000211726 001__ 211726
000211726 005__ 20180913063323.0
000211726 013__ $$aWO2005067807$$bWO$$cA1$$d20050728
000211726 02470 $$2TTO$$a6.0491
000211726 02470 $$2EPO Family ID$$a34754183
000211726 037__ $$aPATENT
000211726 245__ $$aSurgical navigation system
000211726 260__ $$c2005
000211726 269__ $$a2005
000211726 336__ $$aPatents
000211726 520__ $$aThe invention relates to a surgical navigation system, comprising a microscope to which a 3D measuring apparatus is rigidly fixed, for localising objects within the field of operation. Markers are fixed to the objects the position of which is desirable to know, for example, the patient or surgical instruments, which are themselves connected to the measuring system. The change in coordinates between the measuring system and the microscope is fixed as the two devices are rigidly connected. Also, knowing the position of the markers relating to the measuring system, it is possible to calculate the change in coordinates between the markers and the image from the microscope. When the markers are recorded, in other words when the relationship between the real objects and the virtual objects is determined, the information can then be used as a navigational instrument and/or for enhanced reality. A typical application for enhanced reality is the superimposition of a 3D anatomical model of the patient on the microscope image, generated from a pre-operative scan of the patient.
000211726 700__ $$aFelber, Matthias
000211726 700__ $$aPappas, Ion
000211726 700__ $$aCaversaccio, Marco
000211726 700__ $$aBaur, Charles
000211726 909C0 $$0252479$$pINSTANT-LAB$$xU12651
000211726 909C0 $$0252085$$pTTO$$xU10021
000211726 909CO $$ooai:infoscience.tind.io:211726$$pSTI
000211726 917Z8 $$x190047
000211726 937__ $$aEPFL-PATENT-211726
000211726 973__ $$aEPFL
000211726 980__ $$aPATENT