Patents Assigned to NATIONAL DISASTER MANAGEMENT RESEARCH INSTITUTE
-
Patent number: 11913787Abstract: The present disclosure provides a target for aerial survey transformable to hand-fan shape. In this instance, the target includes a central axis, a first identification marker with one end connected to the central axis and having a first length outwards, and a second identification marker with one end connected to the central axis and having a second length outwards, the second identification marker disposed on the first identification marker, wherein the second length is shorter than the first length, the first identification marker includes a plurality of first unit areas having a predetermined angle therebetween with respect to the central axis, and the plurality of first unit areas has an overlap between adjacent first unit areas.Type: GrantFiled: November 24, 2020Date of Patent: February 27, 2024Assignee: NATIONAL DISASTER MANAGEMENT RESEARCH INSTITUTEInventors: Seong Sam Kim, Dong Yoon Shin, Hyun Ju Nho, Je Sung Park, Hyun Ju Kim
-
Patent number: 11609966Abstract: Disclosed is a device and a method for measuring stream water depth in real-time through positioning data filtering to ensure the reliability of the measured water depth data even when the stream water depth measurement data is filtered and applied to a small stream having a small basin area and a steep slope. The device for measuring stream water depth in real-time through positioning data filtering includes: a measuring part for measuring the water depth of a stream to be measured; a positioning data filtering part for filtering the water depth data measured by the measuring means by a local linear regression-based bivariate scatterplot smoothing technique through elastic bandwidth application; and a water depth calculating part for calculating a water depth of the stream to be measured by using the positioning data filtered by the positioning data filtering part, and minimizing the uncertainty of the water depth measurement.Type: GrantFiled: November 29, 2018Date of Patent: March 21, 2023Assignees: HYDROSEM, REPUBLIC OF KOREA (NATIONAL DISASTER MANAGEMENT RESEARCH INSTITUTE)Inventors: Seo Jun Kim, Byung Man Yoon, Ho Jun You, Dong Su Kim, Tae Sung Cheong, Jae Seung Joo, Hyeon Seok Choi
-
Publication number: 20220358746Abstract: According to an embodiment of the present disclosure, there may be provided an operation method of a server for identifying disaster affected areas. In this instance, the operation method of the server may include acquiring at least one first disaster image; deriving an affected area from each of the at least one first disaster image, and acquiring affected area related information through labeling based on the derived affected area; and training a first learning model using the at least one first disaster image and the affected area related information.Type: ApplicationFiled: May 4, 2022Publication date: November 10, 2022Applicant: NATIONAL DISASTER MANAGEMENT RESEARCH INSTITUTEInventors: Seong Sam KIM, Dong Yoon SHIN, Cheol Kyu LEE
-
Publication number: 20220358774Abstract: According to an embodiment of the present disclosure, there may be provided an operation method of a server for estimating the size of damage in disaster affected areas. In this instance, the operation method of the server may include acquiring at least one first disaster image, deriving an affected area from each of the at least one first disaster image, acquiring affected area related information through labeling based on the derived affected area, and training a first learning model using the at least one first disaster image and the affected area related information.Type: ApplicationFiled: May 4, 2022Publication date: November 10, 2022Applicant: NATIONAL DISASTER MANAGEMENT RESEARCH INSTITUTEInventors: Seong Sam KIM, Dong Yoon SHIN, Cheol Kyu LEE
-
Patent number: 11380217Abstract: Provided is an integrated steep slope collapse simulation system including: a base; a tower provided at one end of the base; a soil tank structure having one side being connected to the tower so that the soil tank structure is inclined, the soil tank structure being filled with soil, and the soil being rammed; a work platform provided with a working stand moving along the base and moving up and down; a soil moving device supplying soil to an interior of the soil tank structure; an artificial rainfall device provided above the soil tank structure, the artificial rainfall device injecting water downward toward the soil rammed inside the soil tank structure; and an underground water reproduction device injecting water upward through the bottom surface of the soil tank structure from the underside of the soil rammed in the soil tank structure. There is an effect that it is possible to accurately analyze an actual behavior of soil in the natural environment.Type: GrantFiled: November 20, 2018Date of Patent: July 5, 2022Assignee: NATIONAL DISASTER MANAGEMENT RESEARCH INSTITUTEInventors: Jae Hyun Shim, Min Su Jung, Sung Yong Park, Geon Ha Na, A Reum Cha, Chun Joo Lee
