Internet of things prediction control method and device of space trajectory of scalpel

Abstract

The invention provides an internet of things prediction control method and system of the space trajectory of a scalpel and and a handle device of a telescopic scalpel. The handle device comprises a scalpel handle body and a scalpel handle control system located in the scalpel handle body. The scalpel handle control system comprises a micro-controller, an electromagnetic transmission device, a detector, a wireless transceiver and a power supply. The power supply provides working voltage for the micro-controller, the electromagnetic transmission device, the detector and the wireless transceiver. The micro-controller is used for controlling working modes of the scalpel and sending out control signals. The electromagnetic transmission device is used for driving the scalpel to stretch out or draw back according to control signals. The detector is used for detecting the space position of the scalpel. The wireless transceiver is used for communication and interaction with the outside. The technical scheme of the internet of things prediction control method and system is based on the all-dimensional internet of things prediction control and monitoring control of surgical department clinic environment information, provides a solution scheme for the controllable surgical department scalpel to resist to environment dynamic shaking.

Description

technical field [0001] The present invention relates to the field of medical equipment, in particular to an IoT predictive control method and device for the spatial trajectory of a scalpel. Background technique [0002] Among the surgical instruments, the scalpel is undoubtedly the most widely used one. It is almost the only tool used to make incisions on tissues or organs during surgical operations. How to use the operation safely and correctly in an unstable medical operation environment Surgery with a knife urgently needs the support of related technologies. Surgical safety control and analysis technologies currently developed around the world mainly focus on: starting from the analysis of surgical mechanics, with the help of the actual clinical operation experience of surgical medical personnel, through surgical instrument simulation and improved surgical knives to safely and effectively perform various Surgery, forming a method to deal with various emergencies, accordi...

AI Technical Summary

Problems solved by technology

[0003] The existing clinical surgical scalpel and the improved multi-functional scalpel only complete the simple auxiliary function of surgical clinical operation safety operation, and the ability to identify abnormalities of the surgical knife trajectory is limited, and it is impossible to cut the area of ​​the unstable environment and the surgical space. Carry out all-round real-time full-power monitoring, and the simulation scalpel based on the virtual surgery system can complete complex surgical action analysis, but the simulation structure is complex, and it mainly completes some specific analysis tasks, not all-round real-time for surgical clinical operations. Designed with full authority monitoring, the degree of intelligence achieved by the clinical scalpel through three-dimensional tracking is also limited, and it cannot perceive the information of the surgical environment, and cannot perform real-time comprehensive analysis of the surgical situation, so as to provide a full range of monitoring services

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