公开(公告)号：KR1020170089575A

公开(公告)日：2017-08-04

申请号：KR1020160009954

申请日：2016-01-27

Applicant: 산들정보통신주식회사 ,  공장명

Inventor： 공장명

IPC: G06Q10/08 ,  H04N13/02 ,  G06T19/00 ,  H04N13/00 ,  H04W4/02 ,  G01C19/56

Abstract: 본발명의물류관리시스템은, 관리대상의기기또는물품을생산하거나유통하는이력을관리하기위하여, 대응되는기기또는물품을식별하기위한 AR 코드를관리하는통합관리서버와, 상기통합관리서버와통신을수행하는통신부와, 상기 AR 코드를촬영할수 있는카메라부와, 상기카메라부에의하여촬영되는영상에증강현실을부가하는표시제어부와, 상기표시제어부에의하여증강현실이부가된영상또는상기카메라부에의하여촬영되는영상이표시되는디스플레이부와, 상기통신부를통하여전달되는정보를이용하여상기디스플레이부에증강현실로관련정보이미지가표시되도록제어하는증강현실제어부를갖는이동통신기기를포함하고, 상기이동통신기기는위치정보를측정하는위치정보모듈을더 포함하고, 상기이동통신기기의증강현실제어부는촬영되는 AR 코드의식별정보와함께상기위치정보를상기통합관리서버로전달하고, 상기통합관리서버는전달된 AR 코드의식별정보에대응되는관련정보와, 상기이동통신기기의위치정보와관련된추가정보를함께상기이동통신기기로전달하는것을특징으로한다.

Abstract translation: 本发明的物流管理系统中，为了管理生产或在所管理的设备或物品的分布的历史，来管理AR代码用于识别设备或对应于所述集成管理服务器的文章，和集成管理服务器和通信 显示控制单元，用于将增强现实添加到由所述照相机单元拍摄的图像;以及显示单元，用于显示具有由所述显示控制单元添加的增强现实的图像， 以及具有增强现实控制单元的移动通信设备，所述增强现实控制单元用于控制所述显示单元以通过使用通过所述通信单元发送的信息在增强现实中显示相关信息图像， 其中，移动通信设备还包括用于测量位置信息的位置信息模块，其中移动通信设备的增强现实控制部分包括： 并将位置信息发送给综合管理服务器，综合管理服务器将与所发送的AR代码的识别信息和与移动通信装置的位置信息相关的附加信息相对应的关联信息， 如图所示。

公开(公告)号：KR3008230090000S

公开(公告)日：2015-11-03

申请号：KR3020150014939

申请日：2015-03-24

Applicant: 산들정보통신주식회사

Designer： 최인섭 ,  서무교

公开(公告)号：KR101423119B1

公开(公告)日：2014-07-25

申请号：KR1020140005554

申请日：2014-01-16

Applicant: 산들정보통신주식회사 ,  서무교

Inventor： 최인섭 ,  서무교

IPC: G01N9/12

CPC classification number: G01N9/12 ,  G01N1/18

Abstract: The present invention maintains constant precision in the entire density range of liquid to be measured by controlling a number of buoyant blades according to the density range of the liquid to be measured when the density of the unknown liquid is measured using a density measurer having a plotter. In order to control the vertical motion of the density plotter, the present invention comprises multiple buoyant blade mounting parts and a buoyant blade part having the multiple buoyant blades detachably mounted on the buoyant blade mounting parts.

Abstract translation: 本发明通过使用具有绘图仪的密度测量器测量未知液体的密度时，通过根据待测液体的密度范围控制多个浮力叶片来保持待测液体的整个密度范围的恒定精度 。 为了控制密度绘图仪的垂直运动，本发明包括多个浮力叶片安装部分和具有可拆卸地安装在浮力叶片安装部分上的多个浮力叶片的浮力叶片部分。

公开(公告)号：KR1020140067297A

公开(公告)日：2014-06-05

申请号：KR1020120134352

申请日：2012-11-26

Applicant: 산들정보통신주식회사 ,  서무교

Inventor： 최인섭 ,  서무교 ,  박성운

IPC: G01D21/02 ,  G01F23/62 ,  G01N9/00

CPC classification number: G01F23/62 ,  G01D21/02 ,  G01N9/00

Abstract: The present invention relates to a technology detecting reformulated gasoline stored in an oil storage tank using a magnetostriction technology. The present invention includes a sensor unit with a magnetostrictive wire installed on a central shaft in the longitudinal direction inside the oil storage tank; an oil amount detecting float which includes a first magnetic material and which is installed to be vertically moved along a metallic pipe of the sensor unit corresponding to the oil amount while being floating in the oil inside the oil storage tank; a water amount detecting float which includes a second magnetic material and which is installed to be vertically moved along the metallic pipe of the sensor unit corresponding to the specific gravity of water while being dipped inside the oil storage tank to be close to the bottom surface; and a reformulated gasoline detecting float which includes a third magnetic material and which is installed to be vertically moved along the metallic pipe of the sensor unit corresponding to the specific gravity of the oil while being dipped between the oil surface and water surface.

