会员体验
专利管家(专利管理)
工作空间(专利管理)
风险监控(情报监控)
数据分析(专利分析)
侵权分析(诉讼无效)
联系我们
交流群
官方交流:
QQ群: 891211   
微信请扫码    >>>
现在联系顾问~
热词
    • 1. 发明申请
    • FLOATING VIRTUAL PLASMA DISPLAY APPARATUS
    • 浮动虚拟等离子显示设备
    • US20120327130A1
    • 2012-12-27
    • US13244457
    • 2011-09-24
    • CHIH-HSIUNG LIN
    • CHIH-HSIUNG LIN
    • G09G3/28G09G5/10G02B27/20
    • G09G3/025G02B26/0833G02B26/101G02B27/2292
    • A floating virtual plasma display apparatus includes a scanning mechanism, an optical focusing unit and a laser light source; a laser line is focused by the optical focusing unit, allowing air particles in the air around a focus of the optical focusing unit to be ionized into plasma to generate an ionized beam spot when the laser line is emitted from the laser light source; a floating virtual image is generated after the position of the beam spot is altered through the scanning of the scanning mechanism; the floating virtual image is allowed to display a variable virtual image like a floating moving screen by controlling the laser light source to emit bright, dark laser lines corresponding to an image.
    • 浮动虚拟等离子体显示装置包括扫描机构,光聚焦单元和激光光源; 激光线被光聚焦单元聚焦,当激光线从激光光源发射时,允许围绕光聚焦单元的焦点的空气中的空气颗粒被电离成等离子体以产生电离束斑; 在通过扫描机构的扫描改变光束点的位置之后产生浮动虚像; 通过控制激光光源发出对应于图像的亮暗激光线,浮动虚像可以显示像浮动移动屏幕的可变虚像。
    • 2. 发明申请
    • TRANSPARENT LATERAL-LIGHT-SOURCE STRUCTURE AND PLATE BODY THEREOF
    • 透明的横向光源结构及其板体
    • US20120127725A1
    • 2012-05-24
    • US13244403
    • 2011-09-24
    • CHIH-HSIUNG LINShih-Yuan Chang
    • CHIH-HSIUNG LINShih-Yuan Chang
    • F21V9/04G02B5/26
    • G02B5/208G02B5/045G02B6/0038G02B6/005G02B27/141
    • A transparent lateral-light-source structure comprises an invisible light source; and a plate body, comprising a transparent plate, having a rear end face being disposed with a plurality of convex-concave structures; a coating layer, capable of reflecting invisible light, allowing visible light, to pass through, and one end face of the coating layer being coupled to the rear end face; and a transparent material layer, coupled to another end face of the coating layer, and the transparent material layer filling and leveling up the plurality of convex-concave structures; wherein, when invisible light emitted from the invisible light source is projected into the transparent plate, the incident invisible light is reflected by the plurality of convex-concave structures and the coating layer, and further projected out of a front end of the transparent plate, and visible light can pass through the plate body.
    • 透明的侧光源结构包括不可见的光源; 以及板体,其包括透明板,其后端面设置有多个凸凹结构; 涂层,其能够反射不可见光,允许可见光通过,并且所述涂层的一个端面联接到所述后端面; 以及耦合到所述涂层的另一端面的透明材料层,并且所述透明材料层填充并调平所述多个凸凹结构; 其中,当从所述不可见光源发出的不可见光投射到所述透明板中时,所述入射的不可见光被所述多个凸凹结构和所述涂层反射,并且进一步从所述透明板的前端突出, 可见光可以穿过板体。
    • 4. 发明申请
    • Data input device
    • 数据输入设备
    • US20060158435A1
    • 2006-07-20
    • US11224989
    • 2005-09-14
    • Chih-Hsiung LinYi-Ping Hung
    • Chih-Hsiung LinYi-Ping Hung
    • G09G5/00
    • G06F3/0426G06F3/0425
    • A data input device comprises a microprocessor electrically connected to a camera device, a mirror installed in front of a lens of the camera device to allow the camera device to take a reference image reflected by the mirror. When the microprocessor detects that the camera device takes that a user touches the reference image in at least one input zone of an image, it then generates a corresponding input signal according to that the camera device takes that the user touches input images in at least one input zone. The data input device according to the present invention can more accurately and quickly generate input signal corresponding to an input operation processed by the user and saves the production cost more.
