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    • 1. 发明授权
    • Management of physiological and psychological state of an individual using images biometric analyzer
    • 使用图像生物识别分析仪管理个体的生理和心理状态
    • US06309342B1
    • 2001-10-30
    • US09430445
    • 1999-10-29
    • Richard N. BlazeyPaige MillerElena A. FedorovskayaGirish V. PrabhuPeter A. ParksDavid L. PattonJohn R. FredlundCecelia M. HorwitzJose M. Mir
    • Richard N. BlazeyPaige MillerElena A. FedorovskayaGirish V. PrabhuPeter A. ParksDavid L. PattonJohn R. FredlundCecelia M. HorwitzJose M. Mir
    • A61M2100
    • A61B5/486A61B5/16A61B5/7257A61B5/7264G06F19/00
    • A method of determining the physiological reactivity of an individual with respect to images, comprising: measuring at least one physiological parameter of an individual during a baseline calm period of time; measuring the said at least one physiological parameter of said individual during a stress period of time and a succeeding rest period of time; dividing said measured data for each of said periods of time into a plurality of predetermined time segments; computing a histogram or Fourier analysis as appropriate on said predetermined time segments for each said period of time; standardizing said computed data; conducting a principal component analysis, a canonical discriminant analysis, or a neural network, on said data to establish a baseline calm or rest period set of scores and a stress period set of scores; measuring the said at least one physiological parameter of said individual during an image presentation period of time; repeating said time segmenting, said histogram or Fourier analysis, and said standardizing steps on said measured physiological data for said image presentation period of time; applying said vectors from said conducting step to said image data to produce an image set of scores which are compared with said baseline and stress sets of scores; and determining whether said presented image is activating, deactivating, or neutral based on said comparison.
    • 一种确定个体相对于图像的生理反应性的方法,包括:在基线平静时段期间测量个体的至少一个生理参数; 在压力时间段和随后的休息时间段内测量所述个体的所述至少一个生理参数; 将所述每个所述时间段的测量数据划分成多个预定时间段; 在每个所述时间段内在所述预定时间段上适当地计算直方图或傅立叶分析; 对所述计算数据进行标准化; 对所述数据进行主成分分析,规范判别分析或神经网络,以建立基准平静或休息期分数集合和压力周期分数集合; 在图像呈现期间测量所述个体的所述至少一个生理参数; 重复所述时间分割,所述直方图或傅立叶分析,以及针对所述图像呈现时间段的所述测量的生理数据的所述标准化步骤; 将来自所述导电步骤的所述矢量应用于所述图像数据,以产生与所述基线和所述分数的应力集进行比较的分数的图像集合; 以及基于所述比较来确定所述呈现的图像是激活,去激活还是中立。
    • 6. 发明授权
    • Josephson junction device comprising high critical temperature
crystalline copper superconductive layers
    • 约瑟夫逊结器件包括高临界温度的结晶铜超导层
    • US5552373A
    • 1996-09-03
    • US867063
    • 1992-04-10
    • John A. AgostinelliJose M. MirGerrit LubbertsSamuel Chen
    • John A. AgostinelliJose M. MirGerrit LubbertsSamuel Chen
    • H01L39/22H01L39/24H01L29/06
    • H01L39/2496H01L39/225
    • A Josephson junction device is disclosed having a substrate upon which are located overlying and underlying high critical temperature crystalline oxide superconductive layers separated by an interposed impedance controlling layer. The underlying superconductive layer is limited to a selected area of the substrate while the overlying and interposed layers overlie only a portion of the underlying superconductive layer. Nonsuperconducting oxide layer portions laterally abut the superconductive and interposed layers. A first electrical conductor is attached to the underlying superconductive layer at a location free of overlying oxide layers, and a second electrical conductor contacts the overlying superconductive layer and extends laterally over the adjacent laterally abutting nonsuperconductive layer portion. A process is disclosed for preparing the Josephson junction device in which a Josephson junction layer sequence is deposited on a substrate, a portion of the Josephson junction layer sequence laterally abutting a selected area is converted to a nonsuperconducting form, within the selected area overlying layers are removed from the superconducting layer nearer the substrate, and an electrical conductor extends laterally from the superconducting layer farther removed from the substrate to the laterally abutting nonsuperconducting layer.
    • 公开了一种约瑟夫逊结器件,其具有衬底,位于其上并且位于由插入的阻抗控制层分开的高临界温度结晶氧化物超导层之下。 底层的超导层限于衬底的选定区域,而覆盖和插入的层仅覆盖下面的超导层的一部分。 非导电氧化物层部分横向邻接超导和插入的层。 第一电导体在没有覆盖氧化物层的位置处附接到下面的超导层,并且第二电导体接触上覆的超导层并横向延伸在相邻的横向邻接的非超导电导层部分上。 公开了一种制备约瑟夫逊结结器件的方法,其中约瑟夫逊结层序列沉积在衬底上,约束结层序列横向邻接所选区域的部分被转换为非超导形式,在覆盖层的选定区域内 从超导层离开更靠近衬底的电导体,并且电导体从更远离衬底的超导层横向延伸到横向邻接的非超导层。