公开(公告)号：WO2012070852A2

公开(公告)日：2012-05-31

申请号：PCT/KR2011008938

申请日：2011-11-22

Applicant: KOREA ELECTRONICS TECHNOLOGY ,  KWAK YEON HWA ,  PARK SOON SUP ,  HONG SUNG MIN ,  LEE HAN YOUNG

Inventor： KWAK YEON HWA ,  PARK SOON SUP ,  HONG SUNG MIN ,  LEE HAN YOUNG

IPC: A61B5/145 ,  H04B7/24

CPC classification number: A61B5/14532 ,  A61B5/0002 ,  A61B5/1455

Abstract: Disclosed is a system for continuously measuring blood sugar. According to one embodiment of the present invention, the system for continuously measuring blood sugar continuously measures the blood sugar of a subject, and comprises: a sensing unit for continuously measuring blood sugar, which includes a label-free sensor for fixing a reversibly reactive glucose antibody on the surface thereof, and which detects a signal generated by the binding of the reversibly reactive glucose antibody and the glucose molecules in body fluid; a total management terminal for monitoring whether or not the sensing unit is operating, which receives, in a wired or wireless manner, the blood sugar data measured by the sensing unit, and which filters, analyzes, compares, stores, transmits, and displays the blood sugar data; and a data-transceiving unit for transmitting, in a wired or wireless manner, the data received from the total management terminal to a subscriber.

Abstract translation: 公开了一种用于连续测量血糖的系统。 根据本发明的一个实施例，用于连续测量血糖的系统连续地测量对象的血糖，并且包括：用于连续测量血糖的感测单元，其包括用于固定可逆活性葡萄糖的无标记传感器 抗体，其检测由可逆反应性葡萄糖抗体与体液中葡萄糖分子的结合产生的信号; 整体管理终端，用于监视感测单元是否正在操作，其以有线或无线方式接收由感测单元测量的血糖数据，以及过滤，分析，比较，存储，发送和显示 血糖数据; 以及数据收发单元，用于以有线或无线的方式将从总管理终端接收到的数据发送给订户。

公开(公告)号：WO2011078594A2

公开(公告)日：2011-06-30

申请号：PCT/KR2010009251

申请日：2010-12-23

Applicant: KOREA ELECTRONICS TECHNOLOGY ,  JUNG SUK WON ,  LEE MIN HO ,  LEE KOOK NYUNG ,  SEONG WOO KYUNG ,  LEE KYUNG IL

Inventor： JUNG SUK WON ,  LEE MIN HO ,  LEE KOOK NYUNG ,  SEONG WOO KYUNG ,  LEE KYUNG IL

IPC: H04R17/00

CPC classification number: H04R17/00

Abstract: The present invention relates to a piezoresistive pressure microphone using nanowires, and to a method for manufacturing same. More particularly, the present invention relates to a piezoresistive pressure microphone using nanowires, comprising: a first substrate having a center on which silicon nanowires serving as a sensing unit are formed, wherein the lower portions of the silicon nanowires are etched; an electrode layer formed on the first substrate, which is divided into two parts by the sensing unit; a membrane which is formed on the first substrate, and coated into a structure for exposing the electrode layer; an adhesive layer formed on the membrane formed on the substrate which is divided into two parts by the sensing unit; and a second substrate attached onto the adhesive layer, and etched in such a manner that the electrode layer and the sensing unit are outwardly exposed.

Abstract translation: 本发明涉及使用纳米线的压阻式麦克风及其制造方法。 更具体地说，本发明涉及一种使用纳米线的压阻式麦克风，包括：形成有用作感测单元的硅纳米线的中心的第一基板，其中蚀刻硅纳米线的下部; 形成在第一基板上的电极层，由感测单元分成两部分; 膜，其形成在第一基板上，并且被涂覆到用于暴露电极层的结构中; 在形成在基板上的膜上形成的粘合剂层，其通过感测单元分成两部分; 以及附着在所述粘合剂层上的第二基板，并且以使得所述电极层和所述感测单元向外露出的方式被蚀刻。

