公开(公告)号：KR1020130068225A

公开(公告)日：2013-06-26

申请号：KR1020110135161

申请日：2011-12-15

Applicant: 한국전자통신연구원

Inventor： 정연쾌 ,  한진수 ,  이일우

IPC: E06B9/26 ,  E06B9/322 ,  H02S20/32

CPC classification number: E06B9/68 ,  E05Y2201/00 ,  E05Y2400/66 ,  E06B9/262 ,  E06B2009/6818

Abstract: PURPOSE: An energy reduction system through blind control according to a bearing of a window and a method thereof are provided to reduce a cooling load due to the sunlight coming through a window by automatically controlling a blind and a curtain. CONSTITUTION: An energy reduction system(100) through blind control according to a bearing of a window comprises a remote composite controller(140) and a blind and curtain driving unit(164). The remote composite controller remotely controls a blind and a curtain of each window by using time information of direct light on each window based on window bearing information, position information, and sunrise and sunset time information. The time information of the direct light on each window is used to remotely control the blind and the curtain. The blind and curtain driving unit drives the blind and the curtain according to the control of the remote composite controller. [Reference numerals] (100) Energy reduction system through blind/curtain control according to the direction of a window; (110) Information generator for the direction/position of each window in a building; (120) Information generator for sunrise/sunset time; (130) Information generator for a time range of direct light on each window; (140) Remote integrated controller for a blind/curtain device of building windows; (150) Wire/wireless network interface; (160) Window 1; (160') Window n; (162,162') Wire/wireless network interface; (164,164') Blind and curtain driving unit; (AA) Wire/wireless network

Abstract translation: 目的：提供一种根据窗户轴承的盲目控制的能量减少系统及其方法，以通过自动控制盲帘和帘幕来减少由于阳光通过窗户而产生的冷却负荷。 构成：根据窗户的轴承通过盲控制的能量减少系统（100）包括远程复合控制器（140）和盲帘驱动单元（164）。 远程复合控制器通过使用基于窗口轴承信息，位置信息和日出和日落时间信息的每个窗口上的直接光线的时间信息来远程控制每个窗口的盲帘和帘幕。 每个窗口上的直射光的时间信息用于远程控制盲人和窗帘。 盲帘和窗帘驱动单元根据远程复合控制器的控制驱动窗帘和窗帘。 （附图标记）（100）根据窗口的方向通过盲目/窗帘控制的能量减少系统; （110）建筑物中每个窗户的方向/位置的信息发生器; （120）日出/日落时间信息发生器; （130）每个窗口上的直射光的时间范围的信息发生器; （140）建筑窗户盲帘/窗帘设备的远程集成控制器; （150）有线/无线网络接口; （160）窗口1; （160'）窗口n; （162,162'）有线/无线网络接口; （164,164'）盲帘驱动单元; （AA）有线/无线网络

