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    • 61. 发明授权
    • Artificial compound eye with adaptive microlenses
    • 具有自适应微透镜的人造复合眼
    • US08964019B2
    • 2015-02-24
    • US13336075
    • 2011-12-23
    • Yi ZhaoHansong Zeng
    • Yi ZhaoHansong Zeng
    • A61B3/113
    • A61F2/141H04N7/18
    • An artificial compound eye formed of three layers of membrane bonded to one another in a stacked relationship. A field chamber is located intermediate the two bottommost membranes. A plurality of focus chambers is located intermediate the two topmost membranes, and an image sensor is located below each focus chamber. The field chamber and each focus chamber contain a pressurized fluid medium. The ceilings of the focus chambers function as lenses though which light must pass to reach the sensors. The fluid pressure in the field chamber can be varied to expand or contract the eye between a planer and a domed configuration, thereby allowing the field of view of the eye to be varied. The fluid pressure in each focus chamber can be varied to expand or contract each lens between a planar and a domed configuration for independently varying the focal length of each lens.
    • 由层叠的三层膜相互结合的人造复眼。 场室位于两个最下面的膜之间。 多个焦点室位于两个最上面的膜之间,并且图像传感器位于每个聚焦室下方。 场室和每个焦点室包含加压流体介质。 焦点室的天花板作为透镜,光必须通过以到达传感器。 可以改变场室中的流体压力以在刨床和穹顶构型之间扩大或收缩眼睛,从而允许眼睛的视野变化。 可以改变每个聚焦室中的流体压力,以便在平面和圆顶形状之间扩展或收缩每个透镜,以独立地改变每个透镜的焦距。
    • 63. 发明申请
    • Artificial Compound Eye With Adaptive Microlenses
    • 具有自适应微透镜的人造复合眼
    • US20130162788A1
    • 2013-06-27
    • US13336075
    • 2011-12-23
    • Yi ZhaoHansong Zeng
    • Yi ZhaoHansong Zeng
    • H04N7/18
    • A61F2/141H04N7/18
    • An artificial compound eye formed of three layers of membrane bonded to one another in a stacked relationship. A field chamber is located intermediate the two bottommost membranes. A plurality of focus chambers is located intermediate the two topmost membranes, and an image sensor is located below each focus chamber. The field chamber and each focus chamber contain a pressurized fluid medium. The ceilings of the focus chambers function as lenses though which light must pass to reach the sensors. The fluid pressure in the field chamber can be varied to expand or contract the eye between a planer and a domed configuration, thereby allowing the field of view of the eye to be varied. The fluid pressure in each focus chamber can be varied to expand or contract each lens between a planar and a domed configuration for independently varying the focal length of each lens.
    • 由层叠的三层膜相互结合的人造复眼。 场室位于两个最下面的膜之间。 多个焦点室位于两个最上面的膜之间,并且图像传感器位于每个聚焦室下方。 场室和每个焦点室包含加压流体介质。 焦点室的天花板作为透镜,光必须通过以到达传感器。 可以改变场室中的流体压力以在刨床和穹顶构型之间扩大或收缩眼睛,从而允许眼睛的视野变化。 可以改变每个聚焦室中的流体压力,以便在平面和圆顶形状之间扩展或收缩每个透镜,以独立地改变每个透镜的焦距。
    • 64. 发明申请
    • MEASUREMENT REPORTING METHOD AND DEVICE IN CARRIER AGGREGATION SYSTEM
    • 测量报告方法和载体聚集系统中的设备
    • US20120244905A1
    • 2012-09-27
    • US13514261
    • 2010-11-24
    • Yi ZhaoJing Liang
    • Yi ZhaoJing Liang
    • H04W24/10
    • H04W24/10H04L5/001H04L5/0091
    • Provided in the embodiments of the present invention are a measurement reporting method and device in a CA system. The method includes: UE receives the message from the network side; according to the message, the said UE judges the component carriers and/or measurement object whether meet the condition of triggering measurement reporting or not; when result is true, UE reports measurement information of at least one component carrier and/or measurement information of at least one measurement object to the network side by measurement report message. In the invention, the UE can report the measurement information of multiple carriers and/or frequencies together, therefore, it simplifies the reporting process, reduces the system time delay, and makes the network side easier to perform carrier management for LTE-A UE.
