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    • 2. 发明授权
    • Apparatus for controlling a screen pointer that distinguishes between ambient light and light from its light source
    • 用于控制屏幕指针的装置,其区分环境光和来自其光源的光
    • US07903086B2
    • 2011-03-08
    • US11840350
    • 2007-08-17
    • Michael J. Brosnan
    • Michael J. Brosnan
    • G09G5/08
    • G06F3/0317
    • An apparatus for controlling the position of a screen pointer for an electronic device having a display screen, includes a light source for illuminating an imaging surface with a plurality of light pulses, thereby generating reflected light pulses. A detection circuit is configured to sense light, distinguish between the reflected pulses and ambient light, and generate a low signal indication if the magnitude of the reflected pulses falls below a threshold value. An optical motion sensor generates digital images based on the reflected pulses. The motion sensor is configured to generate movement data based on the digital images. The movement data is indicative of relative motion between the imaging surface and the apparatus.
    • 一种用于控制具有显示屏的电子装置的屏幕指针的位置的装置,包括用多个光脉冲照射成像表面的光源,从而产生反射的光脉冲。 检测电路被配置为感测光,区分反射脉冲和环境光,并且如果反射脉冲的幅度低于阈值,则产生低信号指示。 光学运动传感器基于反射脉冲产生数字图像。 运动传感器被配置为基于数字图像生成移动数据。 运动数据表示成像表面和装置之间的相对运动。
    • 6. 发明授权
    • Contaminant-resistant optical mouse and cradle
    • 耐污染光电鼠标和摇篮
    • US07474297B2
    • 2009-01-06
    • US10806367
    • 2004-03-22
    • Vincent C. MoyerMark M. ButterworthMichael J. BrosnanRoopinder Singh GrewalPaul Michael WelchMarshall T. DepueTong Xie
    • Vincent C. MoyerMark M. ButterworthMichael J. BrosnanRoopinder Singh GrewalPaul Michael WelchMarshall T. DepueTong Xie
    • G09G5/08
    • G06F3/0317
    • A contaminant-neutralizing cradle comprises a base and a support surface configured to removably receive a coherently-illuminated mouse. A neutralizing element is disposed on the support surface for alignment with at least one exposed surface of an optics module of the mouse and is configured to neutralize the optical effect of a contaminant on the at least one exposed surface. A method of neutralizing contaminants for an optical mouse comprises providing a mouse containing an optics module having at least one surface exposed to an opening of the mouse and interposing a barrier in the mouse between a contaminant and the at least one exposed surface. A method of detecting contaminants comprises aligning an optics module of a mouse with an imaging surface, obtaining a first image of the imaging surface, via application of coherent illumination from the optics module to the imaging surface, analyzing the first image to identify an interference pattern associated with a contaminant, alerting a user if a parameter of the interference pattern exceeds a threshold value.
    • 污染物中和支架包括基部和支撑表面,所述支撑表面被配置为可移除地接收干涉照明的鼠标。 中和元件设置在支撑表面上,用于与鼠标的光学模块的至少一个暴露表面对准并且被配置为中和污染物在至少一个暴露表面上的光学效果。 一种中和光学鼠标的污染物的方法包括提供含有光学组件的鼠标,所述光学模块具有暴露于小鼠的开口的至少一个表面,并且在小鼠之间的阻挡物在污染物和至少一个暴露表面之间插入。 检测污染物的方法包括将鼠标的光学模块与成像表面对准,通过从光学模块施加到成像表面的相干照明获得成像表面的第一图像,分析第一图像以识别干涉图案 与污染物相关联,如果干扰图案的参数超过阈值,则提醒用户。
    • 8. 发明申请
    • CAPACITIVE FINGER NAVIGATION INPUT DEVICE
    • 电动手指导航装置
    • US20120105325A1
    • 2012-05-03
    • US12913195
    • 2010-10-27
    • Michael J. BrosnanThomas P. Murphy
    • Michael J. BrosnanThomas P. Murphy
    • G06F3/033
    • G06F3/044G06F1/1626G06F1/169G06F3/03547H04M2250/22
    • A capacitive finger navigation input device uses a capacitive sensor array of capacitive sensing cells that includes only two capacitive sensing cells positioned along a linear direction. The capacitive finger navigation input device uses a drive circuit to drive at least one drive electrode of the capacitive sensor array and a sense circuit to sense mutual capacitance at each of the capacitive sensing cells of the capacitive sensor array to produce mutual capacitance signals, which are used to determine at least one of position and movement of a finger of a user with respect to the capacitive sensor array. The capacitive finger navigation input device may be used in a hand-held computing device and in a method for performing finger navigation.
    • 电容式手指导航输入装置使用仅包括沿着线性方向定位的两个电容感测单元的电容式感测单元的电容式传感器阵列。 电容手指导航输入装置使用驱动电路来驱动电容式传感器阵列的至少一个驱动电极和感测电路,以感测电容式传感器阵列的每个电容感测单元处的互电容,以产生互电容信号, 用于确定用户相对于电容传感器阵列的手指的位置和移动中的至少一个。 电容手指导航输入装置可以用在手持式计算装置中以及用于执行手指导航的方法中。
    • 9. 发明申请
    • OPTICAL FINGERPRINT NAVIGATION DEVICE WITH LIGHT GUIDE FILM
    • 光指纹导航装置,带导光膜
    • US20110141048A1
    • 2011-06-16
    • US13029766
    • 2011-02-17
    • Michael J. BrosnanGary R. TrottTimothy James Orsley
    • Michael J. BrosnanGary R. TrottTimothy James Orsley
    • G06F3/041
    • G06F3/042G06F2203/0338
    • Embodiments of a finger navigation device are described. In one embodiment, the finger navigation device includes a light guide film (LGF), a light source, a sensor, and a navigation engine. At least a portion of the LGF exhibits total internal reflection (TIR) and the light source is in optical communication with the LGF and configured to inject light into the LGF. The sensor is configured to detect light that exits from the LGF after being reflected from a finger that is proximate the LGF and the navigation engine is configured to generate lateral movement information, which is indicative of lateral movement of the finger relative to the sensor, in response to light that is reflected from the finger and detected by the sensor. Other embodiments of the finger navigation device are also described.
    • 描述手指导航装置的实施例。 在一个实施例中,手指导航装置包括导光膜(LGF),光源,传感器和导航引擎。 LGF的至少一部分表现出全内反射(TIR),并且光源与LGF光学连通并被配置为将光注入LGF。 所述传感器被配置为检测从靠近所述LGF的手指反射之后从所述LGF离开的光,并且所述导航引擎被配置为产生指示所述手指相对于所述传感器的横向移动的横向移动信息, 响应于从手指反射并被传感器检测到的光。 还描述了手指导航装置的其他实施例。