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
    • 2. 发明申请
    • VIDEO-BASED ESTIMATION OF HEART RATE VARIABILITY
    • 基于视频的心率变化估计
    • US20130345568A1
    • 2013-12-26
    • US13532057
    • 2012-06-25
    • Lalit Keshav MESTHASurvi KYALBeilei XUHimanshu J. MADHU
    • Lalit Keshav MESTHASurvi KYALBeilei XUHimanshu J. MADHU
    • A61B5/024A61B6/00
    • A61B5/02405A61B5/0004A61B5/02416A61B5/7235A61B2576/00
    • What is disclosed is a video-based system and method for estimating heart rate variability from time-series signals generated from video images captured of a subject of interest being monitored for cardiac function. In a manner more fully disclosed herein, low frequency and high frequency components are extracted from a time-series signal obtained by processing a video of the subject being monitored. A ratio of the low and high frequency of the integrated power spectrum within these components is computed. Analysis of the dynamics of this ratio over time is used to estimate heart rate variability. The teachings hereof can be used in a continuous monitoring mode with a relatively high degree of measurement accuracy and find their uses in a variety of diverse applications such as, for instance, emergency rooms, cardiac intensive care units, neonatal intensive care units, and various telemedicine applications.
    • 所公开的是一种基于视频的系统和方法,用于从由心脏功能监测的感兴趣对象的视频图像产生的时间序列信号估计心率变异性。 以这里更完全公开的方式,从通过处理被监视对象的视频获得的时间序列信号中提取低频和高频分量。 计算这些分量内的综合功率谱的低频和高频比。 分析这个比率随时间的动力学被用于估计心率变异性。 其教导可以以相对较高的测量精度的连续监测模式使用,并且可以在各种各样的应用中使用,例如急诊室,心脏重症监护病房,新生儿重症监护病房和各种各样的 远程医疗应用。
    • 4. 发明申请
    • CONTINUOUS CARDIAC PULSE RATE ESTIMATION FROM MULTI-CHANNEL SOURCE VIDEO DATA
    • 来自多通道视频数据的连续脉冲速率估计
    • US20130343614A1
    • 2013-12-26
    • US13528307
    • 2012-06-20
    • Survi KYALLalit Keshav MESTHABeilei XU
    • Survi KYALLalit Keshav MESTHABeilei XU
    • G06K9/36
    • G06K9/6217A61B5/024G06K9/0057G06K2209/05
    • What is disclosed is a computationally efficient system and method for estimating a subject's cardiac pulse rate from multi-channel source video data. In one embodiment, A time-series signal is continuously processed by repeatedly: (1) conditioning the estimated source signal obtained on a previous iteration to produce a next reference signal; (2) using this reference signal to perform constrained source separation on this next segment to obtain an estimated source signal. A frequency at which this next estimated source signal converged is the subject's estimated cardiac pulse rate for this signal segment. The reference signal is repeatedly updated. Upon convergence, the sliding window is shifted to define a next segment of the time-series signal. The method repeats for each time-series signal segment on a continuous basis or until a termination criteria is met. In such a manner, the subject's cardiac pulse rate is estimated from video data on a continuous basis.
    • 所公开的是用于从多信道源视频数据估计被摄体的心脏脉搏率的计算有效的系统和方法。 在一个实施例中,时间序列信号通过重复地连续处理:(1)调节在先前迭代中获得的估计的源信号以产生下一个参考信号; (2)使用该参考信号在该下一个段执行受限的源分离以获得估计的源信号。 该下一个估计的源信号收敛的频率是该信号段的对象的估计的心脏脉搏率。 参考信号被重复更新。 在收敛时,滑动窗口被移动以限定时间序列信号的下一个段。 该方法在连续的基础上重复每个时间序列信号段,或直到满足终止标准。 以这种方式,从连续的视频数据估计被检者的心脏脉搏率。
    • 6. 发明申请
    • PROCESSING A VIDEO FOR VASCULAR PATTERN DETECTION AND CARDIAC FUNCTION ANALYSIS
    • 处理血管图案检测和心脏功能分析的视频
    • US20130322729A1
    • 2013-12-05
    • US13483992
    • 2012-05-30
    • Lalit Keshav MESTHABeilei XUEdgar A. BERNAL
    • Lalit Keshav MESTHABeilei XUEdgar A. BERNAL
    • G06K9/46
    • G06T7/0016A61B5/0077A61B5/02A61B5/021A61B5/02416A61B5/029A61B5/489G06T2207/10024G06T2207/10048G06T2207/30076G06T2207/30101
    • What is disclosed is a non-contact system and method for determining cardiac function parameters from a vascular pattern identified from RGB and IR video signals captured simultaneously of a region of exposed skin of a subject of interest. In one embodiment, a video of a region of exposed skin is captured using a video camera that captures color values for pixels over visible channels and an IR camera that measures pixel intensity values in wavelength ranges of interest. Pixel intensity values are processed to generate a vascular binary mask that indicates pixel locations corresponding to the vascular pathways. The IR images are registered with corresponding data from the camera's visible channels such that pixels that correspond to the vascular pattern can be isolated in each frame of the video of visible color data. Once processed, pixels associated with the isolated vascular patterns are analyzed to determine desired cardiac function parameters.