    • 在本发明的实施例中提供了一种CA系统中的测量报告方法和装置。 该方法包括:UE从网络侧接收消息; 根据该消息,所述UE判断分量载波和/或测量对象是否满足触发测量报告的条件; 当结果为真时,UE通过测量报告消息向网络侧报告至少一个测量对象的至少一个分量载波和/或测量信息的测量信息。 在本发明中,UE可以将多个载波和/或频率的测量信息报告在一起,从而简化报告过程,减少系统时延,并使网络侧更容易对LTE-A UE进行载波管理。
    • 66. 发明申请
    • Method and Apparatus for Uplink Synchronization Control
    • 上行同步控制方法与装置
    • US20120063425A1
    • 2012-03-15
    • US13320537
    • 2010-05-11
    • Zhixue WangGuoqing LiYi ZhaoJiamin LiuYali ZhaoFangli Xu
    • Zhixue WangGuoqing LiYi ZhaoJiamin LiuYali ZhaoFangli Xu
    • H04W56/00
    • H04W56/0045H04W92/10
    • The present invention discloses a method for uplink synchronization control, wherein network side and a user equipment (UE) maintain a timing alignment timer (TAT) for the UE, and maintain an uplink transmission timing adjustment amount for uplink component carriers, and the method includes following steps: the network side measuring uplink component carriers of the UE, and obtaining an uplink transmission TA amount of the uplink component carriers; and before the TAT expires, the network side transmitting to the UE an adjustment command comprising information of the uplink transmission TA amount for at least one of the uplink component carriers of the UE. Also disclosed in the embodiments of the present invention are a method for uplink synchronization control at the UE side, and a base station and a UE for implementing the above methods. The solution of the present invention enables accurate adjustment of the uplink synchronization for each component carrier in a carrier aggregation mechanism.
    • 本发明公开了一种上行链路同步控制方法,其中网络侧和用户设备(UE)维护用于UE的定时对准定时器(TAT),并维持上行链路分量载波的上行链路传输定时调整量,该方法包括 以下步骤:网络侧测量UE的上行链路分量载波,并获得上行链路分量载波的上行链路传输TA量; 并且在TAT到期之前,网络侧向UE发送包括UE的上行链路分量载波中的至少一个的上行链路传输TA的信息的调整命令。 在本发明的实施例中也公开了一种用于UE侧的上行链路同步控制的方法,以及用于实现上述方法的基站和UE。 本发明的解决方案能够准确地调整载波聚合机制中的每个分量载波的上行链路同步。
    • 69. 发明申请
    • METHOD FOR REALIZING TIME SLOT PARTITION AND SPENDING PROCESS OF AN OPTICAL PAYLOAD UNIT IN AN OPTICAL TRANSMISSION NETWORK
    • 用于实现光传输网络中光学载波单元的时隙分段和发送过程的方法
    • US20100221005A1
    • 2010-09-02
    • US12681953
    • 2007-12-29
    • Yi Zhao
    • Yi Zhao
    • H04J14/08
    • H04J3/1652
    • A method of time slot partitioning and overhead processing of an optical channel payload unit in OTN comprises: A. determining the number of time slots to be partitioned and mapping modes for the OPU based on properties of service signals; B. assigning reserved values of payload structure identification bytes in OPU overhead based on the partitioning of the time slots; and C. assigning values for reserved bits 1 to 6 of adjustment control bytes to represent a multiframe in the optical channel payload unit overhead. The present invention partitions the payload area of the OPU only by redefining overhead bytes in the original specification and increasing relevant portion of time slot partitioning in order to increase effectiveness of bandwidth at lower expense and flexibility of the mapping modes such that the existing network has good compatibility without being changed greatly.
    • OTN中的光信道有效载荷单元的时隙分割和开销处理方法包括:A.根据业务信号的属性确定待划分的时隙数量和OPU的映射模式; B.根据时隙的划分,在OPU开销中分配有效负载结构标识字节的保留值; 和C.为调整控制字节的保留位1至6分配值以表示光信道有效载荷单元开销中的多帧。 本发明仅通过重新定义原始规范中的开销字节并增加时隙划分的相关部分来划分OPU的有效载荷区域,以便以更低的成本增加带宽的有效性和映射模式的灵活性,使得现有网络具有良好的 兼容性没有大的变化。