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    • 73. 发明授权
    • Determination of a magnetic resonance imaging pulse sequence protocol classification
    • 确定磁共振成像脉冲序列协议分类
    • US09523750B2
    • 2016-12-20
    • US14002206
    • 2012-02-21
    • Julien SenegasStefanie RemmeleMichael Lee
    • Julien SenegasStefanie RemmeleMichael Lee
    • G01R33/54G01R33/56G06F19/00G06F11/32
    • G01R33/54G01R33/543G01R33/546G01R33/5608G06F11/327G06F19/00G06F19/321G06F19/34G16H40/63
    • A medical imaging device (300) includes a magnetic resonance imaging system (302) and a memory (334) containing machine executable instructions (370, 372, 374, 376, 378, 380, 382, 384, 386) for execution by a processor (328). Execution of the instructions causes the processor to receive (100, 204) a pulse sequence protocol (340). Execution of the instructions further causes the processor to determine (102, 206) a pulse sequence type classification (342) descriptive of the pulse sequence protocol. Execution of the instructions further cause the processor to determine (104, 208) a magnetic resonance contrast classification (344). The choice of the magnetic resonance contrast classification depends upon the pulse sequence type classification. Execution of the instructions further causes the processor to determine (106, 210) a pulse sequence protocol classification (346). The pulse sequence protocol classification is determined by the pulse sequence type classification and the magnetic resonance contrast classification.
    • 医疗成像设备(300)包括磁共振成像系统(302)和包含机器可执行指令(370,372,374,384,378,380,382,384,386)的存储器,用于由处理器执行 (328)。 执行指令使得处理器接收(100,204)脉冲序列协议(340)。 执行指令还使处理器确定(102,206)描述脉冲序列协议的脉冲序列类型分类(342)。 执行指令还使处理器确定(104,208)磁共振对比度分类(344)。 磁共振对比度分类的选择取决于脉冲序列类型分类。 执行指令还使处理器确定(106,210)脉冲序列协议分类(346)。 脉冲序列协议分类由脉冲序列类型分类和磁共振对比分类决定。
    • 74. 发明授权
    • Access point group controller failure notification system
    • 接入点组控制器故障通知系统
    • US09489281B2
    • 2016-11-08
    • US14558455
    • 2014-12-02
    • Dell Products L.P.
    • Christopher Stephen PetrickRabah S. Hamdi
    • G06F11/00G06F11/32G06F11/07G06F11/20
    • G06F11/327G06F11/0709G06F11/0748G06F11/0784G06F11/142G06F11/202G06F11/2028G06F11/3058G06F11/3409H04L69/40H04W24/04
    • An access point IHS group controller failure notification system includes access point IHSs connected to a network and members of an access point IHS group. A first access point IHS group controller for the access point IHS group is also coupled to the network. The first access point IHS group controller detects a failure issue associated with its imminent failure and, in response, creates an imminent failure message that includes an identifier for the first access point IHS group controller. The imminent failure message may also include timing information that indicates when the first access point IHS group controller will again be available, and/or a second identifier for a second access point IHS group controller that is available for controlling the access point IHS group. The first access point IHS group controller then sends the imminent failure message through the network to each of the plurality of access point IHSs.
    • 接入点IHS组控制器故障通知系统包括连接到网络的接入点IHS以及接入点IHS组的成员。 用于接入点IHS组的第一接入点IHS组控制器也耦合到网络。 第一接入点IHS组控制器检测与其即将发生的故障相关联的故障问题,并作为响应,创建即将发生的故障消息,该消息包括第一接入点IHS组控制器的标识符。 即将发生的故障消息还可以包括指示何时第一接入点IHS组控制器将再次可用的定时信息,和/或可用于控制接入点IHS组的第二接入点IHS组控制器的第二标识符。 第一接入点IHS组控制器然后通过网络将即将发生的故障消息发送到多个接入点IHS中的每一个。
    • 76. 发明申请
    • INTELLIGENT METHOD FOR CALIBRATING BATTERY CAPACITY
    • 用于校准电池容量的智能方法
    • US20160245873A1
    • 2016-08-25
    • US14630348
    • 2015-02-24
    • Quanta Computer Inc.
    • Wen-Kai Lee
    • G01R31/36G06F11/30
    • G01R31/3651G01R31/3679G06F11/3003G06F11/3058G06F11/327G06F2201/81
    • Various embodiments of the present technology provide methods for calibrating a full-charge capacity of a battery system. In some implementations, the battery system can be caused to enter into a static learning mode. During the static learning mode, current and past battery cell characteristics for each battery cell of the battery system can be collected, analyzed, and used to build up or update a database of correlations between a full-charge capacity of a specific type of battery cell and cell characteristics of a corresponding type of battery cell. The full-charge capacity of the battery system can be determined based at least upon cell characteristics of battery cells of the battery system, or the database of correlations between a full-charge capacity of a specific type of battery cell and cell characteristics of battery cells in the battery system.
    • 本技术的各种实施例提供了校准电池系统的满充电容量的方法。 在一些实施方式中,可以使电池系统进入静态学习模式。 在静态学习模式下,可以收集,分析和使用电池系统的每个电池单元的当前和过去的电池单元特性来建立或更新特定类型的电池单元的满充电容量之间的相关性的数据库 和相应类型的电池单元的电池特性。 电池系统的全充电容量可以至少基于电池系统的电池单元的电池特性或特定类型的电池单元的满充电容量与电池单元的电池特性之间的相关性的数据库来确定 在电池系统中。
    • 78. 发明申请
    • CONFIGURING SERIAL DEVICES
    • 配置串行设备
    • US20160224505A1
    • 2016-08-04
    • US14612042
    • 2015-02-02
    • ATMEL CORPORATION
    • Daniel HarfertRichard V. De Caro
    • G06F13/42G06F11/30G06F11/32G06F13/16
    • G06F13/4282G06F9/4411G06F11/3027G06F11/3037G06F11/327G06F13/1694
    • Systems, methods, circuits, devices and computer-readable mediums for configuring serial devices are disclosed. In some implementations, a device comprises: an input for receiving first and second requests from a serial bus; a decoder coupled to the input and configured to determine if either of the first and second requests is a configuration mode request; a controller coupled to the decoder and configured to: in response to a determination that the first request is a configuration mode request, program a configuration block with configuration data obtained from the serial bus and alter a device behavior according to the configuration data; and in response to a determination that the second request is not a configuration mode request, perform one or more actions on the device according to the second request.
    • 公开了用于配置串行设备的系统,方法,电路,设备和计算机可读介质。 在一些实现中,设备包括:用于从串行总线接收第一和第二请求的输入; 耦合到所述输入并被配置为确定所述第一和第二请求中的任一个是配置模式请求的解码器; 耦合到所述解码器的控制器,被配置为响应于所述第一请求是配置模式请求的确定,使用从所述串行总线获得的配置数据对配置块进行编程,并根据所述配置数据改变设备行为; 并且响应于第二请求不是配置模式请求的确定,根据第二请求对设备执行一个或多个动作。