-
Patent number: 11359492Abstract: Provided is a control method for preventing an accident in a tunnel. In this instance, the control method for preventing an accident in a tunnel includes estimating water amount information flowing into the tunnel based on at least one input information, determining whether it is an emergency situation based on the estimated water amount information, and when the emergency situation is determined, transmitting a warning message to an identification device, and controlling a device for opening and closing an entrance/exit of the tunnel. In this instance, the water amount information flowing into the tunnel is estimated through a deep learning based learning model, and the emergency situation is determined by comparing water level information of the tunnel with a threshold value.Type: GrantFiled: November 24, 2020Date of Patent: June 14, 2022Assignee: NATIONAL DISASTER MANAGEMENT RESEARCH INSTITUTEInventors: Seong Sam Kim, Hyun Ju Nho, Je Sung Park, Hyun Ju Kim
-
Patent number: 11353354Abstract: Disclosed is a system for automatically measuring a discharge in real time based on a CCTV image. The system includes: a water depth measurement device filtering water depth data measured by a measurement means with a local linear regression-based bivariate scatterplot smoothing technique through flexible bandwidth application to calculate the water depth of a stream; an image acquisition device acquiring a continuous image of a flow speed measurement side of the stream; an image analysis PC using an image of the image acquisition device to measure the surface flow speed in real time and receiving a measured water depth from the water depth measurement device to measure the discharge in real time with cross-section data; and a discharge calculation and management server for transmitting and displaying a real-time discharge measurement result based on a web.Type: GrantFiled: November 29, 2018Date of Patent: June 7, 2022Assignees: HYDROSEM, REPUBLIC OF KOREA (NATIONAL DISASTER MANAGEMENT RESEARCH INSTITUTE)Inventors: Seo Jun Kim, Byung Man Yoon, Ho Jun You, Dong Su Kim, Tae Sung Cheong, Jae Seung Joo, Hyeon Seok Choi
-
Patent number: 11200684Abstract: Disclosed is a river flow velocity measurement device using optical flow image processing, including: an image photographing unit configured to acquire consecutive images of a flow velocity measurement site of a river; an image conversion analysis unit configured to dynamically extract frames of the consecutive images in order to normalize image data of the image photographing unit, image-convert the extracted frames, and perform homography calculation; an analysis region extracting unit configured to extract an analysis region of an analysis point; a pixel flow velocity calculating unit configured to calculate a pixel flow velocity using an image in the analysis region of the analysis point extracted by the analysis region extracting unit; and an actual flow velocity calculating unit configured to convert the pixel flow velocity calculated by the pixel flow velocity calculating unit into an actual flow velocity.Type: GrantFiled: November 29, 2018Date of Patent: December 14, 2021Assignees: HYDROSEM, REPUBLIC OF KOREA (NATIONAL DISASTER MANAGEMENT RESEARCH INSTITUTE)Inventors: Seo Jun Kim, Byung Man Yoon, Ho Jun You, Dong Su Kim, Tae Sung Cheong, Jae Seung Joo, Hyeon Seok Choi
-
Patent number: 11187568Abstract: The present invention provides a curb for measuring the flood depth in an urban area, more particularly, to a curb for measuring the flood depth in an urban area, which is configured to demarcate the boundary between a vehicular roadway and a pedestrian sidewalk to measure the flood depth so that the flood depth in the urban area can be measured without the necessity for additional installation of a separate structure. In particular, the present invention has an effect in that an air contact type water level gauge is installed in a first space of a main body to measure the flood depth, i.e., the level of flooding water based on the internal air pressure of a cylindrical tube so that a pressure sensor is not brought into close contact with the flooding water to prevent corrosion of the pressure sensor, thereby reducing the maintenance and repair costs.Type: GrantFiled: November 7, 2018Date of Patent: November 30, 2021Assignee: THE REPUBLIC OF KOREA (NATIONAL DISASTER MANAGEMENT RESEARCH INSTITUTE)Inventors: Han Seung Lee, Jae Seung Joo, Jae Woong Cho, Chang Won Choi, Ho Seon Kang, Chang Yeon Bae, Jeong Geun Hwang