Abstract translation: 本发明涉及使用磁致伸缩技术存储在储油罐中的重整汽油的技术。 本发明包括一个传感器单元，该传感器单元具有在储油箱内沿长度方向安装在中心轴上的磁致伸缩线; 油量检测浮子，其包括第一磁性材料，并且其被安装成沿着所述传感器单元的金属管对应于所述油量同时浮在所述储油罐内的油中而垂直移动; 水量检测浮子，其包括第二磁性材料，并且被安装成沿着与比重相对应的传感器单元的金属管垂直移动，同时浸入储油箱内靠近底面; 以及重新配置的汽油检测浮子，其包括第三磁性材料，并且被安装成沿着与油的比重相对应的传感器单元的金属管垂直移动，同时浸入油表面和水表面之间。

公开(公告)号：KR101348571B1

公开(公告)日：2014-01-09

申请号：KR1020120106728

申请日：2012-09-25

Applicant: 재단법인대구경북과학기술원 ,  산들정보통신주식회사

Inventor： 현유진 ,  이종훈 ,  최인섭

IPC: G01F23/28

Abstract: The present invention relates to an automatic gain controlling apparatus for a level measuring radar and a method thereof. According to the present invention, the automatic gain controlling apparatus for a level measuring radar measures the level of a target using a transmission signal transmitted to the target and a receiving signal reflected from the target. The automatic gain controlling apparatus comprises: an auto gain control (AGC) unit which performs automatic gain control on the receiving signal; an analog-to-digital converter (ADC) unit which converts the receiving signal performed with automatic gain control in the AGC unit into a digital value; and a control unit which regulates the gain value of the AGC unit in order to remain between a first reference value for target determination and a second reference value for signal distortion determination. The automatic gain controlling apparatus for a level measuring radar and the method thereof can monitor the level of a radar receiving signal in a digital area under the environment where a single stop target exists and can automatically regulate a gain of the radar receiving signal based on the monitoring results. [Reference numerals] (110) AGC uni; (120) ADC unit; (130) Control unit

Abstract translation: 本发明涉及一种用于电平测量雷达的自动增益控制装置及其方法。 根据本发明，用于电平测量雷达的自动增益控制装置使用发送到目标的发送信号和从目标反射的接收信号来测量目标的电平。 自动增益控制装置包括：对接收信号执行自动增益控制的自动增益控制（AGC）单元; 模数转换器（ADC）单元，其将通过AGC单元中的自动增益控制执行的接收信号转换为数字值; 以及控制单元，其调节AGC单元的增益值，以便保持在用于目标确定的第一参考值和用于信号失真确定的第二参考值之间。 用于电平测量雷达的自动增益控制装置及其方法可以在存在单个停止目标的环境下监视数字区域中的雷达接收信号的电平，并且可以基于所述雷达接收信号的自动调节雷达接收信号的增益 监测结果。 （附图标记）（110）AGC uni; （120）ADC单元; （130）控制单元

公开(公告)号：KR101348438B1

公开(公告)日：2014-01-09

申请号：KR1020120106729

申请日：2012-09-25

Applicant: 재단법인대구경북과학기술원 ,  산들정보통신주식회사

Inventor： 김상동 ,  이종훈 ,  최인섭

IPC: G01S13/08

Abstract: The present invention relates to a distance measuring device using a radar signal and a measuring method thereof. The distance measuring device using a radar signal according to an embodiment of the present invention comprises; a transmission signal producing part for producing multiple radar transmission signals applied to an object; an average value calculation part which calculates an average value of signals received during two hours using an average value of signals received during one hour among multiple radar reflection signals reflected from the object; and a distance calculation part which calculates a distance from the object using the average value of the signals received during two hours. As a result, the present invention calculates an average value of radar signals reflected from the object by the time, extracts a validity signal among the reflected radar signals using the calculated average value, and calculates the distance from the object, thereby reducing a distance measuring error. [Reference numerals] (110) Transmission signal producing part; (120) Average value calculation part; (130) Distance calculation part

Abstract translation: 本发明涉及使用雷达信号的距离测量装置及其测量方法。 根据本发明实施例的使用雷达信号的距离测量装置包括： 用于产生施加到物体的多个雷达传输信号的传输信号产生部分; 平均值计算部，其使用从所述物体反射的多个雷达反射信号中的1小时内接收到的信号的平均值来计算2小时内接收的信号的平均值; 以及距离计算部，其使用在两小时内接收的信号的平均值来计算与物体的距离。 结果，本发明根据时间计算从物体反射的雷达信号的平均值，使用计算出的平均值提取反射的雷达信号中的有效信号，并计算与物体的距离，从而减少测量距离 错误。 （附图标记）（110）发送信号生成部; （120）平均值计算部分; （130）距离计算部分