CN104735116A - Monitoring data obtaining method, device and system - Google Patents

Abstract

The invention discloses a monitoring data obtaining method, device and system to carry out unified management on data of an urban pipeline network, obtain comprehensive pipeline network data and reduce the cost for obtaining the pipeline network data. The method comprises the steps that first monitoring data reported by monitoring terminals are received; the monitoring terminals are located in different inspection wells at different geographic positions of the urban pipeline network respectively, and the first monitoring data are the position information of the monitoring terminals; the first monitoring data are stored.

Description

A kind of Monitoring Data acquisition methods, equipment and system

Technical field

The present invention relates to communication technical field, particularly relate to a kind of Monitoring Data acquisition methods, equipment and system.

Background technology

Existing urban duct network is due to structure comparatively complexity, and each responsibility department is relatively independent, causes urban duct network property right unit undistinct, adds the difficulty that urban duct network is built in unified planning.Such as, the property right of urban duct network adheres to tens ownership units separately, comprises city management system, electric power, telecommunications, UNICOM, movement, cable TV, running water, combustion gas etc.This just causes in urban duct network, larger to the difficulty of carrying out unified planning in different units pipeline process of construction, and be difficult to accomplish the upgrading in time with synchronous of data, add grassroot project engineering in work progress to the possibility that original piping network damages.

In existing Forecast of Urban Traffic Flow management, magnitude of traffic flow monitoring, mostly based on video analysis, is monitored in real time by disposing video monitoring equipment at main crossroads and main section.But because video monitoring equipment lower deployment cost is high, cannot monitor for less section, also just cannot obtain corresponding video information, meanwhile, the video data volume that video monitoring equipment obtains is large, and the follow-up cost carrying out analyzing and safeguard is higher.

In the mobile communication management of existing city, the coverage condition of mobile communication signal, usually by manual measurement, is measured in conjunction with minority fixing point.Therefore, the coverage condition of mobile communication signal cannot accomplish Real-Time Monitoring, and the scope of measurement is less, also just cannot obtain the quorum sensing inhibitor situation in whole city in real time, be not easy to operator and optimize timely and effectively quorum sensing inhibitor.

In sum, existing urban duct network, Forecast of Urban Traffic Flow manage and in the mobile communication management of city, ubiquity data acquisition cost is high, and the difficulty obtaining comparatively comprehensively data is comparatively large, is difficult to the problem of carrying out unified management and maintenance.

Summary of the invention

The invention provides a kind of Monitoring Data acquisition methods, equipment and system, in order to carry out unified management to the data of urban duct network, obtain comparatively comprehensively piping network data, reduce the cost obtaining piping network data.

The concrete technical scheme that the embodiment of the present invention provides is as follows:

A kind of Monitoring Data acquisition methods, comprising:

Receive the first Monitoring Data that each monitoring terminal reports, described monitoring terminal is placed in the inspection shaft of the urban duct network being positioned at diverse geographic location respectively, and described first Monitoring Data is the positional information of described monitoring terminal;

Preserve described first Monitoring Data.

A kind of Monitoring Data obtains equipment, comprising:

Receiver module, for receiving the first Monitoring Data that each monitoring terminal reports, described monitoring terminal is placed in the inspection shaft of the urban duct network being positioned at diverse geographic location respectively, and described first Monitoring Data is the positional information of monitoring terminal;

Memory module, for preserving described first Monitoring Data.

A kind of monitoring terminal, is arranged in the escape pit of urban duct network, comprises:

Acquisition module, for obtaining the first Monitoring Data, described first Monitoring Data is the positional information of described monitoring terminal;

Radio-frequency module, for sending described first Monitoring Data.

A kind of Monitoring Data obtains system, comprising:

Multiple monitoring terminal, described multiple monitoring terminal is placed in the inspection shaft of the urban duct network being positioned at diverse geographic location respectively, for sending the first Monitoring Data;

Obtain server, for receiving and preserving described first Monitoring Data that described monitoring terminal reports, described first Monitoring Data is the positional information of described monitoring terminal.

