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    • 1. 发明申请
    • SCALABLE, CONCURRENT, DISTRIBUTED SENSOR SYSTEM AND METHOD
    • 可分级,并流,分布式传感器系统和方法
    • US20070265796A1
    • 2007-11-15
    • US11382340
    • 2006-05-09
    • Stephen TaylorPeter Haaland
    • Stephen TaylorPeter Haaland
    • G06F19/00G06F17/40
    • G06F17/30168G16H10/60
    • A sensor system and method for collecting and analyzing sensor data transmitted by various distributed sensors in a secure, scalable, and efficient manner. Sensors having sensor data to transmit establish concurrent connections with a central server that is configured to collect the sensor data. For each connection, the server generates a single writer thread dedicated to the connection. Each single writer thread accesses the server's underlying file system and writes the sensor data into a sensor file dedicated to the sensor. Each sensor file is written by a single writer thread, but may be concurrently read by multiple reader threads. Analysis threads may also concurrently access the sensor files to perform complex analyses of the stored sensor data. The analysis results are written to dedicated analysis files. The analysis threads act as single writer threads in writing to the analysis files.
    • 一种用于以安全,可扩展,高效的方式收集和分析由各种分布式传感器传输的传感器数据的传感器系统和方法。 具有传感器数据传输的传感器与配置为收集传感器数据的中央服务器建立并发连接。 对于每个连接,服务器生成专用于连接的单个写入程序线程。 每个单个写入程序线程访问服务器的底层文件系统,并将传感器数据写入专用于传感器的传感器文件。 每个传感器文件由单个写入器线程写入,但可由多个读取器线程同时读取。 分析线程还可以同时访问传感器文件以对存储的传感器数据进行复杂分析。 分析结果写入专用分析文件。 分析线程作为写入分析文件的单个写入程序线程。
    • 9. 发明授权
    • Scalable, concurrent, distributed sensor system and method
    • 可扩展,并发,分布式传感器系统和方法
    • US07333921B2
    • 2008-02-19
    • US11382340
    • 2006-05-09
    • Stephen TaylorPeter Haaland
    • Stephen TaylorPeter Haaland
    • G06F17/40G06F19/00
    • G06F17/30168G16H10/60
    • A sensor system and method for collecting and analyzing sensor data transmitted by various distributed sensors in a secure, scalable, and efficient manner. Sensors having sensor data to transmit establish concurrent connections with a central server that is configured to collect the sensor data. For each connection, the server generates a single writer thread dedicated to the connection. Each single writer thread accesses the server's underlying file system and writes the sensor data into a sensor file dedicated to the sensor. Each sensor file is written by a single writer thread, but may be concurrently read by multiple reader threads. Analysis threads may also concurrently access the sensor files to perform complex analyses of the stored sensor data. The analysis results are written to dedicated analysis files. The analysis threads act as single writer threads in writing to the analysis files.
    • 一种用于以安全,可扩展,高效的方式收集和分析由各种分布式传感器传输的传感器数据的传感器系统和方法。 具有传感器数据传输的传感器与配置为收集传感器数据的中央服务器建立并发连接。 对于每个连接,服务器生成专用于连接的单个写入程序线程。 每个单个写入程序线程访问服务器的底层文件系统,并将传感器数据写入专用于传感器的传感器文件。 每个传感器文件由单个写入器线程写入,但可由多个读取器线程同时读取。 分析线程还可以同时访问传感器文件以对存储的传感器数据进行复杂分析。 分析结果写入专用分析文件。 分析线程作为写入分析文件的单个写入程序线程。
    • 10. 发明申请
    • Adhesion resistant implantable device
    • 抗粘连植入装置
    • US20070239268A1
    • 2007-10-11
    • US11394141
    • 2006-03-30
    • Lee FoxPeter HaalandMichael Kalter
    • Lee FoxPeter HaalandMichael Kalter
    • A61F2/06
    • A61L27/306A61F2240/001A61F2310/00592A61L31/088
    • The present invention discloses implantable devices that resist adhesion of colloidal particles such as are present in biological fluids, and methods for their manufacture. In a particular embodiment, the device may be an endovascular stent and a method for its production, for reducing, and preferably eliminating, restenosis. This objective is accomplished by recognizing the fundamental coupling between the surface texture and composition, on one hand, and the drag and adhesive forces acting on a colloidal particle, on the other. The surfaces of the device are first exposed to fluid flow whereby they are polished via a micro and/or nano-abrasive media so that they are featureless on length scales that are commensurate with the sizes of colloidal particles that initiate restenosis. Secondly, the surface is treated with a thin coating that reduces, or preferably eliminates, hydrogen bonding with colloidal particles. In one embodiment, processes for treatment of such implantable devices are taught which result in targeted reduction of structural micro-anomalies in such devices and targeted reduction or elimination of the propensity for occlusive deposits to form therein, whereby properties of selective adherence of particular cell types are derived.
    • 本发明公开了一种能够抵抗存在于生物体液中的胶体粒子的粘附的植入装置及其制造方法。 在特定实施例中,该装置可以是血管内支架及其生产方法,用于减少并优选地消除再狭窄。 该目的通过识别表面纹理和成分以及作用在胶体颗粒上的阻力和粘合力之间的基本耦合来实现。 首先将装置的表面暴露于流体流动,由此通过微观和/或纳米研磨介质进行抛光,使得它们在与引发再狭窄的胶体颗粒的尺寸相当的长度尺度上是无特征的。 其次,用薄的涂层处理表面,其减少或优选地消除与胶体颗粒的氢键。 在一个实施方案中,教导了用于治疗这种可植入装置的方法,其导致这种装置中的结构微异常的目标减少,并且有针对性地减少或消除在其中形成闭塞沉积物的倾向,由此特定细胞类型的选择性粘附性质 被派生。