公开(公告)号：KR1020140008198A

公开(公告)日：2014-01-21

申请号：KR1020120075673

申请日：2012-07-11

Applicant: 공주대학교 산학협력단

Inventor： 임재현 ,  권숙연

IPC: G06Q50/02

CPC classification number: Y02P90/84 ,  G06Q50/02 ,  G06Q50/10

Abstract: Disclosed are a USN based integrated plant factory energy management system and a growing method. The integrated plant factory energy management system according to the present invention comprises a growing condition storage unit for storing, as a database, growing conditions including at least one of the type of garden plants, the photosynthetic photon flux density (PPFD, illuminance) for growth period, the temperature, the humidity, the carbon dioxide, the nutrient solution and the energy consumption for each device; an energy information detection unit for detecting energy consumption for each of the devices including an artificial lighting device which is a main energy consumption source of a region for growing the garden plants, air-conditioning and heating devices, a humidity generation device, a carbon dioxide supply device and a nutrient solution related device; an environment condition adjustment unit for adjusting the environment conditions including at least one of the illuminance, the temperature, the humidity, the carbon dioxide and the nutrient solution for the region for growing the garden plants; and an environment control unit for comparing the environment information detected by an environment detection unit and an energy consumption information detection unit with the growing conditions stored in the growing condition storage unit and automatically controlling the environment condition adjustment unit according to the self-processing of a system depending on the comparison results. [Reference numerals] (110) Growing condition storage unit; (120) Environment information detection unit; (125) Energy information detection unit; (130) Environment condition adjustment unit; (140) Environment control unit fo; (150) Growing condition display unit; (160) Condition photographing unit; (170) Growth analysis unit

Abstract translation: 披露的是以USN为基础的综合工厂能源管理系统和增长方式。 根据本发明的一体化工厂能量管理系统包括：生长状态存储单元，用于存储作为数据库的生长条件，其包括园林植物类型中的至少一种，用于生长的光合光子通量密度（PPFD，照度） 周期，温度，湿度，二氧化碳，营养液和每个设备的能耗; 用于检测每个装置的能量消耗的能量信息检测单元，包括人造照明装置，所述人造照明装置是用于种植园艺植物的区域的主要能量消耗源，空调和加热装置，湿度发生装置，二氧化碳 供应装置和营养液相关装置; 环境条件调整单元，用于调整用于种植园林植物的区域的照度，温度，湿度，二氧化碳和营养液中的至少一种的环境条件; 以及环境控制单元，用于将由环境检测单元检测到的环境信息和能量消耗信息检测单元与存储在生长条件存储单元中的生长条件进行比较，并且根据自身处理自动控制环境条件调整单元 系统取决于比较结果。 （附图标记）（110）生长条件存储单元; （120）环境信息检测单元; （125）能量信息检测单元; （130）环境状况调整单位; （140）环境控制单位 （150）生长状态显示单位; （160）条件拍摄单元; （170）生长分析单位

公开(公告)号：KR101334059B1

公开(公告)日：2013-11-28

申请号：KR1020120054526

申请日：2012-05-23

Applicant: 공주대학교 산학협력단

Inventor： 임재현 ,  임경미

IPC: H01R13/70 ,  H02J3/00

CPC classification number: G06F21/31 ,  H01R13/6683 ,  H01R13/6691 ,  H01R31/065 ,  H02J9/005

Abstract: A standby power control device and a control method thereof are disclosed. The standby power control device according to the present invention includes an electric device registering part dividing a power target area into one or more areas and registering one or more electric devices included in each divided area, a user registering part registering a user corresponding to each device and a user corresponding to each area, a user identifying part recognizing users entering each area and identifying a user registered in a corresponding area among the recognized users, and a standby power control part controlling, supplying, and blocking the standby power of the electric device in the corresponding area according to the user identified by the user identifying part. [Reference numerals] (110) Electric device registering part;(120) User registering part;(130) User identification part;(140) Standby power control part;(150) Usage pattern setting part;(160) Usage time recording part;(170) Usage pattern learning part;(180) Authentication processing part

Abstract translation: 公开了备用电源控制装置及其控制方法。 根据本发明的备用电力控制装置包括电力装置登记部分，其将电力目标区域划分成一个或多个区域，并且对每个分割区域中包括的一个或多个电气装置进行登记，登记与每个装置相对应的用户的用户登记部分 以及对应于每个区域的用户，识别用户进入每个区域并识别登记在所识别的用户中的相应区域中的用户的用户识别部分，以及控制，提供和阻止电气设备的待机电力的备用电源控制部分 在根据由用户识别部分识别的用户的相应区域中。 （110）电气设备登记部;（120）用户登记部;（130）用户识别部;（140）待机功率控制部;（150）使用模式设定部;（160）使用时间记录部; （170）使用模式学习部分;（180）认证处理部分

公开(公告)号：KR101923833B1

公开(公告)日：2018-11-29

申请号：KR1020170178409

申请日：2017-12-22

Applicant: 공주대학교 산학협력단

Inventor： 임재현 ,  이기선 ,  김진만 ,  김길희 ,  홍익표 ,  오승택

IPC: G08B21/18 ,  G08B3/10 ,  G08B27/00 ,  G01D21/02 ,  G01P15/00 ,  G08B25/14

Abstract: 본발명은층간소음알림시스템및 방법을개시한다. 본발명의일 측면에따른층간소음알림시스템은, 층간소음의진원지를정확하게예측하고, 층간소음발생세대와피해세대에알림서비스를제공함으로써객관적이고정확한정보를토대로층간소음발생시발생할수 있는분쟁을해결할수 있는효과가있다.