Based on technique scheme, in the embodiment of the present invention, by arranging monitoring terminal at the inspection shaft of the urban duct network being positioned at diverse geographic location, receive and preserve the Monitoring Data that each monitoring terminal reports, this Monitoring Data is the positional information of monitoring terminal, thus existing inspection shaft in urban duct network can be utilized to make the overall arrangement for monitoring terminal, obtain comparatively comprehensively piping network data, thus the unified management achieved urban duct network data, reduce the cost obtaining supervising the network data, and comprehensive Data support can be provided for follow-up urban planning.

Accompanying drawing explanation

Fig. 1 is Monitoring Data acquisition methods flow chart in the embodiment of the present invention;

Fig. 2 is the structural representation that in the embodiment of the present invention, Monitoring Data obtains equipment;

Fig. 3 is monitoring terminal structural representation in the embodiment of the present invention;

Fig. 4 is that in the embodiment of the present invention, Monitoring Data obtains system architecture schematic diagram;

Fig. 5 is the schematic flow sheet of monitoring terminal reported data in the embodiment of the present invention;

Fig. 6 is the schematic flow sheet of urban duct networking in the embodiment of the present invention;

Fig. 7 is the schematic flow sheet of Forecast of Urban Traffic Flow monitoring in the embodiment of the present invention;

Fig. 8 is the schematic flow sheet of mobile communication signal monitoring in the embodiment of the present invention.

Embodiment

In order to realize carrying out unified management to the data of urban duct network, obtain comparatively comprehensively piping network data, reduce the cost obtaining piping network data, embodiments provide a kind of Monitoring Data acquisition methods, equipment and system.

Below in conjunction with accompanying drawing, the preferred embodiment of the present invention is described in detail.

In following examples, inspection shaft, also known as inspection shaft, for the well that various urban duct checks, comprising: drainage pipeline turning, branch, the inspection shaft that place arranges such as to fall, and is embedded in the telecommunication cable inspection shaft etc. of underground.

In following examples, monitoring terminal possesses radio frequency sending function, the Monitoring Data obtained as required, and this monitoring terminal also possesses the transducer obtaining corresponding Monitoring Data, such as, and temperature sensor, humidity sensor etc.

In first embodiment of the invention, as shown in Figure 1, provide a kind of Monitoring Data acquisition methods, the executive agent of the method is acquisition equipment or obtains server, and detailed process is as follows:

Step 101: receive the first Monitoring Data that each monitoring terminal reports, monitoring terminal is placed in the inspection shaft of the urban duct network being positioned at diverse geographic location respectively, and wherein, the first Monitoring Data is the positional information of monitoring terminal.

In practical application, the positional information of monitoring terminal when disposing monitoring terminal, can be pre-configured in monitoring terminal side, and monitoring terminal gives the correct time and carries this positional information on regularly, and this positional information is the positional information of the inspection shaft that monitoring terminal is disposed.

Preferably, monitoring terminal sends the first Monitoring Data by radio-frequency antenna.

Step 102: preserve the first Monitoring Data.

In concrete enforcement, acquisition equipment or obtain server self and can also perform following steps, or miscellaneous equipment or server are according to the equipment of acquisition or obtain the data that server preserves and perform following steps:

Positional information according to the monitoring terminal preserved generates the location map of inspection shaft and shows, and carries out new piping network planning for technical staff according to this location map; Or adopt related algorithm determine to comprise minimum inspection shaft and be positioned at the optimum piping network yet to be built under bicycle lane further, and be supplied to technical staff's reference.

Preferably, acquisition equipment or obtain server and can also receive the second Monitoring Data that each monitoring terminal reports and preserve, the second Monitoring Data is absolute force information;

And/or,

Receive the 3rd Monitoring Data that each monitoring terminal reports and preserve, the 3rd Monitoring Data is mobile communication signal strength information.

In concrete enforcement, acquisition equipment or obtain server self and can also perform following steps, or miscellaneous equipment or server are according to the equipment of acquisition or obtain the data that server preserves and perform following steps:

According to the absolute force information of preserving, calculate the rate of change of absolute force information, when the rate of change of absolute force information is higher than setting threshold, by the road indicated by the positional information of the monitoring terminal of this absolute force information of feedback, be defined as the road that traffic congestion easily occurs;

Or,

Determine that the mobile communication signal intensity sent is lower than the positional information of the monitoring terminal of setting threshold, determines the position of base station yet to be built according to this positional information.