公开(公告)号：WO2010101330A9

公开(公告)日：2010-11-25

申请号：PCT/KR2009002814

申请日：2009-05-27

Applicant: KOREA ELECTRONICS TECHNOLOGY ,  WON YUN-JAE ,  LIM SEUNG-OK ,  KIM SUN-HEE

Inventor： WON YUN-JAE ,  LIM SEUNG-OK ,  KIM SUN-HEE

IPC: H04B5/00

CPC classification number: H04B5/0031 ,  H04W72/1273 ,  H04W84/18

Abstract: The prevent invention relates to a wireless communication method for a magnetic field communication network and a demodulation device of a coordinator, capable of recognizing a plurality of sensor nodes for a short time. The wireless communication method for the magnetic field network of the present invention comprises: step (a) of transmitting a request signal to request a response to sensor nodes, which is performed by the coordinator in the magnetic field communication network; step (b) of selecting any one of response signals received from the sensor nodes; step (c) of transmitting an acknowledgement signal to the sensor node corresponding to the response signal selected in step (c); step (d) of selecting any one of the response signals retransmitted from the sensor nodes which do not receive the acknowledgement signal of step (c); and step (e) of transmitting the acknowledgement signal to the sensor node corresponding to the response signal selected in step (d).

Abstract translation: 本发明涉及能够在短时间内识别多个传感器节点的用于磁场通信网络和协调器的解调装置的无线通信方法。 本发明的磁场网络的无线通信方法包括以下步骤：（a）发送请求信号以请求由磁场通信网络中的协调器执行的传感器节点的响应; 步骤（b）选择从传感器节点接收的响应信号中的任何一个; 步骤（c），将对应于步骤（c）中选择的响应信号的确认信号发送到传感器节点; 步骤（d）选择从所述传感器节点重传的响应信号中的任何一个，所述响应信号不接收步骤（c）的确认信号; 以及步骤（e），其将与所述步骤（d）中选择的所述响应信号相对应的所述确认信号发送到所述传感器节点。

公开(公告)号：WO2010056049A3

公开(公告)日：2010-08-26

申请号：PCT/KR2009006654

申请日：2009-11-12

Applicant: KOREA ELECTRONICS TECHNOLOGY ,  HONG SUNG MIN ,  KIM KUN NYUN ,  JO YOUNG CHANG ,  KIM WON HYO

Inventor： HONG SUNG MIN ,  KIM KUN NYUN ,  JO YOUNG CHANG ,  KIM WON HYO

IPC: G01N27/22 ,  G01N27/00 ,  G01N27/26

CPC classification number: G01N27/223

Abstract: The present invention relates to a humidity sensor of capacitance type, and more specifically to a humidity sensor of capacitance type and a method of manufacturing same that enable not only the fabrication of a compact humidity sensor by forming a sensor part on top of an ROIC substrate, but also the enhancement of the reliability of the sensor by forming a humidity sensing layer with a polymeric material of a large surface area between a lower electrode layer and an upper electrode layer. The humidity sensor of capacitance type of the present invention comprises: an ROIC substrate that includes an electrode pad; a metallic layer that is formed on top of said ROIC substrate and patterned to expose a part of said electrode pad; an insulation layer that is formed on top of said metallic layer and patterned to expose a part of said electrode pad; a lower electrode layer that is formed on top of said insulation layer; a humidity sensing layer that is etched and formed on top of said lower electrode layer to expand the surface area; an upper electrode layer that is formed on top of said moisture sensing layer; and a connection layer that is formed on top of said exposed electrode pad to bring each of said lower electrode layer and upper electrode layer into contact with said electrode pad.

