专利快速检索-快速检索全球专利，免费商用专利数据库-IPRDB

31. 发明专利

CA2869781C WIDE-FIELD OF VIEW (FOV) IMAGING DEVICES WITH ACTIVE FOVEATION CAPABILITY 未知
公开(公告)号：CA2869781C
公开(公告)日：2021-04-27
申请号：CA2869781
申请日：2013-04-04
申请人： MAGIC LEAP INC
发明人： GAO CHUNYU , HUA HONG
IPC分类号： G03B37/00 , G03B37/02 , G03B37/04
摘要： The present invention comprises a foveated imaging system capable of capturing a wide field of view image and a foveated image, where the foveated image is a controllable region of interest of the wide field of view image.

32. 发明专利

NZ725592A An ergonomic head mounted display device and optical system 未知
公开(公告)号：NZ725592A
公开(公告)日：2018-05-25
申请号：NZ72559211
申请日：2011-12-22
申请人： MAGIC LEAP INC
发明人： GAO CHUNYU , HUA HONG , LIN YUXIANG
IPC分类号： G02B27/01
摘要： An ergonomic optical see-through head mounted display device with an eyeglass appearance is disclosed. The see-through head-mounted display device consists of a transparent, freeform waveguide prism for viewing a displayed virtual image, a see-through compensation lens for enabling proper viewing of a real-world scene when combined together with the prism, and a miniature image display unit for supplying display content. The freeform waveguide prism, containing multiple freeform refractive and reflective surfaces, guides light originated from the miniature display unit toward a user’s pupil and enables a user to view a magnified image of the displayed content. A see-through compensation lens, containing multiple freeform refractive surfaces, enables proper viewing of the surrounding environment, through the combined waveguide and lens. The waveguide prism and the see-through compensation lens are properly designed to ergonomically fit human heads.

33. 发明专利

NZ724344A Apparatus for optical see-through head mounted display with mutual occlusion and opaqueness control capability 未知
公开(公告)号：NZ724344A
公开(公告)日：2018-05-25
申请号：NZ72434413
申请日：2013-04-05
申请人： MAGIC LEAP INC
发明人： GAO CHUNYU , HUA HONG , LIN YUXIANG
IPC分类号： G02B27/01
摘要： Disclosed is a compact optical see-through head-mounted display system, configured to combine a see-through path with a virtual view path such that an opaqueness of a see-through view can be modulated to occlude portions of the see-through path, the system comprising: a microdisplay for generating a virtual image to be viewed by a user on the virtual view path; a spatial light modulator for modifying light from an external scene to block portions of the see-through path that are to be occluded; an objective optics configured to receive and fold the light from the external scene on the see-through path and to focus the light from the external scene as an intermediate image upon the spatial light modulator at a back focal plane distance of the objective optics, wherein the objective optics is a freeform prism formed by a plurality of reflective and refractive surfaces to image the external scene into the spatial light modulator; a beamsplitter configured to merge a virtual image and an occluded see-through image, producing a combined image of the virtual image from the microdisplay in those occluded portions of the see-through path; an eyepiece optics configured to magnify the combined image; an exit pupil configured to face the eyepiece optics, wherein the user observes the combined image through the exit pupil; and a plurality of surfaces configured to fold the virtual view path and the see-through path to the exit pupil, wherein the microdisplay and the spatial light modulator are optically conjugate, such that the spatial light modulator is disposed at a distance from the beamsplitter substantially equal to a distance of the microdisplay from the beamsplitter. Also disclosed is a method comprising: receiving external light from an external scene through an objective optics; folding the external light from the external scene through a plurality of surfaces to create a see-through path; focusing the external light as an intermediate image on a spatial light modulator located substantially at a back focal plane associated with a prescription of the objective optics; modulating the external light received from the external scene on the spatial light modulator to create a modulated see-through image of the external scene; transmitting the modulated see-through image of the external scene to a beamsplitter; rendering a virtual image by a microdisplay; transmitting the rendered image to the beamsplitter on a virtual view path, wherein the beamsplitter is at a distance from the spatial light modulator that is optically conjugate from the microdisplay; combining the rendered image with the modulated see-through image; and folding the combined rendered image and modulated see-through image through an eyepiece optics configured to magnify the combined rendered image and modulated see-through image. The unique positioning of the spatial light modulator and microdisplay as a function of the focal length of the objective optics (that is, the “optically conjugate” relationship dictates positioning and types of the microdisplay and spatial light modulator) seeks to permit compact form fitting (e.g. the microdisplay and SLM can be positioned closer to the beamsplitter to minimize aberrations) which seeks to address a problem associated with bulky head mounted devices. Furthermore, the positioning of the spatial light modulator and microdisplay as a function of the focal length of the objective optics enable microdisplays and spatial light modulator of common specification and beam divergences to be used without intermediate optics, thereby enabling simpler architectures which seeks to address a problem associated with the complexity of prior head mounted devices.

