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
    • 81. 发明授权
    • X-ray calibration
    • X射线校准
    • US08075184B2
    • 2011-12-13
    • US12626212
    • 2009-11-25
    • Richard KingDamain Griffin
    • Richard KingDamain Griffin
    • G01D18/00
    • A61B90/39A61B2090/376
    • Methods, devices, and kits for determining the magnification of an x-ray image of an object, or a portion of an object are described. An exemplary method comprises the steps of providing an object to be x-rayed, providing a first posterior x-ray marker having a pre-determined dimension, providing anteriorly to the object to be x-rayed, a second x-ray marker having predetermined dimensions, recording an x-ray image of the object, the first posterior x-ray marker, and second x-ray markers, and comparing a dimension of the first posterior x-ray marker recorded on the x-ray image, and a dimension of the second x-ray marker recorded on the image to a pre-determined value for the object x-rayed, to estimate a magnification of the x-ray image of the object.
    • 描述用于确定物体的X射线图像或物体的一部分的放大率的方法,装置和工具包。 一种示例性方法包括以下步骤:提供要被X射线的物体,提供具有预定尺寸的第一后X线标记,在待被X射线的物体的前方提供;具有预定的第二X射线标记 记录物体的X射线图像,第一后X射线标记物和第二X射线标记物,以及比较记录在x射线图像上的第一后X光标记的尺寸和尺寸 将记录在图像上的第二X射线标记作为x射线物体的预定值来估计物体的x射线图像的放大倍率。
    • 82. 发明授权
    • Dynamically integrating disparate computer-aided dispatch systems
    • 动态整合不同的计算机辅助调度系统
    • US08005937B2
    • 2011-08-23
    • US12252067
    • 2008-10-15
    • Jonathan K. Wesley, Sr.Ryan SealyMark SeversonJonathan FeatherstoneNathan DanielsErik CooleyRichard King
    • Jonathan K. Wesley, Sr.Ryan SealyMark SeversonJonathan FeatherstoneNathan DanielsErik CooleyRichard King
    • G06F15/173
    • G06F17/30569G06F8/65G06F15/173G06F17/30424H04L67/34
    • Systems and methods for dynamically integrating disparate computer-aided dispatch (CAD) systems are disclosed. The systems and methods provide bi-directional interoperability between disparate CAD systems and maintain stateful ongoing interactions between interconnected CAD systems. Information objects in one CAD system are associated and bound to related objects in other CAD systems through a centralized information hub that transforms data items intelligently to facilitate communication and interaction between the CAD systems connected to the hub. The described systems and methods maintain complete and current perspectives of all relevant information for each CAD system connected to the information hub, thereby eliminating the need for point-to-point intelligence maintained by the CAD systems about the other interconnected CAD systems. As information updates are passed from CAD systems to the information hub and back out to other CAD systems, the information hub transforms and evaluates the information updates ensuring that only necessary information updates are forwarded.
    • 公开了用于动态集成不同计算机辅助调度(CAD)系统的系统和方法。 系统和方法提供了不同的CAD系统之间的双向互操作性,并保持了互连的CAD系统之间的有状态的持续交互。 一个CAD系统中的信息对象通过集中式信息中心与其他CAD系统中的相关对象相关联并将其绑定到智能地转换数据项,以促进连接到集线器的CAD系统之间的通信和交互。 所描述的系统和方法对于连接到信息中心的每个CAD系统保持对所有相关信息的完整和当前的观点,从而消除对CAD系统对其他互联CAD系统所保持的点对点智能的需求。 随着信息更新从CAD系统传递到信息中心并返回到其他CAD系统,信息中心将转换和评估信息更新,确保仅转发必要的信息更新。
    • 83. 发明申请
    • Mixtures For Forming Porous Constructs
    • 用于形成多孔结构的混合物
    • US20100098574A1
    • 2010-04-22
    • US12540617
    • 2009-08-13
    • Hengda D. LiuBryan SmithRichard King
    • Hengda D. LiuBryan SmithRichard King
    • B22F3/12B22F1/00B22F3/02
    • A61L27/04A61L27/56A61L2400/18B22F3/1121C22C14/00
    • Provided are methods comprising at least one metal powder with an extractable material and a composition comprising a polyol, a hydrophilic polymer, or both in order to form a mixture in which the metal powder and the extractable material assume respective positions. The composition functions as a homogenizing agent that allows the mixture to remain well-mixed for extended periods of time under ambient conditions. Also provided are green bodies and porous constructs, including implants, that are made in accordance with the disclosed methods. The green bodies and porous constructs have a substantially uniform porosity that is at least partially attributable to the ability of the composition to maintain the metal powder and the extractable material in their respective positions prior to sintering.
