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    • 1. 发明授权
    • Removable rounded midsole structures and chambers with computer processor-controlled variable pressure
    • 可移动的圆形中底结构和房间,具有计算机处理器控制的可变压力
    • US08291614B2
    • 2012-10-23
    • US12870044
    • 2010-08-27
    • Frampton E. Ellis
    • Frampton E. Ellis
    • A43B17/00A43B19/00
    • A43B13/186A43B3/0005A43B3/24A43B3/246A43B5/00A43B7/142A43B7/143A43B7/144A43B7/1465A43B7/148A43B13/125A43B13/14A43B13/141A43B13/187A43B13/188A43B13/189A43B13/20A43B13/203A43B13/36
    • This invention relates generally to footwear such as a shoe, including an athletic shoe, with a shoe sole, including at least one removable midsole section formed by a midsole portion, wherein the removable midsole section is non-orthotic. The removable midsole section is inserted within the shoe upper, the sides of which hold it in position. The shoe sole includes a concavely rounded side or underneath portion, which may be formed in part by the removable midsole section. The removable midsole section may extend the length of the shoe sole or may form only a part of the shoe sole and can incorporate cushioning or structural compartments or components. The removable midsole section provides the capability to permit replacement of midsole material which has degraded or has worn out in order to maintain optimal characteristics of the shoe sole. The shoe sole can, in another embodiment, include at least one compartment containing a fluid, a flow regulator, a pressure sensor to monitor the compartment pressure, and a control system such as a computer processor capable of automatically adjusting the pressure in the compartment(s) in response to the impact of the shoe sole with the ground surface.
    • 本发明一般涉及鞋类,例如包括运动鞋的鞋,鞋底,包括由中底部分形成的至少一个可移除的中底部分,其中可移除的中底部分是非矫正的。 可拆卸的中底部分插入鞋面内,鞋面的侧面将其固定就位。 鞋底包括凹形的圆形侧面或下部,其可以部分地由可移除的中底部分形成。 可拆卸的中底部分可以延伸鞋底的长度或者可以仅形成鞋底的一部分并且可以包括缓冲或结构隔室或部件。 可拆卸中底部分提供了允许更换已经劣化或已经磨损的鞋底夹层材料的能力,以便保持鞋底的最佳特性。 在另一个实施例中,鞋底可以包括至少一个包含流体的隔室,流量调节器,用于监测隔室压力的压力传感器,以及能够自动调节隔室中的压力的​​控制系统(例如计算机处理器) s),以响应鞋底与地面的冲击。
    • 3. 发明授权
    • Portable universal inhaler system
    • 便携式通用吸入器系统
    • US08235036B2
    • 2012-08-07
    • US11223625
    • 2005-09-09
    • Vedat Obuz
    • Vedat Obuz
    • A61M11/00A61M16/00A61M15/08
    • A61M15/009A61M15/0026A61M15/008A61M15/0086A61M16/06A61M2205/58A61M2206/14A61M2206/16
    • A portable universal inhaler system formed from an outer part and an inner part slidably received in the outer part. The inner part defines a compartment for receiving a medication canister and includes a universal connector for making a fluid dispensing connection to a variety of commercially available canisters. The inner and outer parts, when assembled, together form a housing that defines a chamber of sufficient volume to house a metered dose of medication. A mouthpiece or mouthpiece attachment location is provided in fluid communication with the chamber for permitting inhalation of medication from the chamber. The structure of the device makes it compact and portable, in the closed position, allows for storage of a medication canister in operative engagement with the device, and provides a convenient way to dispense medication, using a medication canister and a chamber, for inhalation by a user.
    • 一种便携式通用吸入器系统,其由外部部分和可滑动地容纳在外部部分中的内部部分形成。 内部部分限定用于接收药物罐的隔室,并且包括用于使流体分配连接到各种可商购的罐的通用连接器。 内部和外部部件组装在一起形成一个壳体,该壳体限定了足够体积的腔室以容纳计量剂量的药物。 提供与所述腔室流体连通的吸口或接口装置安装位置,以允许从所述腔室吸入药物。 该装置的结构使其紧凑且便于携带,在关闭位置允许存储与装置操作性接合的药物罐,并且提供了使用药物罐和腔室分配药物的便利方式,用于吸入 一个用户
    • 7. 发明授权
    • Magnetic resonance diagnostic apparatus, magnetic resonance diagnostic main unit and coil unit
    • 磁共振诊断装置,磁共振诊断主体和线圈装置
    • US08174264B2
    • 2012-05-08
    • US12492960
    • 2009-06-26
    • Kohei AdachiKazuya Okamoto
    • Kohei AdachiKazuya Okamoto
    • G01V3/00
    • G01R33/3692
    • An magnetic resonance diagnostic apparatus which includes a main unit and a coil unit, the magnetic resonance diagnostic apparatus including a sampling clock generating unit which generates a sampling clock signal, a sampling clock transmitting unit wirelessly transmits the sampling clock signal, a sampling clock receiving unit which receives the transmitted sampling clock signal, a receiving coil which outputs an electrical magnetic resonance signal in response to a magnetic resonance signal emitted from a subject as electromagnetic radiation, a digitization unit which digitizes, synchronously with the received sampling clock signal, the outputted magnetic resonance signal, a resonance signal transmitting unit which wirelessly transmits the digitized magnetic resonance signal, a resonance signal receiving unit which receives the transmitted magnetic resonance signal, and a reconstruction unit which processes, synchronously with the generated sampling clock signal, the received magnetic resonance signal and thereby reconstructs an image of the subject.
