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公开(公告)号:US08891731B2
公开(公告)日:2014-11-18
申请号:US13095658
申请日:2011-04-27
CPC分类号: A61B6/54 , A61B6/4405 , A61B6/548 , A61B6/56
摘要: The subject matter disclosed herein relates to patient imaging systems, and more specifically, to portable X-ray imaging systems. In a first embodiment, a patient imaging system is presented. The patient imaging system includes an X-ray source configured to emit X-rays and a wireless X-ray detector configured to detect the emitted X-rays and acquire patient image data. The patient imaging system also includes an acquisition control system configured to initialize and prepare the patient imaging system for X-ray emission and detection. The acquisition control system is also configured to receive the acquired patient image data from the X-ray detector, and to non-deterministically control the operation of the X-ray source and the wireless X-ray detector. The patient imaging system also includes one or more user interfaces configured to instruct the acquisition control system when a user is ready for the patient imaging system to initialize, to prepare for X-ray emission and detection, and to begin X-ray emission and detection.
摘要翻译: 本文公开的主题涉及患者成像系统,更具体地,涉及便携式X射线成像系统。 在第一实施例中,呈现患者成像系统。 患者成像系统包括被配置为发射X射线的X射线源和被配置为检测所发射的X射线并获取患者图像数据的无线X射线检测器。 患者成像系统还包括被配置为初始化并准备用于X射线发射和检测的患者成像系统的采集控制系统。 采集控制系统还被配置为从X射线检测器接收所获取的患者图像数据,并且不确定地控制X射线源和无线X射线检测器的操作。 患者成像系统还包括一个或多个用户界面,其被配置为当用户准备好进行患者成像系统初始化时指示采集控制系统,以准备X射线发射和检测,并开始X射线发射和检测 。
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公开(公告)号:US20100131498A1
公开(公告)日:2010-05-27
申请号:US12324468
申请日:2008-11-26
申请人: Steven Linthicum , Steven Fors , Anthony Ricamato , Eric Jester , Louis John Hoebel , Gerald Bowden Wise , John Lizzi
发明人: Steven Linthicum , Steven Fors , Anthony Ricamato , Eric Jester , Louis John Hoebel , Gerald Bowden Wise , John Lizzi
CPC分类号: G16H10/60 , G06F16/338
摘要: Certain embodiments of the present invention provide systems and methods for information composition and query enhancement. Certain embodiments provide an information composition and query enhancement system. The system includes a query generation and enhancement engine generating and conducting a query of one or more data sources based on user input and a data context to produce query results. The system also includes an information composition engine assembling the query results to provide a bundle of documents meaningful to the particular user. The system further includes a document summarization engine clustering and summarizing the bundle of documents to provide a content summary in addition to the bundle of documents for output in a presentation to a user.
摘要翻译: 本发明的某些实施例提供用于信息组合和查询增强的系统和方法。 某些实施例提供信息组合和查询增强系统。 该系统包括查询生成和增强引擎,其基于用户输入和数据上下文生成并执行一个或多个数据源的查询以产生查询结果。 该系统还包括组合查询结果的信息组合引擎,以提供对特定用户有意义的一组文档。 该系统还包括文档摘要引擎,聚集和汇总文档包以提供除用于向用户呈现的演示文稿中输出的文档包之外的内容摘要。
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公开(公告)号:US07664596B2
公开(公告)日:2010-02-16
申请号:US11427728
申请日:2006-06-29
申请人: Gerald Bowden Wise , John Michael Lizzi , Louis John Hoebel , Rajesh Venkat Subbu , Daniel Joseph Cleary , Liviu Nedelescu , Paul W. Mettus , Bradley A. Culbertson , Jonathan Dehn
发明人: Gerald Bowden Wise , John Michael Lizzi , Louis John Hoebel , Rajesh Venkat Subbu , Daniel Joseph Cleary , Liviu Nedelescu , Paul W. Mettus , Bradley A. Culbertson , Jonathan Dehn
CPC分类号: G08G5/0043
摘要: Systems and methods for airspace demand prediction with improved sector level demand prediction are provided. In one embodiment, an air traffic demand prediction system (10) operable to predict demand within an airspace divided into sectors includes an expanded route predictor (14) operable to generate predicted two-dimensional expanded route information (40) associated with at least one requested flight (34), a trajectory modeler (16) operable to generate predicted four-dimensional expanded route information (46), a sector crossing predictor (18) operable to generate predicted sector crossing information (48), a departure time predictor (22) operable to generate predicted departure time information (54), and a demand modeler (62) operable to generate a demand model (28), the demand model (28) including predicted time intervals associated with the at least one requested flight indicating when it is expected to be present within one or more sectors of the airspace.
