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    • 61. 发明授权
    • Compressing image data
    • 压缩图像数据
    • US08768082B2
    • 2014-07-01
    • US13166423
    • 2011-06-22
    • Dake HeXiang YuJing Wang
    • Dake HeXiang YuJing Wang
    • G06K9/36
    • H04N19/126H04N19/105H04N19/176H04N19/30H04N19/463H04N19/593H04N19/91
    • Methods, systems, and computer programs for encoding and decoding image are described. In some aspects, an input data block and a prediction data block are accessed. A projection factor is generated based on a projection of the input data block onto the prediction data block. A scaled prediction data block is generated by multiplying the projection factor by the prediction data block. A residual data block is generated based on a difference between the input data block and the scaled prediction data block. In some aspects, a prediction data block, a residual data block, and a projection factor associated with the residual data block are accessed. A scaled prediction data block is generated by multiplying the projection factor by the prediction data block. An output data block is generated by summing the residual data block and the scaled prediction data block.
    • 描述用于编码和解码图像的方法,系统和计算机程序。 在一些方面,访问输入数据块和预测数据块。 基于将输入数据块投影到预测数据块上而生成投影因子。 通过将投影因子乘以预测数据块来生成缩放预测数据块。 基于输入数据块和缩放预测数据块之间的差异生成残留数据块。 在一些方面,访问与残留数据块相关联的预测数据块,残差数据块和投影因子。 通过将投影因子乘以预测数据块来生成缩放预测数据块。 通过对残差数据块和缩放预测数据块求和来生成输出数据块。
    • 62. 发明申请
    • METHOD FOR REGULATING THE STRUCTURE AND PROPERTIES OF THE COMPOSITE NANOABSORBENT
    • 用于调节复合纳米粒子的结构和性能的方法
    • US20140120253A1
    • 2014-05-01
    • US13818834
    • 2011-11-04
    • Bingcai PanJing WangShujuan ZhangLu LvWeiming Zhang
    • Bingcai PanJing WangShujuan ZhangLu LvWeiming Zhang
    • B01J20/32
    • B01J20/3295B01J20/06B01J20/267B01J20/321B01J20/3236C02F1/288C02F2101/103C02F2101/20C02F2305/08
    • A method for regulating the structure and properties of the composite nanoabsorbent is provided. This method uses nanoporous chloromethylated polystyrene-divinylbenzene beads as the support material and adopts in situ precipitation method to load dissociative functional nanoparticles thereon; the composite nanoabsorbent of different absorption capacity and absorption speed can be prepared through regulating the pore structure, which is realized herein by means of starting crosslinking reactions through heating chloromethylated beads under existence of the swelling agent and the catalyst; through changing the proportions of different components in the reaction system, modes of heating and time of reaction, the polymer support with different pore structures can be prepared. This invention can successfully regulate the distribution and size of inorganic nanoparticles; the composite nanomaterials prepared by the resin of different degrees of crosslinking present different structures and properties, and the specific structure and properties can be selected in order to meet practical requirements.
    • 提供了一种用于调节复合纳米吸收剂的结构和性能的方法。 该方法采用纳米多氯甲基化聚苯乙烯 - 二乙烯基苯珠作支撑材料,采用原位沉淀法在其上负载解离功能纳米粒子; 可以通过调节孔结构来制备不同吸收容量和吸收速度的复合纳米吸收剂,这是通过在溶胀剂和催化剂存在下加热氯甲基化珠来开始交联反应而实现的; 通过改变反应体系中不同组分的比例,加热方式和反应时间,可制备不同孔结构的聚合物载体。 本发明可以成功调节无机纳米颗粒的分布和尺寸; 由不同交联度的树脂制备的复合纳米材料具有不同的结构和性能,可以选择具体的结构和性能,以满足实际需要。
    • 64. 发明授权
    • Image scaling method and apparatus
    • 图像缩放方法和装置
    • US08649635B2
    • 2014-02-11
    • US13073695
    • 2011-03-28
    • Yuan LiuJing WangHonghong Su
    • Yuan LiuJing WangHonghong Su
    • G06K9/32
    • H04N21/440272H04N7/0122
    • The present invention relates to image processing technologies, and discloses an image scaling method and apparatus to reduce distortion of a scaled image. The image scaling method includes: determining a distribution direction of main objects in a source image; and scaling the source image to a target image through a nonlinear scaling method according to the distribution direction of the main objects in the source image, where the nonlinear scaling method employs a scaling direction vertical to the distribution direction of the main objects in the source image. The embodiments of the present invention are primarily applicable to the image scaling field.
    • 本发明涉及图像处理技术,并且公开了一种降低缩放图像的失真的图像缩放方法和装置。 图像缩放方法包括:确定源图像中的主要对象的分布方向; 并且根据源图像中的主要对象的分布方向,通过非线性缩放方法将源图像缩放到目标图像,其中非线性缩放方法采用垂直于源图像中主要对象的分布方向的缩放方向 。 本发明的实施例主要适用于图像缩放领域。
    • 65. 发明授权
    • Method and apparatus for user handing over to home NodeB
    • 用户切换到家庭NodeB的方法和设备
    • US08611308B2
    • 2013-12-17
    • US13203479
    • 2009-08-28
    • Jing WangLanlan LiLin LiuDi Wang
    • Jing WangLanlan LiLin LiuDi Wang
    • G01R31/08
    • H04W36/0033H04W36/30
    • A Method and apparatus for a user handing over to a home NodeB are provided. The method comprises the following steps: when the user initiates a handover procedure from a source NodeB to a target home NodeB, a target home NodeB gateway receiving a relocation request message from a mobility management unit of a core network; the target home NodeB gateway generating a user context for the user according to the relocation request message, allocating a user context identifier for the user context, and sending the user context identifier and the relocation request message to the target home NodeB; and when receiving a relocation request acknowledgement message replied by the target home NodeB, the target home NodeB gateway sending the relocation request acknowledgement message to the mobility management unit of the core network. The application of the above technical solution can ensure the handover of a user to a home NodeB which serves as a target NodeB successfully.
