KIM, HYEUN SUNGKR,김현성,HWANG, KYU MINKR,황규민,YOON, HONG WONKR,윤홍원
申请号:
KR1020150079598
公开号:
KR1016474670000B1
申请日:
2015.06.05
申请国别(地区):
KR
年份:
2016
代理人:
摘要:
An object of the present invention is to provide a 3D surgical glasses system using augmented reality, which can provide 3D models of an inside of a human body, a surgical object and a surgical tool to 3D glasses as an augmented reality image. A 3D surgical glasses system using augmented reality according to the present invention includes: a first sensor unit attached to a surgical object inserted into a human body to transmit information about a first position a second sensor unit attached to a surgical tool which is used to insert the surgical object inserted into a human body to transmit information about a second position a 3D modeling storage and transmission unit configured to transmit 3D modeling for an inside of a human body to which at least three reference points are set to 3D glasses, to transmit 3D modeling for the surgical object at a position corresponding to the information about the first position to the 3D glasses, and to transmit 3D modeling for the surgical tool at a position corresponding to the information about the second position to the 3D glasses an affected area reference sensor unit which is installed to the same portions of a human body as those of at least three reference points set for the 3D modeling in the human body, wherein the affect area reference sensor unit transmits position information of each sensor, and the number of sensors is equal to that of the reference points and the 3D glasses configured to display the 3D modeling of the inside of the human body, which are received from the 3D modeling storage and transmission unit, on a real image projected through lenses of the 3D glasses to be overlapped and to additionally display the 3D modeling of the surgical object and tool on the corresponding positions, wherein the at least three reference points set to the 3D modeling correspond to the positions of the sensors, respectively, such that the 3D modeling is overlapped with respect to the positions of the at least three sensors i
