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
    • 5. 发明授权
    • Management of usage costs of a resource
    • 管理资源的使用成本
    • US08560462B2
    • 2013-10-15
    • US11185642
    • 2005-07-20
    • Arnon AmirMyron Dale FlicknerDouglas Warren McDavidJames Clinton Spohrer
    • Arnon AmirMyron Dale FlicknerDouglas Warren McDavidJames Clinton Spohrer
    • G06F17/00G06G7/00G06Q10/00
    • G06Q10/06313G06Q20/10G06Q30/02
    • A method for managing a usage cost of an asset. A user component of a business entity may access the asset after the asset has been developed by a development component of the business entity, wherein the user component receives compensation from a compensator in response to the user component having incurred a usage burden from using the asset, and wherein the compensator may have contributed to the usage burden. Alternatively, a user component of a second business entity may access an asset after the asset is developed by a development component of a first business entity, wherein second business entity receives compensation from the first business entity in response to the user component having incurred a usage burden from using the asset. The compensation has a magnitude that is a function of the usage burden. The asset may be a software application.
    • 一种管理资产使用成本的方法。 业务实体的用户组件可以在该业务实体的开发组件开发资产之后访问该资产,其中该用户组件响应于该用户组件从使用该资产而发生使用负担从补偿器接收补偿 ,并且其中所述补偿器可能有助于所述使用负担。 或者,第二业务实体的用户组件可以在由第一业务实体的开发组件开发资产之后访问资产,其中第二业务实体响应于已经发生使用的用户组件从第一业务实体接收补偿 使用资产的负担。 补偿的大小是使用负担的函数。 资产可能是软件应用程序。
    • 6. 发明授权
    • System and method for eye gaze tracking using corneal image mapping
    • 使用角膜图像映射的眼睛注视跟踪的系统和方法
    • US06659611B2
    • 2003-12-09
    • US10034524
    • 2001-12-28
    • Arnon AmirMyron Dale FlicknerDavid Bruce KoonsCarlos Hitoshi Morimoto
    • Arnon AmirMyron Dale FlicknerDavid Bruce KoonsCarlos Hitoshi Morimoto
    • A61B314
    • A61B3/113G06K9/00604
    • A system and method for eye gaze tracking without calibrated cameras, direct measurements of specific users' eye geometries, or requiring the user to visually track a cursor traversing a known trajectory. The preferred embodiment includes two uncalibrated cameras imaging the user's eye and haying on-axis lighting. The cameras capture images of a test pattern in real space as reflected from the user's cornea, which is essentially a convex spherical mirror. The invention then extracts parameters required to define a mathematical mapping between real space and image space, including spherical and perspective transformations. The invention processes subsequent images of objects reflected from the user's eye through the inverse of the mathematical mapping to determine a gaze vector and a point of regard. Alternately, a single calibrated camera may be employed with means for estimating the eye-to-camera distance. A head-mounted embodiment that may include a laser pointer is also described.
    • 用于没有校准相机的眼睛注视跟踪的系统和方法,直接测量特定用户的眼睛几何形状,或要求用户可视地跟踪穿过已知轨迹的光标。 优选实施例包括两个未校准的照相机成像用户的眼睛并且照亮轴上照明。 摄像机从用户的角膜(其本质上是凸球面镜)反射的实际空间捕获测试图案的图像。 然后,本发明提取在实际空间和图像空间之间定义数学映射所需的参数,包括球面和透视变换。 本发明通过数学映射的倒数来处理从用户的眼睛反射的物体的后续图像,以确定注视向量和关注点。 或者,可以使用具有用于估计眼睛对照相机距离的装置的单个校准的相机。 还描述了可以包括激光指示器的头戴式实施例。
    • 10. 发明授权
    • Method and apparatus for associating pupils with subjects
    • 将学生与受试者联系起来的方法和装置
    • US06539100B1
    • 2003-03-25
    • US09238979
    • 1999-01-27
    • Arnon AmirMyron Dale FlicknerDavid Bruce KoonsCarlos Hitoshi Morimoto
    • Arnon AmirMyron Dale FlicknerDavid Bruce KoonsCarlos Hitoshi Morimoto
    • G06K900
    • G06F3/011G06K9/00268G06K9/00597G06K9/00778G06T7/70G06T2207/30201
    • A method and apparatus analyzes a scene to determine which pupils correspond to which subjects. First, a machine-readable representation of the scene, such as a camera image, is generated. Although more detail may be provided, this representation minimally depicts certain visually perceivable characteristics of multiple pupil candidates corresponding to multiple subjects in the scene. A machine such as a computer then examines various features of the pupil candidates. The features under analysis include (1) visually perceivable characteristics of the pupil candidates at one given time (“spatial cues”), and (2) changes in visually perceivable characteristics of the pupil candidates over a sampling period (“temporal cues”). The spatial and temporal cues may be used to identify associated pupil pairs. Some exemplary spatial cues include interocular distance, shape, height, and color of potentially paired pupils. In addition to features of the pupils themselves, spatial cues may also include nearby facial features such as presence of a nose/mouth/eyebrows in predetermined relationship to potentially paired pupils, a similarly colored iris surrounding each of two pupils, skin of similar color nearby, etc. Some exemplary temporal cues include motion or blinking of paired pupils together, etc. With the foregoing examination, each pupil candidate can be associated with a subject in the scene.
    • 一种方法和装置分析场景以确定哪些学生对应于哪个学科。 首先,生成场景的机器可读表示,例如相机图像。 尽管可以提供更多的细节,但是该表示最低限度地描绘了与场景中的多个被摄体相对应的多个瞳孔候选者的某些视觉上可感知的特征。 然后,诸如计算机的机器检查学生候选人的各种特征。 分析的特征包括(1)在一个给定时间(“空间提示”)的瞳孔候选者的视觉上可感知的特征,以及(2)在采样周期(“时间提示”)上的瞳孔候选者的视觉可感知特征的变化。 空间和时间线索可用于识别相关联的瞳孔对。 一些示例性的空间线索包括可能配对的瞳孔的眼间距离,形状,高度和颜色。 除了学生本身的特征之外,空间线索还可以包括附近的面部特征,例如与潜在配对的瞳孔具有预定关系的鼻/嘴/眉毛的存在,围绕两个瞳孔中的每一个的类似彩色的虹膜,附近有相似颜色的皮肤 等等。一些示例性的时间提示包括一起运动或眨眼配对的瞳孔等。通过上述检查,每个瞳孔候选者可以与场景中的被摄体相关联。