CN204178194U - A kind of geological disaster monitoring system based on Big Dipper communication - Google Patents

Abstract

Based on a geological disaster monitoring system for Big Dipper communication, relate to Beidou satellite communication and trade information applies the new technical field combined.Surveillance center commands machine, center host and mobile base station to form by Big Dipper terminal, big-dipper satellite, the Big Dipper; Mutually transmit information between Big Dipper terminal and big-dipper satellite, mutually transmit information between big-dipper satellite and Big Dipper commander machine, Big Dipper commander machine connects center host, and center host connects mobile base station; On-site monitoring equipment connects Big Dipper terminal, and mutually transmit information between on-site monitoring equipment and Big Dipper commander machine, described on-site monitoring equipment comprises muddy water level sensor, rain gage, surface displacement sensor, laminated settlement meter and spot sensor; Center host also connects remote monitoring end, and described remote monitoring end is made up of some computing machines.Which overcome the region that existing mobile network cannot cover, can be directed to remote districts, depopulated zone, bad environments area carry out real-time geologic hazard monitoring.

Description

A kind of geological disaster monitoring system based on Big Dipper communication

Technical field

The utility model relates to Beidou satellite communication and trade information applies the new technical field combined.

Background technology

Ministry of Land and Resources one investigation display, China threatens population to reach more than 3,500 ten thousand people by geologic hazard.Particularly vast rural area, geologic hazard will be in situation occurred frequently, and the loss brought can be in rising trend.In quite long one period from now on, situation of taking precautions against natural calamities is very severe, and task of taking precautions against natural calamities is heavier.According to statistics, Rural Areas of China, particularly remote Poor Mountainous Area is suffer the area that geologic hazard is attacked and impact is the most serious always.Statistical study shows, the casualties that China causes because of geologic hazard every year and economic asset loss, rural area accounts for more than eighty per cant.Therefore geologic hazard has become one of major fields that China prevents and reduces natural disasters.Although had a lot of geological disaster monitoring system at present, major part has been all be main based on GPRS, depends on the monitoring of mobile communications network.There is no the area of movable signal in a lot of remote districts, the real-time monitoring of geologic hazard cannot be carried out.Therefore market demand a kind of can gamut cover, the product of real-time geologic hazard monitoring.

Utility model content

The utility model provides a kind of geological disaster monitoring system based on Big Dipper communication, the situation that the utility model is directed to the monitoring of current geologic hazard district proposes a kind of method that geologic hazard based on Beidou satellite communication monitors, this system overcomes the region that existing mobile network cannot cover, can be directed to remote districts, depopulated zone, bad environments area carry out real-time geologic hazard monitoring.

For solving the problem, the utility model adopts following technical scheme: be made up of on-site monitoring equipment 1, Surveillance center 2 and remote monitoring end 3; Described Surveillance center 2 commands machine 6, center host 7 and mobile base station 8 to form by Big Dipper terminal 4, big-dipper satellite 5, the Big Dipper; Mutually transmit information between Big Dipper terminal 4 and big-dipper satellite 5, big-dipper satellite 5 and the Big Dipper are commanded between machine 6 and are mutually transmitted information, and Big Dipper commander machine 6 connects center host 7, and center host 7 connects mobile base station 8; On-site monitoring equipment 1 connects Big Dipper terminal 4, and on-site monitoring equipment 1 and the Big Dipper are commanded between machine 6 and mutually transmitted information, and described on-site monitoring equipment 1 comprises muddy water level sensor, rain gage, surface displacement sensor, laminated settlement meter and spot sensor; Center host 7 also connects remote monitoring end 3, and described remote monitoring end 3 is made up of some computing machines.

In order to realize foregoing invention object, the invention provides the method and system that a kind of geologic hazard based on Beidou satellite communication is monitored.The data of its sensor, mainly in the geologic hazard such as rubble flow, landslide, are sent to the monitor supervision platform of geologic hazard by this system by the mode of Beidou satellite communication by on-site monitoring equipment, platform carries out data analysis and early warning according to the value returned.

The utility model innovative point: utilize Beidou satellite communication to solve the problem monitoring geologic hazard in the area without mobile network that is remote and bad environments in real time.

The utility model beneficial effect: this technology may be used for monitoring without the geologic hazard in mobile network area, comprises rubble flow monitoring, landslide control etc.

Accompanying drawing explanation

Fig. 1 is the utility model structured flowchart;

Fig. 2 is structural representation of the present utility model.

Symbol description in figure: on-site monitoring equipment 1, Surveillance center 2, remote monitoring end 3, Big Dipper terminal 4, big-dipper satellite 5, Big Dipper commander machine 6, center host 7, mobile base station 8.

Embodiment

By best embodiment, the utility model is described in detail below.

As shown in Figure 1-2, a kind of geological disaster monitoring system based on Big Dipper communication, is made up of on-site monitoring equipment 1, Surveillance center 2 and remote monitoring end 3; Described Surveillance center 2 commands machine 6, center host 7 and mobile base station 8 to form by Big Dipper terminal 4, big-dipper satellite 5, the Big Dipper; Mutually transmit information between Big Dipper terminal 4 and big-dipper satellite 5, big-dipper satellite 5 and the Big Dipper are commanded between machine 6 and are mutually transmitted information, and Big Dipper commander machine 6 connects center host 7, and center host 7 connects mobile base station 8; On-site monitoring equipment 1 connects Big Dipper terminal 4, and on-site monitoring equipment 1 and the Big Dipper are commanded between machine 6 and mutually transmitted information, and described on-site monitoring equipment 1 comprises muddy water level sensor, rain gage, surface displacement sensor, laminated settlement meter and spot sensor; Center host 7 also connects remote monitoring end 3, and described remote monitoring end 3 is made up of some computing machines.

Last it is noted that obviously, above-described embodiment is only for the utility model example is clearly described, and the restriction not to embodiment.For those of ordinary skill in the field, can also make other changes in different forms on the basis of the above description.Here exhaustive without the need to also giving all embodiments.And thus the apparent change of amplifying out or variation be still among protection domain of the present utility model.

Claims (1)

1. based on a geological disaster monitoring system for Big Dipper communication, it is characterized in that, be made up of on-site monitoring equipment (1), Surveillance center (2) and remote monitoring end (3); Machine (6) is commanded by Big Dipper terminal (4), big-dipper satellite (5), the Big Dipper by described Surveillance center (2), center host (7) and mobile base station (8) are formed; Mutually information is transmitted between Big Dipper terminal (4) and big-dipper satellite (5), big-dipper satellite (5) and the Big Dipper are commanded between machine (6) and are mutually transmitted information, Big Dipper commander's machine (6) connects center host (7), and center host (7) connects mobile base station (8); On-site monitoring equipment (1) connects Big Dipper terminal (4), on-site monitoring equipment (1) and the Big Dipper are commanded between machine (6) and are mutually transmitted information, and described on-site monitoring equipment (1) comprises muddy water level sensor, rain gage, surface displacement sensor, laminated settlement meter and spot sensor; Center host (7) also connects remote monitoring end (3), and described remote monitoring end (3) is made up of some computing machines.