A light emitting wheel with eccentricity for dispelling a thermal boundary layer a light emitting material is provided, including a device comprising: a light emitting material; a cooling plate configured to cool the light emitting material, the cooling plate comprising a center-of-mass that is different from a center-of-rotation of the cooling plate; and, a hub located at the center-of-rotation of the cooling plate.

A medical apparatus is described for providing visualization of a surgical site. The medical apparatus includes an electronic display disposed within a display housing, the electronic display configured to produce a two-dimensional image. The medical apparatus includes a display optical system disposed within the display housing, the display optical system comprising a plurality of lens elements disposed along an optical path. The display optical system is configured to receive the two-dimensional image from the electronic display, produce a beam with a cross-section that remains substantially constant along the optical path, and produce a collimated beam exiting the opening in the display housing. The medical apparatus can also include an auxiliary video camera configured to provide an oblique view of a patient on the electronic display without requiring a surgeon to adjust their viewing angle through oculars viewing the electronic display.

A medical apparatus is described for providing visualization of a surgical site. The medical apparatus includes an electronic display disposed within a display housing, the electronic display configured to produce a two-dimensional image. The medical apparatus includes a display optical system disposed within the display housing, the display optical system comprising a plurality of lens elements disposed along an optical path. The display optical system is configured to receive the two-dimensional image from the electronic display, produce a beam with a cross-section that remains substantially constant along the optical path, and produce a collimated beam exiting the opening in the display housing. The medical apparatus can also include an auxiliary video camera configured to provide an oblique view of a patient on the electronic display without requiring a surgeon to adjust their viewing angle through oculars viewing the electronic display.

The present invention discloses an image enhancement system and an implementation method therefor. The system comprises a media signal processing apparatus, an image enhancement apparatus, a microscope body, and a binocular tube. The image enhancement apparatus comprises a housing, and a display device and a superposition lens group that are disposed in the housing, the display device is connected to the media signal processing apparatus, the superposition lens group is disposed on a main optical path of the microscope body, the binocular tube is disposed on the microscope body, the display device is configured to receive information data sent by the media signal processing apparatus and convert the received information data into an optical image, the optical image sent by the display device is superposed to the main optical path of the microscope body through the superposition lens group to form a superposed image, and the superposed image can be observed through the binocular tube. In this application, some images with additional information may be superposed into an observation field of view of a microscope, so that an operator can observe required information more intuitively, and compare, superpose, and fuse the information with a real object under the microscope better, thereby improving operation accuracy and precision.

The present invention discloses an image enhancement system and an implementation method therefor. The system comprises a media signal processing apparatus, an image enhancement apparatus, a microscope body, and a binocular tube. The image enhancement apparatus comprises a housing, and a display device and a superposition lens group that are disposed in the housing, the display device is connected to the media signal processing apparatus, the superposition lens group is disposed on a main optical path of the microscope body, the binocular tube is disposed on the microscope body, the display device is configured to receive information data sent by the media signal processing apparatus and convert the received information data into an optical image, the optical image sent by the display device is superposed to the main optical path of the microscope body through the superposition lens group to form a superposed image, and the superposed image can be observed through the binocular tube. In this application, some images with additional information may be superposed into an observation field of view of a microscope, so that an operator can observe required information more intuitively, and compare, superpose, and fuse the information with a real object under the microscope better, thereby improving operation accuracy and precision.

A method for operating a medical-optical display system for displaying an object image of an observed object is made available, said object image having been obtained by means of a medical-optical observation apparatus wherein the medical-optical display system comprises a data superimposition unit for superimposing data of at least one image data record into the object image. The method comprises the following steps: determining at least one region with little activity within the object image and superimposing the at least one image data record into the at least one region with little activity.

Methods and systems are provided herein for a surgical optical system having a heads up display including, in accordance with various embodiments, an optical device, an image sensor optically coupled to the optical device to acquire image data from a field of view of the optical device, and a display device configured to display an acquired image representing the image data acquired by the image sensor.

Methods and systems are provided herein for a surgical optical system having a heads up display including, in accordance with various embodiments, an optical device, an image sensor optically coupled to the optical device to acquire image data from a field of view of the optical device, and a display device configured to display an acquired image representing the image data acquired by the image sensor.

A projection system for a projector and/or a vehicle light, comprising a light-scattering and/or conversion device and having a scanning device with which a light impingement region of the projected light is shiftable on the light-scattering and/or conversion device; the light-scattering and/or conversion device being configured for conversion and/or for physical scattering of the light projected onto the light-scattering and/or conversion device so that a light emitted into an external environment of the projection system encompasses an emitted light and/or physically scattered light having the at least one output wavelength; and the projection system encompassing a hologram onto which a physically unscattered light having the at least one output wavelength, which is transmitted at least once through the light-scattering and/or conversion device, impinges, and by which the physically unscattered light is deflectable.

A medical apparatus is described for providing visualization of a surgical site. The medical apparatus includes an electronic display disposed within a display housing, the electronic display configured to produce a two-dimensional image. The medical apparatus includes a display optical system disposed within the display housing, the display optical system comprising a plurality of lens elements disposed along an optical path. The display optical system is configured to receive the two-dimensional image from the electronic display, produce a beam with a cross-section that remains substantially constant along the optical path, and produce a collimated beam exiting the opening in the display housing. The medical apparatus can also include an auxiliary video camera configured to provide an oblique view of a patient on the electronic display without requiring a surgeon to adjust their viewing angle through oculars viewing the electronic display.