor according to operation processes, then, the front three-dimensional images collected by the 3D camera microscope are superposed with the position correcting information and the guide information, and display is carried out through a mixed reality display terminal. By the adoption of the ophthalmologic operation training system and method based on movement capturing and the mixed reality, the senses of reality and immediacy of ophthalmologic operation training can be improved, real-time guide effects in operation training are improved, ophthalmologic operation training periods are shortened, ophthalmologic operation training costs are reduced, and the training quality is improved.

Description

technical field [0001] The invention relates to the technical field of medical training, in particular to an ophthalmic surgery training system and method based on motion capture and mixed reality. Background technique [0002] The eye is a very important organ of the human head. Due to its complex structure and extremely fragile position on the human head, eye surgery on the eyes is one of the most difficult operations in the hospital. In order to complete the eye surgery, a doctor is required With extremely high technology. At present, there are about 28,000 ophthalmologists in the country, but less than 4,000 can perform intraocular surgery, and less than 100 can independently perform difficult ophthalmic operations such as corneal transplantation. The resources of ophthalmologists are still very scarce, making the treatment of ophthalmic diseases limited. How to train more and faster doctors who master ophthalmic surgery has become an urgent problem to be solved. [00...

AI Technical Summary

Problems solved by technology

At present, there are about 28,000 ophthalmologists in the country, but less than 4,000 can perform inner eye surgery, and less than 100 doctors can independently complete difficult ophthalmic operations such as corneal transplantation. The resources of ophthalmologists are still very scarce, making the treatment of ophthalmic diseases limited. How to train more and faster doctors who master ophthalmic surgery has become an urgent problem to be solved

The problem with virtual eye surgery training is that the equipment and procedures are complex and expensive, and the degree of simulation with real surgery is still far away, and the sense of reality is not strong

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