    • 一种磁共振诊断装置,包括主单元和线圈单元,所述磁共振诊断装置包括:采样时钟生成单元,其生成采样时钟信号;采样时钟发送单元,无线发送采样时钟信号;采样时钟接收单元 接收发送的采样时钟信号的接收线圈,响应于从对象发射的磁共振信号作为电磁辐射输出电磁共振信号的接收线圈,与接收到的采样时钟信号同步数字化的数字化单元,输出的磁 谐振信号,无线发送数字化磁共振信号的谐振信号发送单元,接收发送的磁共振信号的谐振信号接收单元,以及与所生成的采样时钟信号同步处理所接收的磁铁的重建单元 c共振信号,从而重建对象的图像。
    • 9. 发明授权
    • Method of pre-reconstruction decomposition for fast kV-switching acquisition in dual energy computed tomography (CT)
    • 双能计算机断层扫描(CT)中快速kV切换采集的预重建分解方法
    • US08165264B2
    • 2012-04-24
    • US12361280
    • 2009-01-28
    • Yu Zou
    • Yu Zou
    • A61B6/03
    • G06T11/005A61B6/583G06T2211/408
    • Fast kV-switching is a dual energy acquisition technique in computed tomography (CT) in which alternating views correspond to the low and high tube voltages. Its high temporal resolution and its suitability to a variety of source trajectories make it an attractive option for dual energy data acquisition. Its disadvantages include a one-view misregistration between the data for high and low voltages, the potentially poor spectrum separation due to the more-like a sine wave rather than the desired square wave in fast kV-switching, and the higher noise in the low voltage data because of the technical difficulty in swinging the tube current to counter the loss of x-ray production efficiency and loss of penetration at lower tube voltages. Despite the disadvantages, symmetric view matching according to the current invention substantially improves streaks and other artifacts due to the view misregistration, sufficient spectrum separation even in a sinusoidal waveform swinging between 80 kV and 135 kV, and contrast-to-noise for the simulated imaging task maximized at monochromatic energy of 75 keV.
    • 快速kV切换是计算机断层摄影(CT)中的双能量采集技术,其中交替视图对应于低和高管电压。 其高时间分辨率及其对各种源轨迹的适用性使其成为双能量数据采集的有吸引力的选择。 其缺点包括高电压数据和低电压数据之间的单视图对准,由于像在正弦波中更像是正弦波而不是快速kV开关中的所需方波,潜在的较差的频谱分离,以及较低的低噪声 电压数据是因为摆动管电流的技术难度,以抵消x射线生产效率的损失和较低管电压下的穿透损失。 尽管存在缺点,但是根据本发明的对称视图匹配基本上改善了由于视图不对准引起的条纹和其他伪像,即使在80kV至135kV之间的正弦波形摆动中也能获得足够的频谱分离,并且模拟成像的对比度噪声 任务在75 keV的单色能量下最大化。
    • 10. 发明授权
    • Nanowire based plasmonics
    • 基于纳米线的等离子体激元
    • US08120014B2
    • 2012-02-21
    • US11304049
    • 2005-12-15
    • Bahram NabetJonathan E. Spanier
    • Bahram NabetJonathan E. Spanier
    • H01L31/0352
    • H01L31/108G01N21/3581
    • Nanoscaled, tunable detector devices for ultrasensitive detection of terahertz (THz) radiation based on the fabrication of one-dimensional (1D) plasma devices having clouds of strongly correlated and spatially confined electronic charge carriers are disclosed. These one-dimensional collective excitations (“plasmons”) are realized using coaxial semiconducting core-shell nanowires or by electrostatically confining a two dimensional charge to one dimension. By exploiting the properties of plasmons confined to reduced dimensions and under a selected device configuration, conventional limitations on carrier drift and transit times that dictate the speed and sensitivity of transistors can be circumvented, and detector sensitivity can be improved. 1D devices with sub-picosecond response times will be important for a range of applications in diverse areas such as remote sensing and imaging, molecular spectroscopy, biotechnology, and in a range of the spectrum that has been difficult to detect. In addition to electromagnetic radiation these devices can be used as detectors of charged particle perturbations.
    • 公开了一种用于基于具有强烈相关和空间限制的电子载流子云的一维(1D)等离子体装置的制造的用于太赫兹(THz)辐射的超灵敏检测的纳米尺度的可调谐检测器装置。 使用同轴半导体核 - 壳纳米线或通过静电将二维电荷限制在一个维度上来实现这些一维集体激励(“等离子体激元”)。 通过利用限制为尺寸减小的等离子体的性质和在所选择的器件配置下,可以绕过规定晶体管的速度和灵敏度的载流子漂移和传输时间的常规限制,并且可以提高检测器灵敏度。 具有亚皮秒响应时间的1D器件对于诸如遥感和成像,分子光谱学,生物技术等多个领域的应用以及在难以检测的一系列光谱范围内将是重要的。 除了电磁辐射之外,这些装置可以用作带电粒子扰动的检测器。