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    • 1. 发明授权
    • Alert system and method for geographic or natural disasters utilizing a telecommunications network
    • 使用电信网络的地理或自然灾害的预警系统和方法
    • US06914525B2
    • 2005-07-05
    • US10286048
    • 2002-10-29
    • Herman RaoChing-Hsiang HsuJung Nan HungChih-Kung LeeWen-Jong WuWen-Hsin HsiaoChun-Kuang ChenYih-Fan ChenYi-Chun Chen
    • Herman RaoChing-Hsiang HsuJung Nan HungChih-Kung LeeWen-Jong WuWen-Hsin HsiaoChun-Kuang ChenYih-Fan ChenYi-Chun Chen
    • G08B21/10G08B27/00H04Q1/30
    • G08B27/005G08B21/10G08B27/006
    • The invention advantageously provides an alert system and method for geographic or natural disasters that utilize a telecommunications network for monitoring geographic data in disaster-prone areas and accordingly issuing warnings against potential disasters to people inside the monitored area. An alert system according to a preferred embodiment of the invention comprises a telecommunications service network, one or more wireless sensor modules and a control center. The telecommunications network according to this particular embodiment includes service coverage over the monitored areas. The wireless sensor modules are installed to selected locations inside monitored areas. Each of the sensor modules further comprises at least one sensor for collecting geographic or geodetic data and a wireless communications unit for sending collected geographic data to the control center via the telecommunications network. The control center then receives and processes the monitored geographic or geodetic data sent by the wireless sensor modules for further algorithmic analysis. The control center accordingly issues alerts for imminent geographic or natural disasters if the processing of the geographic or geodetic data produces adverse results.
    • 本发明有利地提供了一种用于地理或自然灾害的警报系统和方法,其利用电信网络来监测易受灾地区的地理数据,并且因此向受监视区域内的人发出针对潜在灾害的警告。 根据本发明的优选实施例的警报系统包括电信服务网络,一个或多个无线传感器模块和控制中心。 根据该特定实施例的电信网络包括在所监视的区域上的服务覆盖。 无线传感器模块安装在受监控区域内的选定位置。 每个传感器模块还包括用于收集地理或大地测量数据的至少一个传感器和用于经由电信网络将收集的地理数据发送到控制中心的无线通信单元。 然后,控制中心接收并处理由无线传感器模块发送的监视的地理或大地测量数据,用于进一步的算法分析。 因此,如果对地理或大地测量数据的处理产生不利的结果,控制中心将对即将发生的地理或自然灾害发出警报。
    • 5. 发明授权
    • Augmenting surface electrode for piezoelectric workpiece
    • 用于压电工件的增强表面电极
    • US06747401B2
    • 2004-06-08
    • US10064465
    • 2002-07-17
    • Yu-Hsiang HsuWen-Hsin HsiaoWen-Jong WuChih-Kung Lee
    • Yu-Hsiang HsuWen-Hsin HsiaoWen-Jong WuChih-Kung Lee
    • H01L41107
    • H01L41/107H01L41/047H01L41/257Y10T29/42Y10T29/43
    • Augmenting surface electrodes for piezoelectric workpieces together with the method for fabrication are disclosed for improving fabrication and operation reliability of the workpieces. A piezoelectric workpiece used for energy conversion between electrical and mechanical forms in a piezoelectric system comprises a body, a number of function electrodes, and at least an augmenting surface electrode. The body of piezoelectricity is used for implementing the energy conversion. The function electrodes are each fixedly attached to the surface of the body, and are connected in the electric circuit for implementing the energy conversion. At least one of the function electrodes has a shape with a contour of at least one acute angle. At least an augmenting surface electrode has a substantially elongated shape fixedly attached to the surface of the body proximate to the acute angle. Together, the augmenting surface electrode and the proximate function electrode thereof constitute a gross electrode that substantially cancels the acute angle when both are connected electrically to the same electric potential. The acute angle is cancelled during the polarization of electric dipoles of the body grain molecules so that the boundary region between different polarization orientation distribution regions can be smoothed. The reliability of the piezoelectric workpiece is improved both during the fabrication and during normal operation of the workpiece.
    • 公开了用于压电工件的增强表面电极以及制造方法,用于改善工件的制造和操作可靠性。 用于压电系统中电和机械形式之间的能量转换的压电工件包括主体,多个功能电极和至少一个增强表面电极。 压电体用于实现能量转换。 功能电极各自固定在主体的表面上,并连接在电路中以实现能量转换。 功能电极中的至少一个具有至少一个锐角的轮廓的形状。 至少一个增强表面电极具有固定地附接到靠近锐角的本体的表面的基本上细长的形状。 一起,增强表面电极和其附近功能电极构成总电极,当两者都电连接到相同的电位时,该电极基本上抵消了锐角。 在体粒分子的电偶极子的极化期间锐角被抵消,使得不同极化取向分布区域之间的边界区域可以平滑化。 在制造过程中和工件的正常工作期间,压电工件的可靠性得到改善。
    • 8. 发明申请
    • METHOD FOR FABRICATION OF ORGANIC THIN-FILM TRANSISTOR
    • 有机薄膜晶体管的制造方法
    • US20080145966A1
    • 2008-06-19
    • US11923348
    • 2007-10-24
    • Min-Hua YangMeng-Che ChuangWei-Hsiang LinYu-Hsuan ChenChun-Hao HsuWen-Hsin HsiaoChih-Kung LeeWen-Jong Wu
    • Min-Hua YangMeng-Che ChuangWei-Hsiang LinYu-Hsuan ChenChun-Hao HsuWen-Hsin HsiaoChih-Kung LeeWen-Jong Wu
    • H01L51/40
    • H01L51/0021H01L51/0023
    • A method for fabricating organic thin-film transistors is disclosed. The method includes the steps of: providing a mold and a flexible substrate, wherein the mold comprises microstructures for defining source/drain electrode patterns on the substrate and at least an opening for feeding a solution material; forming an adhesive layer on the flexible substrate such that the mold is attached to the flexible substrate via the adhesive layer; feeding a solution material for forming source/drain electrodes via the opening of the mold and curing the solution material so as to form source/drain electrodes; removing the mold and forming a semiconductor layer on the source/drain electrodes; forming an insulator layer on the semiconductor layer and on the source/drain electrodes; forming a gate electrode on the insulator layer; and forming a protective layer for covering the organic thin-film transistor. The channel length of the thin film transistor is determined by the resolution of the microstructures of the mold.
    • 公开了一种用于制造有机薄膜晶体管的方法。 该方法包括以下步骤:提供模具和柔性基底,其中所述模具包括用于限定所述基底上的源/漏电极图案的微结构和用于馈送溶液材料的至少一个开口; 在所述柔性基板上形成粘合剂层,使得所述模具经由所述粘合剂层附接到所述柔性基板; 通过模具的开口供给用于形成源/漏电极的溶液,并固化溶液材料以形成源/漏电极; 去除模具并在源/漏电极上形成半导体层; 在所述半导体层和所述源极/漏极上形成绝缘体层; 在所述绝缘体层上形成栅电极; 以及形成用于覆盖有机薄膜晶体管的保护层。 薄膜晶体管的沟道长度由模具的微结构的分辨率确定。