Abstract translation: 电容式湿度传感器技术领域本发明涉及一种电容式湿度传感器，更具体地说，涉及一种电容型湿度传感器及其制造方法，不仅能够通过在ROIC基板的顶部形成传感器部件来制造小型湿度传感器 而且还通过在下电极层和上电极层之间形成具有大表面积的聚合材料的湿度感测层来提高传感器的可靠性。 本发明的电容式湿度传感器包括：ROIC衬底，其包括电极焊盘; 金属层，其形成在所述RO​​IC基板的顶部上并被图案化以暴露所述电极焊盘的一部分; 绝缘层，其形成在所述金属层的顶部并被图案化以暴露所述电极焊盘的一部分; 形成在所述绝缘层的顶部的下电极层; 湿度感测层，其被蚀刻并形成在所述下电极层的顶部上以使表面积膨胀; 上部电极层，其形成在所述湿度感测层的顶部; 以及形成在所述暴露的电极焊盘的顶部上以使所述下电极层和上电极层中的每一个与所述电极焊盘接触的连接层。

公开(公告)号：WO2010056049A2

公开(公告)日：2010-05-20

申请号：PCT/KR2009006654

申请日：2009-11-12

Applicant: KOREA ELECTRONICS TECHNOLOGY ,  HONG SUNG MIN ,  KIM KUN NYUN ,  JO YOUNG CHANG ,  KIM WON HYO

Inventor： HONG SUNG MIN ,  KIM KUN NYUN ,  JO YOUNG CHANG ,  KIM WON HYO

IPC: G01N27/22 ,  G01N27/00 ,  G01N27/26

CPC classification number: G01N27/223

Abstract: The present invention relates to a humidity sensor of capacitance type, and more specifically to a humidity sensor of capacitance type and a method of manufacturing same that enable not only the fabrication of a compact humidity sensor by forming a sensor part on top of an ROIC substrate, but also the enhancement of the reliability of the sensor by forming a humidity sensing layer with a polymeric material of a large surface area between a lower electrode layer and an upper electrode layer. The humidity sensor of capacitance type of the present invention comprises: an ROIC substrate that includes an electrode pad; a metallic layer that is formed on top of said ROIC substrate and patterned to expose a part of said electrode pad; an insulation layer that is formed on top of said metallic layer and patterned to expose a part of said electrode pad; a lower electrode layer that is formed on top of said insulation layer; a humidity sensing layer that is etched and formed on top of said lower electrode layer to expand the surface area; an upper electrode layer that is formed on top of said moisture sensing layer; and a connection layer that is formed on top of said exposed electrode pad to bring each of said lower electrode layer and upper electrode layer into contact with said electrode pad.

Abstract translation: 电容型湿度传感器及其制造方法技术领域本发明涉及一种电容型湿度传感器，更具体地涉及一种电容型湿度传感器及其制造方法，其不仅能够通过在ROIC基底上形成传感器部件来制造小型湿度传感器 而且还通过在下电极层和上电极层之间用大表面积的聚合物材料形成湿敏层来提高传感器的可靠性。 本发明的电容型湿度传感器包括：ROIC基板，其包括电极焊盘; 金属层，形成在所述RO​​IC衬底的顶部上并被图案化以暴露所述电极焊盘的一部分; 绝缘层，形成在所述金属层的顶部并且被图案化以暴露所述电极焊盘的一部分; 形成在所述绝缘层的顶部上的下电极层; 湿敏层，在所述下电极层的顶部上被蚀刻并形成以扩大表面积; 形成在所述湿度感测层上的上电极层; 以及连接层，形成在所述暴露的电极焊盘的顶部上，以使每个所述下电极层和上电极层与所述电极焊盘接触。

公开(公告)号：WO2010041906A2

公开(公告)日：2010-04-15

申请号：PCT/KR2009/005801

申请日：2009-10-09

Applicant: KOREA ELECTRONICS TECHNOLOGY INSTITUTE ,  KIM, Hyun Gyu ,  LEE, Sin Wook ,  SHIN, Hwa seon ,  LEE, Sang Heon ,  CHOI, Byeong Ho ,  LEE, Chung Ku ,  JANG, Euee Seon

Inventor： KIM, Hyun Gyu ,  LEE, Sin Wook ,  SHIN, Hwa seon ,  LEE, Sang Heon ,  CHOI, Byeong Ho ,  LEE, Chung Ku ,  JANG, Euee Seon