    • 提供了包含至少一种具有可提取材料的金属粉末和包含多元醇,亲水性聚合物或两者的组合物以形成其中金属粉末和可提取材料呈现相应位置的混合物的方法。 该组合物用作均化剂,其允许混合物在环境条件下保持良好混合较长时间。 还提供了根据所公开的方法制备的生坯体和多孔构造体,包括植入物。 生坯体和多孔构件具有基本上均匀的孔隙率,其至少部分归因于组合物在烧结之前将金属粉末和可提取材料保持在它们各自的位置的能力。
    • 84. 发明申请
    • SYSTEM AND METHODS FOR ASYNCHRONOUSLY UPDATING INTERDEPENDENT TASKS PROVIDED BY DISPARATE APPLICATIONS IN A MULTI-TASK ENVIRONMENT
    • 用于在多任务环境中异步应用提供的相互关联任务异步更新的系统和方法
    • US20090210882A1
    • 2009-08-20
    • US12032961
    • 2008-02-18
    • Shikha SrivastavaNiraj Dincsh PatelSamar ChoudharyVijay PandiarajanRichard King
    • Shikha SrivastavaNiraj Dincsh PatelSamar ChoudharyVijay PandiarajanRichard King
    • G06F9/46
    • G06F9/542G06F9/485G06F9/544G06F9/546G06F2209/544
    • A computer-based system for updating interdependent tasks in a multi-task environment is provided. The system includes one or more processors for processing processor-executable code and an input/output interface communicatively linked to at least one processor. The system further includes a brokering module configured to execute on the at least one processor. The brokering module can be configured to interconnect a plurality of event-responsive interdependent tasks in response to an event generated while one of the tasks is being processed. Different tasks can be provided by different applications. The brokering module is configured to initiate an asynchronous updating of the tasks, wherein the asynchronous updating comprises a background process of the multi-task environment preformed for each task not being currently processed and wherein the updating is performed while the one task is being processed. The brokering module, moreover, is further configured to provide through the interface a status notification of the updating of each of the tasks.
    • 提供了一种用于在多任务环境中更新相互依赖任务的基于计算机的系统。 该系统包括用于处理处理器可执行代码的一个或多个处理器和与至少一个处理器通信地链接的输入/输出接口。 所述系统还包括被配置为在所述至少一个处理器上执行的代理模块。 代理模块可以被配置为响应于正在处理其中一个任务时产生的事件来互连多个事件响应的相互依赖的任务。 不同的应用可以提供不同的任务。 代理模块被配置为启动任务的异步更新,其中异步更新包括为当前处理的每个任务执行的多任务环境的后台进程,并且其中在处理一个任务时执行更新。 此外,代理模块还被配置为通过接口提供每个任务的更新的状态通知。
    • 85. 发明申请
    • Sealing Plug Removal Apparatus
    • 密封塞拆除装置
    • US20080276438A1
    • 2008-11-13
    • US11814883
    • 2006-04-10
    • Richard King
    • Richard King
    • B23P19/04B23P19/06
    • B25B27/02Y10T29/53657Y10T29/53835Y10T29/53839Y10T29/53843Y10T29/53878Y10T29/53913Y10T29/53939Y10T29/53991
    • Apparatus (4) for removing a sealing plug from a bore (11), which sealing plug comprises an outer sleeve (13) and an inner stem (14) retained within the outer sleeve, the removal taking place after a suitable hole has been drilled part of the way into the stem, which removal apparatus (4) comprises a tapered punch (15) for forcible insertion into the hole in the stem (14) thereby to create an interference fit between the punch (15) and the stem (14) and thereafter driving the stem (14) out of the sleeve (13) whilst also retaining the stem (14) on the punch (15) by virtue of the interference fit, and sleeve-engaging means (16) engagable with the sleeve (13) after the punch (15) has removed the stem (14) from the sleeve (13), the sleeve-engaging means (16) and the punch (15) being thereafter removable from the bore thereby to remove both the sleeve (13) and the stem (14) from the bore whilst the sleeve (13) and the stem (14) are both retained on the appropriate parts of the apparatus.
    • 用于从孔(11)移除密封塞的装置(4),该密封塞包括外套筒(13)和保持在外套筒内的内杆(14),在已经钻出合适的孔之后进行移除 所述去除装置(4)包括用于强制插入所述杆(14)中的孔中的锥形冲头(15),从而在所述冲头(15)和所述杆(14)之间产生过盈配合 ),然后通过套筒(13)将杆(14)驱动出套筒(13),同时通过过盈配合将杆(14)保持在冲头(15)上,以及可与套筒接合的套筒接合装置(16) 在冲头(15)已经从套筒(13)移除杆(14)之后,套筒接合装置(16)和冲头(15)之后可以从孔中移除,从而将套筒(13) )和杆(14),同时套筒(13)和杆(14)都保持 在设备的适当部分上。
    • 88. 发明申请
    • METHOD OF FORMING A SEMICONDUCTOR STRUCTURE HAVING METAL MIGRATION SEMICONDUCTOR BARRIER LAYERS
    • 形成具有金属迁移半导体阻挡层的半导体结构的方法
    • US20070138636A1
    • 2007-06-21
    • US11676953
    • 2007-02-20
    • Hojun YoonRichard KingJerry KukulkaJames ErmerMaggy Lau
    • Hojun YoonRichard KingJerry KukulkaJames ErmerMaggy Lau
    • H01L23/52H01L21/4763
    • H01L31/022425H01L31/0304H01L31/068Y02E10/544Y02E10/547
    • A semiconductor structure includes a semiconductor substrate, a semiconductor active region, a semiconductor contact layer, at least one metal migration semiconductor barrier layer, and a metal contact. The metal migration semiconductor barrier layer may be embedded within the semiconductor contact layer. Furthermore, the metal migration semiconductor barrier layer may be located underneath or above and in intimate contact with the semiconductor contact layer. The metal migration semiconductor barrier layer and the semiconductor contact layer form a contact structure that prevents metals from migrating from the metal contact into the semiconductor active layer during long-term exposure to high temperatures. By providing a robust contact structure that may be used in semiconductor structures, for example in solar cells that power spacecraft or terrestrial solar cells used under concentrated sunlight, the high temperature reliability of the semiconductor structure will be improved and the operation time will be prolonged.
    • 半导体结构包括半导体衬底,半导体有源区,半导体接触层,至少一个金属迁移半导体阻挡层和金属接触。 金属迁移半导体阻挡层可以嵌入在半导体接触层内。 此外,金属迁移半导体阻挡层可以位于下方或上方并且与半导体接触层紧密接触。 金属迁移半导体势垒层和半导体接触层形成接触结构,该接触结构在长时间暴露于高温期间防止金属从金属接触迁移到半导体有源层中。 通过提供可用于半导体结构中的坚固的接触结构,例如在集中的太阳光下使用的太空电池或太阳能电池的太阳能电池中,将提高半导体结构的高温可靠性并且延长操作时间。