公开(公告)号：KR1020120075559A

公开(公告)日：2012-07-09

申请号：KR1020100117078

申请日：2010-11-23

Applicant: 한국전자통신연구원

Inventor： 문애경 ,  김규형 ,  리송 ,  이은주

IPC: G06Q50/02

CPC classification number: G06Q50/02 ,  H04N7/183

Abstract: PURPOSE: A crop growth and development observation method and system therefor are provided to embody a remote monitoring service by transmitting observation results to a diagnosis server. CONSTITUTION: A sensor(110) senses the growth information of crops and the environment information of a house(100). A portable terminal(130) moves the height of a photographing apparatus(120) according to the growth information of the sensed crop. The photographing apparatus captures the crop from the height corresponding to the growth information according to the movement of the moving apparatus. A diagnosis server(200) diagnoses crop images by receiving the crop images from the photographing apparatus.

Abstract translation: 目的：提供作物生长发育观察方法及其系统，通过将观测结果传送到诊断服务器来实现远程监测服务。 构成：传感器（110）感测作物的生长信息和房屋的环境信息（100）。 便携式终端（130）根据感测到的作物的生长信息移动摄影装置（120）的高度。 拍摄装置根据移动装置的移动从对应于成长信息的高度捕获作物。 诊断服务器（200）通过从拍摄设备接收裁剪图像来诊断裁剪图像。

公开(公告)号：KR1020120075558A

公开(公告)日：2012-07-09

申请号：KR1020100117075

申请日：2010-11-23

Applicant: 한국전자통신연구원

Inventor： 문애경 ,  김규형 ,  리송 ,  이은주

IPC: G06Q50/02 ,  A01G9/24 ,  A01G9/14

CPC classification number: A01G9/24 ,  Y02A40/264 ,  G06Q50/02 ,  A01G9/14

Abstract: PURPOSE: A greenhouse control method and system therefor are provided to promote the productivity of crops by providing suitable environment and by frequently confirming information for environmental factors for each crop. CONSTITUTION: An information reception unit(110) receives actuator information, sensor information installed in a green house, and crop information. A selecting unit(120) respectively selects an actuator service and a sensor service corresponding to the actuator information and the sensor information. A mapping unit(130) maps a sensor which provides the selected sensor service and an actuator which provides the selected actuator service. A distribution unit(140) extracts growth and development environment information from a DB(DataBase)(150).

Abstract translation: 目的：提供一种温室控制方法和系统，通过提供合适的环境和经常确认每种作物环境因素的信息来提高作物的生产力。 构成：信息接收单元（110）接收执行器信息，安装在温室中的传感器信息和作物信息。 选择单元（120）分别选择与致动器信息和传感器信息相对应的致动器服务和传感器服务。 映射单元（130）映射提供所选择的传感器服务的传感器和提供所选择的致动器服务的致动器。 分发单元（140）从DB（DataBase）（150）中提取生长和开发环境信息。

公开(公告)号：KR101696611B1

公开(公告)日：2017-01-17

申请号：KR1020100117075

申请日：2010-11-23

Applicant: 한국전자통신연구원

Inventor： 문애경 ,  김규형 ,  리송 ,  이은주

IPC: G06Q50/02 ,  A01G9/24 ,  A01G9/14

CPC classification number: A01G9/24 ,  Y02A40/264

Abstract: 온실에생장되는작물의종류에따라적응적으로온실을제어하는방법및 이를위한시스템이개시된다. 온실제어시스템은온실환경제어정보배포장치와온실제어장치를포함하여구성되며, 온실환경제어정보배포장치는, 온실에서생장하는작물정보, 온실에장착된센서정보및 액추에이터정보를수신하는수신부, 센서서비스레지스터리및 액추에이터서비스레지스터리로부터수신된센서정보및 액추에이터정보에해당하는센서서비스및 액추에이터서비스를각각선택하는선택부, 선택된센서서비스를제공하는센서와선택된액추에이터서비스를제공하는액추에이터를맵핑하는맵핑부및 작물정보및 맵핑정보를이용하여데이터베이스로부터생장환경정보를추출하여온실제어장치로배포하는배포부를포함하여구성된다. 따라서, 여러종류의작물을재배하는경우에각 작물에게적당한환경인자에대한정보를수시로확인하고그에대한환경을제공할수 있다.

