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    • 1. 发明申请
    • FACADE RENDERING SYSTEM
    • FACADE渲染系统
    • US20080310733A1
    • 2008-12-18
    • US11763989
    • 2007-06-15
    • Neeharika Adabala
    • Neeharika Adabala
    • G06K9/46
    • G06T11/40
    • A façade rendering system is described. In various embodiments, the façade rendering system identifies horizontal waveforms and vertical waveforms from an image of a structure, combines the identified horizontal and vertical waveforms to generate façade waveforms that model a façade of the structure, and renders the façade waveforms as a façade for the structure. The façade rendering system can include or employ information about the structure from which to create waveform information, waveform information to create a façade waveform for modeling the structure, and a component that renders the structure based on the waveform information.
    • 描述了外观渲染系统。 在各种实施例中,外立面渲染系统从结构图像中识别水平波形和垂直波形,组合所识别的水平和垂直波形以产生对该结构的外墙进行建模的外墙波形,并将外墙波形呈现为外墙 结构体。 外观渲染系统可以包括或使用关于从其构造波形信息的结构的信息,波形信息以创建用于建模结构的外观波形,以及基于波形信息呈现结构的部件。
    • 3. 发明申请
    • PERSONALIZED NAVIGATION THROUGH VIRTUAL 3D ENVIRONMENTS
    • 通过虚拟3D环境进行个性化导航
    • US20110310088A1
    • 2011-12-22
    • US12817497
    • 2010-06-17
    • Neeharika AdabalaKomal PrjapathiGurpreet Singh Bagga
    • Neeharika AdabalaKomal PrjapathiGurpreet Singh Bagga
    • G06T15/00
    • G06T19/003
    • Personalized navigation technique embodiments are presented that generally involve providing personalized navigation through a virtual three-dimensional (3D) environment. In one general embodiment this is accomplished by inputting a representation of a virtual 3D environment that is to be navigated, along with a number of user specified navigation preferences, and outputting a customized navigation experience. This navigation experience is produced by first establishing a path through the virtual 3D environment, and then optionally controlling the behavior of a virtual camera which reveals the virtual 3D environment to the user as the user traverses the path. Both the path and the virtual camera behavior are personalized to a user based on the aforementioned navigation preferences.
    • 呈现个性化导航技术实施例,其通常涉及通过虚拟三维(3D)环境提供个性化导航。 在一般的实施例中,这通过输入要导航的虚拟3D环境的表示以及多个用户指定的导航偏好并输出定制的导航体验来实现。 该导航体验通过首先建立通过虚拟3D环境的路径,然后可选地控制虚拟相机的行为来产生,该虚拟相机在用户遍历路径时向用户显示虚拟3D环境。 基于上述导航偏好,路径和虚拟照相机行为都被用户定制。
    • 6. 发明授权
    • Image-guided abstraction of building facades
    • 图像引导的建筑立面抽象
    • US08238651B2
    • 2012-08-07
    • US12142806
    • 2008-06-20
    • Neeharika AdabalaAniruddha LoyaAmitava DasPragyana K. Mishra
    • Neeharika AdabalaAniruddha LoyaAmitava DasPragyana K. Mishra
    • G06K9/00
    • H04N19/94H04N19/60
    • To reduce the amount of storage space and computing power required to render image data, particularly building image data, primary and secondary colors may be extracted from the image data. The image data may be re-rendered using only the primary and secondary colors. The re-rendered image may be evaluated for patterns, the patterns thresholded to bi-level data and a Discrete Fourier Transform (DFT), or equivalent, may be performed on the bi-level data. Low order coefficients may be discarded depending on level accuracy desired. DFT coefficients and color data for the primary and secondary colors may then be used to construct an abstraction of the original image data, using data that is, in some cases, three or four orders of magnitude smaller than the original image data.
    • 为了减少渲染图像数据所需的存储空间和计算能力,特别是构建图像数据,可以从图像数据中提取主要和次要颜色。 可以仅使用主要和次要颜色来重新渲染图像数据。 可以对图像进行评估,可以对双电平数据执行阈值为双电平数据的模式和离散傅里叶变换(DFT)或等同物。 可以根据期望的等级精度来丢弃低阶系数。 然后可以使用用于主色和次色的DFT系数和颜色数据来构造原始图像数据的抽象,使用在某些情况下比原始图像数据小三到四个数量级的数据。
    • 7. 发明授权
    • Façade rendering system
    • 外墙渲染系统
    • US08224098B2
    • 2012-07-17
    • US11763989
    • 2007-06-15
    • Neeharika Adabala
    • Neeharika Adabala
    • G06K9/46
    • G06T11/40
    • A façade rendering system is described. In various embodiments, the façade rendering system identifies horizontal waveforms and vertical waveforms from an image of a structure, combines the identified horizontal and vertical waveforms to generate façade waveforms that model a façade of the structure, and renders the façade waveforms as a façade for the structure. The façade rendering system can include or employ information about the structure from which to create waveform information, waveform information to create a façade waveform for modeling the structure, and a component that renders the structure based on the waveform information.
    • 描述了外观渲染系统。 在各种实施例中,外立面渲染系统从结构图像中识别水平波形和垂直波形,组合所识别的水平和垂直波形以产生对该结构的外墙进行建模的外墙波形,并将外墙波形呈现为外墙 结构体。 外观渲染系统可以包括或使用关于从其构造波形信息的结构的信息,波形信息以创建用于建模结构的外观波形,以及基于波形信息呈现结构的部件。
    • 8. 发明申请
    • IMAGE-GUIDED ABSTRACTION OF BUILDING FACADES
    • 图像引导建筑物的抽象
    • US20090304297A1
    • 2009-12-10
    • US12142806
    • 2008-06-20
    • Neeharika AdabalaAniruddha LoyaAmitava DasPragyana K. Mishra
    • Neeharika AdabalaAniruddha LoyaAmitava DasPragyana K. Mishra
    • G06K9/36G06K9/00
    • H04N19/94H04N19/60
    • To reduce the amount of storage space and computing power required to render image data, particularly building image data, primary and secondary colors may be extracted from the image data. The image data may be re-rendered using only the primary and secondary colors. The re-rendered image may be evaluated for patterns, the patterns thresholded to bi-level data and a Discrete Fourier Transform (DFT), or equivalent, may be performed on the bi-level data. Low order coefficients may be discarded depending on level accuracy desired. DFT coefficients and color data for the primary and secondary colors may then be used to construct an abstraction of the original image data, using data that is, in some cases, three or four orders of magnitude smaller than the original image data.
    • 为了减少渲染图像数据所需的存储空间和计算能力,特别是构建图像数据,可以从图像数据中提取主要和次要颜色。 可以仅使用主要和次要颜色来重新渲染图像数据。 可以对图像进行评估,可以对双电平数据执行阈值为双电平数据的模式和离散傅里叶变换(DFT)或等同物。 可以根据期望的等级精度来丢弃低阶系数。 然后可以使用用于主色和次色的DFT系数和颜色数据来构造原始图像数据的抽象,使用在某些情况下比原始图像数据小三到四个数量级的数据。