公开(公告)号：KR1020130062410A

公开(公告)日：2013-06-13

申请号：KR1020110117086

申请日：2011-11-10

Applicant: 한국전자통신연구원

Inventor： 김종원 ,  정연쾌 ,  이일우

IPC: G06Q50/00

CPC classification number: G06F17/50 ,  G06F17/5004

Abstract: PURPOSE: A device for automatically arranging sensors of a building energy control point and a method thereof are provided to increase measurement precision of the sensors in a building and to minimize expenses. CONSTITUTION: A user inputs a structure of a building to a system. Optimized arrangement coordinates of sensors are extracted by using temperature, humidity, temperature and humidity, illumination, room, CO2, and fine dust sensor simulator units(12-18). The position of the sensor is displayed by using the coordinates of the sensors, and installation money is calculated(101-114). An optimized center arrangement position is calculated by considering the position of the sensor and the installation money. [Reference numerals] (101) Temperature sensor position display unit; (102) Temperature sensor price display unit; (103) Humidity sensor position display unit; (104) Humidity sensor price display unit; (105) Combined temperature and humidity sensor position display unit; (106) Combined temperature and humidity sensor price display unit; (107) Illumination sensor position display unit; (108) Illumination sensor price display unit; (109) Occupancy sensor position display unit; (11) Input unit; (110) Occupancy sensor price display unit; (111) CO2 sensor position display unit; (112) CO2 sensor price display unit; (113) Fine dust sensor position display unit; (114) Fine dust sensor price position unit; (12) Temperature sensor simulator unit; (13) Humidity sensor simulator unit; (14) Combined temperature and humidity sensor simulator unit; (15) Illumination sensor simulator unit; (16) Occupancy sensor simulator unit; (17) CO2 sensor simulator unit; (18) Fine dust simulator unit; (AA) User input information; (B1) Temperature sensor simulation start signal; (B2) Humidity sensor simulation start signal; (B3) Combined temperature and humidity sensor simulation start signal; (B4) Illumination sensor simulation start signal; (B5) Occupancy sensor simulation start signal; (B6) CO2 sensor simulation start signal; (B7) Fine dust sensor simulation start signal; (B8) Room/corridor information; (C1) Optimized arrangement coordinate of a temperature sensor; (C10) Optimized total amount of an occupancy sensor; (C11) Optimized arrangement coordinate of a CO2 sensor; (C12) Optimized total amount of the CO2 sensor; (C13) Optimized arrangement coordinate of a fine dust sensor; (C14) Optimized total amount of the fine dust sensor; (C2) Optimized total amount of the temperature sensor; (C3) Optimized arrangement coordinate of a humidity sensor; (C4) Optimized total amount of the humidity sensor; (C5) Optimized arrangement coordinate of a combined temperature and humidity sensor; (C6) Optimized total amount of the combined temperature and humidity sensor; (C7) Optimized arrangement coordinate of an illumination sensor; (C8) Optimized total amount of the illumination sensor; (C9) Optimized total arrangement coordinate of the occupancy sensor; (D1) Optimized arrangement position display of the temperature sensor; (D10) Optimized total amount display of the occupancy sensor; (D11) Optimized arrangement position display of the CO2 sensor; (D12) Optimized total amount display of the CO2 sensor; (D13) Optimized arrangement position display of the fine dust sensor; (D14) Optimized total amount display of the fine dust sensor; (D2) Optimized total amount display of the temperature sensor; (D3) Optimized arrangement position display of the humidity sensor; (D4) Optimized total amount display of the humidity sensor; (D5) Optimized arrangement position display of the combined temperature and humidity sensor; (D6) Optimized total amount display of the combined temperature and humidity sensor; (D7) Optimized arrangement position display of the illumination sensor; (D8) Optimized total amount display of the illumination sensor; (D9) Optimized arrangement position display of the occupancy sensor

Abstract translation: 目的：提供一种用于自动布置建筑物能量控制点的传感器的装置及其方法，以增加建筑物中的传感器的测量精度并最小化费用。 构成：用户将建筑物的结构输入系统。 通过使用温度，湿度，温湿度，照明，房间，二氧化碳和细尘传感器模拟器单元（12-18）提取传感器优化布置坐标。 使用传感器的坐标显示传感器的位置，计算安装费（101-114）。 通过考虑传感器的位置和安装费用来计算优化的中心布置位置。 （附图标记）（101）温度传感器位置显示单元; （102）温度传感器价格显示单元; （103）湿度传感器位置显示单元; （104）湿度传感器价格显示单元; （105）组合温湿度传感器位置显示单元; （106）组合温湿度传感器价格显示单元; （107）照明传感器位置显示单元; （108）照明传感器价格显示单元; （109）占用传感器位置显示单元; （11）输入单元; （110）占用传感器价格显示单位; （111）CO2传感器位置显示单元; （112）二氧化碳传感器价格显示单位; （113）细尘传感器位置显示单元; （114）细尘传感器价格位置单位; （12）温度传感器模拟器单元; （13）湿度传感器模拟器单元; （14）组合温湿度传感器模拟器单元; （15）照明传感器模拟器单元; （16）占用传感器模拟器单元; （17）CO2传感器模拟器单元; （18）细尘模拟器单元; （AA）用户输入信息; （B1）温度传感器模拟启动信号; （B2）湿度传感器模拟启动信号; （B3）组合温湿度传感器模拟启动信号; （B4）照明传感器模拟启动信号; （B5）占空传感器模拟启动信号; （B6）CO2传感器模拟启动信号; （B7）细尘传感器模拟启动信号; （B8）房间/走廊信息; （C1）温度传感器的优化布置坐标; （C10）占用传感器总量的优化; （C11）CO2传感器的优化配置坐标; （C12）CO2传感器总量的优化; （C13）精细粉尘传感器的优化布置坐标; （C14）精细粉尘传感器总量优化; （C2）优化温度传感器总量; （C3）优化湿度传感器的排列坐标; （C4）优化湿度传感器总量; （C5）组合温湿度传感器的优化布置坐标; （C6）组合温湿度传感器的总量优化; （C7）照明传感器的优化布置坐标; （C8）优化照明传感器的总量; （C9）占用传感器的总布置坐标优化; （D1）温度传感器的优化布置位置显示; （D10）占用传感器的总量显示优化; （D11）CO2传感器优化布置位置显示; （D12）CO2传感器的总量显示优化; （D13）精细灰尘传感器优化布置位置显示; （D14）精细粉尘传感器总量显示优化; （D2）优化温度传感器总量显示; （D3）优化湿度传感器的排列位置显示; （D4）优化湿度传感器总量显示; （D5）组合温湿度传感器优化布置位置显示; （D6）组合温湿度传感器的总量显示优化; （D7）照明传感器的优化布置位置显示; （D8）照明传感器的总量显示优化; （D9）占用传感器的优化布置位置显示

