公开(公告)号：US07699418B2

公开(公告)日：2010-04-20

申请号：US11868319

申请日：2007-10-05

申请人： Yue Gao ,  Katsuhiro Okubo

发明人： Yue Gao ,  Katsuhiro Okubo

IPC分类号： B41J25/308 ,  B41J29/38 ,  B41J29/393

CPC分类号： B41J2/16579 ,  B41J25/308

摘要： A liquid jetting apparatus and a liquid jetting method are achieved that can prevent unexpected landing position displacement relating to satellite droplets. For example, the liquid jetting apparatus includes a head in which a nozzle row constituted by a plurality of nozzles lined up in a row is arranged at a medium-opposing surface which is in opposition to a medium, a head movement section that moves the head in a predetermined direction along a surface of the medium, a spacing adjustment section that adjusts a spacing between the head and the medium, and an ejection control section that carries out ejection control of a liquid by determining at least one non-ejection nozzle among a plurality of nozzles sandwiched between a nozzle at one end of the nozzle row and a nozzle at another end thereof, the non-ejection nozzle being a nozzle which is caused not to eject liquid, the number of the non-ejection nozzle being determined according to a spacing from the medium-opposing surface to the surface of the medium.

摘要翻译： 实现了能够防止与卫星液滴有关的意外着陆位置位移的液体喷射装置和液体喷射方法。 例如，液体喷射装置包括：头部，其中由排列成排的多个喷嘴构成的喷嘴列布置在与介质相对的介质相对表面上;头部移动部分，其移动头部 沿着介质的表面沿预定方向，调节头部和介质之间的间隔的间隔调整部分，以及通过确定至少一个非喷射喷嘴来执行液体的喷射控制的喷射控制部分 喷嘴列的一端的喷嘴和其另一端的喷嘴之间夹有多个喷嘴，不喷射喷嘴是不喷出液体的喷嘴，不喷射喷嘴的数量根据 从介质相对表面到介质表面的间隔。

公开(公告)号：US07467835B2

公开(公告)日：2008-12-23

申请号：US11081810

申请日：2005-03-17

申请人： Yue Gao ,  Katsuhiro Okubo

发明人： Yue Gao ,  Katsuhiro Okubo

IPC分类号： B41J25/308 ,  B41J29/393

CPC分类号： B41J2/16579 ,  B41J25/308

摘要： A liquid jetting apparatus and a liquid jetting method are achieved that can prevent unexpected landing position displacement relating to satellite droplets. For example, the liquid jetting apparatus includes a head in which a nozzle row constituted by a plurality of nozzles lined up in a row is arranged at a medium-opposing surface which is in opposition to a medium, a head movement section that moves the head in a predetermined direction along a surface of the medium, a spacing adjustment section that adjusts a spacing between the head and the medium, and an ejection control section that carries out ejection control of a liquid by determining at least one non-ejection nozzle among a plurality of nozzles sandwiched between a nozzle at one end of the nozzle row and a nozzle at another end thereof, the non-ejection nozzle being a nozzle which is caused not to eject liquid, the number of the non-ejection nozzle being determined according to a spacing from the medium-opposing surface to the surface of the medium.

摘要翻译： 实现了能够防止与卫星液滴有关的意外着陆位置位移的液体喷射装置和液体喷射方法。 例如，液体喷射装置包括：头部，其中由排列成排的多个喷嘴构成的喷嘴列布置在与介质相对的介质相对表面上;头部移动部分，其移动头部 沿着介质的表面沿预定方向，调节头部和介质之间的间隔的间隔调整部分，以及通过确定至少一个非喷射喷嘴来执行液体的喷射控制的喷射控制部分 喷嘴列的一端的喷嘴和其另一端的喷嘴之间夹有多个喷嘴，不喷射喷嘴是不喷出液体的喷嘴，不喷射喷嘴的数量根据 从介质相对表面到介质表面的间隔。