Abstract translation: 一种用于控制温室的方法，其可以根据在温室中种植的作物的种类自适应地控制温室。 用于控制温室的系统可以包括温室环境控制信息分配装置和温室控制装置。 温室环境控制信息发布装置可以包括：用于接收在温室中生长的作物的信息的信息接收单元，安装在温室中的传感器的信息和致动器的信息; 选择单元，用于分别从传感器服务注册表和执行器服务注册表中选择对应于接收到的传感器信息和致动器信息的传感器服务和致动器服务; 映射单元，用于将用于提供所选传感器服务的传感器映射到用于提供所选择的致动器服务的致动器; 以及分配单元，用于基于作物信息和映射信息从数据库提取生长环境信息，并将提取的信息分发到温室控制装置。

公开(公告)号：KR1020140078019A

公开(公告)日：2014-06-25

申请号：KR1020120145943

申请日：2012-12-14

Applicant: 한국전자통신연구원

Inventor： 이상호 ,  배장식 ,  리송 ,  김규형 ,  김광수 ,  이수인

IPC: E06B9/24 ,  H01L31/042

CPC classification number: Y02E10/50 ,  E06B9/386 ,  E06B9/364 ,  E06B9/368 ,  E06B2009/2476 ,  E06B2009/6827

Abstract: Disclosed is a light-shielding device including a solar cell. The light-shielding device including a solar cell includes: a frame which opens or closes according to the state of atmosphere; a light-shielding layer which is coupled to the frame and blocks the sunlight; and a solar cell which is coupled to the light-shielding layer and generates electricity from the solar energy. Accordingly, the present invention can block the sunlight from entering a greenhouse and generates electricity out of the solar energy at the same time.

Abstract translation: 公开了一种包括太阳能电池的遮光装置。 包括太阳能电池的遮光装置包括：根据气氛状态打开或关闭的框架; 遮光层，其连接到框架并阻挡阳光; 以及耦合到遮光层并从太阳能发电的太阳能电池。 因此，本发明可以阻止太阳光进入温室并同时从太阳能发电。

公开(公告)号：KR1020140028756A

公开(公告)日：2014-03-10

申请号：KR1020120095791

申请日：2012-08-30

Applicant: 한국전자통신연구원

Inventor： 배장식 ,  리송 ,  이상호 ,  김규형 ,  이수인

IPC: A01G9/24 ,  A01G9/14 ,  E04H5/08

CPC classification number: Y02A40/252 ,  Y02A40/268

Abstract: The present invention relates to a snow removal device for a greenhouse having a suction function, which sucks snow accumulated on the upper part of a greenhouse in heavy snow to prevent collapse and damage of the greenhouse due to snow accumulation, melts the sucked snow and stores the sucked snow in a reservoir to be utilized as agricultural water. The present invention relates to a snow removal device for a greenhouse, which is to suck snow accumulated in the outside of a greenhouse, and to heat into water and to store the water in a reservoir, and comprises a sensing unit of sensing the snow depth of the outside of the greenhouse to determine whether to perform the snow removal, and sensing the water level of the reservoir to determine whether or not water is stored in the reservoir; a suction unit sucking snow accumulated on the greenhouse according to the sensing result of the sensing unit; a heating unit liquefying the snow sucked in the suction unit so as to be stored in the reservoir as water; a control unit connected to the sensing unit in circuit and controlling the operation of the suction unit and the heating unit; and a moving unit operated by the control unit and moving the suction unit in the outside of the greenhouse. [Reference numerals] (210) Reservoir; (220) Sensing unit; (230) Suction unit; (240) Heating unit; (250) Control unit; (260) Driving unit

Abstract translation: 本发明涉及一种具有吸入功能的温室除雪装置，其吸收积雪在大雪中的温室上部的积雪，以防止由于积雪而导致的温室倒塌和损坏，并将吸入的雪融化 被用作农业用水的水库中的吸入的雪。 本发明涉及一种用于温室的除雪装置，其用于吸收积聚在温室外的积雪，并将其加热到水中并将水储存在储存器中，并且包括感测单元，其感测积雪深度 以确定是否进行除雪，并且感测储存器的水位以确定水是否储存在储存器中; 抽吸单元根据感测单元的感测结果吸入积聚在温室上的积雪; 加热单元，液化吸入所述抽吸单元中的雪，以将其作为水储存在所述储存器中; 连接到电路中的感测单元并控制抽吸单元和加热单元的操作的控制单元; 以及由所述控制单元操作并将所述抽吸单元移动到所述温室外部的移动单元。 （附图标记）（210）储存器; （220）感应单元; （230）抽油机; （240）加热单元; （250）控制单元; （260）驱动单元

公开(公告)号：KR1020130132050A

公开(公告)日：2013-12-04

申请号：KR1020120056122

申请日：2012-05-25

Applicant: 한국전자통신연구원

Inventor： 문애경 ,  김규형 ,  김광수 ,  이해동 ,  리송 ,  배장식 ,  이상호 ,  이수인

IPC: A01G9/24 ,  G05B15/02 ,  G06Q50/02 ,  G05B13/02

CPC classification number: G05B13/02 ,  A01G9/24 ,  G05B15/02 ,  Y02A40/264 ,  G06Q50/02