34. 发明专利

AU2017203034A1 A compensation lens 未知
公开(公告)号：AU2017203034A1
公开(公告)日：2017-06-01
申请号：AU2017203034
申请日：2017-05-08
申请人： MAGIC LEAP INC
发明人： GAO CHUNYU , HUA HONG , LIN YUXIANG
IPC分类号： G02B27/01
摘要： 1l:\jzc\Interwovn\NRPortbl\DCC\JZC\14290194 _.docx-8 05/2017 Abstract A compensation lens, to be used for viewing an external world in series with the waveguide prism, which corrects for optical distortion caused by viewing the world through the waveguide prism; where the compensation lens comprises: i. a refractive outer surface, disposed towards an external scene, that allows light from the external scene to enter the compensation lens, ii. a refractive inner surface, disposed towards the outer surface of the waveguide prism, which allows light to exit the compensation lens and enter into the waveguide prism, where the refractive inner and outer surfaces of the compensation lens are designed to compensate for the effect of ray shift and distortion caused by the waveguide so that the user maintains a clear see-through view when observing the world through both lenses; where the refractive inner surface, may be constrained to approximate the shape of the outer surface of the waveguide prism, whereupon light from the real-world scene is refracted through the refractive outer surface and the refractive inner surface of compensation lens, before reaching the waveguide.

35. 发明专利

NZ700898A Apparatus for optical see-through head mounted display with mutual occlusion and opaqueness control capability 未知
公开(公告)号：NZ700898A
公开(公告)日：2017-03-31
申请号：NZ70089813
申请日：2013-04-05
申请人： MAGIC LEAP INC
发明人： GAO CHUNYU , HUA HONG , LIN YUXIANG
IPC分类号： G02B27/01
摘要： Optical see-through head-mounted displays (HDM) require occlusion capability to realistically merge virtual objects into real environments. Current occlusion-capable HDMs comprise optical systems having rotational symmetry, with bulky form factors. The present invention relates to a multi-layered HDM permitting apparent transient partial occlusion by virtual images of an external scene of the real world through use of a microdisplay for generating a virtual image to be viewed by a user, a spatial light modulator disposed for modifying light from an external scene received through a first layer side facing the real world, selectively modifying the light received from the external scene on the spatial light modulator in a second layer in those places where the virtual image is to appear, optics configured to receive the incoming light from the external scene and focus the light upon the spatial light modulator, a beamsplitter configured to merge a virtual image from the microdisplay and a modulated see-through image of the external scene passing from a spatial light modulator thereby producing a combined image of the external scene and virtual image occluding at least a portion of the external scene, wherein a series of reflective surfaces fold the respective paths of light from the external scene and microdisplay’s virtual image to create the combined image and display said combined image on an eyepiece for a user to observe. The microdisplay and the spatial light modulator are optically conjugate to each other through the beamsplitter, enabling manipulation of pixel level occlusion. The eyepiece, the objective optics, or both may be rotationally symmetric lenses or non-rotationally symmetric freeform optics, reducing the size and weight of the HDM.

36. 发明专利

AU2013243380A1 Wide-field of view (FOV) imaging devices with active foveation capability 未知
公开(公告)号：AU2013243380A1
公开(公告)日：2014-10-30
申请号：AU2013243380
申请日：2013-04-04
申请人： MAGIC LEAP INC
发明人： GAO CHUNYU , HUA HONG
IPC分类号： G03B19/18
摘要： The present invention comprises a foveated imaging system capable of capturing a wide field of view image and a foveated image, where the foveated image is a controllable region of interest of the wide field of view image.