Preferably, acquisition equipment or obtain server and can also receive the 4th Monitoring Data, the 4th Monitoring Data includes but not limited to: temperature information, the humidity information in inspection shaft or the water level information in inspection shaft in the well lid status indication information of inspection shaft, inspection shaft.

In concrete enforcement, acquisition equipment or obtain server self and can also perform following steps, or miscellaneous equipment or server are according to the equipment of acquisition or obtain the data that server preserves and perform following steps:

When being open mode according to the well lid state information determination well lid of inspection shaft, issue alarm signal;

Or,

When exceeding preset temperature value according to the temperature in temperature information determination inspection shaft, issue alarm signal;

Or,

When exceeding default humidity value according to the humidity in humidity information determination inspection shaft, issue alarm signal;

Or,

When exceeding preset water level according to the water level in water level information determination inspection shaft, issue alarm signal.

Preferably, monitoring terminal is according to periodic report first Monitoring Data set, the second Monitoring Data, the 3rd Monitoring Data or the 4th Monitoring Data.

In the embodiment of the present invention, acquisition equipment or obtain server and can also obtain the essential information of inspection shaft of administrative staff by being configured by human-computer interaction interface or revising.

Wherein, the essential information of inspection shaft includes but not limited to: the unit-ID belonged to of inspection shaft and the urban duct network belonged to.

Such as, management platform device is according to the positional information in each inspection shaft state information of preserving, determine the distribution situation of each inspection shaft, the state such as can know the intersection of each pipeline, branch, fall, according to original position and the final position of pipeline to be disposed, to comprise minimum inspection shaft and to determine that an optimum path of disposing is supplied to user for principle for the road of bicycle lane.

Again such as, according to the absolute force information of each inspection shaft in the special time period preserved, the absolute force situation of change at this inspection shaft place can be determined, absolute force changes and shows there is vehicle by this inspection shaft, and then know the vehicle flowrate of this inspection shaft position, namely know the information of vehicle flowrate of the road at each inspection shaft place, after the vehicle flowrate of each road and predetermined threshold value are compared, the road that vehicle flowrate can be exceeded predetermined threshold value is defined as traffic congestion section, issuing traffic congestion alarm information can be applied to, or provide in conjunction with the traffic of peripheral path suggestion of detouring, or for providing reference for newly-built road.

Again such as, according to the absolute force information of each inspection shaft in the special time period preserved, after determining the absolute force situation of change at this inspection shaft place, the average speed per hour of vehicle pass-through can be calculated according to the absolute force change frequency at inspection shaft place, when determining this average speed per hour lower than preset value, determine the road generation traffic congestion at this inspection shaft place.Such as, determine that average speed per hour, lower than when 15 kilometers, traffic congestion occurs.

Again such as, according to the mobile communication signal intensity that inspection shaft state information comprises, the mobile communication signal strength distribution situation in city can be determined, type and the coverage of the base station yet to be built of designer's input is obtained by human-computer interaction interface, according to the type of this base station yet to be built and the strength distribution situation of coverage and mobile communication signal, signal strength signal intensity can be defined as laying the optimal location of base station for technical staff's reference lower than the region of set point, effectively improve the signal strength signal intensity of periphery user.

Based on identical principle, in second embodiment of the invention, as shown in Figure 2, provide a kind of Monitoring Data and obtain equipment, it is specifically implemented can see the description of said method part, and this Monitoring Data obtains equipment and mainly comprises:

Receiver module 201, for receiving the first Monitoring Data that each monitoring terminal reports, described monitoring terminal is placed in the inspection shaft of the urban duct network being positioned at diverse geographic location respectively, and described first Monitoring Data is the positional information of monitoring terminal;

Memory module 202, for preserving described first Monitoring Data.

Preferably, receiver module also for: receive the second Monitoring Data that each monitoring terminal reports, this second Monitoring Data is absolute force information;

And/or,

Receive the 3rd Monitoring Data that each monitoring terminal reports, the 3rd Monitoring Data is mobile communication signal strength information.

Correspondingly, memory module is also for preserving the second Monitoring Data and/or the 3rd Monitoring Data.