-
Publication number: 20210356584Abstract: Disclosed is a device and a method for measuring stream water depth in real-time through positioning data filtering to ensure the reliability of the measured water depth data even when the stream water depth measurement data is filtered and applied to a small stream having a small basin area and a steep slope. The device for measuring stream water depth in real-time through positioning data filtering includes: a measuring part for measuring the water depth of a stream to be measured; a positioning data filtering part for filtering the water depth data measured by the measuring means by a local linear regression-based bivariate scatterplot smoothing technique through elastic bandwidth application; and a water depth calculating part for calculating a water depth of the stream to be measured by using the positioning data filtered by the positioning data filtering part, and minimizing the uncertainty of the water depth measurement.Type: ApplicationFiled: November 29, 2018Publication date: November 18, 2021Applicants: HYDROSEM, REPUBLIC OF KOREA (NATIONAL DISASTER MANAGEMENT RESEARCH INSTITUTE)Inventors: Seo Jun KIM, Byung Man YOON, Ho Jun YOU, Dong Su KIM, Tae Sung CHEONG, Jae Seung JOO, Hyeon Seok CHOI
-
Publication number: 20210341330Abstract: Disclosed is a system for automatically measuring a discharge in real time based on a CCTV image. The system includes: a water depth measurement device filtering water depth data measured by a measurement means with a local linear regression-based bivariate scatterplot smoothing technique through flexible bandwidth application to calculate the water depth of a stream; an image acquisition device acquiring a continuous image of a flow speed measurement side of the stream; an image analysis PC using an image of the image acquisition device to measure the surface flow speed in real time and receiving a measured water depth from the water depth measurement device to measure the discharge in real time with cross-section data; and a discharge calculation and management server for transmitting and displaying a real-time discharge measurement result based on a web.Type: ApplicationFiled: November 29, 2018Publication date: November 4, 2021Applicants: HYDROSEM, REPUBLIC OF KOREA (NATIONAL DISASTER MANAGEMENT RESEARCH INSTITUTE)Inventors: Seo Jun KIM, Byung Man YOON, Ho Jun YOU, Dong Su KIM, Tae Sung CHEONG, Jae Seung JOO, Hyeon Seok CHOI
-
Publication number: 20210327075Abstract: Disclosed is a river flow velocity measurement device using optical flow image processing, including: an image photographing unit configured to acquire consecutive images of a flow velocity measurement site of a river; an image conversion analysis unit configured to dynamically extract frames of the consecutive images in order to normalize image data of the image photographing unit, image-convert the extracted frames, and perform homography calculation; an analysis region extracting unit configured to extract an analysis region of an analysis point; a pixel flow velocity calculating unit configured to calculate a pixel flow velocity using an image in the analysis region of the analysis point extracted by the analysis region extracting unit; and an actual flow velocity calculating unit configured to convert the pixel flow velocity calculated by the pixel flow velocity calculating unit into an actual flow velocity.Type: ApplicationFiled: November 29, 2018Publication date: October 21, 2021Applicants: HYDROSEM, REPUBLIC OF KOREA (NATIONAL DISASTER MANAGEMENT RESEARCH INSTITUTE)Inventors: Seo Jun KIM, Byung Man YOON, Ho Jun YOU, Dong Su KIM, Tae Sung CHEONG, Jae Seung JOO, Hyeon Seok CHOI
-
Publication number: 20210164348Abstract: Provided is a control method for preventing an accident in a tunnel. In this instance, the control method for preventing an accident in a tunnel includes estimating water amount information flowing into the tunnel based on at least one input information, determining whether it is an emergency situation based on the estimated water amount information, and when the emergency situation is determined, transmitting a warning message to an identification device, and controlling a device for opening and closing an entrance/exit of the tunnel. In this instance, the water amount information flowing into the tunnel is estimated through a deep learning based learning model, and the emergency situation is determined by comparing water level information of the tunnel with a threshold value.Type: ApplicationFiled: November 24, 2020Publication date: June 3, 2021Applicant: NATIONAL DISASTER MANAGEMENT RESEARCH INSTITUTEInventors: Seong Sam KIM, Hyun Ju NHO, Je Sung PARK, Hyun Ju KIM