37. 发明专利

CA2874576A1 APPARATUS FOR OPTICAL SEE-THROUGH HEAD MOUNTED DISPLAY WITH MUTUAL OCCLUSION AND OPAQUENESS CONTROL CAPABILITY 未知
公开(公告)号：CA2874576A1
公开(公告)日：2014-01-16
申请号：CA2874576
申请日：2013-04-05
申请人： MAGIC LEAP INC
发明人： GAO CHUNYU , LIN YUXIANG , HUA HONG
IPC分类号： G02B27/01
摘要： The present invention comprises a compact optical see-through head-mounted display-capable of combining a see-through image path with a virtual image path such that the opaqueness of the see-through image path can be modulated and the virtual image occludes parts of the see-through image and vice versa.

38. 发明专利

NZ757582A Virtual and augmented reality systems and methods having unequal numbers of component color images distributed across depth planes 未知
公开(公告)号：NZ757582A
公开(公告)日：2021-05-28
申请号：NZ75758217
申请日：2017-01-05
申请人： MAGIC LEAP INC
发明人： SCHOWENGERDT BRIAN , HUA HONG , CHENG HUI-CHUAN , PEROZ CHRISTOPHE
IPC分类号： G02B27/42 , G02B6/10 , G02B6/24 , G02B27/01 , G02B27/02 , G02B27/44
摘要： The present invention relates to a wearable display system, the wearable display system comprising a camera for determining a pupil size of an eye of a user; a display configured to output light to display a plurality of component color images, the component color images corresponding to a plurality of depth planes; and a controller configured to vary the outputted light forming the component color images in the eye based upon the determined pupil size.

39. 发明专利

NZ757577A Virtual and augmented reality systems and methods having unequal numbers of component color images distributed across depth planes 未知
公开(公告)号：NZ757577A
公开(公告)日：2021-05-28
申请号：NZ75757717
申请日：2017-01-05
申请人： MAGIC LEAP INC
发明人： SCHOWENGERDT BRIAN , HUA HONG , CHENG HUI-CHUAN , PEROZ CHRISTOPHE
IPC分类号： G02B27/42 , G02B6/10 , G02B6/24 , G02B27/01 , G02B27/02 , G02B27/44
摘要： The present invention relates to a display system, the display system comprising one or more waveguides comprising a first plurality of diffractive optical elements configured to outcouple light of a first wavelength range to produce a first plurality of component color images, each image set on one of X maximum possible depth planes for the first plurality of diffractive optical elements; a second plurality of diffractive optical elements configured to outcouple light of a second wavelength range to produce a second plurality of component color images, each image set on one of Y maximum possible depth planes for the second plurality of diffractive optical elements; and a third plurality of diffractive optical elements configured to outcouple light of a third wavelength range to produce a third plurality of component color images, each image set on one of Z maximum possible depth planes for the third plurality of diffractive optical elements, wherein X, Y, and Z are whole numbers and wherein X, Y, and Z are different.

40. 发明专利

NZ743884A Virtual and augmented reality systems and methods having unequal numbers of component color images distributed across depth planes 未知
公开(公告)号：NZ743884A
公开(公告)日：2019-11-29
申请号：NZ74388417
申请日：2017-01-05
申请人： MAGIC LEAP INC
发明人： SCHOWENGERDT BRIAN , HUA HONG , CHENG HUI-CHUAN , PEROZ CHRISTOPHE
IPC分类号： G02B27/42 , G02B6/10 , G02B6/24 , G02B27/01 , G02B27/02 , G02B27/44
摘要： Images perceived to be substantially full color or multi-colored may be formed using component color images that are distributed in unequal numbers across a plurality of depth planes. The distribution of component color images across the depth planes may vary based on color. In some embodiments, a display system includes a stack of waveguides that each output light of a particular color, with some colors having fewer numbers of associated waveguides than other colors. The stack of waveguides may include by multiple pluralities (e.g., first and second pluralities) of waveguides, each configured to produce an image by outputting light corresponding to a particular color. The total number of waveguides in the second plurality of waveguides is less than the total number of waveguides in the first plurality of waveguides, and may be more than the total number of waveguides in a third plurality of waveguides, in embodiments where three component colors are utilized.

你已经成功收藏专利！

检索式保存成功!

IPRDB

热门服务

关于我们

友情链接

联系方式