Preferably, this data acquisition facility can also comprise processing module 203, and this processing module is used for:

According to the absolute force information of preserving, calculate the rate of change of absolute force information, when the rate of change of described absolute force information is higher than setting threshold, by the road indicated by the positional information of the monitoring terminal of the described absolute force information of feedback, be defined as the road that traffic congestion easily occurs;

Or,

Determine that the mobile communication signal intensity sent is lower than the positional information of the monitoring terminal of setting threshold, determines the position of base station yet to be built according to described positional information;

Or,

Positional information according to described monitoring terminal generates the location map of inspection shaft and shows.

Preferably, receiver module is also for receiving the 4th Monitoring Data, and described 4th Monitoring Data comprises temperature information, the humidity information in inspection shaft or the water level information in inspection shaft in the well lid status indication information of inspection shaft, inspection shaft; Preserve module also for preserving the 4th Monitoring Data.

Correspondingly, processing module also for:

When being open mode according to the well lid state information determination well lid of inspection shaft, issue alarm signal;

Or,

When the temperature determined in described inspection shaft according to temperature information exceedes preset temperature value, issue alarm signal;

Or,

When the humidity determined in described inspection shaft according to humidity information exceedes default humidity value, issue alarm signal;

Or,

When the water level determined in described inspection shaft according to water level information exceedes preset water level, issue alarm signal.

Based on identical principle, in third embodiment of the invention, as shown in Figure 3, provide a kind of monitoring terminal, it is specifically implemented can see the description of said method part, and this monitoring terminal mainly comprises acquisition module 301 and sending module 302, wherein,

Acquisition module 301, for obtaining the first Monitoring Data, described first Monitoring Data is the positional information of described monitoring terminal;

Radio-frequency module 302, for sending described first Monitoring Data.

Preferably, acquisition module also for:

Obtain the second Monitoring Data, described second Monitoring Data is absolute force information;

And/or,

Obtain the 3rd Monitoring Data, described 3rd Monitoring Data is mobile communication signal strength information.

Preferably, acquisition module also for: obtain the 4th Monitoring Data, described 4th Monitoring Data comprises temperature information, the humidity information in inspection shaft or the water level information in inspection shaft in the well lid status indication information of inspection shaft, inspection shaft.

Based on identical principle, in fourth embodiment of the invention, as shown in Figure 4, provide a kind of Monitoring Data and obtain system, it is specifically implemented can see the description of said method part, and this system mainly comprises and is arranged at multiple monitoring terminal 401 respectively and obtains server 402, wherein

Multiple monitoring terminal 401, is placed in the inspection shaft of the urban duct network being positioned at diverse geographic location respectively, for sending the first Monitoring Data;

Obtain server 402, for receiving and preserving described first Monitoring Data that monitoring terminal reports, the first Monitoring Data is the positional information of described monitoring terminal.

Preferably, also comprise application server 403, for:

Positional information according to described monitoring terminal generates the location map of inspection shaft and shows.

Preferably, monitoring terminal also for:

Send the second Monitoring Data, described second Monitoring Data is absolute force information;

And/or

Send the 3rd Monitoring Data, described 3rd Monitoring Data mobile communication signal strength information.

Described acquisition server also for:

Receive the second Monitoring Data that each monitoring terminal reports and preserve;

And/or,

Receive the 3rd Monitoring Data that each monitoring terminal reports and preserve.

Preferably, application server also for:

According to the described absolute force information of preserving, calculate the rate of change of described absolute force information, when the rate of change of described absolute force information is higher than setting threshold, by the road indicated by the positional information of the monitoring terminal of the described absolute force information of feedback, be defined as the road that traffic congestion easily occurs;

Or,

Determine that the mobile communication signal intensity sent is lower than the positional information of the monitoring terminal of setting threshold, determines the position of base station yet to be built according to described positional information.

Preferably, monitoring terminal also for:

Send the 4th Monitoring Data, described 4th Monitoring Data comprises temperature information, the humidity information in inspection shaft or the water level information in inspection shaft in the well lid status indication information of inspection shaft, inspection shaft;

Described acquisition server also for:

Receive described 4th Monitoring Data and preserve.

