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. 发明授权
    • Method and system for spatio-temporal video warping
    • 时空视频翘曲的方法和系统
    • US07852370B2
    • 2010-12-14
    • US10556601
    • 2005-11-02
    • Shmuel PelegAlexander Rav-AchaDaniel Lischinski
    • Shmuel PelegAlexander Rav-AchaDaniel Lischinski
    • H04N7/00
    • G06T3/0087G06T13/80G06T2210/44H04N5/2625H04N5/2628
    • A computer-implemented method and system for transforming a first sequence of video frames of a first dynamic scene captured at regular time intervals to a second sequence of video frames depicting a second dynamic scene wherein for at least two successive frames of the second sequence, there are selected from at least three different frames of the first sequence portions that are spatially contiguous in the first dynamic scene and copied to a corresponding frame of the second sequence so as to maintain their spatial continuity in the first sequence. In a second aspect, for at least one feature in the first dynamic scene respective portions of the first sequence of video frames are sampled at a different rate than surrounding portions of the first sequence of video frames; and the sampled portions are copied to a corresponding frame of the second sequence.
    • 一种计算机实现的方法和系统,用于将以规则时间间隔捕获的第一动态场景的第一序列视频帧变换为描绘第二动态场景的第二视频帧序列,其中对于第二序列的至少两个连续帧, 从在第一动态场景中空间连续的第一序列部分的至少三个不同帧中选择并复制到第二序列的相应帧,以便保持其在第一序列中的空间连续性。 在第二方面,对于第一动态场景中的至少一个特征,第一视频帧序列的相应部分以与第一视频帧序列的周围部分不同的速率进行采样; 并且将采样部分复制到第二序列的相应帧。
    • 2. 发明申请
    • Method and system for spatio-temporal video warping
    • 时空视频翘曲的方法和系统
    • US20060262184A1
    • 2006-11-23
    • US10556601
    • 2005-11-02
    • Shmuel PelegAlexander Rav-AchaDaniel Lischinski
    • Shmuel PelegAlexander Rav-AchaDaniel Lischinski
    • H04N7/00
    • G06T3/0087G06T13/80G06T2210/44H04N5/2625H04N5/2628
    • A computer-implemented method and system for transforming a first sequence of video frames of a first dynamic scene captured at regular time intervals to a second sequence of video frames depicting a second dynamic scene wherein for at least two successive frames of the second sequence, there are selected from at least three different frames of the first sequence portions that are spatially contiguous in the first dynamic scene and copied to a corresponding frame of the second sequence so as to maintain their spatial continuity in the first sequence. In a second aspect, for at least one feature in the first dynamic scene respective portions of the first sequence of video frames are sampled at a different rate than surrounding portions of the first sequence of video frames; and the sampled portions are copied to a corresponding frame of the second sequence.
    • 一种计算机实现的方法和系统,用于将以规则时间间隔捕获的第一动态场景的第一序列视频帧变换为描绘第二动态场景的第二视频帧序列,其中对于第二序列的至少两个连续帧, 从在第一动态场景中空间连续的第一序列部分的至少三个不同帧中选择并复制到第二序列的相应帧,以便保持其在第一序列中的空间连续性。 在第二方面,对于第一动态场景中的至少一个特征,第一视频帧序列的相应部分以与第一视频帧序列的周围部分不同的速率进行采样; 并且将采样部分复制到第二序列的相应帧。
    • 3. 发明申请
    • Non-Rigid Dense Correspondence
    • 非刚性密集函数
    • US20130129213A1
    • 2013-05-23
    • US13223202
    • 2011-08-31
    • Elya ShechtmanDaniel Robert GoldmanYoav HaCohenDaniel Lischinski
    • Elya ShechtmanDaniel Robert GoldmanYoav HaCohenDaniel Lischinski
    • G06K9/00
    • G06T7/0028G06T7/33G06T2207/10024
    • Non-rigid dense correspondence (NRDC) for image enhancement may be performed. In one embodiment, a correspondence may be computed for each one of a plurality of regions of a source image to one of a plurality of regions of a reference image. Computing the correspondences may include searching within a search range for each of a plurality of image characteristics. One or more of the correspondences may be aggregated into matched regions. A global color transform and/or deblurring may be applied to the source image. In one embodiment, the global color transform and/or deblurring may be based on the matched regions. At least one of the search ranges may optionally be adjusted. In some embodiments, computing, aggregating, applying and/or deblurring, and adjusting may be iteratively performed.