公开(公告)号：KR1020120072106A

公开(公告)日：2012-07-03

申请号：KR1020100133901

申请日：2010-12-23

Applicant: 한국전자통신연구원

Inventor： 한진수 ,  최창식 ,  박완기 ,  정연쾌 ,  이일우

IPC: G06Q50/10 ,  G06F19/00

CPC classification number: G05B15/02 ,  G05B2219/2642

Abstract: PURPOSE: A building facility maintenance and error management apparatus and method thereof are provided to effectively maintain building facilities by tracing performance deterioration through building facility association. CONSTITUTION: A building state management engine unit(102) monitors the state and environment of a building by inputting building state management information. The building state management engine unit outputs a control command. A building facility association DB(104) stores association information between building facilities. A building facility control unit(106) authenticates association determination and effects.

Abstract translation: 目的：提供建筑设施维护和错误管理设备及方法，通过建筑设施协会追踪性能恶化，有效维护建筑设施。 构成：建筑物状态管理引擎单元（102）通过输入建筑物状态管理信息监视建筑物的状态和环境。 建筑状态管理引擎单元输出控制命令。 建筑设施协会DB（104）在建筑设施之间存储协会信息。 建筑设施控制单元（106）认证关联确定和效果。

公开(公告)号：KR1020120070653A

公开(公告)日：2012-07-02

申请号：KR1020100132061

申请日：2010-12-22

Applicant: 한국전자통신연구원

Inventor： 최창식 ,  박완기 ,  한진수 ,  정연쾌 ,  이일우

IPC: G06F19/00 ,  G06F17/40 ,  G06F3/048

CPC classification number: G06Q10/00 ,  G06Q50/16

Abstract: PURPOSE: A database constructing/UI processing apparatus and a method thereof are provided to hierarchically store building data and supply instinctive analysis through an object concept of various monitoring points. CONSTITUTION: A database constructing apparatus analyzes building information which is collected from a building. A UI(User Interface) processing device collects object information requested from the database according to a monitoring request. The building information includes building facilitate information, environment sensor information, and weather information.

Abstract translation: 目的：提供数据库构造/ UI处理装置及其方法，以通过各种监视点的对象概念分级地存储建筑数据并提供本能分析。 规定：数据库构建装置分析从建筑物收集的建筑信息。 UI（用户界面）处理设备根据监视请求收集从数据库请求的对象信息。 建筑信息包括建筑物便利信息，环境传感器信息和天气信息。

公开(公告)号：KR1020100069321A

公开(公告)日：2010-06-24

申请号：KR1020080127979

申请日：2008-12-16

Applicant: 한국전자통신연구원

Inventor： 최문옥 ,  강신육 ,  이일우 ,  박호진

IPC: G06Q50/10 ,  H04L29/08 ,  G06F15/16 ,  G06Q30/02 ,  G06F17/30

CPC classification number: G06Q50/10 ,  G06F15/16 ,  G06F17/30244 ,  G06Q30/0277 ,  H04L29/08306

Abstract: PURPOSE: A digital photo frame service device and a method thereof are provided to transmit a specific image file to a digital photo frame connected with a remote peer through a P2P mode. CONSTITUTION: A P2P connection and image file transceiving control unit(208) are connected to an object peer on a P2P network issuing peer advertisement using analyzed information about the peer advertisement. The P2P connection and image file transceiving control unit transceive a shared image file for a digital photo frame service. A shared image file database(204) stores the shared image file sharing with digital photo frame service peers within the P2P network. A digital photo frame control unit(202) offers the image file saved in the share image file database to the digital photo frame connected to the wire and wireless.