Abstract: The present invention relates to a platform device facilitating the addition and replacement of a sensor and a driver by providing an interface and a service corresponding to elements which control an agricultural environment in an agricultural environment control system and performing abstraction over a sensor and a driver in the agricultural environment control system. The platform device comprises: an application supporting layer unit for generating and operating an environmental task which supports an application corresponding to an environment to which an agricultural environmental control system is applied; a service layer unit for providing a service library which the application uses; a function layer unit for performing functions required to operate the application; an dynamic adaptation layer unit for defining an environmental task in an application layer regardless of number of sensors and drivers installed in the environment to which the agricultural environmental control system is applied; and a physical abstraction layer unit for generating a mapping table using a result of abstraction over the sensor and driver and allowing the agricultural environmental system to access the sensor and driver using the mapping table. [Reference numerals] (10) Application;(20) Middle ware;(200) Agricultural environment control platform device;(30) Device driver;(41) Sensor;(42) Driver;(AA) Greenhouse environment

Abstract translation: 本发明涉及一种平台装置，其通过提供对应于控制农业环境控制系统中的农业环境的元件的接口和服务来促进传感器和驱动器的添加和替换，并且通过传感器和驱动器执行抽象 农业环境管理体系。 平台装置包括：应用支持层单元，用于生成和操作支持与应用农业环境控制系统的环境相对应的应用的环境任务; 用于提供应用使用的服务库的服务层单元; 用于执行操作所述应用所需的功能的功能层单元; 动态适应层单元，用于在应用层中定义环境任务，而不管安装在农业环境控制系统所在的环境中的传感器和驱动器的数量; 以及物理抽象层单元，用于使用传感器和驱动器上的抽象结果生成映射表，并且允许农业环境系统使用映射表访问传感器和驱动器。 （10）应用;（20）中间件;（200）农业环境控制平台装置;（30）设备驱动器;（41）传感器;（42）驱动器;（AA）温室环境

公开(公告)号：KR1020130020377A

公开(公告)日：2013-02-27

申请号：KR1020110082984

申请日：2011-08-19

Applicant: 한국전자통신연구원

Inventor： 이상호 ,  배장식 ,  문애경 ,  리송 ,  이해동 ,  김규형 ,  김광수

IPC: A01G9/22 ,  A01G9/24 ,  A01G9/20 ,  A01G7/00

CPC classification number: A01G9/22 ,  A01G9/243 ,  Y02A40/258 ,  Y02A40/266 ,  Y02P60/124 ,  A01G7/00 ,  A01G9/20

Abstract: PURPOSE: A greenhouse crop cultivation control system and method are provided to increase outgrow and yields of crop by providing light of proper wavelength according to the type and growth level of crops. CONSTITUTION: A crop cultivation control system is installed on the exterior wall of greenhouse(10) corresponding to multiple areas of crop cultivation, and comprises multiple solar cell modules(100_1,100_2,100_3,100_4,100_5) providing different wavelengths of light to each areas, and a crop cultivation control unit(200) deciding the transportation of the crop to the area of light of wavelength according to the type and growth level of the crop. The crop cultivation control unit comprises the crop determination unit which determining the type of the crop, the growth status collecting unit which determining the current growth level of the crop, the wavelength determination unit which determining the optimum wavelength necessary for the crop from the growth level, and the crop transportation determination unit which determining the transportation of crop compared with the wavelength of area where crop is cultivated and the optimum absorbed wavelength. The crop cultivation control unit comprises the extra growth region determination unit which determining the cultivation region of the crop. The wavelength determination unit determines the optimum absorbed wavelength based on the cultivation region of the crop. The crop cultivation control unit comprises the extra database which saves the maximum absorbed wavelength according to the growth level of crop, the cultivation region of the crop, and the type of the crop. The wavelength determination unit determines the optimum absorbed wavelength with reference to the database. The greenhouse is divided into multiple regions(A1,A2,A3,A4,A5), and the information of each cultivated crops of the regions are installed on each of multiple regions with multiple RFID tags. [Reference numerals] (200) Crop cultivation control unit

Abstract translation: 目的：提供温室作物栽培控制系统和方法，根据作物的种类和生长水平，通过提供适当波长的光来增加作物的产量和产量。 规定：作物栽培控制系统安装在对应于多个作物种植区域的温室（10）的外墙上，并且包括多个太阳能电池模块（100_1,100_2,100_3,100_4,100_5），每个太阳能电池模块向每个 区域和作物种植控制单元（200）根据作物的种类和生长水平决定作物向波长光区域的运输。 作物栽培控制单元包括确定作物类型的作物确定单元，确定作物的当前生长水平的生长状态收集单元，确定作物所需的最佳波长的波长确定单元从生长水平 以及作物运输决定单元，其确定作物的运输与作物耕作面积的波长和最佳吸收波长。 作物栽培控制单元包括确定作物的栽培区域的额外生长区域确定单元。 波长确定单元基于作物的栽培区域确定最佳吸收波长。 作物栽培控制单元包括额外的数据库，根据作物的生长水平，作物的种植面积和作物的种类，节省了最大吸收波长。 波长确定单元参照数据库确定最佳吸收波长。 温室分为多个区域（A1，A2，A3，A4，A5），每个栽培作物的信息安装在具有多个RFID标签的多个区域中。 （附图标记）（200）作物栽培控制单元