    • 数据输入装置包括电气连接到相机装置的微处理器,安装在照相机装置的透镜前方的镜子,以允许照相机装置拍摄由反射镜反射的参考图像。 当微处理器检测到相机设备使用户在图像的至少一个输入区域中触摸参考图像时,其然后根据相机设备采取用户在至少一个输入图像中触摸输入图像来生成相应的输入信号 输入区。 根据本发明的数据输入装置可以更准确和快速地生成与由用户处理的输入操作相对应的输入信号,并且更多地节省了生产成本。
    • 5. 发明授权
    • Object contour detection device and method
    • 对象轮廓检测装置及方法
    • US08577080B2
    • 2013-11-05
    • US13244413
    • 2011-09-24
    • Chih-Hsiung Lin
    • Chih-Hsiung Lin
    • G06K9/00
    • H04N13/236G06T2207/10004G06T2207/10016
    • An object contour detection method includes: allowing an image sensor to sense respectively a plurality of images of an object by moving a lens with a shallow depth of field at a plurality of positions repeatedly, meanwhile, record the plurality of positions of the lens and the plurality of images one-to-one corresponding to the plurality of positions; removing respectively unclear areas in the plurality of images to obtain a plurality of clear images, and obtaining a plurality of displacement quantities of depth of field depending on a displacement quantity between each two adjacent positions in the plurality of positions; and extending a depth of the front image to reach the corresponding displacement quantity of depth of field and then combine the front image with the rear image in sequence, allowing the plurality of clear images to combine into a stereoscopic image corresponding to the object contour.
    • 物体轮廓检测方法包括:通过在多个位置上重复地移动具有浅景深的透镜,允许图像传感器分别检测物体的多个图像,同时记录透镜的多个位置和 与多个位置对应的多个图像一一对应; 去除所述多个图像中的不清楚的区域以获得多个清晰图像,并且根据所述多个位置中每个两个相邻位置之间的位移量获得多个位移量的景深; 并且延伸前方图像的深度以达到相应的景深位移量,然后依次组合前图像和后图像,允许多个清晰图像组合成对应于对象轮廓的立体图像。
    • 7. 发明申请
    • FLOATING VIRTUAL HOLOGRAM DISPLAY APPARATUS
    • 浮动虚拟HOLOGRAM显示设备
    • US20120300273A1
    • 2012-11-29
    • US13244418
    • 2011-09-24
    • CHIH-HSIUNG LIN
    • CHIH-HSIUNG LIN
    • G03H1/08G03H1/22
    • G02B26/101G02B5/1814G02B5/32G02B27/2292
    • A floating virtual hologram display apparatus, includes a scanning mechanism, a diffractive optical element and a reconstruction light source thereof, where the scanning mechanism is installed with a scanning mirror. After a light beam emitted from the reconstruction light source passes through the diffractive optical element is diffracted by the diffractive optical element onto the scanning mirror, and then reflected by the scanning mirror, a hologram beam spot will be displayed in front of the scanning mirror; a floating virtual hologram is displayed in front of the scanning mirror after a position of the hologram beam spot is scanned and altered by the scanning mirror.
    • 一种浮动虚拟全息图显示装置,包括扫描机构,衍射光学元件及其重建光源,扫描机构安装有扫描镜。 在从重建光源发射的光束穿过衍射光学元件之后,衍射光学元件被衍射到扫描镜上,然后被扫描反射镜反射,全息光束斑点将显示在扫描镜前面; 在通过扫描反射镜扫描和改变全息束光斑的位置之后,在扫描镜前面显示浮动的虚拟全息图。
    • 8. 发明授权
    • Data input device with image taking
    • 带图像的数据输入设备
    • US08274497B2
    • 2012-09-25
    • US11224989
    • 2005-09-14
    • Chih-Hsiung LinYi-Ping Hung
    • Chih-Hsiung LinYi-Ping Hung
    • G06F3/041
    • G06F3/0426G06F3/0425
    • A data input device comprises a microprocessor electrically connected to a camera device, a mirror installed in front of a lens of the camera device to allow the camera device to take a reference image reflected by the mirror. When the microprocessor detects that the camera device takes that a user touches the reference image in at least one input zone of an image, it then generates a corresponding input signal according to that the camera device takes that the user touches input images in at least one input zone. The data input device according to the present invention can more accurately and quickly generate input signal corresponding to an input operation processed by the user and saves the production cost more.