    • 可以执行用于图像增强的非刚性密集对应(NRDC)。 在一个实施例中,可以将源图像的多个区域中的每一个的对应关系计算为参考图像的多个区域之一。 计算对应可以包括在搜索范围内搜索多个图像特征中的每一个。 一个或多个通信可以被聚合成匹配的区域。 全局颜色变换和/或去模糊可以应用于源图像。 在一个实施例中,全局颜色变换和/或去模糊可以基于匹配区域。 可以可选地调整至少一个搜索范围。 在一些实施例中,可以迭代地执行计算,聚合,应用和/或去模糊和调整。
    • 4. 发明申请
    • Closed form method and system for matting a foreground object in an image having a background
    • 用于对具有背景的图像中的前景对象进行消光的闭合形式方法和系统
    • US20070165966A1
    • 2007-07-19
    • US11487482
    • 2006-07-17
    • Yair WeissDaniel LischinskiAnat Levin
    • Yair WeissDaniel LischinskiAnat Levin
    • G06K9/36G06K9/34
    • H04N5/272H04N5/275
    • In a method and system for matting a foreground object F having an opacity α constrained by associating a characteristic with selected pixels in an image having a background B, weights are determined for all edges of neighboring pixels for the image and used to build a Laplacian matrix L. The equation α is solved where α=arg min αT Lα s.t.αi=si, ∀i ∈ S, S is the group of selected pixels, and si is the value indicated by the associated characteristic. The equation Ii=αiFi+(1−αi)Bi is solved for F and B with additional smoothness assumptions on F and B; after which the foreground object F may be composited on a selected background B′ that may be the original background B or may be a different background, thus allowing foreground features to be extracted from the original image and copied to a different background.
    • 在具有通过将特征与具有背景B的图像中的所选像素相关联而具有不透明度α的前景对象F消除的方法和系统中,为图像的相邻像素的所有边缘确定权重,并且用于构建拉普拉斯矩阵 方程式α被求解,其中α= arg minαL pha pha∈∈∈∈∈∈S S S is is is is is is is is 所选择的像素组以及相关联的特征所指示的值。 方程式I> i i i)))<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<< 对于F和B,对F和B进行额外的平滑假设求解/ SUB> 之后,可以将前景对象F合成到可以是原始背景B的选定背景B'上,或者可以是不同的背景,从而允许从原始图像提取前景特征并将其复制到不同的背景。
    • 5. 发明申请
    • APPLYING RAPID NUMERICAL APPROXIMATION OF CONVOLUTIONS WITH FILTERS FOR IMAGE PROCESSING PURPOSES
    • 适用于图像处理过滤器的转换的快速数值逼近
    • US20140219579A1
    • 2014-08-07
    • US14128966
    • 2012-06-27
    • Daniel LischinskiRaanan FattalZeev Farbman
    • Daniel LischinskiRaanan FattalZeev Farbman
    • G06T3/40
    • G06T3/4084G06F17/15G06T5/20
    • A computer implemented method for A computer implemented method for applying a numerical approximation of a convolution of image I as represented by hierarchical signals al of level l with filter f, said method including the steps of: generating a forward transformation by applying a convolution between al and kernel h1 for each level of hierarchy l and by down-sampling the result of convolved al and h1; generating a backward transformation by applying, for each level of hierarchy l, a convolution between kernel h2 and an up-sampled forward transformation and combining the result with a convolution of al with kernel g; and combining the forward transformation with the backward transformation, to yield â0 being an approximation of a convolution between a and f, wherein kernels h1, h1, and g are optimized kernels of filter f.
