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    • 1. 发明申请
    • Scheduling Events on an Electronic Calendar Utilizing Fixed-positioned Events and a Draggable Calendar Grid
    • 使用固定位置事件和可拖动日历网格在电子日历上安排事件
    • US20160231912A9
    • 2016-08-11
    • US13621839
    • 2012-09-17
    • Ciprian CostaDaniel Klausmeier
    • Ciprian CostaDaniel Klausmeier
    • G06F3/0484
    • G06F3/04845G06F3/0481G06F3/04847G06F3/0486G06F3/0488G06F2203/04806G06Q10/1093
    • A method for scheduling an event in a calendar application is disclosed wherein the event is held at a fixed position on the screen of a device and a calendar grid is dragged relative to the event. The method is well-suited for touch devices and provides a way for the user to easily create and schedule events directly on a calendar grid without the need to enter event start and end times into a form. A view finder assists the user to set the desired start and end time. The view finder supports different zoom precisions which allow the user to enter start and end times of any granularity such as one minute granularity. A micro-dragging technique provides a way to easily select start and end times with high precision. The method may be extended to general applications where it is desirable to drag objects on a workspace.
    • 公开了一种用于在日历应用程序中调度事件的方法,其中事件被保持在设备的屏幕上的固定位置,并且相对于该事件拖动日历网格。 该方法非常适用于触摸设备,并为用户提供了一种方便地直接在日历网格上创建和调度事件,而无需将事件开始和结束时间输入到表单中。 取景器帮助用户设置所需的开始和结束时间。 取景器支持不同的缩放精度,允许用户输入任何粒度的开始和结束时间,例如一分钟粒度。 微拖动技术提供了一种以高精度轻松选择开始和结束时间的方法。 该方法可以扩展到希望在工作空间上拖动对象的一般应用。
    • 3. 发明申请
    • Scheduling Events on an Electronic Calendar Utilizing Fixed-positioned Events and a Draggable Calendar Grid
    • 使用固定位置事件和可拖动日历网格在电子日历上安排事件
    • US20140082536A1
    • 2014-03-20
    • US13621839
    • 2012-09-17
    • Ciprian CostaDaniel Klausmeier
    • Ciprian CostaDaniel Klausmeier
    • G06F3/0484
    • G06F3/04845G06F3/0481G06F3/04847G06F3/0486G06F3/0488G06F2203/04806G06Q10/1093
    • A method for scheduling an event in a calendar application is disclosed wherein the event is held at a fixed position on the screen of a device and a calendar grid is dragged relative to the event. The method is well-suited for touch devices and provides a way for the user to easily create and schedule events directly on a calendar grid without the need to enter event start and end times into a form. A view finder assists the user to set the desired start and end time. The view finder supports different zoom precisions which allow the user to enter start and end times of any granularity such as one minute granularity. A micro-dragging technique provides a way to easily select start and end times with high precision. The method may be extended to general applications where it is desirable to drag objects on a workspace.
    • 公开了一种用于在日历应用程序中调度事件的方法,其中事件被保持在设备的屏幕上的固定位置,并且相对于该事件拖动日历网格。 该方法非常适用于触摸设备,并为用户提供了一种方便地直接在日历网格上创建和调度事件,而无需将事件开始和结束时间输入到表单中。 取景器帮助用户设置所需的开始和结束时间。 取景器支持不同的缩放精度,允许用户输入任何粒度的开始和结束时间,例如一分钟粒度。 微拖动技术提供了一种以高精度轻松选择开始和结束时间的方法。 该方法可以扩展到希望在工作空间上拖动对象的一般应用。
    • 4. 发明申请
    • Hierarchical Events
    • 分层事件
    • US20080141145A1
    • 2008-06-12
    • US11944581
    • 2007-11-23
    • Daniel Klausmeier
    • Daniel Klausmeier
    • G06F3/048
    • G06Q10/109
    • Systems and methods for the organization of hierarchical events are disclosed. A parent event in a first calendar application workspace classifies a hierarchy of events. A child event child event corresponds to a hierarchy of events. Identification of the parent event and a new child event results in the display of the new child event in a second calendar application workspace, the new child event being a scheduled event in the hierarchy of events that does not indicate a calendaring conflict with the parent event. A collaborative organization environment for discussion concerning the new child event may be provided.
