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    • 81. 发明申请
    • MULTIPLE ANTENNA MODE CONTROL METHOD BASED ON ACCESS POINT
    • 基于接入点的多天线模式控制方法
    • US20100046427A1
    • 2010-02-25
    • US12443077
    • 2007-09-18
    • Feng LiLi ZhangBin Wang
    • Feng LiLi ZhangBin Wang
    • H04W40/00
    • H04B7/0686H04B7/0628H04B7/0689H04B7/0697H04B7/0868H04L5/1438
    • A multiple antenna mode control method based on an Access Point comprises the following steps: step 1, the Access Point periodically sends out a multiple antenna mode set or subset supported by the Access Point (S101); step 2, the Station reports a multiple antenna mode set or subset supported by the Station or, reports a multiple antenna mode set or subset supported by both the Station and the Access Point to the Access Point (S105); step 3, a multiple antenna mode is chosen from a multiple antenna mode set or subset supported by both the Station and the Access Point for communicating (S110). As a result, the Station and the Access Point can communicate in a reliable or high-speed antenna mode supported by both sending and receiving sides, and thereby the error frame rate is reduced, and the network throughput is increased.
    • 基于接入点的多天线模式控制方法包括以下步骤:步骤1,接入点周期性地发出由接入点支持的多天线模式集或子集(S101); 步骤2,站报告由站支持的多天线模式集或子集,或者报告站和接入点支持的多天线模式集或子集到接入点(S105); 步骤3,从由站和用于通信的接入点支持的多天线模式集合或子集中选择多天线模式(S110)。 结果,站和接入点可以以发送方和接收方支持的可靠或高速天线方式进行通信,从而降低了错误帧速率,并提高了网络吞吐量。
    • 83. 发明申请
    • Collision avoidance for uplink VoIP transmission
    • 上行VoIP传输的冲突避免
    • US20090103440A1
    • 2009-04-23
    • US11977228
    • 2007-10-23
    • Haifeng WangBin ChenBin WangJing XuTing Zhou
    • Haifeng WangBin ChenBin WangJing XuTing Zhou
    • G06F11/30
    • H04W72/1257H04L1/1812H04L1/1887H04L1/1893H04W72/04
    • Disclosed is a method the includes determining if a collision will occur between a transmission from a first user equipment that uses a persistently assigned uplink resource (such as for VoIP packet transmissions) and a retransmission from a second user equipment that uses a synchronous non-adaptive automatic repeat request procedure (e.g., synchronous, non-adaptive HARQ). If it is determined that a collision will occur, the method dynamically allocates the first user equipment to another uplink resource to avoid the collision, while if it is determined that the collision will not occur, the first user equipment is not dynamically allocated another uplink resource so that the first user equipment sends its transmission using the persistently assigned uplink resource. The embodiments of this invention pertain to both the base station (e.g., an evolved Node-B) and the user equipment.
    • 公开了一种方法,其包括确定在使用持续分配的上行链路资源(例如用于VoIP分组传输)的第一用户设备的传输与来自使用同步非自适应的第二用户设备的重传之间是否发生冲突 自动重发请求过程(例如,同步,非自适应HARQ)。 如果确定发生冲突,则该方法动态地将第一用户设备分配给另一上行资源以避免冲突,而如果确定不发生冲突,则第一用户设备不是动态地分配另一个上行资源 使得第一用户设备使用持续分配的上行链路资源发送其传输。 本发明的实施例涉及基站(例如,演进节点B)和用户设备。
    • 85. 发明申请
    • CLASSIFICATION OF IMAGES AS ADVERTISEMENT IMAGES OR NON-ADVERTISEMENT IMAGES
    • 图像分类作为广告图像或非广告图像
    • US20080313031A1
    • 2008-12-18
    • US11762553
    • 2007-06-13
    • Mingjing LiZhiwei LiDongfang LiBin Wang
    • Mingjing LiZhiwei LiDongfang LiBin Wang
    • G06Q30/00
    • G06Q30/02G06Q30/0277
    • An advertisement image classification system trains a binary classifier to classify images as advertisement images or non-advertisement images and then uses the binary classifier to classify images of web pages as advertisement images or non-advertisement images. During a training phase, the classification system generates training data of feature vectors representing the images and labels indicating whether an image is an advertisement image or a non-advertisement image. The classification system trains a binary classifier to classify images using training data. During a classification phase, the classification system inputs a web page with an image and generates a feature vector for the image. The classification system then applies the trained binary classifier to the feature vector to generate a score indicating whether the image is an advertisement image or a non-advertisement image.
    • 广告图像分类系统训练二进制分类器将图像分类为广告图像或非广告图像,然后使用二进制分类器将网页的图像分类为广告图像或非广告图像。 在训练阶段,分类系统生成表示图像的特征向量的训练数据,以及指示图像是广告图像还是非广告图像的标签。 分类系统训练二进制分类器,以使用训练数据对图像进行分类。 在分类阶段,分类系统输入具有图像的网页,并生成图像的特征向量。 然后,分类系统将经过训练的二进制分类器应用于特征向量,以生成指示图像是广告图像还是非广告图像的分数。
    • 89. 发明申请
    • Method and Equipment of Producing Graphite and Metallic Catalyst Composite for Diamond Synthesis
    • 生产用于金刚石合成的石墨和金属催化剂复合材料的方法和设备
    • US20080160191A1
    • 2008-07-03
    • US11966986
    • 2007-12-28
    • Weixing GaoBin WangZunbin Ke
    • Weixing GaoBin WangZunbin Ke
    • C23C16/16
    • B01J23/74B01J21/18B01J23/34B01J23/745B01J37/086C23C16/16C23C16/4417C23C16/442C23C16/54
    • This invention releases the preparation method and equipment of graphite and catalyst composite for a kind of synthetic diamond. Firstly the clean graphite particle shall be placed into the heating chamber for pre-heating, the lower limit of the heating temperature shall be higher than the boiling point of the coated carbonyl metal complex and the upper limit of the heating temperature shall be set according to the thickness of the coating needed; secondly, the heated graphite particle will be fed into the coating room with vibrator or agitator and the steam of carbonyl metal complex shall be input for coating; finally the coated graphite particle shall be fed into the cooling and passivation room for cooling and passivation of the discharging materials or enter the next round circle of heating and coating. As to the graphite and catalyst composite prepared by this invention, the surface of each graphite particle is plated with metal layer and the continuous metallic contact is formed between the particles of the synthetic cylinder prepared by it. In synthesis, it is easy to form the continuous metallic film so as to continuously feed the carbon to the diamond crystal nucleus to promote the crystal nucleus growing into perfect diamond crystal.
    • 本发明释放了一种人造金刚石的石墨和催化剂复合材料的制备方法和设备。 首先将干净的石墨颗粒放入加热室进行预热,加热温度的下限应高于涂覆的羰基金属络合物的沸点,加热温度的上限应根据 所需涂层的厚度; 其次,加热的石墨颗粒将用振动器或搅拌器进入涂层室,并且输入羰基金属络合物的蒸汽进行涂布; 最后将涂覆的石墨颗粒送入冷却和钝化室,以排出物料的冷却和钝化,或进入下一个加热和涂层的圆周。 对于通过本发明制备的石墨和催化剂复合物,每个石墨颗粒的表面镀有金属层,并且在由其制备的合成圆筒的颗粒之间形成连续的金属接触。 在合成中,容易形成连续金属膜,以便将碳连续地供给到金刚石晶核,以促进晶核生长成完美的金刚石晶体。