CN111160851B - Method for improving city management capability based on operator signaling data - Google Patents

Abstract

The invention discloses a method for improving city management capability based on operator signaling data, which comprises the following steps of S1: the management platform acquires data and performs analysis processing on the acquired data, and step S2: the management platform obtains the daily work positioning of the information acquisition personnel, then draws a work track graph of the information acquisition personnel according to the work positioning, and obtains gridding data of a regional map, and the step S3: and counting the gridded crowd of the multiple-occurrence area according to the gridded data management platform and portraying the complaining crowd. The invention discloses a method for improving city management capability based on operator signaling data, which can manage a city by combining a management platform and a mobile phone operator and know the attendance track and positioning of information collection personnel (staff).

Description

Method for improving city management capability based on operator signaling data

Technical Field

The invention belongs to the technical field of city management, and particularly relates to a method for improving city management capability based on operator signaling data.

Background

With the acceleration of the modern construction process of cities, a series of problems also appear in city management. The staff can appear false when the work in management city and go out to work, and the place of going out to work does not accord with the scheduling problem with reality, has caused certain difficulty to city management.

The publication number is: CN105389766A, the subject name is the invention patent of a smart city management method and system based on a cloud platform, and the technical scheme discloses that comprehensive information resource services are provided by using the smart city management method and system based on the cloud platform; the smart city management method and system based on the cloud platform comprise data acquisition, large city data management, city business analysis, city service management and city information dissemination. The unified information resource sharing infrastructure is constructed, and unified data support is provided for smart city business application; a clear information resource management framework is constructed and cooperates together, so that unified management and control of data are realized, and effective sharing and reasonable utilization are realized; and a data base for unifying data views and business supports is established. The system is oriented to utilization, analysis and decision service of big data, and provides more intelligent decision support, higher productivity of city workers, more modern citizen service and stronger urban innovation for urban managers. The intelligent city management method and system based on the cloud platform have the innovation points of cross-domain data acquisition, real-time situation awareness, intelligent service integration and generalized data service.

Taking the above invention patent as an example, it does not disclose the management of complaints and staff work by the mobile phone operator and the management platform of the invention patent. Therefore, the above problems are further improved.

Disclosure of Invention

The invention mainly aims to provide a method for improving city management capacity based on operator signaling data, which can manage a city by combining a management platform and a mobile phone operator and know the attendance track and location of information collection personnel (staff).

Another object of the present invention is to provide a method for improving city management capability based on operator signaling data, which can count and portray people in a grid through gridding data.

Another object of the present invention is to provide a method for improving city management capability based on operator signaling data, which can manage work arrangement and workload statistics of information collection personnel.

In order to achieve the above purpose, the present invention provides a method for improving city management capability based on operator signaling data, which optimizes city management through a management platform, and comprises the following steps:

step S1: the management platform acquires data and performs analysis processing on the acquired data;

step S2: the management platform acquires the daily work positioning of the information acquisition personnel, draws a work track graph of the information acquisition personnel according to the work positioning and acquires the gridding data of the regional map;

and step S3: counting the gridded crowd in the multiple-sending area according to the gridded data management platform and portraying the complaining crowd;

and step S4: the management platform carries out statistical analysis on patrol areas of the information acquisition personnel and manages the information acquisition personnel.

As a further preferable embodiment of the above technical solution, the step S1 is specifically implemented as the following steps:

step S1.1: the management platform acquires data of the complaint platform;

step S1.2: the management platform acquires data of the digital city management APP;

step S1.3: the management platform acquires data of a mobile phone operator.

As a further preferable embodiment of the above technical solution, the step S2 is specifically implemented as the following steps:

step S2.1: the management platform positions the working mobile phones of the information collection personnel every day through a mobile phone operator and synchronizes every day;

step S2.2: drawing a working track graph of the information acquisition personnel according to the positioning of the working mobile phone and spot-checking the working track graph of part of the information acquisition personnel;

step S2.3: comparing the daily working trajectory diagrams of the information acquisition personnel, processing and analyzing the daily working trajectory diagrams and outputting diagram data;

step S2.4: and the management platform sends the working trajectory diagram of the information acquisition personnel to the space-time platform according to the established interface standard and acquires gridding data of the area map.

As a further preferable embodiment of the above technical solution, the step S3 is specifically implemented as the following steps:

step S3.1: carrying out overall analysis on the gridding crowd according to a gridding standard management platform;

step S3.2: the management platform compares the population data of the mobile phone operator and then carries out integral portrait on the gridded complaint population;

step S3.3: the encrypted mobile phone number of the complaint platform corresponds to the mobile phone number of the mobile phone operator.

As a further preferred embodiment of the above technical solution, step S3.3 is specifically implemented as the following steps:

step S3.3.1: obtaining a complaint platform mobile phone number rule and an encrypted group mobile phone number, and encrypting, comparing and outputting the group mobile phone numbers (such as 10 mobile phone numbers) given by a mobile phone operator by using the encryption rule so as to portray the group (the owners of the group mobile phone numbers);

step S3.3.2: and obtaining the mobile phone number through an interface for sending the short message by the complaint platform.

