Medical education system based on mixed reality and 5G network slicing technology

Abstract

The invention discloses a medical education system based on a mixed reality and 5G network slicing technology. The system comprises a mixed reality teaching system platform and a 5G network slicing module, and the 5G network slicing module is connected with the mixed reality teaching system platform. According to the system, through the high speed and low time delay of the 5G network slicing technology and the safety of a private network, the fluency that students watch and operate static anatomical holographic images and simulate operation teaching by using mixed reality equipment can be improved, and the defects of few corpses and few physical human body models can also be overcome; according to the mixed reality technology, the digital real world and the digital virtual world are fused, and under the 5G high speed, the simulation is not blocked or delayed, so that the dizziness problem caused by traditional mixed reality glasses can be solved; the system supports extraction of individuals such as bones, blood vessels, muscles, fascia tissues and the like from holographic images, and zooming and rotating operations can be performed; and the system supports the operation to be decomposed step by step, and digital image-text prompting is carried out.

Description

technical field [0001] The invention relates to the field of medical education, specifically a medical education system based on mixed reality and 5G network slicing technology. Background technique [0002] Currently there are "medical first aid system based on mixed reality technology-CN202010334490.4", "mixed reality technology liver and gallbladder puncture training system-CN202010829092.X", "mixed reality technology medical operation simulation system-CN202010717314.9", "based on VR technology Patient Education Medical System-CN201921563179.6". Most of the existing medical education and training rely on: non-software methods and software methods. [0003] Non-software method: physical model of human anatomy, on-the-spot viewing of operating room learning, autopsy, textbook learning; software method is the existing open patent software found in the above query. [0004] Disadvantages and insufficiencies of non-software methods: the number of learning times is limited b...

AI Technical Summary

Problems solved by technology

[0004] Disadvantages and insufficiencies of non-software methods: the number of learning times is limited by physical models or corpses, students or young doctors do not have the opportunity to learn if they want to learn anatomy or surgical operations; on-site viewing of operations is also limited by the size of the operating room and the number of operations ;Looking at static anatomical pictures in textbooks is difficult to understand. The difference between plane pictures and real three-dimensional images of human organs is very large, and the learning efficiency is low; textbooks or apps cannot separate structures such as blood vessels, bones, fat, muscles, and fascia tissues. It is also impossible to perform interactive operations such as zooming and rotating for an individual

[0005] Disadvantages and shortcomings of the software method: Because the 3D image files of human anatomy and surgery simulation are very large, when students use mixed reality glasses to watch the holographic images of simulated anatomy or surgery, they need to download content from the server, using the existing 4G network speed is slow, delay When the size is large, the effects of zooming and rotation are more stuck, and even dizzy

Existing anatomical or surgical decomposition training image data based on the public Internet is not safe and faces the danger of being attacked

The existing public 5G+mixed reality+diagnosis or live broadcasts do not have holographic images for human anatomical structure refinement, and there is no relevant decomposition of surgical teaching and step-by-step prompts

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