Abstract translation: 目的：提供数字相框服务设备及其方法，通过P2P模式将特定图像文件传输到与远程对等体连接的数字相框。 构成：使用关于对等广告的分析信息，P2P连接和图像文件收发控制单元（208）连接到P2P网络发布对等广告上的对象对等体。 P2P连接和图像文件收发控制单元收发用于数字相框服务的共享图像文件。 共享图像文件数据库（204）存储与P2P网络内的数字相框服务对等体共享的共享图像文件。 数字相框控制单元（202）将保存在共享图像文件数据库中的图像文件提供给连接到有线和无线的数字相框。

公开(公告)号：KR1020090063732A

公开(公告)日：2009-06-18

申请号：KR1020070131203

申请日：2007-12-14

Applicant: 한국전자통신연구원

Inventor： 최문옥 ,  이일우 ,  이상봉 ,  박호진 ,  이해룡

IPC: G06Q50/32 ,  G06Q50/30 ,  G06Q30/02

CPC classification number: H04L67/104 ,  G06Q10/107 ,  H04L51/00 ,  H04L63/0428 ,  H04L63/08 ,  H04L67/1068 ,  H04L67/1078 ,  H04L67/1091

Abstract: A system and a method for a P2P service by using an e-mail service are provided to exchange a message and a file and perform remote control with a peer in an online state or a peer in a temporary offline state. The first peer(101) requests a service and sharing resource information provided from a P2P network. The second peer(102) provides the requested service and sharing resource information. The first mail server(103) registers an e-mail address of the first peer. When the first peer is in an offline state, the first mail server receives the service and sharing resource information. When the first peer is back into an online state, the first mail server transmits the service and sharing resource information to the first peer.

Abstract translation: 提供一种通过使用电子邮件服务进行P2P服务的系统和方法，用于与在线状态的对等体或处于临时离线状态的对等体交换消息和文件并执行远程控制。 第一对等体（101）请求服务并共享从P2P网络提供的资源信息。 第二对等体（102）提供所请求的服务并共享资源信息。 第一邮件服务器（103）注册第一对等体的电子邮件地址。 当第一个对等体处于脱机状态时，第一个邮件服务器接收服务并共享资源信息。 当第一个对等体回到在线状态时，第一邮件服务器将服务和共享资源信息发送给第一个对等体。

公开(公告)号：KR1020080044716A

公开(公告)日：2008-05-21

申请号：KR1020060114124

申请日：2006-11-17

Applicant: 한국전자통신연구원

Inventor： 이상옥 ,  이일우 ,  박호진 ,  박광로

IPC: H04B1/40 ,  G06F15/02

CPC classification number: G06F21/36 ,  G06F3/0488

Abstract: A log-in apparatus and method of a mobile terminal using a graphic password are provided to solve a problem that a user cannot easily input a desired password by sequentially selecting desired characters and numbers with a stylus pen or his fingers. A touch screen displays a graphic password input window and acquires position information corresponding to a graphic password drawn on the graphic password input window. A graphic password input unit(31) generates the graphic password input window and displays it on the touch screen in case of a log-in and analyzes the position information acquired through the touch screen to acquire the graphic password. A graphic password converting unit(32) converts the graphic password into the format of a keyboard character string, and outputs the same. The graphic password input window includes a single graphic box in which the graphic password is drawn and a single check box in which a completion of inputting of the graphic password is checked.

Abstract translation: 提供了使用图形口令的移动终端的登录装置和方法，以解决用户不能通过用手写笔或他的手指顺序选择所需的字符和数字而不能容易地输入所需密码的问题。 触摸屏显示图形密码输入窗口，并获取与在图形密码输入窗口上画出的图形密码相对应的位置信息。 图形密码输入单元（31）生成图形密码输入窗口，并在登录时将其显示在触摸屏上，并分析通过触摸屏获取的位置信息以获取图形密码。 图形密码转换单元（32）将图形密码转换为键盘字符串的格式，并输出。 图形密码输入窗口包括绘制图形密码的单个图形框，以及检查图形密码输入完成的单个复选框。

公开(公告)号：KR100653464B1

公开(公告)日：2006-12-05

申请号：KR1020050110875

申请日：2005-11-18

Applicant: 한국전자통신연구원

Inventor： 이일우 ,  박호진 ,  박광로 ,  김명준

IPC: H04L12/24 ,  H04L12/12 ,  H04L12/28 ,  H04L12/66

Abstract: A life cycle management method of a home network service application and a service distribution management device using the method are provided to offer a necessary application to a home gateway in a remote place. Web service units(231-234) provide web-based portal services to user groups which contain service providers, managers, and service users. A bundle management module(235) stores and manages a home network service application whose registration is requested through the web service units(231-234), in a storage(239). A service package management module(236) generates and manages a service package by binding individual home network service applications into one accounting unit or management unit, according to a service package setup request through the web service units(231-234). A life cycle management module(238) downloads the designated service package to a home gateway(210) in push or pull type. The storage(239) stores the service package and the home network service application managed by the modules(235,236).

