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    • 81. 发明授权
    • Portable electronic device with automatic protection capability
    • 便携式电子设备具有自动保护功能
    • US08749958B2
    • 2014-06-10
    • US12498458
    • 2009-07-07
    • Qiang Li
    • Qiang Li
    • G06F1/16F16M1/00
    • F16F15/067F16F2230/0023H04M1/185
    • A portable electronic includes a main body defining a plurality of mounting holes at corners; a plurality of mounting modules; a plurality of resilient members compressed and mounted in mounting holes of the main body by the corresponding mounting modules; and a control module. The control module includes a MCU; an acceleration transducer connected to the MCU to sample a real-time acceleration value, and a memory connected to the MCU to store a critical acceleration value. The control module controls the mounting modules to release the compressed resilient members so as to eject out the resilient members from the main body, when the real-time acceleration value is larger than the critical acceleration value.
    • 一种便携式电子装置包括在角落处限定多个安装孔的主体; 多个安装模块; 多个弹性构件通过相应的安装模块压缩并安装在主体的安装孔中; 和控制模块。 控制模块包括一个MCU; 连接到MCU的加速度传感器来采样实时加速度值,以及连接到MCU以存储临界加速度值的存储器。 当实时加速度值大于临界加速度值时,控制模块控制安装模块以释放压缩的弹性构件,以便从主体弹出弹性构件。
    • 84. 发明授权
    • Wireless adaptor and method for transmitting and receiving message
    • 无线适配器和发送和接收消息的方法
    • US08670452B2
    • 2014-03-11
    • US12901064
    • 2010-10-08
    • Qiang LiYen-Jung ChangShiwei Wang
    • Qiang LiYen-Jung ChangShiwei Wang
    • H04L12/28H04L12/56
    • H04L61/2015H04L12/4625H04L29/12028H04L61/103
    • A method for transmitting and receiving a message is provided. The method includes steps of providing a bridge device having a bridge hardware address and a first end, receiving a first message including a first hardware address, a first protocol address and a second protocol address from the first end, recording the first hardware address and the first protocol address on a table, replacing the first hardware address with the bridge hardware address, transmitting the first message to a second end having a second hardware address corresponding to the second protocol address; transmitting a second message including the first protocol address, the second protocol address, the bridge hardware address, and the second hardware address from the second end to the bridge device, replacing the bridge hardware address with the first hardware address according to the table; and transmitting the second message to the first end.
    • 提供了一种用于发送和接收消息的方法。 该方法包括以下步骤:提供具有桥接硬件地址和第一端的桥接器件,从第一端接收包括第一硬件地址,第一协议地址和第二协议地址的第一消息,记录第一硬件地址和 将所述第一硬件地址替换为所述桥接器硬件地址,将所述第一消息发送到具有对应于所述第二协议地址的第二硬件地址的第二端; 从所述第二端向所述桥接设备发送包括所述第一协议地址,所述第二协议地址,所述桥接硬件地址和所述第二硬件地址的第二消息,根据所述表替换所述桥接器硬件地址与所述第一硬件地址; 以及将所述第二消息发送到所述第一端。
    • 87. 发明申请
    • ANALYSIS SYSTEM AND METHOD FOR AUDIO DATA
    • 音频数据分析系统和方法
    • US20130243207A1
    • 2013-09-19
    • US13989385
    • 2010-11-25
    • Evan LiuQiang LiOlof LundstromTandy Mai
    • Evan LiuQiang LiOlof LundstromTandy Mai
    • H04R29/00
    • H04R29/00G10L15/02
    • An analysis system and method for audio data related to a user is provided, so that the user can be classified as one of multiple classes with an assumed probability based on the analysis result. The analysis system comprises an audio transformer (110) adapted to transform the audio data related to the user into spectra data; a pattern recognizer (120) adapted to decompose the spectra data to predetermined eigenvectors to get the decomposition pattern of the spectra data; a scorer (130) adapted to calculate the assumed scores of the multiple classes related to the user based on the decomposition pattern of the spectra data and the attributes of the user using a trained model.
    • 提供了一种与用户相关的音频数据的分析系统和方法,从而可以基于分析结果将用户分类为具有假设概率的多个类别之一。 分析系统包括:音频变压器(110),适于将与用户相关的音频数据变换为频谱数据; 模式识别器(120),适于将光谱数据分解成预定的特征向量以获得光谱数据的分解模式; 适合于基于频谱数据的分解模式和使用训练模型的用户的属性来计算与用户相关的多个类别的假定分数的得分器(130)。
    • 88. 发明授权
    • Electrospray and nanospray ionization of discrete samples in droplet format
    • 液滴形式的离散样品的电喷雾和纳米喷雾电离
    • US08431888B2
    • 2013-04-30
    • US13378858
    • 2010-06-18
    • Robert KennedyJian PeiQiang LiMike S. LeeGary A. Valaskovic
    • Robert KennedyJian PeiQiang LiMike S. LeeGary A. Valaskovic
    • H01J49/26
    • H01J49/165B01L3/502784
    • Droplets or plugs within multiphase microfluidic systems have rapidly gained interest as a way to manipulate samples and chemical reactions on the femtoliter to microliter scale. Chemical analysis of the plugs remains a challenge. It has been discovered that nanoliter plugs of sample separated by air or oil can be analyzed by electrospray ionization mass spectrometry when pumped directly into a fused silica nanospray emitter nozzle. Using leu-enkephalin in methanol and 1% acetic acid in water (50:50 v:v) as a model sample, we found carry-over between plugs was
    • 在多相微流体系统中的液滴或塞子已经迅速获得兴趣,作为将飞蓟素的样品和化学反应操纵到微量级的方法。 插头的化学分析仍然是一个挑战。 已经发现,当直接泵送到熔融石英纳米喷雾发射器喷嘴中时,可以通过电喷雾离子化质谱法分析由空气或油分离的样品的纳升塞塞。 在甲醇和1%乙酸水溶液(50:50 v:v)中使用左脑啡肽作为模型样品,发现栓塞之间的滞留量<0.1%,一系列塞子的信号相对标准偏差为3 %。 检测限为1nM。 通过泵送在75毫米内径管中由3mm长气隙分离的13nL样品来实现0.8Hz的样品分析速率。 分析速率受到离子阱质谱仪扫描时间的限制。 该系统为分段流量系统中样品的化学分析提供了强大,快速和信息丰富的方法。