IPC: H04N7/24

CPC classification number: H04N19/42 ,  H04N21/435 ,  H04N21/8193 ,  H04N21/8543

Abstract: Provided are a decoding apparatus and method. The decoding apparatus includes a repository and a configuration unit. The repository stores a plurality of functional units having an input port and an output port which are respectively represented as tokens. The configuration unit receives decoder description which includes an identifier of at least one of the functional units and connection relationship information between the functional units, selects each functional unit corresponding to the received identifier from the repository, and connects the selected functional units by using the token to configure a variable decoder. The decoding apparatus and method defines the connection relationships between a plurality of functional units that configure a decoder, and thus can quickly and dynamically configure a decoder suitable for various encoding schemes. Accordingly, the decoding apparatus and method enable to easily verify suitability in each level of encoding, decoding and standardization and achieve the concentration of information, thereby accelerating the progress and standardization of technologies.

Abstract translation: 提供了一种解码设备和方法。 解码装置包括存储库和配置单元。 存储库存储多个具有分别表示为令牌的输入端口和输出端口的功能单元。 配置单元接收包括功能单元中的至少一个的标识符和功能单元之间的连接关系信息的解码器描述，从储存库中选择与接收到的标识符对应的每个功能单元，并且通过使用令牌来连接选择的功能单元 配置一个可变的解码器。 解码设备和方法定义配置解码器的多个功能单元之间的连接关系，因此可以快速且动态地配置适合于各种编码方案的解码器。 因此，解码设备和方法能够容易地验证编码，解码和标准化的各个级别的适用性，并实现信息的集中，从而加速技术的进步和标准化。

公开(公告)号：WO2009145505A3

公开(公告)日：2009-12-03

申请号：PCT/KR2009/001821

申请日：2009-04-08

Applicant: KOREA ELECTRONICS TECHNOLOGY INSTITUTE ,  KIM, Sun-hee ,  WON, Yun-jae ,  LIM, Seung-ok

Inventor： KIM, Sun-hee ,  WON, Yun-jae ,  LIM, Seung-ok

IPC: H03D7/00

Abstract: The present invention relates to a demodulator for simultaneous multi-node receiving and a method therof; and, more particularly, a demodulator in a wireless communication system for receiving signals from multi nodes simultaneously and a method thereof. In accordance with the aspect of the present invention, there is provided a demodulator for simultaneous multi-node receiving which comprises: a clock generator for generating a pair of CW signals and a pair of demodulating modules, wherein the demodulating modules comprise a mixer for multiplying received signals and one of the CW signals, an integrator for integrating multiplied signal and data operating unit for calculating variation result of integrated signal at every certain symbol duration and deciding output data in accordance with the variation result.

公开(公告)号：WO2007075042A1

公开(公告)日：2007-07-05

申请号：PCT/KR2006/005762

申请日：2006-12-27

Applicant: KOREA ELECTRONICS TECHNOLOGY INSTITUTE ,  PARK, Pu Sik ,  SHIN, Dae Kyo ,  LIM, Ki Tag ,  KWAK, Jae Min ,  CHOI, Jong Chan

Inventor： PARK, Pu Sik ,  SHIN, Dae Kyo ,  LIM, Ki Tag ,  KWAK, Jae Min ,  CHOI, Jong Chan

IPC: H04L29/06

CPC classification number: H04L67/322 ,  H04L67/12

Abstract: A system and method is disclosed for controlling congestion in communications between an RSE and multiple OBEs in a DSRC system. In certain embodiments, a system and method for controlling congestion in communications between an RSE and multiple OBEs includes determining a priority level for each of multiple OBEs with respect to reserving a channel between each OBE and an RSE. Based on this determination, each OBE is assigned a waiting period based on their respective priority levels. The OBEs then send requests to reserve a channel to the RSE after waiting the assigned waiting periods.