Abstract translation: 提供家庭网络服务应用的生命周期管理方法和使用该方法的服务分发管理设备，以向远程的家庭网关提供必要的应用。 Web服务单元（231-234）为包含服务提供者，管理者和服务用户的用户组提供基于web的门户服务。 捆绑管理模块（235）在存储器（239）中存储并管理通过网络服务单元（231-234）请求注册的家庭网络服务应用。 服务包管理模块（236）根据通过web服务单元（231-234）的服务包建立请求，通过将各个家庭网络服务应用绑定到一个计帐单元或管理单元来产生和管理服务包。 生命周期管理模块（238）以推或拉类型将指定的服务包下载到家庭网关（210）。 存储器（239）存储由模块（235,236）管理的服务包和家庭网络服务应用程序。

公开(公告)号：KR100542401B1

公开(公告)日：2006-01-11

申请号：KR1020020064904

申请日：2002-10-23

Applicant: 한국전자통신연구원

Inventor： 이우섭 ,  유제훈 ,  이형호 ,  김상하 ,  이준화 ,  이일우 ,  양미정

IPC: H04L12/28

CPC classification number: H04L47/10 ,  H04L47/11 ,  H04L47/15 ,  H04L47/2408 ,  H04L47/30 ,  H04L47/31 ,  H04L47/70 ,  H04L47/745 ,  H04L47/781 ,  H04L47/805 ,  H04L47/822

Abstract: 본 발명은 인터넷 차별 서비스 망에서 대역폭 브로커(Bandwidth Broker), 동적 대역 관리 및 측정 기반 수락 제어 방식을 통합 적용하여 연결 수락 제어를 수행하는 인터넷 차별 서비스 망에서의 연결 수락 제어방법에 관한 것이다. 이를 위하여 본 발명은, 대역폭 브로커, 다수의 입,출구 엣지 노드 및 다수의 코아 노드를 포함하는 인터넷 차별 서비스 망에서의 연결 수락 제어방법에 있어서, 다수의 입구 엣지 노드에서 수행되는 연결 수락 제어를 패스 레벨 및 링크 레벨로 분리하고 대역폭 브로커에서 상기 입구 엣지 노드에 대한 초기 패스 레벨 대역을 할당하는 제1 단계; 상기 패스 상의 특정 링크에서의 폭주가 발생한 경우 코아 노드에서 폭주 제어를 수행하여 상기 폭주 발생을 대역폭 브로커를 통해 상기 다수의 입구 엣지 노드로 전달하는 제2 단계; 새로운 플로우에 대한 연결 설정 요구시, 상기 패스 레벨에서는 대역폭 브로커에서 해당 패스의 각 서비스에 대해 초기 할당한 패스 레벨 대역을 이용하여 상기 입구 엣지 노드에서 패스 레벨 연결 수락 제어를 수행하는 제3 단계; 및 상기 초기 할당된 패스 레벨 대역을 다 사용한 경우, 링크 레벨에서는 동적 대역 관리 방법을 이용하여 사용하지 않는 최선형(Best Effort) 서비스의 대역을 할당 받은 후 측정기반 수락제어 방식을 통해 링크 레벨 연결 수락 제어를 수행하는 제4 단계;를 포함한다.
대역폭 브로커, 연결수락제어, 측정기반 수락제어, 동적대역관리, 차별 서비스 망, 패스 레벨, 링크 레벨

公开(公告)号：KR1020050067322A

公开(公告)日：2005-07-01

申请号：KR1020030098203

申请日：2003-12-27

Applicant: 한국전자통신연구원

Inventor： 이일우 ,  박호진 ,  김대웅 ,  김상하

IPC: H04L12/28

CPC classification number: H04L12/2834 ,  H04L12/2818

Abstract: 본 발명은 서비스 품질 제공 방법과 이를 이용한 홈 네트워크 시스템에 관한 것이다. 본 발명에 따른 홈 네트워크 시스템은 서비스 제공망과 가입자망 간에 서비스 품질을 보장하는 홈 네트워크 시스템으로서, 서비스 제공망과 가입자망 간에 송수신되는 데이터 패킷을 분류하여 전송하는 복수의 에지 노드; 에지 노드의 링크 레벨 및 패스 레벨 정보를 관리하며, 데이터 패킷의 서비스 등급에 따라 대역폭을 제어하는 대역폭 브로커; 및 대역폭 브로커로부터 패스 레벨 정보를 수신하여, 에지 노드의 데이터 패킷 전송에 대한 수락 제어를 수행하는 서비스 분배 관리 시스템을 포함한다.