    • 公开了用于分层事件组织的系统和方法。 第一个日历应用程序工作空间中的父事件会对事件的层次结构进行分类。 子事件子事件对应于事件的层次结构。 父事件和新的子事件的识别导致在第二个日历应用程序工作空间中显示新的子事件,新的子事件是不指示与父事件的日历冲突的事件层次结构中的计划事件 。 可以提供关于新的儿童事件的协作组织环境。
    • 5. 发明授权
    • Hierarchical events
    • 分层事件
    • US08578301B2
    • 2013-11-05
    • US11944581
    • 2007-11-23
    • Daniel Klausmeier
    • Daniel Klausmeier
    • G06F3/048G06F3/00G06Q10/00
    • G06Q10/109
    • Systems and methods for the organization of hierarchical events are disclosed. A parent event in a first calendar application workspace classifies a hierarchy of events. A child event child event corresponds to a hierarchy of events. Identification of the parent event and a new child event results in the display of the new child event in a second calendar application workspace, the new child event being a scheduled event in the hierarchy of events that does not indicate a calendaring conflict with the parent event. A collaborative organization environment for discussion concerning the new child event may be provided.
    • 公开了用于分层事件组织的系统和方法。 第一个日历应用程序工作空间中的父事件会对事件的层次结构进行分类。 子事件子事件对应于事件的层次结构。 父事件和新的子事件的标识导致在第二个日历应用程序工作空间中显示新的子事件,新的子事件是不指示与父事件的日历冲突的事件层次结构中的计划事件 。 可以提供关于新的儿童事件的协作组织环境。
    • 8. 发明授权
    • Transparent flexible concatenation
    • 透明柔性连接
    • US07173930B2
    • 2007-02-06
    • US10185330
    • 2002-06-28
    • Tom WellbaumDaniel Klausmeier
    • Tom WellbaumDaniel Klausmeier
    • H04L12/66H04L12/28H04J3/24H04J3/04
    • H04J3/1611H04J3/0623H04J2203/0003H04J2203/0032H04J2203/0091H04J2203/0096H04Q11/0478
    • Data frames are converted to a format suitable for transparent, flexible concatenated transport such that a network element not supporting flexible concatenation may transparently pass the data frames. Flexible concatenation involves nonstandard data frames such as an STS-4c or an STS-Nc in which the time slots do not occupy rigidly defined contiguous time slots. In transparent flexible concatenation, the pointer from the parent time slot is used for each of the child time slots and the concatenation identifier is set to indicate no concatenation. In this way, the concatenated data appears to be a series of conventional STS-1s such that pointer processing may be successfully accomplished even by a network element not capable of handling non-standard concatenations. A downstream receive framer reconstructs the original STS-Nc based on the N STS-1s and a concatenation table the contents of which are shared between the transmit framer and the downstream receive framer.
    • 数据帧被转换成适合于透明,灵活的级联传输的格式,使得不支持灵活级联的网络元件可以透明地传递数据帧。 灵活连接涉及非标准数据帧,例如STS-4C或STS-Nc,其中时隙不占用刚性定义的连续时隙。 在透明灵活连接中,父时隙中的指针用于每个子时隙,并且级联标识符被设置为指示不连接。 以这种方式,连接的数据似乎是一系列常规STS-1,使得即使由不能处理非标准级联的网络元件也可以成功地实现指针处理。 下行接收成帧器基于N STS-1s重建原始STS-Nc,并且在发送成帧器和下行接收成帧器之间共享其内容的级联表。
    • 9. 发明申请
    • Distribution stage for enabling efficient expansion of a switching network
    • 用于实现交换网络高效扩展的分发阶段
    • US20050157713A1
    • 2005-07-21
    • US10428048
    • 2003-05-02
    • Daniel KlausmeierEdward Sprague
    • Daniel KlausmeierEdward Sprague
    • H04Q3/68H04Q11/00
    • H04Q3/68
    • A distribution stage is disclosed comprising a plurality of inputs coupled to a plurality of first stage switching devices, a plurality of outputs coupled to a plurality of second stage switching devices, and a distribution configuration. The distribution configuration is configured to receive a plurality of bandwidth units (BU's) from each first stage switching device, and to distribute at least one BU from each first stage switching device to each second stage switching device, such that each second stage switching device is assured of receiving at least one BU from each first stage switching device. In effect, the distribution stage ensures that each first stage switching device has a logical link to each second stage switching device. In one embodiment, the distribution stage is configured in accordance with a distribution configuration that is static. Because the distribution configuration of the distribution stage is static, it does not add complexity to the overall switching determination of a switching network. Thus, the distribution stage enables the switching network to be expanded without degrading the switching performance of the network.
    • 公开了一种分配阶段,包括耦合到多个第一级交换设备的多个输入,耦合到多个第二级交换设备的多个输出以及分配配置。 分配配置被配置为从每个第一级交换设备接收多个带宽单元(BU),并且将来自每个第一级交换设备的至少一个BU分配给每个第二级交换设备,使得每个第二级交换设备是 确保从每个第一级切换装置接收至少一个BU。 实际上,分配阶段确保每个第一级交换设备具有到每个第二级交换设备的逻辑链路。 在一个实施例中,分配阶段根据静态的分布配置来配置。 由于分布阶段的分布配置是静态的,因此交换网络的整体交换确定不会增加复杂性。 因此,分发阶段使得能够扩展交换网络,而不降低网络的交换性能。