Abstract translation: 公开了一种用于控制DSRC系统中的RSE与多个OBE之间的通信中的拥塞的系统和方法。 在某些实施例中，用于控制RSE和多个OBE之间的通信中的拥塞的系统和方法包括针对保留每个OBE和RSE之间的信道来确定多个OBE中的每一个的优先级。 基于该确定，每个OBE基于它们各自的优先级被分配等待时段。 然后，OBE在等待分配的等待期之后发送请求以保留RSE的频道。

公开(公告)号：WO2004049671A1

公开(公告)日：2004-06-10

申请号：PCT/KR2003/002542

申请日：2003-11-25

Applicant: KOREA ELECTRONICS TECHNOLOGY INSTITUTE ,  CHOI, Kwang-Soon ,  LIM, Seung-Ok ,  JUNG, Kwangmo ,  SEO, Kyeung-Hak

Inventor： CHOI, Kwang-Soon ,  LIM, Seung-Ok ,  JUNG, Kwangmo ,  SEO, Kyeung-Hak

IPC: H04L29/06

CPC classification number: H04L69/08

Abstract: The present invention provides common protocol architecture and methods for transmitting data between different network protocols and a common protocol packet. The common protocol architecture comprises an application layer; a common protocol layer positioned under the application layer, the common protocol layer enabling data communications between the different protocols; a presentation layer positioned under the common protocol layer; a session layer positioned under the presentation layer; a transport layer positioned under the session layer; a network layer positioned under the transport layer; a data link layer positioned under the network layer; and a physical layer positioned under the data link layer. The common protocol packet comprises a common protocol header with information about a packet and a payload with the contents of data. By designing the common protocol layer and the common protocol packet accepting various protocols simultaneously, the present invention can improve compatibility between different protocols.

Abstract translation: 本发明提供了用于在不同网络协议和公共协议分组之间传输数据的通用协议架构和方法。 公共协议架构包括应用层; 位于应用层之下的公共协议层，公共协议层使不同协议之间能够进行数据通信; 位于公共协议层下的表示层; 位于表示层下的会话层; 位于会话层下面的传输层; 位于传输层下面的网络层; 位于网络层下的数据链路层; 以及位于数据链路层下面的物理层。 公共协议分组包括具有关于分组的信息的公共协议报头和具有数据内容的有效载荷。 通过设计公共协议层和同时接受各种协议的公共协议报文，本发明可以提高不同协议之间的兼容性。

公开(公告)号：WO2004049658A1

公开(公告)日：2004-06-10

申请号：PCT/KR2003/002543

申请日：2003-11-25

Applicant: KOREA ELECTRONICS TECHNOLOGY INSTITUTE ,  CHOI, Kwang-Soon ,  JUNG, Kwangmo

Inventor： CHOI, Kwang-Soon ,  JUNG, Kwangmo

IPC: H04L12/66

CPC classification number: H04L61/25 ,  H04L12/2803 ,  H04L29/12018 ,  H04L29/12028 ,  H04L29/1233 ,  H04L29/12801 ,  H04L61/103 ,  H04L61/6004 ,  H04L69/18 ,  H04L69/22

Abstract: The present invention relates to a common address usable in a protocol for internal and external networks in home networking or a common protocol for data communications between various protocols and an address table for address conversion between a common address and a physical address. A common address structure according to the present invention comprises a domain address, a cluster address; a device use address, a device type address, a device ID, and a reserved field. Accordingly, the present invention can enhance compatibility between network protocols and enable communication of different networks with each other using only application programs without address conversion between existing protocol layers. In addition, the present invention can identify whether devices in different networks are working and a new device is registered, identify types of protocols and devices used, and support rapid mapping between a physical address and a common address.

Abstract translation: 本发明涉及可用于家庭网络内部和外部网络的协议中的公用地址或用于各种协议之间的数据通信的公共协议以及用于公共地址和物理地址之间的地址转换的地址表。 根据本发明的公共地址结构包括域地址，簇地址; 设备使用地址，设备类型地址，设备ID和保留字段。 因此，本发明可以增强网络协议之间的兼容性，并且仅使用不同于现有协议层之间的地址转换的应用程序来实现不同网络之间的通信。 此外，本发明可以识别不同网络中的设备是否工作，并且注册新设备，识别所使用的协议和设备的类型，并且支持物理地址和公共地址之间的快速映射。