公开(公告)号：US08675488B1

公开(公告)日：2014-03-18

申请号：US12876901

申请日：2010-09-07

申请人： Gregory A. Sidebottom ,  Claudio Lordello ,  Steffen Ries ,  Yue Gao ,  Sherine El-Medani ,  Gregory M. Dalle ,  Jason P. Poirier ,  Paulo Lima ,  Vitaly Dzhitenov

发明人： Gregory A. Sidebottom ,  Claudio Lordello ,  Steffen Ries ,  Yue Gao ,  Sherine El-Medani ,  Gregory M. Dalle ,  Jason P. Poirier ,  Paulo Lima ,  Vitaly Dzhitenov

IPC分类号： H04B7/216 ,  G01R31/08

CPC分类号： H04L67/141 ,  H04L67/147 ,  H04L67/148

摘要： In general, the invention is directed to techniques for offloading per-subscriber traffic management from an access gateway to one or more upstream service nodes within a service provider network. For example, as described herein, an upstream service node receives a new packet flow for a subscriber and sends packet flow information, such as a network address, to a session and resource controller (SRC). The SRC maintains a table of subscriber attachment sessions and maps the packet flow information to a subscriber attachment session in the table to obtain a subscriber identifier for a subscriber. The SRC then determines subscriber-specific services to be applied to subscriber data traffic, transforms the services to a set of one or more enforcement policies, and returns the enforcement policies to the service node. In turn, the service node applies the enforcement policies for the subscriber-specific services to the subscriber data traffic in the packet flow.

摘要翻译： 一般来说，本发明涉及将每用户流量管理从接入网关卸载到服务提供商网络内的一个或多个上行业务节点的技术。 例如，如上所述，上游服务节点接收用户的新分组流，并将诸如网络地址的分组流信息发送到会话和资源控制器（SRC）。 SRC维护订户附着会话表，并将分组流信息映射到表中的订户附着会话，以获得用户的用户标识符。 然后，SRC确定要应用于用户数据业务的订户特定业务，将业务转换成一组一个或多个强制策略，并将执行策略返回给业务节点。 反过来，服务节点将用户特定服务的强制策略应用于分组流中的用户数据业务。

公开(公告)号：US20110234707A1

公开(公告)日：2011-09-29

申请号：US13069339

申请日：2011-03-22

申请人： Yue Gao

发明人： Yue Gao

IPC分类号： B41J2/045

CPC分类号： B41J2/14233 ,  B41J2002/14241 ,  B41J2002/14491 ,  B41J2202/11

摘要： A piezoelectric element including a first electrode serving as an individual electrode, a piezoelectric layer, and a second electrode serving as a common electrode is attached on a face of a flow path substrate via a vibrating plate. A piezoelectric active portion defined by the first electrode and the second electrode serving as a substantial driver of the piezoelectric element is provided in a region opposing the pressure chamber. An opening formed by removing the second electrode and the piezoelectric layer is provided in a region of the piezoelectric element opposing the partition wall. A wiring electrode and the second electrode provided on the flow path substrate are connected via a common lead electrode provided on the piezoelectric active portion, and the common lead electrode is provided at least on the partition wall inside the opening.

摘要翻译： 包括用作单独电极的第一电极，压电层和用作公共电极的第二电极的压电元件通过振动板安装在流路基板的表面上。 在与压力室相对的区域中设置由作为压电元件的实质驱动器的第一电极和第二电极限定的压电有源部分。 在压电元件与隔壁相对的区域中设置有通过去除第二电极和压电层形成的开口。 设置在流路基板上的布线电极和第二电极经由设置在压电有源部分上的公共引线电极连接，公共引线电极至少设置在开口内的分隔壁上。

公开(公告)号：US07765096B1

公开(公告)日：2010-07-27

申请号：US12114928

申请日：2008-05-05

申请人： Martin Bokaemper ,  Yue Gao ,  Yong Wang ,  Greg Sidebottom

发明人： Martin Bokaemper ,  Yue Gao ,  Yong Wang ,  Greg Sidebottom

IPC分类号： G06F9/455

CPC分类号： G06F11/3495 ,  G06F11/3414 ,  G06F11/3419 ,  G06F11/3452 ,  G06F11/3457 ,  H04L41/142 ,  H04L41/145 ,  H04L43/50

摘要： A network testing environment includes a control server and a testing cluster composed of one or more load generating devices. The load generating devices output network communications in a non-deterministic manner to model real-world network users and test a network system. The load generating devices operate in accordance with probabilistic state machines distributed by the control server. The probabilistic state machines model patterns of interaction between users and the network system.

