CN106899932B

CN106899932B - Method and system for monitoring activity population density

Info

Publication number: CN106899932B
Application number: CN201510966849.9A
Authority: CN
Inventors: 许斌; 李奇; 马玉昆; 钟东来
Original assignee: Tsinghua University
Current assignee: Tsinghua University
Priority date: 2015-12-21
Filing date: 2015-12-21
Publication date: 2020-06-09
Anticipated expiration: 2035-12-21
Also published as: CN106899932A

Abstract

The invention relates to the technical field of population density monitoring, in particular to a method and a system for monitoring the population density of an activity. The invention provides an active population density monitoring method, which comprises the following steps: determining the service coverage area B of the base station to be monitored according to the identification code of the global cell, the corresponding relation between the cell and the base station to be monitored and the latitude and longitude information of the base station to be monitored_sid(ii) a Calculating the service coverage area B of the base station to be monitored_sidIs covered with_sid(ii) a Determining the coverage area B of the base station to be monitored according to the mobile signaling data of the mobile communication network platform where the base station to be monitored is positioned_sidThe number of non-duplicate users C; calculating the number C of non-repeated users and the coverage area S_sidAs the service coverage area B of the base station to be monitored_sidIntrinsic active population density. The method utilizes the existing equipment of the mobile operator, almost does not need new investment, and can intuitively and effectively monitor the real-time condition of the density of the active population in the coverage area of the mobile network.

Description

Method and system for monitoring activity population density

Technical Field

The invention relates to the technical field of population data information analysis, in particular to a method and a system for monitoring the population density of an activity.

Background

Due to rapid development of science and technology and economy, the range of activity space of people is greatly expanded, and the traffic and travel modes of people are rapidly changed. Nowadays, people can choose to shop, travel, work, vacation in hundreds of kilometers, and the population can rapidly change in a region, so that population gathering is easier to occur in a certain region than before in the world nowadays, and monitoring of active population density is inconvenient.

In recent years, technologies such as high-definition video image recognition and infrared thermosensitive sensing are gradually applied to people stream information collection, and people can be efficiently, accurately and reliably counted by processing data transmitted from a sensor. However, this method can only collect the number of people in the sensing range of the instrument, and cannot be deployed in a large scale due to cost.

Nowadays, mobile phones have a very high prevalence in the world, over 90% in developing countries and over 100% in developed countries. With the advancement of modern communication technologies and the increase of service levels, mobile communication networks are capable of covering all spatial areas that humans can reach. Meanwhile, along with the popularization of mobile phone terminals, the scale of the user information stored in the mobile communication network is continuously enlarged, so that a large amount of user track information can be extracted from the user information. Meanwhile, the requirement of implementing dynamic space distribution acquisition in a large range can be met.

The handset is in an on state and is capable of registering to a mobile network that the mobile user is an active population. The users with the mobile phone turned off are inactive population. The user with the mobile phone in the open state has stronger activity will and is more likely to move in a large space range. A user who is in a closed state of the mobile phone has a desire not to be disturbed by the outside except for a few special conditions, and is usually in a certain rest state. Although embedding a GPS sensor in a mobile device can accurately locate a person, since the GPS sensor is not always on and involves personal privacy concerns, users do not unconditionally share their location information. And thus also cannot monitor active population density using GPS sensors.

Disclosure of Invention

In order to be able to monitor active population density, the invention provides an active population density monitoring method and system.

In a first aspect, the invention provides a method of activity population density monitoring, comprising:

determining the service coverage area B of the base station to be monitored according to the identification code of the global cell, the corresponding relation between the cell and the base station to be monitored and the latitude and longitude information of the base station to be monitored_sid；

Calculating the service coverage area B of the base station to be monitored_sidIs covered with_sid；

Determining the service coverage area B of the base station to be monitored according to the mobile signaling data of the mobile communication network platform where the base station to be monitored is positioned_sidNumber of non-duplicate users inAmount C;

calculating the number C of non-repeated users and the coverage area S_sidAs the service coverage area B of the base station to be monitored_sidIntrinsic active population density.