Preferably, application server also for:

When being open mode according to the well lid state information determination well lid of described inspection shaft, issue alarm signal;

Or,

When the temperature determined in described inspection shaft according to described temperature information exceedes preset temperature value, issue alarm signal;

Or,

When the humidity determined in described inspection shaft according to described humidity information exceedes default humidity value, issue alarm signal;

Or,

When the water level determined in described inspection shaft according to described water level information exceedes preset water level, issue alarm signal.

In this embodiment, application server can be set to one, also different application servers can be set for different market demands, such as, for urban duct network application, the first application server is set, second application server is set for Forecast of Urban Traffic Flow monitoring, the 3rd application server etc. is set for mobile communication signal intensity monitoring.In this embodiment, the function of application server also can be realized by acquisition server, the i.e. data analysis data of application server self according to preservation and the function of application, obtains the function that server is also attached with application server here, no longer repeats herein.

Be described in detail below by way of the processing procedure of a specific embodiment to the urban construction data that the embodiment of the present invention provides.

In practical application, the first Monitoring Data, the second Monitoring Data, the 3rd Monitoring Data, the 4th Monitoring Data can be that monitoring terminal reports respectively, also can monitoring terminal unification report as Monitoring Data.In this specific embodiment, Monitoring Data is reported to be described so that monitoring terminal is unified.

During this is specifically implemented, Monitoring Data preserved by configuration information central server.

As shown in Figure 5, monitoring terminal image data report to Monitoring Data to obtain the idiographic flow of equipment as follows:

Step 501: monitoring terminal taken at regular intervals Monitoring Data, this Monitoring Data comprises the positional information of inspection shaft, temperature information, humidity information, water level information, absolute force information and mobile communication signal strength information etc.;

Step 502: the Monitoring Data of collection is reported to Monitoring Data and obtains equipment by monitoring terminal;

Step 503: the Monitoring Data that Monitoring Data obtains equipment interconnection receipts carries out analyzing and processing, every in Monitoring Data is compared with corresponding setting threshold, judges whether to exist the item exceeding setting threshold, if exist, perform step 504, otherwise, perform step 505;

Step 504: when Monitoring Data acquisition equipment determines to there is the item exceeding setting threshold, issue warning message to notify related management personnel, Monitoring Data is saved to information centre's server simultaneously, after information centre's server return data stores successful message, performs step 506;

Step 505: when Monitoring Data acquisition equipment determines to there is not the item exceeding setting threshold, directly preserves Monitoring Data to information centre's server, after information centre's server return data stores successful message, performs step 506;

Step 506: Monitoring Data obtains equipment and reports successful acknowledge message to monitoring terminal return data.

As shown in Figure 6, for urban duct network, the flow process that Monitoring Data acquisition equipment carries out data configuration and data analysis is specific as follows:

Step 601: inspection shaft essential information is checked, configures or revised to the human-computer interaction interface that administrative staff are provided by Monitoring Data acquisition equipment, such as, the unit-ID of inspection shaft ownership, the urban duct network etc. of ownership;

Step 602: Monitoring Data obtains equipment and obtains data by human-computer interaction interface, and is saved to information centre's server;

Step 603: the human-computer interaction interface that administrative staff are provided by Monitoring Data acquisition equipment inputs duct size information yet to be built, conduit types such as yet to be built, floor space, enlightenment position, final position etc.;

Step 604: Monitoring Data obtains equipment and analyzes the Monitoring Data of preserving in information centre's server and inspection shaft essential information, according to existing pipeline distribution situation, to comprise minimum inspection shaft and to determine optimum deployment scheme for principle for the road of bicycle lane;

Step 605: Monitoring Data obtains equipment and the information of this optimum deployment scheme is passed through interface display.

As shown in Figure 7, for Forecast of Urban Traffic Flow monitoring, the flow process that Monitoring Data acquisition equipment carries out data configuration and data analysis is specific as follows:

Step 701: inspection shaft essential information is checked, configures or revised to the human-computer interaction interface that administrative staff are provided by Monitoring Data acquisition equipment, such as, the unit-ID of inspection shaft ownership, the urban duct network etc. of ownership;

Step 702: Monitoring Data obtains equipment human-computer interaction interface and obtains data, and is saved to information centre's server;

Step 703: Monitoring Data obtains equipment and analyzes the Monitoring Data of preserving in information centre and inspection shaft essential information, the absolute force situation of change at magnetic intensity information determination inspection shaft place, base area, draw urban traffic flow spirogram according to the distributing position of inspection shaft further, and show this traffic flow map;

Step 704: the road that the Monitoring Data acquisition equipment determination magnitude of traffic flow exceedes set point is congested road, and is shown to administrative staff, thinks that follow-up road construction provides reference.