    • 数据输入装置包括电气连接到相机装置的微处理器,安装在照相机装置的透镜前方的镜子,以允许照相机装置拍摄由反射镜反射的参考图像。 当微处理器检测到相机设备使用户在图像的至少一个输入区域中触摸参考图像时,其然后根据相机设备采取用户在至少一个输入图像中触摸输入图像来生成相应的输入信号 输入区。 根据本发明的数据输入装置可以更准确和快速地生成与由用户处理的输入操作相对应的输入信号,并且更多地节省了生产成本。
    • 9. 发明授权
    • Apparatus for interpreting image position
    • 用于解释图像位置的装置
    • US08166103B2
    • 2012-04-24
    • US11896619
    • 2007-09-04
    • Chih-Hsiung LinYi-Ping Hung
    • Chih-Hsiung LinYi-Ping Hung
    • G06F15/16H04N7/18
    • H04N7/181
    • An apparatus for interpreting an image position is used for respectively reflecting an image of a target to a lens of at least one camera by means of first and second reflection mirrors to be respectively taken a photo as first and second images by the lenses. A microprocessor processes the first and the second images to obtain a relative coordinate value of a target in an operation plane range. A horizontal optical axis of at least one camera is parallel to the operation plane. Whereby, a position of an input zone touched by a user is interpreted more quickly so as to elevate the inputting efficiency of a data input device, and whether the user touches the input zone is interpreted more accurately so as to elevate the inputting accuracy of the data input device.
    • 用于解释图像位置的装置用于通过第一和第二反射镜将目标的图像分别反射到至少一个照相机的透镜,以分别通过透镜拍摄照片作为第一和第二图像。 微处理器处理第一和第二图像以获得操作平面范围中目标的相对坐标值。 至少一个照相机的水平光轴平行于操作平面。 由此,更快地解释用户触摸的输入区域的位置,以提高数据输入装置的输入效率,并且更准确地解释用户触摸输入区域以提高输入区域的输入精度 数据输入设备。
    • 10. 发明授权
    • Position determining device and method for objects on a touch device having a stripped L-shaped reflecting mirror and a stripped retroreflector
    • 具有剥离的L形反射镜和剥离后向反射镜的触摸装置上的物体的位置确定装置和方法
    • US08912482B2
    • 2014-12-16
    • US13651677
    • 2012-10-15
    • Chih-Hsiung Lin
    • Chih-Hsiung Lin
    • H01J40/14G06F3/042
    • G06F3/0421G06F3/0423
    • A method for determining the position of an object, includes: respectively detecting a light beam of a light emitting module emitted from a reference point and respectively reflected and retro-reflected by a stripped L-shaped reflecting mirror and retroreflector to obtain a first signal and a second signal; processing the first signal and the second signal to obtain a plurality of included angles A1 and a plurality of included angles A2 formed by respectively intercepting the light beam emitted from the reference point and blocked directly or indirectly by the object with the first reflecting unit and second unit; and respectively combining the plurality of included angles A1 with each included angle A2, respectively converting the combinations to obtain a plurality of coordinates, and selecting at least two coordinates with the same value among the plurality of coordinates, thereby confirming a relative coordinate of the objects on a work area.
    • 一种用于确定物体位置的方法,包括:分别检测从参考点发射并分别被剥离的L形反射镜和后向反射镜反射和反射的光发射模块的光束,以获得第一信号, 第二信号; 处理第一信号和第二信号以获得多个夹角A1和多个夹角A2,其通过分别截取从基准点发射并被物体直接或间接阻挡的第一反射单元和第二反射单元形成的多个夹角A2 单元; 并且分别将多个夹角A1与每个夹角A2组合,分别转换组合以获得多个坐标,并且在多个坐标中选择具有相同值的至少两个坐标,从而确认对象的相对坐标 在工作区。