    • 一种用于A计算机实现的方法的计算机实现方法,用于对具有滤波器f的级别l的分层信号a1表示的图像I的卷积进行数值近似,所述方法包括以下步骤:通过应用al之间的卷积来生成正向变换 对于每个层次l的内核h1和通过对采用卷积的al和h1的结果进行下采样; 通过对每个级别l应用内核h2和上采样正向变换之间的卷积,并将结果与​​al与卷积g相结合,产生反向变换; 并将前向变换与反向变换相结合,得到α是a和f之间的卷积近似值,其中,内核h1,h1和g是滤波器f的优化内核。
    • 7. 发明申请
    • CLOSED FORM METHOD AND SYSTEM FOR MATTING A FOREGROUND OBJECT IN AN IMAGE HAVING A BACKGROUND
    • 用于在具有背景的图像中对前置对象进行匹配的封闭形式方法和系统
    • US20090278859A1
    • 2009-11-12
    • US12497800
    • 2009-07-06
    • Yair WeissDaniel LischinskiAnat Levin
    • Yair WeissDaniel LischinskiAnat Levin
    • G09G5/00
    • H04N5/272H04N5/275
    • In a method and system for matting a foreground object F having an opacity α constrained by associating a characteristic with selected pixels in an image having a background B, weights are determined for all edges of neighboring pixels for the image and used to build a Laplacian matrix L. The equation α is solved where α=arg min αT Lα s.t.αi=si, ∀iεS, S is the group of selected pixels, and si is the value indicated by the associated characteristic. The equation Ii=αiFi+(1−αi)Bi is solved for F and B with additional smoothness assumptions on F and B; after which the foreground object F may be composited on a selected background B′ that may be the original background B or may be a different background, thus allowing foreground features to be extracted from the original image and copied to a different background.
    • 在具有通过将特征与具有背景B的图像中的所选像素相关联而具有不透明度α的前景对象F消除的方法和系统中,为图像的相邻像素的所有边缘确定权重,并用于构建拉普拉斯矩阵 其中α= arg min alphaT Lalpha stalphai = si,∀iepsilonS,S是所选像素的组,si是由相关特征指示的值,求解方程α。 对于F和B求解方程Ii = alphaiFi +(1-alphai)Bi对F和B具有额外的平滑度假设; 之后,可以将前景对象F合成到可以是原始背景B的选定背景B'上,或者可以是不同的背景,从而允许从原始图像提取前景特征并将其复制到不同的背景。
    • 8. 发明授权
    • Closed form method and system for matting a foreground object in an image having a background
    • 用于对具有背景的图像中的前景对象进行消光的闭合形式方法和系统
    • US07692664B2
    • 2010-04-06
    • US12497800
    • 2009-07-06
    • Yair WeissDaniel LischinskiAnat Levin
    • Yair WeissDaniel LischinskiAnat Levin
    • G09G5/02
    • H04N5/272H04N5/275
    • In a method and system for matting a foreground object F having an opacity α constrained by associating a characteristic with selected pixels in an image having a background B, weights are determined for all edges of neighboring pixels for the image and used to build a Laplacian matrix L. The equation α is solved where α=arg min αT Lα s.t.αi=si, ∀iεS, S is the group of selected pixels, and si is the value indicated by the associated characteristic. The equation Ii=αiFi+(1−αi)Bi is solved for F and B with additional smoothness assumptions on F and B; after which the foreground object F may be composited on a selected background B′ that may be the original background B or may be a different background, thus allowing foreground features to be extracted from the original image and copied to a different background.
