Jin Dong Jin

Bio: Jin Dong Jin is an academic researcher. The author has contributed to research in topics: Information management. The author has an hindex of 1, co-authored 1 publications receiving 2 citations.

comprehensive weather observation system by realtime remote management based on IoT

Abstract: Provided by the present invention is a real-time remote management type integrated meteorological observation system for both sea use and land use based on Internet of Things (IoT) The IoT-based real-time remote management type integrated meteorological observation system for both sea use and land use according to the present invention comprises: a weather measurement unit (10) which is installed at any one setting position selected between sea and land, measures weather information including wind direction and velocity information, temperature information, humidity information, atmospheric pressure information, solar radiation information, and rainfall information in real time by having a weather information measuring instrument (11) provided with a communication module (13), and transmits the measured weather information to the outside through real-time wired/wireless communication; a weather information management server (20) which receives weather information in real time by being connected with the weather measurement unit (10) through wired/wireless communication and performs the management, statistical processing, and monitoring of the weather information; and a weather information DB (30) which stores the weather information received in the weather information management server (20) into a database The present invention enables the comprehensive instrument, management, statistical processing, and monitoring of any one selected between sea weather information and land weather information

Bog system for monitoring the recovery system of boiled-off gas

Abstract: The present invention relates to a system for monitoring the safety of a boiled-off gas (BOG) recovery system of floating LNG power facilities. Specifically, the system receives measurement information from an explosion-proof site device receiving position (behavior) information of an offshore platform measured through a DGPS, and gas information, pressure information, wind direction information and wind speed information (hereinafter referred to as ′measurement information′) measured through each measuring device (S), to output 2D visualization information in a graph form and 3D visualization information to display the measurement information based on modeling, thereby enabling a user to perform analysis. The system can prevent errors due to transmission and reception of information before displaying the measurement information, filter the measurement information for the safety monitoring, operate the safe BOG recovery system based on a scenario for the maintenance of the BOG recovery system, and provide virtual reality (VR) based on a maintenance scenario and the 3D visualization information, thereby achieving direct experience of the measurement information according to a current situation of the BOG recovery system in virtual reality.

Monitoring system for bog recovery system

Abstract: The present invention relates to a system for monitoring the safety of a boiled-off gas (BOG) recovery system of a floating LNG power plant. Specifically, the present invention relates to a monitoring system of a BOG recovery system, which receives position (behavior) information of an offshore platform measured through a DGPS and receives gas information, pressure information, wind direction information, and wind speed information (hereinafter collectively referred to as "measurement information") from explosion-proof site devices receiving the measurement information measured through respective measuring devices (S) to output 2D visualization information in a graph form and 3D visualization information displaying the measurement information on the basis of modeling, thereby enabling a user to perform analysis. The monitoring system can prevent errors due to transmission and reception of information before displaying the measurement information, filter the measurement information for safety monitoring, allow the safe BOG recovery system to operate on the basis of a scenario for the maintenance of the BOG recovery system, and provide virtual reality (VR) on the basis of the maintenance scenario and the 3D visualization information, thereby enabling direct experience of the measurement information in virtual reality according to a current situation of the BOG recovery system.