摘要翻译： 网络测试环境包括由一个或多个负载生成设备组成的控制服务器和测试集群。 负载产生设备以非确定性的方式输出网络通信以对现实世界的网络用户进行建模和测试网络系统。 负载产生装置根据由控制服务器分配的概率状态机进行操作。 概率状态机模型用户与网络系统之间的交互模式。

公开(公告)号：US07376550B1

公开(公告)日：2008-05-20

申请号：US11258985

申请日：2005-10-26

申请人： Martin Bokaemper ,  Yue Gao ,  Yong Wang ,  Greg Sidebottom

发明人： Martin Bokaemper ,  Yue Gao ,  Yong Wang ,  Greg Sidebottom

IPC分类号： G06F9/455

CPC分类号： G06F11/3495 ,  G06F11/3414 ,  G06F11/3419 ,  G06F11/3452 ,  G06F11/3457 ,  H04L41/142 ,  H04L41/145 ,  H04L43/50

摘要： A network testing environment includes a control server and a testing cluster composed of one or more load generating devices. The load generating devices output network communications in a non-deterministic manner to model real-world network users and test a network system. The load generating devices operate in accordance with probabilistic state machines distributed by the control server. The probabilistic state machines model patterns of interaction between users and the network system.

摘要翻译： 网络测试环境包括由一个或多个负载生成设备组成的控制服务器和测试集群。 负载产生设备以非确定性的方式输出网络通信以对现实世界的网络用户进行建模和测试网络系统。 负载产生装置根据由控制服务器分配的概率状态机进行操作。 概率状态机模型用户与网络系统之间的交互模式。

公开(公告)号：US20050270317A1

公开(公告)日：2005-12-08

申请号：US11081810

申请日：2005-03-17

申请人： Yue Gao ,  Katsuhiro Okubo

发明人： Yue Gao ,  Katsuhiro Okubo

IPC分类号： B41J2/165 ,  B41J25/308

CPC分类号： B41J2/16579 ,  B41J25/308

摘要： A liquid jetting apparatus and a liquid jetting method are achieved that can prevent unexpected landing position displacement relating to satellite droplets. For example, the liquid jetting apparatus includes a head in which a nozzle row constituted by a plurality of nozzles lined up in a row is arranged at a medium-opposing surface which is in opposition to a medium, a head movement section that moves the head in a predetermined direction along a surface of the medium, a spacing adjustment section that adjusts a spacing between the head and the medium, and an ejection control section that carries out ejection control of a liquid by determining at least one non-ejection nozzle among a plurality of nozzles sandwiched between a nozzle at one end of the nozzle row and a nozzle at another end thereof, the non-ejection nozzle being a nozzle which is caused not to eject liquid, the number of the non-ejection nozzle being determined according to a spacing from the medium-opposing surface to the surface of the medium.

摘要翻译： 实现了能够防止与卫星液滴有关的意外着陆位置位移的液体喷射装置和液体喷射方法。 例如，液体喷射装置包括：头部，其中由排列成排的多个喷嘴构成的喷嘴列布置在与介质相对的介质相对表面上;头部移动部分，其移动头部 沿着介质的表面沿预定方向，调节头部和介质之间的间隔的间隔调整部分，以及通过确定至少一个非喷射喷嘴来执行液体的喷射控制的喷射控制部分 喷嘴列的一端的喷嘴和其另一端的喷嘴之间夹有多个喷嘴，不喷射喷嘴是不喷出液体的喷嘴，不喷射喷嘴的数量根据 从介质相对表面到介质表面的间隔。