    • 在通过将特征与具有背景B的图像中的所选像素相关联而具有不透明度α的前景对象F的方法和系统中,为图像的相邻像素的所有边缘确定权重,并用于构建拉普拉斯矩阵 求解方程α其中α= arg minαTLαstαi= si,∀i&egr; S,S是所选像素的组,si是由相关特征表示的值。 对F和B求解方程Ii =αiFi+(1-αi)Bi,对F和B进行额外的平滑假设; 之后,可以将前景对象F合成到可以是原始背景B的选定背景B'上,或者可以是不同的背景,从而允许从原始图像提取前景特征并将其复制到不同的背景。
    • 9. 发明申请
    • Method and system for performing computer graphic simulation of a fluid using target-driven control
    • 使用目标驱动控制对流体进行计算机图形仿真的方法和系统
    • US20050253854A1
    • 2005-11-17
    • US11128227
    • 2005-05-13
    • Daniel LischinskiRaanan Fattal
    • Daniel LischinskiRaanan Fattal
    • G06T13/00G06T15/70
    • G06T13/60G06T2210/24
    • Method and system for efficiently controlling animated smoke which utilizes a sequence of target smoke states to generate a smoke simulation in which the smoke is driven towards each of these targets in turn, while exhibiting natural-looking interesting smoke-like behavior. This control is made possible by two new terms added to standard flow equations: (i) a driving force term that causes the fluid to carry the smoke towards a particular target, and (ii) a smoke gathering term that prevents the smoke from diffusing too much. These terms are explicitly defined by the instantaneous state of the system at each simulation time step. Thus, no expensive optimization is required, allowing complex smoke animations to be generated with very little additional cost compared to ordinary flow simulations. The invention is also applicable to animation of other fluid flow phenomena.
    • 用于有效地控制动画烟雾的方法和系统,其利用一系列目标烟雾状态来产生烟雾模拟,其中烟雾依次驱动到这些目标中的每一个,同时呈现自然的有趣的烟雾状态。 这种控制是通过添加到标准流量方程中的两个新项来实现的:(i)导致流体将烟雾传送到特定目标的驱动力项,以及(ii)防止烟雾扩散的烟雾聚集术语 许多。 这些术语由每个仿真时间步骤中系统的瞬时状态明确定义。 因此,不需要昂贵的优化,与常规流模拟相比,可以以非常少的附加成本产生复杂的烟雾动画。 本发明也适用于其他流体流动现象的动画。
    • 10. 发明授权
    • Non-rigid dense correspondence
    • 非刚性密集通信
    • US09014470B2
    • 2015-04-21
    • US13223202
    • 2011-08-31
    • Elya ShechtmanDaniel Robert GoldmanYoav HaCohenDaniel Lischinski
    • Elya ShechtmanDaniel Robert GoldmanYoav HaCohenDaniel Lischinski
    • G06K9/00G06T7/00
    • G06T7/0028G06T7/33G06T2207/10024
    • Non-rigid dense correspondence (NRDC) for image enhancement may be performed. In one embodiment, a correspondence may be computed for each one of a plurality of regions of a source image to one of a plurality of regions of a reference image. Computing the correspondences may include searching within a search range for each of a plurality of image characteristics. One or more of the correspondences may be aggregated into matched regions. A global color transform and/or deblurring may be applied to the source image. In one embodiment, the global color transform and/or deblurring may be based on the matched regions. At least one of the search ranges may optionally be adjusted. In some embodiments, computing, aggregating, applying and/or deblurring, and adjusting may be iteratively performed.
    • 可以执行用于图像增强的非刚性密集对应(NRDC)。 在一个实施例中,可以将源图像的多个区域中的每一个的对应关系计算为参考图像的多个区域之一。 计算对应可以包括在搜索范围内搜索多个图像特征中的每一个。 一个或多个通信可以被聚合成匹配的区域。 全局颜色变换和/或去模糊可以应用于源图像。 在一个实施例中,全局颜色变换和/或去模糊可以基于匹配区域。 可以可选地调整至少一个搜索范围。 在一些实施例中,可以迭代地执行计算,聚合,应用和/或去模糊和调整。