Further, the service coverage area B of the base station to be monitored is determined_sidThe method comprises the following steps:

determining a Thiessen polygon of the base station to be monitored according to the global cell identification code, the corresponding relation between the cell and the base station to be monitored and the latitude and longitude information of the base station to be monitored, and taking the coverage area of the Thiessen polygon as the service coverage area B of the base station to be monitored_sid。

Further, the method further comprises:

and correcting the coverage range of the Thiessen polygon of the base station to be monitored according to the antenna elevation angle, the power and the communication standard of the base station to be monitored.

Further, the method further comprises:

displaying the service coverage B of the base station to be monitored_sidActive population density within.

Further, the method further comprises:

the latitude and longitude information of the base station to be monitored and the service coverage B thereof_sidAnd mapping the map to a third-party map for display.

Further, the service coverage area B of the base station to be monitored is determined_sidThe number of non-duplicate users C, comprising:

acquiring mobile signaling data of a mobile communication network in which a base station to be monitored is located;

extracting a time stamp, a base station identifier sid and a user identifier uid of the mobile terminal contained in each piece of mobile signaling data, and converting time into a period identifier pid of a time period in which the piece of mobile signaling data is located;

formatting each piece of mobile signaling data into data information (base station identification sid, user identification uid, periodic identification pid) in a triple form;

removing repeated data information;

dividing data information with the same period identification pid into the same data block;

extracting data information of the base station to be monitored in each data block according to the identification sid of the base station to be monitored;

and counting the number of the non-repeated user identifications uid in the data information of the base station to be monitored as the number C of the non-repeated users.

Further, the method further comprises:

identify sid of base station to be monitored and service coverage area B of base station to be monitored_sidThe coverage area S_sidThe storage is associated in the form of a triple;

and the base station identification sid to be monitored, the periodic identification pid and the number C of the non-repetitive users corresponding to the periodic identification pid are stored in a triple form in an associated manner.

Based on the same concept, a second aspect of the present invention provides an activity population density monitoring system, comprising:

a range acquisition module for determining the service coverage range B of the base station to be monitored according to the global cell identification code, the corresponding relation between the cell and the base station to be monitored and the latitude and longitude information of the base station to be monitored_sid；

An area calculation module for calculating the service coverage B of the base station to be monitored_sidIs covered with_sid；

A quantity counting module for determining the service coverage area B of the base station to be monitored according to the mobile signaling data of the mobile communication network platform where the base station to be monitored is located_sidThe number of non-duplicate users C;

a density calculation module for calculating the number C of non-repetitive users and the coverage area S_sidAs the service coverage area B of the base station to be monitored_sidIntrinsic active population density.

Further, the system further comprises:

a base station information storage module for identifying the base station to be monitored sid and the service coverage area B of the base station to be monitored_sidThe coverage area S_sidThe storage is associated in the form of a triple;

and the user number storage module is used for storing the base station identifier sid to be monitored, the periodic identifier pid and the non-repeated user number C corresponding to the periodic identifier pid in a triple form in an associated manner.

Further, the number counting module is specifically configured to:

extracting a time stamp, a base station identifier sid and a user identifier uid of a mobile terminal contained in each piece of mobile signaling data, and converting the time stamp into a period identifier pid of a time period in which the piece of mobile signaling data is located;

removing repeated data information;

The active population density monitoring method provided by the invention determines the service coverage area B of the base station to be monitored according to the global cell identification code, the corresponding relation between the cell and the base station to be monitored and the longitude and latitude information of the base station to be monitored_sid(ii) a Calculating the service coverage area B of the base station to be monitored_sidIs covered with_sid(ii) a Determining the service coverage area B of the base station to be monitored according to the mobile signaling data of the mobile communication network platform where the base station to be monitored is positioned_sidThe number C of non-repeated users in the base station can be calculated, so that the service coverage area B of the base station to be monitored can be calculated_sidIntrinsic active population density. The method utilizes the existing equipment of the mobile operator, almost does not need new investment, and can intuitively and effectively monitor the real-time condition of the density of the active population in the coverage area of the mobile network.