公开(公告)号：KR1020160089777A

公开(公告)日：2016-07-28

申请号：KR1020150009409

申请日：2015-01-20

Applicant: 공주대학교 산학협력단

Inventor： 임재현

IPC: G01J3/46

CPC classification number: G01J3/465

Abstract: 본발명은상황변화에따라적응적으로변화되는조명환경을검출함으로써조명품질의만족도를평가할수 있는어플리케이션이구비된모바일단말기를이용하여조명환경품질평가를측정하는측정장치에관한것으로, 본발명에따른측정장치는조명환경에대한조명환경품질정보를생성하여제공하는평가측정부및 상기조명환경품질정보를전송받아, 사용자에게제공하는조명품질평가어플리케이션이실행가능한휴대용단말기를포함하고, 상기평가측정부는, 조명환경에대한 RGB 데이터를측정하는조명측정모듈과, 상기 RGB 데이터를제공받아삼자극치(tristimulus values)로변환한후, 조명정보를산출하는조명정보산출모듈과, 산출된상기조명정보로부터상기조명환경에대한조명환경품질정보를생성하는품질정보생성모듈및 상기휴대용단말기에상기조명환경품질정보를전송하는통신모듈을포함하여구성되는것을특징으로한다.

Abstract translation: 本发明涉及通过使用包括应用的移动终端来测量照明环境质量评估的装置，其能够通过检测根据情境变化自适应地改变的照明环境来评估照明质量的满意度。 测量装置包括：评估测量部分，生成并提供关于照明环境的照明环境质量信息; 以及接收照明环境质量信息以执行向用户提供的照明质量评估应用的便携式终端。 评估测量部分包括：测量关于照明环境的RGB数据的照明测量模块; 照明信息计算模块，将RGB数据转换为三刺激值，然后计算照明信息; 质量信息生成模块，根据所计算的照明信息生成关于照明环境的照明环境质量信息; 以及将照明环境质量信息发送到便携式终端的通信模块。

公开(公告)号：KR101583624B1

公开(公告)日：2016-01-22

申请号：KR1020130049177

申请日：2013-05-02

Applicant: 공주대학교 산학협력단

Inventor： 임재현

IPC: H05B37/02

CPC classification number: Y02B20/42

Abstract: 본발명은지하공간과같은무창공간내에자연광의변화와유사한환경을제공할수 있도록구성되는무창공간을위한동적조명제어시스템에관한것으로, 본발명에따르면, 무창구조로이루어진지하공간의부정적이미지와심리적, 생리적영향을해소하기위해, 시각별, 계절별천기상태에따라다양하게변화하는자연광특성을분석하고, 이를기반으로 LED 광원의파장별빛의강도조절을통해자연광과유사한빛 환경을연출함으로써, 재실자의시쾌적성을확보하면서에너지소비를절감할수 있는동시에, 주거, 사무실, 상점등과같은지하공간의영역별특성에따른색, 색온도, 조도등의조명환경을자동및 수동으로제어하고, 재실자위치및 행위등의기타상황변화에따른조명환경을자동으로제어할수 있도록구성되는무창공간을위한동적조명제어시스템이제공된다.

公开(公告)号：KR1020140071313A

公开(公告)日：2014-06-11

申请号：KR1020140062875

申请日：2014-05-26

Applicant: 공주대학교 산학협력단

Inventor： 임재현 ,  권숙연

IPC: G06Q50/02 ,  G05B19/418

CPC classification number: Y02P90/84 ,  G06Q50/02 ,  G05B19/4185

Abstract: Disclosed are an integrated energy management system for a plant factory and a cultivation method thereof. The integrated energy management system for a plant factory according to the present invention comprises: a cultivation condition storage unit for storing a type of a cultivated plant and cultivation conditions including at least one among a light intensity (PPRD, illuminance), temperature, humidity, carbon dioxide, nutrient solution, energy consumption per device for each growth stage and creating a database; an energy information detection unit for detecting the energy consumption of each device including an artificial lighting device, air conditioning and heating device, humidity generating device, carbon dioxide supplying device, and nutrient solution related device which are main energy consuming sources; an environment condition adjustment unit for adjusting environment conditions including at least one among illuminace, temperature, humidity, carbon dioxide, and a nutrient solution about an area in which a plant is cultivated; and an environment control unit for comparing environment information detected by the environment information detection unit and the energy consumption information detection unit with the cultivation conditions stored in the storage unit, and automatically controlling the environment adjustment unit by an automatic process of the system according to the comparison result.

Abstract translation: 公开了一种植物工厂的综合能源管理系统及其栽培方法。 根据本发明的用于植物工厂的综合能量管理系统包括：栽培条件存储单元，用于存储栽培植物的种类和培养条件，所述栽培条件包括光强度（PPRD，照度），温度，湿度， 二氧化碳，营养液，每个生长阶段的每个设备的能源消耗，并创建一个数据库; 用于检测作为主要能量消耗源的人造照明装置，空调和加热装置，湿度发生装置，二氧化碳供应装置和营养液相关装置的每个装置的能量消耗的能量信息检测单元; 环境条件调整单元，用于在植物栽培的区域内调节包括照明，温度，湿度，二氧化碳和营养液中的至少一种的环境条件; 以及环境控制单元，用于将由环境信息检测单元检测的环境信息和能量消耗信息检测单元与存储在存储单元中的培养条件进行比较，并且通过根据所述系统的自动处理自动控制环境调整单元 比较结果。