As shown in Figure 8, for the monitoring of city mobile communication signal, the flow process that Monitoring Data acquisition equipment carries out data configuration and data analysis is specific as follows:

Step 801: inspection shaft essential information is checked, configures or revised to the human-computer interaction interface that administrative staff are provided by Monitoring Data acquisition equipment, such as, the unit-ID of inspection shaft ownership, the urban duct network etc. of ownership;

Step 802: Monitoring Data obtains equipment and obtains data by human-computer interaction interface, and is saved to information centre;

Step 803: the human-computer interaction interface that administrative staff are provided by Monitoring Data acquisition equipment inputs newly-built base station plan information, such as, base station type, coverage etc.;

Step 804: Monitoring Data obtains equipment and analyzes the Monitoring Data of preserving in information centre's server and inspection shaft essential information, according to the positional information of the movable signal strength information in Monitoring Data and each inspection shaft, determine the distribution situation of movable signal intensity, according to this distribution situation determination mobile communication signal intensity lower than the region of set point as the optimal location of newly-built base station;

Step 805: Monitoring Data obtains the optimal location that equipment shows the newly-built base station determined, for technical staff provides reference.

With in above-described embodiment, Monitoring Data obtains equipment and collects the Monitoring Data that the monitoring terminal that is positioned at each inspection shaft reports, and by analyzing the Monitoring Data of collection, can reach following object:

In urban duct networking, by to collect Monitoring Data analyze after provide the newly-built pipeline of suggestion optimum build path, to improve the construction efficiency of urban duct network, and can by the probability that cause damage of newly-built supervising the network to existing piping network;

In urban road construction, by to collect Monitoring Data analyze after provide the newly-built road of suggestion optimum build path, to improve the reasonability of urban road construction, relative to the method being analyzed the magnitude of traffic flow in prior art by video monitoring equipment, reduce covering cost, and wide coverage, the video image large relative to transmitted data amount, the speed of monitoring terminal transmission of monitoring data is fast, and real-time is high;

In the mobile communication signal intensity monitoring of city, the distribution situation of mobile communication signal intensity is provided after the Monitoring Data of collecting is analyzed, obtain mode relative to construction monitoring point and save cost, wide coverage, and can be optimum base station construction position by place the most weak for mobile communication signal intensity suggestion, improve the reasonability of base station deployment, reducing the construction costs.

Based on technique scheme, in the embodiment of the present invention, by arranging monitoring terminal at the inspection shaft of the urban duct network being positioned at diverse geographic location, receive and preserve the Monitoring Data that each monitoring terminal reports, this Monitoring Data is the positional information of monitoring terminal, thus existing inspection shaft in urban duct network can be utilized to make the overall arrangement for monitoring terminal, obtain comparatively comprehensively piping network data, thus the unified management achieved urban duct network data, reduce the cost obtaining supervising the network data, and comprehensive Data support can be provided for follow-up urban planning.

Obviously, those skilled in the art can carry out various change and modification to the present invention and not depart from the spirit and scope of the present invention.Like this, if these amendments of the present invention and modification belong within the scope of the claims in the present invention and equivalent technologies thereof, then the present invention is also intended to comprise these change and modification.

Claims (15)

1. a Monitoring Data acquisition methods, is characterized in that, comprising:

Receive the first Monitoring Data that each monitoring terminal reports, described monitoring terminal is placed in the inspection shaft of the urban duct network being positioned at diverse geographic location respectively, and described first Monitoring Data is the positional information of described monitoring terminal;

Preserve described first Monitoring Data.

2. the method for claim 1, is characterized in that, receives the first Monitoring Data that each monitoring terminal reports, comprising:

Receive described first Monitoring Data that described monitoring terminal is sent by radio-frequency antenna.

3. method as claimed in claim 1 or 2, is characterized in that, also comprise:

Receive the second Monitoring Data that each monitoring terminal reports and preserve, described second Monitoring Data is absolute force information;

And/or,

Receive the 3rd Monitoring Data that each monitoring terminal reports and preserve, described 3rd Monitoring Data is mobile communication signal strength information.