Drawings

Fig. 1 is a schematic flow chart of an active population density monitoring method according to a first embodiment of the present invention;

fig. 2 is a schematic flow chart of obtaining the active population density by using the active population density monitoring method provided by the embodiment through a parallel data processing framework;

fig. 3 is a schematic structural diagram of an active population density monitoring system provided by a second embodiment of the present invention;

fig. 4 is a schematic partial structural diagram of an active population density monitoring system according to a second embodiment of the present invention.

Detailed Description

The following further describes embodiments of the present invention with reference to the accompanying drawings. The following examples are only for illustrating the technical solutions of the present invention more clearly, and the protection scope of the present invention is not limited thereby.

A first embodiment of the present invention provides an active population density monitoring method, as shown in fig. 1, including:

step S101, determining the service coverage area B of the base station to be monitored according to the global cell identification code, the corresponding relation between the cell and the base station to be monitored and the latitude and longitude information of the base station to be monitored_sid；

Step S102, calculating the coverage area S of the service coverage area of the base station to be monitored_sid；

Step S103, determining the service coverage area B of the base station to be monitored according to the mobile signaling data of the mobile communication network platform where the base station to be monitored is positioned_sidThe number of non-duplicate users C;

step S104, calculating the number C of non-repeated users and the coverage area S_sidAs the service coverage area B of the base station to be monitored_sidIntrinsic active population density.

Determining the service coverage area B of the base station to be monitored according to the global cell identification code, the corresponding relation between the cell and the base station to be monitored and the latitude and longitude information of the base station to be monitored_sidThis can be achieved by existing methods.

In specific implementation, the mobile signaling data may be internet access data of mobile registered user information on a mobile communication network platform or other data with high generation frequency, such as operator network optimization data. The mapping or scaling into the user identification uid of the uniquely identifiable mobile terminal, the base station identification sid and the time stamp can be performed by means of a field or a combination of fields in the mobile signaling data.

In specific implementation, when a new base station is established in the vicinity of the base station to be monitored, the service coverage area B of the base station to be monitored can be determined again_sid。

In specific implementation, the service coverage area B of the base station to be monitored is determined_sidThe method comprises the following steps:

The design has the advantage that the Thiessen polygon generated based on the base station position distribution according to the basic principle of the cellular telephone system can be used for accurately determining the service coverage area B of the base station to be monitored_sid。

In a specific implementation, the method may further include:

The advantage of such design is that the determined Thiessen polygon of the base station to be monitored can be made to more conform to the actual service coverage of the base station to be monitored.

In a specific implementation, the method may further include:

The advantage of the design is that the service coverage B of the base station to be monitored can be visually shown for the user_sidActive population density within.

In a specific implementation, the method may further include:

The advantage of such a design is that the user is enabled to intuitively obtain the active population density for each geographical area.

In specific implementation, the service coverage area B of the base station to be monitored is determined_sidThe number of non-duplicate users C in may include:

removing repeated data information;

extracting data information of the base station to be monitored in each data block according to the identifier uid of the base station to be monitored;

So designed thatHas the advantage of rapidly and accurately acquiring the service coverage area B of the base station to be monitored_sidThe number of non-duplicate users C.

In a specific implementation, the method may further include:

The design has the advantages that a user can conveniently inquire the corresponding data of the base station to be monitored according to needs, and the corresponding active population density is calculated according to the inquired data.

In specific implementation, the service coverage area of each base station in the area to be monitored and the active population density in the service coverage area of each base station can be obtained by the active population density monitoring method provided by the embodiment. In a specific implementation, the area to be monitored may be an area including a plurality of base stations, such as a town, a street or a residential area. And mapping the service coverage range of the longitude and latitude coordinate information of each base station to a third-party map for display. In a specific implementation, the service coverage areas of different base stations can be distinguished by drawing a boundary, and the active population density in the service coverage area of each base station is highlighted in a text form in the service coverage area of the base station.

