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    • 31. 发明授权
    • Method for selecting subchannel mode and MIMO communication system using the same
    • 用于选择子信道模式的方法和使用其的MIMO通信系统
    • US08488704B2
    • 2013-07-16
    • US12370428
    • 2009-02-12
    • Jie ZhangHua ZhouJinyin Xue
    • Jie ZhangHua ZhouJinyin Xue
    • H04L1/02H04B7/02
    • H04L1/0001
    • The invention relates to Method for Selecting Subchannel Mode and MIMO Communication System Using the Same. A method for self-adaptively selecting a code modulation sub-channel mode is suitably used in a MIMO communication system that comprises a base station and mobile terminals, wherein the method comprises the steps of: the mobile terminal estimating channel state information thereof, and determining a sub-channel structure most suitable for data transmission thereto, based on the channel state information; the mobile terminal feeding back information on the determined sub-channel structure most suitable for data transmission thereto to the base station; and the base station determining a sub-channel structure used for a down link, based on the information on the sub-channel structure fed back by the mobile terminal. According to the present invention, the subchannel structure in the communication system can be self-adaptively changed according to the actual communication environment, so as to improve the entire communication quality and efficiency.
    • 本发明涉及用于选择子信道模式的方法和使用该信道模式的MIMO通信系统。 一种用于自适应地选择码调制子信道模式的方法适用于包括基站和移动终端的MIMO通信系统,其中该方法包括以下步骤:移动终端估计其信道状态信息,并确定 基于信道状态信息最适合于数据传输的子信道结构; 所述移动终端将关于所述确定的最适合于向所述基站的数据传输的子信道结构的信息反馈给所述基站; 并且基于由移动终端反馈的子信道结构的信息,基站确定用于下行链路的子信道结构。 根据本发明,通信系统中的子信道结构可以根据实际的通信环境自适应地改变,从而提高整个通信质量和效率。
    • 34. 发明申请
    • Method and System of Sending Information Based on a User Card
    • 基于用户卡发送信息的方法和系统
    • US20130140359A1
    • 2013-06-06
    • US13320720
    • 2011-08-12
    • Rongsheng XieJie ZhangZhenyu QianChengxian Fan
    • Rongsheng XieJie ZhangZhenyu QianChengxian Fan
    • G06F17/30
    • G06F16/23G06Q20/4014G06Q20/405G06Q30/02G06Q30/0241
    • Sending information based on a user card includes obtaining, by a card terminal, identification information of the user card and sending identification information of the user card and identification information of the card terminal to a device, such as a data analysis and recommendation device. The data analysis and recommendation device determines whether recommendation information corresponding to the identification information of the user card and the identification information of the card terminal exists according to the identification information of the user card and the identification information of the card terminal, and if yes, sends the recommendation information to the card terminal. The data analysis and recommendation device can send the recommendation information to the card terminal and the card terminal can display the information to the user. As the recommendation information may be in different forms, personalized multimedia information can be provided to the user.
    • 基于用户卡的发送信息包括通过卡终端获取用户卡的识别信息,并将用户卡的识别信息和卡终端的识别信息发送到诸如数据分析和推荐设备的设备。 数据分析和推荐装置根据用户卡的识别信息和卡终端的识别信息确定是否存在与用户卡的识别信息相对应的推荐信息和卡终端的识别信息,如果是, 将推荐信息发送到卡终端。 数据分析推荐装置可以向卡终端发送推荐信息,卡终端可以向用户显示信息。 由于推荐信息可以是不同的形式,因此可以向用户提供个性化多媒体信息。
    • 35. 发明申请
    • COMPOSITIONS AND METHODS FOR DERMALLY TREATING INFECTIONS
    • 用于真皮治疗感染的组合物和方法
    • US20130022564A1
    • 2013-01-24
    • US13556089
    • 2012-07-23
    • Jie ZhangKevin S. WarnerSanjay Sharma
    • Jie ZhangKevin S. WarnerSanjay Sharma
    • A61K31/522A61P31/12A61P31/10A61K31/4174
    • A61K31/74A61K9/0014A61K9/7015A61K31/4174A61K31/522A61K47/12A61K47/18A61K47/32A61K47/38
    • The present invention is drawn to solidifying adhesive formulations, methods of drug delivery, and solidified layers for dermal delivery of a drug for treating various skin infections, such as fungal, bacterial, and/or viral skin infections. The formulation can include anti-infective drug, solvent vehicle, and solidifying agent. The solvent vehicle can include a volatile solvent system including at least one volatile solvent, and a non-volatile solvent system including at least one non-volatile solvent. The non-volatile solvent system can facilitate the delivery of the drug at therapeutically effective rates for sustained periods of time. The non-volatile solvent system can also act to plasticize the solidifying agent. The formulation can have a viscosity suitable for application to a skin surface prior to evaporation of the volatile solvents system. When applied to the skin, the formulation can form a solidified layer after at least a portion of the volatile solvent system is evaporated.
    • 本发明涉及固化粘合剂制剂,药物递送方法和用于皮肤递送用于治疗各种皮肤感染例如真菌,细菌和/或病毒性皮肤感染的药物的固化层。 制剂可以包括抗感染药物,溶剂载体和固化剂。 溶剂载体可以包括包含至少一种挥发性溶剂的挥发性溶剂体系和包含至少一种非挥发性溶剂的非挥发性溶剂体系。 非挥发性溶剂体系可以有助于以治疗有效率持续持续时间的药物递送。 非挥发性溶剂体系也可以起到塑化固化剂的作用。 在挥发性溶剂体系蒸发之前,配方可以具有适用于皮肤表面的粘度。 当施用于皮肤时,在挥发性溶剂体系的至少一部分蒸发后,制剂可以形成固化层。
    • 38. 发明授权
    • Finite difference algorithm for solving slender droplet evaporation with moving contact lines
    • 用移动接触线解决细微液滴蒸发的有限差分算法
    • US08285526B2
    • 2012-10-09
    • US12629273
    • 2009-12-02
    • Jie ZhangJiun-Der Yu
    • Jie ZhangJiun-Der Yu
    • G06F7/60G06F17/10
    • G06F7/60G06F17/5018
    • A system and method for simulating a droplet on a substrate with a moving contact line. The height of the droplet above the substrate is represented as a height function. A height evolution equation represents how the height of a droplet with moving contact line varies over time. The height function at a first point in space and a first point in time is calculated. An extrapolated height value at the first point in time is based on the height function at the first point in space and the first point in time, and the contact line at the first point in time. The extrapolated height value is at a second point in space below the substrate. The height evolution equation is used to calculate the height function at a second point in time based upon the extrapolated height value at the first point in time.
    • 一种用于利用移动接触线模拟基底上的液滴的系统和方法。 衬底上方的液滴的高度表示为高度函数。 高度演化方程式表示具有移动接触线的液滴的高度随时间而变化。 计算空间中的第一点和第一时间点的高度函数。 第一时间点的外推高度值基于空间第一点和第一时间点的高度函数,以及第一时间点的接触线。 外推高度值位于衬底下方的空间的第二点。 高度演化方程用于基于第一时间点的外推高度值计算第二时间点的高度函数。