-
Publication number: 20210164780Abstract: The present disclosure provides a target for aerial survey transformable to hand-fan shape. In this instance, the target includes a central axis, a first identification marker with one end connected to the central axis and having a first length outwards, and a second identification marker with one end connected to the central axis and having a second length outwards, the second identification marker disposed on the first identification marker, wherein the second length is shorter than the first length, the first identification marker includes a plurality of first unit areas having a predetermined angle therebetween with respect to the central axis, and the plurality of first unit areas has an overlap between adjacent first unit areas.Type: ApplicationFiled: November 24, 2020Publication date: June 3, 2021Applicant: NATIONAL DISASTER MANAGEMENT RESEARCH INSTITUTEInventors: Seong Sam KIM, Dong Yoon SHIN, Hyun Ju NHO, Je Sung PARK, Hyun Ju KIM
-
Patent number: 10809206Abstract: The floating-type contamination measurement apparatus according to embodiments of the present invention can provide a body part; a buoyancy providing part, which is received to the body part and provides buoyancy to the body part; and a measurement part, which is received to the body part and measures the level of contamination in a closed space.Type: GrantFiled: November 29, 2017Date of Patent: October 20, 2020Assignee: NATIONAL DISASTER MANAGEMENT RESEARCH INSTITUTEInventors: Gun Sik Jeong, Hyunju Kim, KyungSu Lee, Tae Wook Lee, Jae Jeong Kim
-
Patent number: 10781079Abstract: The present invention relates to a safety device for an escalator, which can safely move a person or cart on a moving step of the escalator or a moving walkway toward a platform, the safety device comprising: a tilting member comprising a free end portion extended from a front end portion of a platform member, which covers an upper surface of a moving step getting thereunder in an end region of the escalator, toward an upper surface of an entering moving step, and a rotary end portion rotatably installed under the platform member; a contact roller installed in a region of the free end portion and rotatable being in contact with the moving step; and at least one guide roller rotatable being in contact with the contact roller and partially exposed through the upper surface.Type: GrantFiled: November 12, 2019Date of Patent: September 22, 2020Assignee: REPUBLIC OF KOREA (NATIONAL DISASTER MANAGEMENT RESEARCH INSTITUTE)Inventors: Dugkeun Park, Sujung Im
-
Patent number: 10684383Abstract: Provided is an earthquake response system using a seismic motion sensor. The seismic motion sensor of the earthquake response system includes: a sensor unit measuring a sensor value including peak ground acceleration (PGA) of the ground due to shaking; a seismic motion sensing unit sensing seismic motion on the basis of a seismic motion sensing result value calculated from an artificial neural network that uses the peak ground acceleration as input when the peak ground acceleration satisfies a seismic motion sensing condition; a seismic motion determiner determining generation of final seismic motion on the basis of a seismic motion determination parameter calculated from the sensor value on the basis of the seismic motion sensing result; a shaking grade calculator calculating a shaking grade of the determined final seismic motion through the peak ground acceleration; and a communication unit notifying the shaking grade of the final seismic motion.Type: GrantFiled: November 26, 2019Date of Patent: June 16, 2020Assignee: NATIONAL DISASTER MANAGEMENT RESEARCH INSTITUTEInventors: Seon Hwa Choi, Kihwan Lim, Myoung Jin Lee, Jae Seon Kim, Hyeong Gu Kang, Keumho Oh, Young-woo Kwon
-
Patent number: 9861875Abstract: An accident preventing system for sports, for preventing an accident to a user who uses a sport facility involving movement from a first zone including a starting spot to a second zone including an arrival spot, includes a safety equipment that a user wears to use the sport facility, an entry sensing unit installed in the first zone and determining that the user enters the starting spot, a binding sensing unit installed in the first zone and determining whether the safety equipment is bound, and a controller determining whether to operate the sport facility upon receiving signals checked by the entry sensing unit and the binding sensing unit.Type: GrantFiled: November 10, 2016Date of Patent: January 9, 2018Assignee: NATIONAL DISASTER MANAGEMENT RESEARCH INSTITUTEInventors: Simjung Cho, Dugkeun Park, Hoon Lee, Taewoong Jung, Hyunjung Kim, Minjung Kim