In specific implementation, a display instruction input by a user may be received, the active population density in the service coverage area of each base station in the corresponding area may be displayed according to the area specified by the display instruction, or the display area may be enlarged, reduced or translated according to the display instruction, and information of each base station or information such as the area and distance of the corresponding area may be displayed.

In specific implementation, as shown in fig. 2, a parallel data processing framework may be adopted to simultaneously complete the service coverage B of the base station to be monitored_sidIs covered with_sidIs calculated and the service coverage area B of the base station to be monitored_sidInternal NOTThe calculation of the number of users C is repeated to increase the rate of active population density calculations. And shows the service coverage B of the base station to be monitored_sidThe number of non-repeat users C and the active population density.

A second embodiment of the present invention provides an active population density monitoring system, as shown in fig. 3, including:

a range obtaining module 201, configured to determine a service coverage area B of the base station to be monitored according to the global cell identification code, the corresponding relationship between the cell and the base station to be monitored, and the latitude and longitude information of the base station to be monitored_sid；

An area calculating module 202, configured to calculate a service coverage area B of the base station to be monitored_sidIs covered with_sid；

The quantity counting module 203 is used for determining the service coverage area B of the base station to be monitored according to the mobile signaling data of the mobile communication network platform where the base station to be monitored is located_sidThe number of non-duplicate users C;

a density calculating module 204 for calculating the number of non-repetitive users C and the coverage area S_sidAs the service coverage area B of the base station to be monitored_sidIntrinsic active population density.

In a specific implementation, the system may further include:

In a specific implementation, the quantity statistics module 203 may specifically be configured to:

removing repeated data information;

In specific implementation, as shown in fig. 4, the system may further include:

a visualization module for receiving a display instruction input by a user and displaying the service coverage B of the corresponding base station_sidActive population density within;

a client for acquiring corresponding base station service coverage B from the visualization module_sidActive population density within and shown.

In specific implementation, the visualization module receives a user display instruction, and acquires a base station identifier, a service coverage area and a coverage area of a base station indicated in the display instruction from the base station information storage module; acquiring the number of non-repeated users of the base station indicated in the display instruction from a user number storage module; and calculating to obtain the active population density in the service coverage area of the base station for displaying.

In specific implementation, the visualization module can also provide WEB services, and a user can acquire the active population density distribution status from the visualization module through a browser to view the active population density distribution status.

The foregoing is only a preferred embodiment of the present invention, and it should be noted that, for those skilled in the art, various modifications and decorations can be made without departing from the technical principle of the present invention, and these modifications and decorations should also be regarded as the protection scope of the present invention.

Claims

1. A method for activity population density monitoring, comprising:

Determining the service coverage area B of the base station to be monitored according to the mobile signaling data of the mobile communication network platform where the base station to be monitored is positioned_sidThe number of non-duplicate users C;

calculating the number C of non-repeated users and the coverage area S_sidAs the service coverage area B of the base station to be monitored_sidAn intrinsic active population density;

determining a service coverage area B of a base station to be monitored_sidThe number of non-duplicate users C, comprising:

formatting each piece of mobile signaling data into data information of a base station identifier sid, a user identifier uid and a periodic identifier pid in a triple form;

removing repeated data information;

2. The method of claim 1, wherein the determining base station service coverage area B to be monitored_sidThe method comprises the following steps:

according to the worldDetermining a Thiessen polygon of the base station to be monitored by using the cell identification code, the corresponding relation between the cell and the base station to be monitored and the longitude and latitude information of the base station to be monitored, and taking the coverage area of the Thiessen polygon as the service coverage area B of the base station to be monitored_sid。

3. The method of claim 2, further comprising:

4. The method of claim 1, further comprising:

5. The method of claim 4, further comprising:

6. The method of claim 1, further comprising:

7. An activity population density monitoring system, comprising:

Area calculation moduleFor calculating the service coverage B of the base station to be monitored_sidIs covered with_sid；

a density calculation module for calculating the number C of non-repetitive users and the coverage area S_sidAs the service coverage area B of the base station to be monitored_sidAn intrinsic active population density;

the number counting module is specifically configured to:

removing repeated data information;

8. The system of claim 7, further comprising: