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    • 1. 发明授权
    • Use of location awareness to transfer communications sessions between terminals in a healthcare environment
    • 使用位置感知来转移医疗保健环境中的终端之间的通信会话
    • US07707044B2
    • 2010-04-27
    • US11065046
    • 2005-02-25
    • Alan F. GravesJeff FitchettGuy DuxburyBrian Johnson
    • Alan F. GravesJeff FitchettGuy DuxburyBrian Johnson
    • G06Q50/00G06F17/30
    • G06F19/3418G06F19/00G06Q10/10G06Q50/22G07C9/00031G07C9/00111G16H10/60G16H40/20
    • According to a first broad aspect, the present invention seeks to provide a method of managing a session with an HIS. The method comprises receiving data regarding a wirelessly detectable tag associated with a first terminal; determining whether the first terminal is positioned relative to a second terminal such that a terminal proximity condition is satisfied based at least in part on the data regarding the wirelessly detectable tag, wherein one of the first terminal and the second terminal supports a session with the HIS; responsive to the terminal proximity condition being satisfied, providing an opportunity for signaling of an intent to transfer at least a portion of the session from the one of the terminals to the other of the terminals; and responsive to detection of an intent to transfer at least a portion of the session, transferring the at least a portion of the session, thereby to cause the at least a portion of the session to be supported by the other terminal.
    • 根据第一个广泛的方面,本发明寻求提供一种用HIS管理会话的方法。 该方法包括接收关于与第一终端相关联的无线可检测标签的数据; 至少部分地基于关于无线可检测标签的数据来确定第一终端是否相对于第二终端定位,使得终端邻近条件被满足,其中第一终端和第二终端中的一个支持与HIS的会话 ; 响应于所述终端邻近条件被满足,提供用于发送将所述会话的至少一部分从所述终端中的一个终端传送到所述终端中的另一终端的意图的机会; 并且响应于检测到传送所述会话的至少一部分的意图,传送所述会话的所述至少一部分,从而使所述会话的所述至少一部分由所述另一终端支持。
    • 2. 发明授权
    • Use of location awareness to establish and suspend communications sessions in a healthcare environment
    • 使用位置感知来建立和暂停医疗环境中的通信会话
    • US07676380B2
    • 2010-03-09
    • US11065047
    • 2005-02-25
    • Alan F. GravesBrian JohnsonJeff Fitchett
    • Alan F. GravesBrian JohnsonJeff Fitchett
    • G06Q50/00G06F17/30
    • G06F21/35G06F19/00G06Q50/22G16H40/20
    • A method of managing access to a healthcare information system of a healthcare establishment communications network. The method comprises receiving data regarding a wirelessly detectable tag associated with a clinician; determining whether the clinician is positioned relative to a terminal of the healthcare establishment communications network such that a proximity condition is satisfied based at least in part on the data regarding the wirelessly detectable tag; responsive to the proximity condition being satisfied, providing an opportunity for authentication of the clinician; and responsive to successful authentication of the clinician, establishing a session for the clinician between the terminal and the healthcare information system. The ability to detect proximity of clinician facilitates the process by which the clinician may access the healthcare information system, while the requirement for authentication of the clinician minimizes the risk of data being made available to an unauthorized party.
    • 一种管理对医疗机构通信网络的医疗保健信息系统的访问的方法。 该方法包括接收关于与临床医生相关联的无线可检测标签的数据; 确定临床医生是否相对于医疗保健机构通信网络的终端定位,使得至少部分地基于关于无线可检测标签的数据满足邻近条件; 响应于邻近条件被满足,提供临床医生认证的机会; 并且响应于临床医生的成功认证,为终端和保健信息系统之间的临床医生建立会话。 检测临床医生的接近程度的能力促进了临床医生可以访问保健信息系统的过程,而临床医生认证的要求使数据的可用性风险最小化给未授权方。
    • 4. 发明授权
    • Use of location awareness of establish communications with a target clinician in a healthcare environment
    • 使用位置感知来建立与医疗保健环境中的目标临床医生的沟通
    • US07801743B2
    • 2010-09-21
    • US11064930
    • 2005-02-25
    • Alan F. GravesJeff Fitchett
    • Alan F. GravesJeff Fitchett
    • G06Q10/00G06Q50/00
    • H04W64/00G06F19/00G06Q50/22
    • A method of communicating in a healthcare establishment. The method comprises receiving data indicative of a desire to communicate with a target clinician; receiving data regarding a wirelessly detectable tag associated with the target clinician; determining a location of the target clinician within the healthcare establishment based at least in part on the data regarding the wirelessly detectable tag; applying an unavailability policy to obtain an outcome indicating whether the target clinician is available for communication, the unavailability policy being a function of the location of the target clinician; and responsive to the outcome indicating that the target clinician is available for communication, performing an action to cause communication with the target clinician. In this way, time and effort will not be spent attempting to communicate with clinicians that are not considered to be available, even though they may be registered for duty.
    • 在医疗保健机构中进行沟通的方法。 该方法包括接收指示与目标临床医生通信的愿望的数据; 接收关于与目标临床医生相关联的无线可检测标签的数据; 至少部分地基于关于无线可检测标签的数据来确定医疗保健机构内的目标临床医生的位置; 应用不可用性策略以获得指示目标临床医生是否可用于通信的结果,不可用性策略是目标临床医生的位置的函数; 并且响应于指示目标临床医生可用于通信的结果,执行与目标临床医生进行通信的动作。 通过这种方式,即使可能注册了职务,也不会花费时间和精力与尝试与临床医生进行沟通,这些医师不被认为是可用的。
    • 5. 发明授权
    • Use of location awareness to request assistance for a medical event occurring in a healthcare environment
    • 使用位置感知来请求对在医疗保健环境中发生的医疗事件的帮助
    • US08180650B2
    • 2012-05-15
    • US11065420
    • 2005-02-25
    • Alan F. GravesJeff Fitchett
    • Alan F. GravesJeff Fitchett
    • G06Q50/00
    • G01V15/00G06F19/00G06Q50/22G06Q50/24G16H40/20
    • A method of requesting assistance for a medical event occurring in a hospital. The method comprises receiving data regarding a location of the medical event; receiving data regarding a type of the medical event; receiving data regarding at least one wirelessly detectable tag, each one of the at least one wirelessly detectable tag being associated with a respective one of at least one clinician; determining a location of each clinician within the hospital based at least in part on the data regarding the at least one wirelessly detectable tag; identifying at least one particular clinician as being eligible to provide assistance, based at least in part on the location of the medical event, the type of the medical event, and the respective location of each clinician; and performing an action to cause requesting of assistance for the medical event from each particular clinician.
    • 请求协助在医院发生的医疗事件的方法。 该方法包括接收关于医疗事件的位置的数据; 接收关于医疗事件的类型的数据; 接收关于至少一个无线可检测标签的数据,所述至少一个无线可检测标签中的每一个与至少一个临床医生中的相应一个相关联; 至少部分地基于关于所述至少一个无线可检测标签的数据来确定医院内每个临床医生的位置; 至少部分地基于医疗事件的位置,医疗事件的类型以及每个临床医生的相应位置来识别至少一个特定的临床医生有资格提供帮助; 并且执行动作以引起来自每个特定临床医师的医疗事件的协助。
    • 7. 发明授权
    • Wavelength architecture and implementation for a photonically switched network
    • 光子交换网络的波长架构和实现
    • US07035541B2
    • 2006-04-25
    • US09870665
    • 2001-06-01
    • Alan F. GravesJohn H. Watkins
    • Alan F. GravesJohn H. Watkins
    • H04J14/00
    • H04J14/0227H04J14/0241H04J14/0284H04Q11/0005H04Q2011/0016H04Q2011/0024H04Q2011/0081H04Q2011/0083
    • The photonic network of the present invention uses a cost-effective DWDM optimized switch architecture allowing the introduction of DWDM into the metro network. In this invention the optical carriers are all generated in the photonic layer at the edge photonic switching node and are allocated out to the photonic access nodes or central core data switch for modulation. This has the advantage of providing the optical carriers to be modulated from a centralized highly stable and precise source, thereby meeting the requirements for DWDM carrier precision, whilst generating these carriers in relatively close proximity to the modulators. Sparse WDM components can be used in the access portion of the network without adversely affecting the ability of the signal to transit the DWDM portion of the core network, since the optical carrier frequency is fixed at the centralized source and is unaffected by these components.
