Abstract:
화물수송안전 시스템 및 그 단말이 개시된다. 본 발명의 실시 예에 따른 화물수송안전 시스템은, 화물차량의 운행에 따라 측정되는 3축 가속도 데이터를 기설정된 임계치와 비교하여 상기 임계치를 초과하는 안전센서 정보를 검출하는 안전 센서 노드, 상기 안전 센서 노드로부터 근거리 무선 통신을 통해 상기 안전센서 정보를 수집하고, 상기 안전센서 정보를 분석하여 노면상태 정보와 운전자의 급차선변경 정보, 급가속 정보 및 급감속 정보 중 적어도 하나를 포함하는 화물수송 안전정보를 경고하는 스마트 단말 및 상기 스마트 단말로부터 무선 통신을 통해 상기 안전센서 정보 및 화물수송 안전정보 중 적어도 하나를 수신하여 저장하고, 상기 스마트 단말의 요청에 따라 화물수송에 적합한 안전 경로를 탐색하여 제공하는 화물안전 관제 서버를 포함한다.
Abstract:
PURPOSE: A portable terminal for setting up the parameter of a vehicle is provided to easily scan and set up the parameter of the vehicle using an application by a user. CONSTITUTION: A data collecting unit (140) collects parameter data which is measured in multiple sensors embedded in a vehicle. A parameter setting unit (130) transmits a set value for one or more parameter data among parameters. The data collecting unit receives the parameter data which is measured in the multiple sensors from the vehicle while the vehicle is operated and collects it. The data collecting unit collects parameter data for at least one of the service time, high revolution per minute (RPM) time, rapid acceleration times, and rapid deceleration times. [Reference numerals] (110) Application; (120) Verification unit; (130) Parameter setting unit; (140) Data collecting unit; (150) Communications unit; (160) Sensor unit; (300) Server
Abstract:
PURPOSE: An apparatus and a method for collecting underground data are provided to reduce facility costs and power consumption. CONSTITUTION: An apparatus for collecting underground data comprises multiple measuring sensors(110), a signal processor(140), a storage unit(170), and a controller(150). The multiple measuring sensors are installed underground. The signal processor process metering data outputted from the multiple measuring sensors. A switch switches electrical contact between the signal processor and multiple measuring sensors. The controller controls the switching operation of the switch and stores the metering data outputted from the signal processor in the storage unit. [Reference numerals] (111) Gap water pressure sensor; (112) Soil pressure sensor; (113) Incline sensor; (114) Temperature sensor; (115) Vibration sensor; (121) Gap water pressure interface; (122) Soil pressure sensor interface; (123) Incline sensor interface; (124) Temperature sensor interface; (125) Vibration sensor interface; (130) Analog signal switch; (140) Signal processor; (150) Controller; (160) Communication unit; (170) Storage unit; (180) Power supply switch; (190) Power generating unit
Abstract:
A plant management method using augmentation reality is provided. A method for providing a plant management screen overlaps and displays a real image of facilities in the plant and a virtual image indicating a facility to check. Hence, by displaying the facilities in the plant using the augmentation reality, the facility inspector can detect and access the facility having a problem more easily.
Abstract:
Provided are a power management system and a power distributor applied to the same. The power management system comprises a power control device which receives information on power usage from a power distributor and sets a reference power usage of a server rack according to the information on power usage. Accordingly, the power control device can check and control the amount of power consumption of each server. In addition, the power management system can predict power demand according to each server, and thus can reduce unnecessary consumption of power and can efficiently manage power of the servers in a data center.