摘要翻译: 提供了改善部门级需求预测的空域需求预测系统和方法。 在一个实施例中,可操作以预测划分为扇区的空域内的需求的空中交通需求预测系统(10)包括扩展路由预测器(14),其可操作以产生与至少一个请求的相关联的预测的二维扩展路由信息(40) 飞行(34),可操作以产生预测的四维扩展路径信息(46)的轨迹建模器(16),可操作以产生预测扇区交叉信息的扇区交叉预测器(48),出发时间预测器(22) 可操作以产生预测的出发时间信息(54),以及可操作以生成需求模型(28)的需求建模器(62),所述需求模型(28)包括与所述至少一个请求的飞行相关联的预测时间间隔, 预计将在空域的一个或多个部门内存在。
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公开(公告)号:US20140112437A1
公开(公告)日:2014-04-24
申请号:US13095658
申请日:2011-04-27
IPC分类号: A61B6/00
CPC分类号: A61B6/54 , A61B6/4405 , A61B6/548 , A61B6/56
摘要: The subject matter disclosed herein relates to patient imaging systems, and more specifically, to portable X-ray imaging systems. In a first embodiment, a patient imaging system is presented. The patient imaging system includes an X-ray source configured to emit X-rays and a wireless X-ray detector configured to detect the emitted X-rays and acquire patient image data. The patient imaging system also includes an acquisition control system configured to initialize and prepare the patient imaging system for X-ray emission and detection. The acquisition control system is also configured to receive the acquired patient image data from the X-ray detector, and to non-deterministically control the operation of the X-ray source and the wireless X-ray detector. The patient imaging system also includes one or more user interfaces configured to instruct the acquisition control system when a user is ready for the patient imaging system to initialize, to prepare for X-ray emission and detection, and to begin X-ray emission and detection.
摘要翻译: 本文公开的主题涉及患者成像系统,更具体地,涉及便携式X射线成像系统。 在第一实施例中,呈现患者成像系统。 患者成像系统包括被配置为发射X射线的X射线源和被配置为检测所发射的X射线并获取患者图像数据的无线X射线检测器。 患者成像系统还包括被配置为初始化并准备用于X射线发射和检测的患者成像系统的采集控制系统。 采集控制系统还被配置为从X射线检测器接收所获取的患者图像数据,并且不确定地控制X射线源和无线X射线检测器的操作。 患者成像系统还包括一个或多个用户界面,其被配置为当用户准备好进行患者成像系统初始化时指示采集控制系统,以准备X射线发射和检测,并开始X射线发射和检测 。
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公开(公告)号:US20080004792A1
公开(公告)日:2008-01-03
申请号:US11427728
申请日:2006-06-29
申请人: Gerald Bowden Wise , John Michael Lizzi , Louis John Hoebel , Rajesh Venkat Subbu , Daniel Joseph Cleary , Liviu Nedelescu , Paul W. Mettus , Bradley A. Culbertson , Jonathan Dehn
发明人: Gerald Bowden Wise , John Michael Lizzi , Louis John Hoebel , Rajesh Venkat Subbu , Daniel Joseph Cleary , Liviu Nedelescu , Paul W. Mettus , Bradley A. Culbertson , Jonathan Dehn
IPC分类号: G06G7/76
CPC分类号: G08G5/0043
摘要: Systems and methods for airspace demand prediction with improved sector level demand prediction are provided. In one embodiment, an air traffic demand prediction system (10) operable to predict demand within an airspace divided into sectors includes an expanded route predictor (14) operable to generate predicted two-dimensional expanded route information (40) associated with at least one requested flight (34), a trajectory modeler (16) operable to generate predicted four-dimensional expanded route information (46), a sector crossing predictor (18) operable to generate predicted sector crossing information (48), a departure time predictor (22) operable to generate predicted departure time information (54), and a demand modeler (62) operable to generate a demand model (28), the demand model (28) including predicted time intervals associated with the at least one requested flight indicating when it is expected to be present within one or more sectors of the airspace.
摘要翻译: 提供了改善部门级需求预测的空域需求预测系统和方法。 在一个实施例中,可操作以预测划分为扇区的空域内的需求的空中交通需求预测系统(10)包括扩展路由预测器(14),其可操作以产生与至少一个请求的相关联的预测的二维扩展路由信息(40) 飞行(34),可操作以产生预测的四维扩展路径信息(46)的轨迹建模器(16),可操作以产生预测扇区交叉信息的扇区交叉预测器(48),出发时间预测器(22) 可操作以产生预测的出发时间信息(54),以及可操作以生成需求模型(28)的需求建模器(62),所述需求模型(28)包括与所述至少一个请求的飞行相关联的预测时间间隔, 预计将在空域的一个或多个部门内存在。
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