    • 公开的是一种非接触式系统和方法,用于根据由目标受试者的暴露皮肤区域同时捕获的RGB和IR视频信号识别的血管图案来确定心脏功能参数。 在一个实施例中,使用捕获可见信道上的像素的颜色值的摄像机和测量感兴趣的波长范围内的像素强度值的IR照相机捕获暴露皮肤区域的视频。 处理像素强度值以产生指示对应于血管通路的像素位置的血管二进制掩模。 红外图像与来自相机的可视通道的相应数据一起登记,使得与血管图案相对应的像素可以在可见颜色数据的视频的每个帧中被隔离。 一旦处理,分析与分离的血管图案相关联的像素以确定期望的心脏功能参数。
    • 7. 发明授权
    • Image quality defect detection via sensor characterization and halftone dot classification
    • 通过传感器表征和半色调点分类进行图像质量缺陷检测
    • US08571269B2
    • 2013-10-29
    • US13049191
    • 2011-03-16
    • Wencheng WuBeilei XuEdul N. Dalal
    • Wencheng WuBeilei XuEdul N. Dalal
    • G06K9/00
    • H04N1/52H04N1/405
    • What is disclosed is a system and method for image quality (IQ) defect detection via classification of halftone dots present on customer prints. In one embodiment, spatially-varying thresholds are applied on the sensed image in order to classify the halftone dots for IQ defect detection. The resolving power of the sensor is characterized and the sensor responses to patches printed with the print device are characterized. A de-blurring filter is designed which is appropriate for compensating the characterized resolving power of the sensor. Image enhancement is applied to the image using the de-blurring filter. Halftone dots present on the prints are classified by analyzing the enhanced image with the results of the sensor response characterization. Once classified, single separation halftone dot images can be more readily analyzed for defects. The present method allows sensor resolution as low as the size of the halftone dots of the printer under test.
    • 公开的是通过客户印刷品上存在的半色调点的分类的图像质量(IQ)缺陷检测的系统和方法。 在一个实施例中,空间变化的阈值被施加在所感测的图像上,以便对用于IQ缺陷检测的半色调点进行分类。 表征传感器的分辨率,并对传感器对印刷设备印刷的贴片进行响应。 设计了一种去模糊滤波器,适用于补偿传感器的特征分辨率。 图像增强应用于使用去模糊滤镜的图像。 使用传感器响应表征的结果分析增强图像,将印刷品上存在的半色调点分类。 一旦分类,单分离半色调点图像可以更容易地分析缺陷。 本方法允许传感器分辨率低于被测打印机的半色调点的大小。
    • 8. 发明授权
    • Identifying a color separation wherein a banding defect originates
    • 识别带状缺陷产生的颜色分离
    • US08462388B2
    • 2013-06-11
    • US12796375
    • 2010-06-08
    • Beilei XuWencheng Wu
    • Beilei XuWencheng Wu
    • G06F15/00G06K1/00H04N1/60H04N1/46
    • H04N1/6047H04N1/6036
    • What is disclosed is a novel system and method for banding defect detection in user document images to improve image quality trend analysis in multifunction digital imaging system architectures. The present banding detection process uses region-based, time sequence analysis, and graylevels of image regions in a collection of a sequence of regions, to improve banding detection. The present method independently analyzes the colorant separations to detect banding due to sources that are colorant-dependent, e.g., due to a single developer housing. This identification can be performed in the presence of multiple banding defects.
    • 公开了一种用于在用户文档图像中条带缺陷检测的新型系统和方法,以改善多功能数字成像系统架构中的图像质量趋势分析。 本发明的条带检测过程使用区域,时间序列分析和区域序列集合中的图像区域的灰度级,以改善条带检测。 本方法独立地分析着色剂分离,以检测由于着色剂依赖性的来源而引起的条纹,例如由于单个显影剂外壳。 该识别可以在存在多个条带缺陷的情况下进行。