    • 提供了一种用于将用户切换到家庭节点B的方法和装置。 该方法包括以下步骤:当用户从源节点B发起到目标本地节点B的切换过程时,目标本地NodeB网关从核心网的移动性管理单元接收重定位请求消息; 所述目标家庭NodeB网关根据所述重定位请求消息为所述用户生成用户上下文,为所述用户上下文分配用户上下文标识符,并将所述用户上下文标识符和所述重定位请求消息发送到所述目标家庭基站; 并且当接收到由目标家庭基站B回复的重定位请求确认消息时,目标本地NodeB网关向核心网络的移动性管理单元发送重定位请求确认消息。 上述技术方案的应用可以确保用户成功切换到用作目标节点B的家庭基站B。
    • 68. 发明授权
    • Artificial biomembrane and the method for manufacturing the same
    • 人造生物膜及其制造方法
    • US08586342B2
    • 2013-11-19
    • US12050915
    • 2008-03-18
    • Qinsheng LiYeqin WangRuoxue WangJing Wang
    • Qinsheng LiYeqin WangRuoxue WangJing Wang
    • C12N1/00
    • C12N11/08C12N11/04C12N11/10C12N11/12C12N11/14
    • An artificial biomembrane and a method for manufacturing the same. Raw film-forming materials, such as polyvinyl alcohol, sodium alginate and sodium carboxymethyl cellulose, are dissolved in water to form a glue liquid, into which a mixture of coal-based activated carbon powder, diatomaceous earth powder sodium acetate and single strain or multiple strains of microbial cells are added. The resultant glue liquid is immobilized using powder beds or fluidized beds to form artificial biomembranes. The artificial biomembranes can be manufactured in a large-scale, with simple process of immobilization, high efficiency and low cost. The artificial biomembranes can be applied to ecological restorations and different polluted water environments, such as industrial wastewater, sewage, fishing water, landscape water, flowing water and the like.
    • 人造生物膜及其制造方法。 将原始成膜材料如聚乙烯醇,藻酸钠和羧甲基纤维素钠溶解在水中以形成胶液,其中混合有煤基活性炭粉末,硅藻土粉末乙酸钠和单一菌株或多个 加入微生物细胞菌株。 使用粉末床或流化床固定所得胶液以形成人造生物膜。 人造生物膜可以大规模制造,具有简单的固定过程,高效率和低成本。 人造生物膜可应用于生态修复和不同污染水环境,如工业废水,污水,渔用水,景观水,流水等。
    • 69. 发明授权
    • Image processing method and device
    • 图像处理方法及装置
    • US08558869B2
    • 2013-10-15
    • US13417752
    • 2012-03-12
    • Jiaoli WuYang ZhaoJing WangKai LiYuan LiuSong Zhao
    • Jiaoli WuYang ZhaoJing WangKai LiYuan LiuSong Zhao
    • H04N7/15
    • H04N7/15H04N7/142H04N7/147
    • Embodiments of the present invention provide an image processing method and device, relating to the field of communications technology. The method includes: receiving at least two channels of images transmitted from a remote conference site; if there is a blind area in splicing of the at least two channels of images, comparing the width of the blind area with the sum of the widths of a left border and a right border of a display apparatus in a local conference site; processing the at least two channels of images separately according to a comparison result; outputting the at least two channels of processed images separately to the display apparatuses in the local conference site for displaying. In the embodiments of the present invention, the optimal image display effect may be achieved and the user experience in a telepresence video conference may be improved.
    • 本发明的实施例提供了一种涉及通信技术领域的图像处理方法和装置。 该方法包括:从远程会场接收至少两个信道的图像; 如果存在至少两个通道的图像拼接的盲区,则将盲区的宽度与本地会场中的显示装置的左边界和右边界的宽度之和进行比较; 根据比较结果分别处理至少两个通道的图像; 将所处理的图像的至少两个信道分别输出到本地会场的显示装置以进行显示。 在本发明的实施例中,可以实现最佳图像显示效果,并且可以提高远程呈现视频会议中的用户体验。
    • 70. 发明授权
    • Method for processing bearer in serving gateway
    • 在服务网关中处理承载的方法
    • US08547945B2
    • 2013-10-01
    • US12992721
    • 2009-05-12
    • Fei LuJinguo ZhuShuang LiangJing WangMinya Ye
    • Fei LuJinguo ZhuShuang LiangJing WangMinya Ye
    • H04W4/00H04W84/12
    • H04W84/12H04W28/16H04W60/005H04W76/20
    • The present invention provides bearer processing methods, in one bearer processing method, the serving gateway receives a bearer processing message from a mobility management unit, wherein the bearer processing message carries a message source mark for identifying a sending entity of the bearer processing message; the serving gateway acquires the message source mark in the bearer processing message, and judges the sending entity of the bearer processing message according to the message source mark, and performs the bearer processing according to the result of the judgment. In accordance with the present invention, it is possible for the serving gateway to distinguish the sending entity of a message, so as to perform the subsequent related bearer processing.
    • 本发明提供承载处理方法,在一种承载处理方法中,服务网关从移动性管理单元接收承载处理消息,其中承载处理消息携带用于识别承载处理消息的发送实体的消息源标记; 服务网关在承载处理消息中获取消息源标记,并根据消息源标记判断承载处理消息的发送实体,并根据判断结果进行承载处理。 根据本发明,服务网关可以区分消息的发送实体,以便执行后续的相关承载处理。