    • 本发明的光子网络使用成本有效的DWDM优化的交换机架构,允许将DWDM引入城域网。 在本发明中,光载波全部在边缘光子交换节点的光子层产生,并被分配给光子接入节点或中心核心数据交换机进行调制。 这具有从集中的高度稳定和精确的源提供要调制的光载波的优点,从而满足DWDM载波精度的要求,同时在相对靠近调制器的同时产生这些载波。 由于光载波频率固定在集中式源并且不受这些组件的影响,稀疏WDM组件可以用于网络的接入部分,而不会不利地影响信号传输核心网的DWDM部分的能力。
    • 9. 发明授权
    • Optical switch with connection verification
    • 具有连接验证的光开关
    • US06871021B2
    • 2005-03-22
    • US09859544
    • 2001-05-18
    • Alan F. GravesJohn G. GruberAndrew J. Bryant
    • Alan F. GravesJohn G. GruberAndrew J. Bryant
    • H04Q11/00H04B10/08H04J14/00
    • H04Q11/0005H04Q2011/0015H04Q2011/0043H04Q2011/0083H04Q2011/0084
    • An optical switch is equipped with a set of optical intensity controllers at its input, each intensity controller being driven to vary a corresponding WDM input traffic signal with a low power test signal. The switch is also equipped with optical splitters at its output and a path integrity analyzer connected to the splitters and to the intensity controllers. The path integrity analyzer generates or controls generation of the test signals applied by the intensity controllers. The path integrity analyzer also receives the tapped portions of the WDM output signals and separates them into their single-carrier components in order to recover a set of switched single-carrier optical signals. The path integrity analyzer is further provided with test signal detectors used to detect the presence of a test signal in each recovered switched single-carrier optical signal. The path integrity analyzer thus ascertains the integrity of the connection involving each switched single-carrier optical signal by comparing detected test signals to expected test signals that are derived from a connection map.
    • 光开关在其输入处配备有一组光强度控制器,每个强度控制器被驱动以用低功率测试信号来改变对应的WDM输入话务信号。 该开关还在其输出端配有光分路器,并连接到分路器和强度控制器的路径完整性分析器。 路径完整性分析器生成或控制由强度控制器施加的测试信号的产生。 路径完整性分析器还接收WDM输出信号的抽头部分并将它们分离成它们的单载波分量,以便恢复一组开关单载波光信号。 路径完整性分析器还提供有用于检测每个恢复的开关单载波光信号中的测试信号的存在的测试信号检测器。 路径完整性分析器因此通过将检测到的测试信号与从连接图导出的预期测试信号进行比较来确定涉及每个开关单载波光信号的连接的完整性。
    • 10. 发明授权
    • Chromatic dispersion discriminator
    • US06586724B2
    • 2003-07-01
    • US09842236
    • 2001-04-26
    • Alan F. Graves
    • Alan F. Graves
    • G01N2125
    • H04B10/25133
    • A chromatic dispersion discriminator for determining the amount of chromatic dispersion in optical signals used by optical transmission systems is described. The discriminator provides a means of detecting the polarity and magnitude of dispersion in optical signals received over a dispersive optical link, thereby allowing the correct amount of dispersion compensation to be applied to each optical signal. The dispersion discriminator includes: a splitter for dividing the optical signal into at least first and second portions; a first dispersion leg for causing a first additional amount of dispersion in the first portion; a second dispersion leg for causing a second additional amount of dispersion in the second portion that is opposite in polarity and substantially equal in magnitude to the first additional amount such that the amount of dispersion in the second portion is detectably different from the amount of dispersion in the first portion; and a dispersion detector for receiving the first and second portions from the respective dispersion legs, determining the amount of dispersion in the optical signal by detecting a difference between the amount of dispersion in the first and second portions, and providing an indication of said amount of dispersion in the optical signal.