4. Monitoring Data obtains an equipment, it is characterized in that, comprising:

Receiver module, for receiving the first Monitoring Data that each monitoring terminal reports, described monitoring terminal is placed in the inspection shaft of the urban duct network being positioned at diverse geographic location respectively, and described first Monitoring Data is the positional information of monitoring terminal;

Memory module, for preserving described first Monitoring Data.

5. obtain equipment as claimed in claim 4, it is characterized in that, described receiver module specifically for:

Receive described first Monitoring Data that described monitoring terminal is sent by radio-frequency antenna.

6. the acquisition equipment as described in claim 4 or 5, is characterized in that, described receiver module also for: receive the second Monitoring Data that each monitoring terminal reports, described second Monitoring Data is absolute force information;

And/or,

Receive the 3rd Monitoring Data that each monitoring terminal reports, described 3rd Monitoring Data is mobile communication signal strength information.

7. obtain equipment as claimed in claim 6, it is characterized in that, described memory module is also for preserving described second Monitoring Data and/or described 3rd Monitoring Data.

8. a monitoring terminal, is characterized in that, is arranged in the escape pit of urban duct network, comprises:

Acquisition module, for obtaining the first Monitoring Data, described first Monitoring Data is the positional information of described monitoring terminal;

Radio-frequency module, for sending described first Monitoring Data.

9. monitoring terminal as claimed in claim 8, is characterized in that, described acquisition module also for:

Obtain the second Monitoring Data, described second Monitoring Data is absolute force information; And/or,

Obtain the 3rd Monitoring Data, described 3rd Monitoring Data is mobile communication signal strength information;

Described radio-frequency module also for: send described second Monitoring Data and/or described 3rd Monitoring Data.

10. Monitoring Data obtains a system, it is characterized in that, comprising:

Multiple monitoring terminal, described multiple monitoring terminal is placed in the inspection shaft of the urban duct network being positioned at diverse geographic location respectively, for sending the first Monitoring Data;

Obtain server, for receiving and preserving described first Monitoring Data that described monitoring terminal reports, described first Monitoring Data is the positional information of described monitoring terminal.

11. systems as claimed in claim 10, is characterized in that, also comprise application server, for:

Positional information according to described monitoring terminal generates the location map of inspection shaft and shows.

12. systems as claimed in claim 11, is characterized in that, described monitoring terminal also for:

Send the second Monitoring Data, described second Monitoring Data is absolute force information;

And/or

Send the 3rd Monitoring Data, described 3rd Monitoring Data mobile communication signal strength information;

Described acquisition server also for:

Receive the second Monitoring Data that each monitoring terminal reports and preserve;

And/or,

Receive the 3rd Monitoring Data that each monitoring terminal reports and preserve.

13. systems as claimed in claim 12, is characterized in that, described application server also for:

According to the described absolute force information of preserving, calculate the rate of change of described absolute force information, when the rate of change of described absolute force information is higher than setting threshold, by the road indicated by the positional information of the monitoring terminal of the described absolute force information of feedback, be defined as the road that traffic congestion easily occurs;

Or,

Determine that the mobile communication signal intensity sent is lower than the positional information of the monitoring terminal of setting threshold, determines the position of base station yet to be built according to described positional information.

14. systems as claimed in claim 13, is characterized in that, described monitoring terminal also for:

Send the 4th Monitoring Data, described 4th Monitoring Data comprises temperature information, the humidity information in inspection shaft or the water level information in inspection shaft in the well lid status indication information of inspection shaft, inspection shaft;

Described acquisition server also for:

Receive described 4th Monitoring Data and preserve.

15. systems as claimed in claim 14, is characterized in that, described application server also for:

When being open mode according to the well lid state information determination well lid of described inspection shaft, issue alarm signal;

Or,

When the temperature determined in described inspection shaft according to described temperature information exceedes preset temperature value, issue alarm signal;

Or,

When the humidity determined in described inspection shaft according to described humidity information exceedes default humidity value, issue alarm signal;

Or,

When the water level determined in described inspection shaft according to described water level information exceedes preset water level, issue alarm signal.