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
    • 9. 发明申请
    • EYEWEAR-MOUNTABLE EYE TRACKING DEVICE
    • 眼线索眼镜追踪装置
    • US20160139265A1
    • 2016-05-19
    • US14610984
    • 2015-01-30
    • Giora YahavDavid CohenSagi Katz
    • Giora YahavDavid CohenSagi Katz
    • G01S17/06G02C11/04G02C11/00
    • G01S17/66A61B3/113G01S17/06G01S17/42G02B27/0093G02C11/04G02C11/10G06F3/013G06K9/00604G06K2009/3291H04N5/23219
    • An eye movement tracking device that can be mounted to standard eyeglasses as disclosed. The device comprises an illumination source, a time-of-flight (TOF) camera and a processor. The source transmits energy within a frequency band from a location proximate to an eye of a person, such that at least a first portion of the transmitted energy is reflected off a lens of eyewear worn by the person to subsequently reflect off the eye, and such that at least a second portion of the transmitted energy is transmitted through the lens to reflect off objects in the person's environment. The TOF camera detects reflections of at least the first portion of the transmitted energy, and distinguishes them from other energy detected by the TOF camera in said frequency band, based on TOF principles. The processor uses the detected reflections of the first portion of the transmitted energy to determine eye position.
    • 如所公开的,可以安装到标准眼镜上的眼睛运动跟踪装置。 该装置包括照明源,飞行时间(TOF)照相机和处理器。 源从位于人眼附近的位置的频带内传送能量,使得所传送的能量的至少第一部分被人的眼镜的镜片反射,以随后反射出眼睛。 透射能量的至少第二部分透过透镜以反射人的环境中的物体。 TOF摄像机根据TOF原理检测至少第一部分发射能量的反射,并将它们与TOF相机在所述频带中检测到的其他能量进行区分。 处理器使用检测到的透射能量的第一部分的反射来确定眼睛位置。
    • 10. 发明授权
    • Broadband imager
    • 宽带成像器
    • US09264676B2
    • 2016-02-16
    • US13345130
    • 2012-01-06
    • David CohenGiora Yahav
    • David CohenGiora Yahav
    • H04N13/02H04N9/04H01L27/146H04N5/3745
    • H04N9/045H01L27/1461H01L27/1463H01L27/14645H01L27/14649H04N5/3745H04N13/207H04N13/254
    • A broadband imager, which is able to image both IR and visible light, is disclosed. In one embodiment, an IR sensitive region of an IR pixel underlies the R, G, B sensitive regions of R, G, and B visible pixels. Therefore, the IR pixel receives IR light through a same surface area of the photosensor through which the R, G, and B pixels receive visible light. However, the IR light generates electron-hole pairs deeper below the common surface area shared by the RGB and IR pixels, than visible light. The photosensor also has a charge accumulation region for accumulating charges generated in the IR sensitive region and an electrode above the charge accumulation region for providing a voltage to accumulate the charges generated in the IR pixel.
    • 公开了能够对IR和可见光成像的宽带成像器。 在一个实施例中,IR像素的IR敏感区域位于R,G和B可见像素的R,G,B敏感区域的下面。 因此,IR像素通过光电传感器的相同表面区域接收IR光,R,G和B像素接收可见光。 然而,与可见光相比,IR光产生比RGB和IR像素共有的公共表面区域更深的电子 - 空穴对。 光传感器还具有用于累积在IR敏感区域中产生的电荷的电荷累积区域和电荷累积区域上方的电极,用于提供电压以累积在IR像素中产生的电荷。