SLIM IMMERSIVE DISPLAY DEVICE, SLIM VISUALIZATION DEVICE, AND USER EYE-TRACKING DEVICE

    公开(公告)号:US20210088789A1

    公开(公告)日:2021-03-25

    申请号:US16933236

    申请日:2020-07-20

    Inventor: Ung-Yeon YANG

    Abstract: A slim immersive display device, a slim visualization device, and a user eye-tracking device. The slim immersive display device includes a display panel, a super-proximity visualization optical unit formed of a pinhole array film or a micro-lens array and configured to form an image output via the display panel on a retina of an eyeball of a user located a very short distance from the super-proximity visualization optical unit, an environment information control unit configured to determine an image to be output in accordance with virtual reality environment information, and an image generation unit configured to generate the output image determined by the environment information control unit in a form of super-proximity unit images and output the super-proximity unit images to the display panel.

    SELECTIVE HYBRID-TYPE 3D IMAGE VIEWING DEVICE AND DISPLAY METHOD USING SAME
    4.
    发明申请
    SELECTIVE HYBRID-TYPE 3D IMAGE VIEWING DEVICE AND DISPLAY METHOD USING SAME 审中-公开
    选择性混合型3D图像查看装置和使用相同的显示方法

    公开(公告)号:US20140347726A1

    公开(公告)日:2014-11-27

    申请号:US14224826

    申请日:2014-03-25

    Abstract: A selective hybrid-type three-dimensional (3D) image viewing device and a display method using the same are disclosed. The selective hybrid-type 3D image viewing device includes a first left and right image separation module, a second left and right image separation module, and a mechanical unit. The first left and right image separation module visualizes a 3D image output from a first display so that a user can view this 3D image. The second left and right image separation module visualizes a 3D image output from a second display to which a left and right image separation technique different from that of the first display has been applied so that the user can view this 3D image. The mechanical unit is configured such that the first and second left and right image separation modules are integrated into the mechanical unit in a detachable manner.

    Abstract translation: 公开了一种选择性混合型三维(3D)图像观看装置和使用其的显示方法。 选择性混合型3D图像查看装置包括第一左右图像分离模块,第二左右图像分离模块和机械单元。 第一左和右图像分离模块可视化从第一显示器输出的3D图像,使得用户可以观看该3D图像。 第二左和右图像分离模块可视化来自第二显示器的3D图像输出,其中已经应用了与第一显示器不同的左和右图像分离技术,使得用户可以观看该3D图像。 机械单元构造成使得第一和第二左图像分离模块和右图像分离模块以可拆卸的方式集成到机械单元中。

    INTERACTIVE DIGITAL ART APPARATUS
    6.
    发明申请
    INTERACTIVE DIGITAL ART APPARATUS 审中-公开
    互动数字艺术设备

    公开(公告)号:US20140310640A1

    公开(公告)日:2014-10-16

    申请号:US14193041

    申请日:2014-02-28

    CPC classification number: G06T11/001

    Abstract: Disclosed herein is an interactive digital art apparatus. The interactive digital art apparatus includes a display unit, an input interface unit, a posture tracking unit, and a processing unit. The display unit visualizes a virtual canvas. The input interface unit is manipulated by a user, and outputs input interface information attributable to an action in which the user draws a picture on the virtual canvas in front of the display unit. The posture tracking unit tracks a direction in which the face of the user is directed, and the posture of the input interface unit. The processing unit draws a picture on the virtual canvas based on the input interface information, the direction in which the face of the user is directed, and the posture of the input interface unit.

    Abstract translation: 本文公开了一种交互式数字艺术装置。 交互式数字艺术装置包括显示单元,输入接口单元,姿势跟踪单元和处理单元。 显示单元可视化虚拟画布。 输入接口单元由用户操纵,并且输出归因于用户在显示单元前面的虚拟画布上绘制图像的动作的输入接口信息。 姿势跟踪单元跟踪用户面部指向的方向和输入界面单元的姿势。 处理单元基于输入接口信息,用户面部的方向以及输入接口单元的姿势,在虚拟画布上绘制图像。

    METHOD FOR REMOTELY CONTROLLING VIRTUAL CONTENT AND APPARATUS FOR THE SAME

    公开(公告)号:US20180356879A1

    公开(公告)日:2018-12-13

    申请号:US15981526

    申请日:2018-05-16

    CPC classification number: G06F3/011 G06F3/012 G06F3/013

    Abstract: Disclosed herein are a method for remotely controlling virtual content and an apparatus for the method. The method for remotely controlling virtual content includes acquiring spatial data about a virtual space, creating at least one individual space by transforming the virtual space in accordance with a user interaction area that corresponds to a user based on the spatial data, visualizing the at least one individual space in the user interaction area and providing an interactive environment which enables an interaction between the user's body and a virtual object included in the at least one individual space, and controlling the virtual object in response to a user interaction event occurring in the interactive environment.

    METHOD FOR PROVIDING COMPOSITE IMAGE BASED ON OPTICAL TRANSPARENCY AND APPARATUS USING THE SAME

    公开(公告)号:US20180356638A1

    公开(公告)日:2018-12-13

    申请号:US16001625

    申请日:2018-06-06

    Abstract: Disclosed herein are a method for providing a composite image based on optical transparency and an apparatus for the same. The method includes supplying first light of a first light source for projecting a virtual image and second light of a second light source for tracking eye gaze of a user to multiple point lights based on an optical waveguide; adjusting the degree of light concentration of any one of the first light and the second light based on a micro-lens array and outputting the first light or the second light, of which the degree of light concentration is adjusted; tracking the eye gaze of the user by collecting the second light reflected from the pupil of the user based on the optical waveguide; and combining an external image with the virtual image based on the tracked eye gaze and providing the combined image to the user.

    HUMAN FACTOR-BASED WEARABLE DISPLAY APPARATUS
    9.
    发明申请
    HUMAN FACTOR-BASED WEARABLE DISPLAY APPARATUS 审中-公开
    基于人体因素的可穿戴显示装置

    公开(公告)号:US20160363763A1

    公开(公告)日:2016-12-15

    申请号:US15006851

    申请日:2016-01-26

    Abstract: An ideal wearable display apparatus, optimized based on human factors, includes: a user information tracking part for obtaining characteristic information of a user who wears the wearable display apparatus; a hardware module part, which includes a mechanism control module part for changing the spatial arrangement position and posture of a mechanism part of the wearable display apparatus; a software module part for simulating and generating virtual environment information based on static hardware parameters, input image data, and the information of the user information tracking part and mechanism control module part; and a human factor module part for correcting the difference between a simulation model in the software module part and a model recognized through the actual use of the apparatus.

    Abstract translation: 一种基于人为因素进行了优化的理想的佩戴式显示装置,包括:用户信息跟踪部,用于获取穿戴可佩戴显示装置的用户的特征信息; 硬件模块部分,其包括用于改变可穿戴显示装置的机构部分的空间布置位置和姿势的机构控制模块部分; 基于静态硬件参数,输入图像数据和用户信息跟踪部分和机构控制模块部分的信息,模拟和生成虚拟环境信息的软件模块部分; 以及用于校正软件模块部件中的仿真模型与通过实际使用该装置识别的模型之间的差异的人为因素模块部件。

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