As a further preferable embodiment of the above technical solution, the step S4 is specifically implemented as the following steps:

step S4.1: the management platform analyzes and judges whether the arrangement of patrol tasks is reasonable or not according to the distribution of information acquisition personnel at each time period;

step S4.2: the management platform evaluates the workload of the information acquisition personnel;

step S4.3: the management platform performs information management on the information acquisition personnel;

step S4.4: and the management platform carries out scheduling management on the information acquisition personnel.

As a more preferable embodiment of the above-mentioned embodiment, the method further includes step S5: and the management platform performs interface configuration management according to the user requirements.

As a more preferable embodiment of the above-described embodiment, the method further includes step S6: the management platform carries out mobile phone positioning authorization management through a mobile phone operator.

As a further preferable embodiment of the above-mentioned technical means, the overall analysis includes a periodic population, a male and female proportion, and an age distribution.

As a further preferable embodiment of the above-mentioned technical means, the whole figure includes a periodic mobile phone number, a male and female ratio, an age distribution, an educational level, and a frequent activity area.

Detailed Description

The following description is presented to disclose the invention so as to enable any person skilled in the art to practice the invention. The preferred embodiments in the following description are given by way of example only, and other obvious variations will occur to those skilled in the art. The basic principles of the invention, as defined in the following description, may be applied to other embodiments, variations, modifications, equivalents, and other technical solutions without departing from the spirit and scope of the invention.

In the preferred embodiment of the present invention, it should be noted by those skilled in the art that the spatio-temporal platform, gridding, etc. involved in the present invention can be regarded as the prior art.

Preferred embodiments.

The invention discloses a method for improving city management capability based on operator signaling data, which optimizes city management through a management platform and comprises the following steps:

step S1: the management platform acquires data and performs analysis processing on the acquired data;

step S2: the management platform acquires the daily work positioning of the information acquisition personnel, draws a work track graph of the information acquisition personnel according to the work positioning and acquires the gridding data of the regional map;

and step S3: counting the gridded crowd in the multiple-sending area according to the gridded data management platform and portraying the complaining crowd;

and step S4: the management platform carries out statistical analysis on patrol areas of the information acquisition personnel and manages the information acquisition personnel.

Specifically, step S1 is specifically implemented as the following steps:

step S1.1: the management platform acquires data of the complaint platform (such as a 12345 platform, a desensitized mobile phone number of a complainer; complaint events (time, place, content, complaint type, processing unit and processing state));

step S1.2: the management platform acquires data (duty information, mobile phone numbers of information acquisition personnel (after authorization), events (time, place, content and reporter) reported by urban management personnel) of a digital urban management APP;

step S1.3: the management platform acquires data of a mobile phone operator (positioning is carried out according to the mobile phone number of an authorized information acquisition person, and regional population portrayal is carried out on a complainer according to the mobile phone number and a city).

More specifically, step S2 is specifically implemented as the following steps:

step S2.1: the management platform positions the working mobile phones of the information collection personnel every day through a mobile phone operator (mobile phone positioning) and synchronizes every day;

step S2.2: drawing a working track graph of the information acquisition personnel according to the positioning of the working mobile phone and spot-checking the working track graph of part of the information acquisition personnel;

step S2.3: comparing the daily working track diagram of the information acquisition personnel (backtracking and checking the previous working track diagram and synchronizing with the previous working track diagram) for processing and analyzing and outputting diagram data;

step S2.4: and the management platform sends the working trajectory diagram of the information acquisition personnel to the space-time platform according to the established interface standard and acquires gridding data of the area map.

Preferably, the information acquisition personnel is judged whether to work at the appointed working place or not in the working day, namely, the information acquisition personnel is clear at a glance through mobile phone positioning, and the city management capability is favorably improved.

Further, step S3 is specifically implemented as the following steps:

step S3.1: carrying out overall analysis on the gridding crowd according to a gridding standard management platform;

step S3.2: the management platform compares the population data of the mobile phone operator and then carries out integral portrait on the gridded complaint population (through a technical means);

step S3.3: the encrypted mobile phone number of the complaint platform corresponds to the mobile phone number of the mobile phone operator.

Further, step S3.3 is embodied as the following steps:

step S3.3.1: obtaining a complaint platform mobile phone number rule and an encrypted group mobile phone number, and encrypting, comparing and outputting the group mobile phone numbers (such as 10 mobile phone numbers) given by a mobile phone operator by using the encryption rule so as to portray the group (the owners of the group mobile phone numbers);

step S3.3.2: and obtaining the mobile phone number through an interface for sending the short message by the complaint platform.

Preferably, step S4 is embodied as the following step:

step S4.1: the management platform analyzes and judges whether the arrangement of patrol tasks is reasonable or not according to the distribution of information acquisition personnel at each time period;

step S4.2: the management platform evaluates the workload of the information collection personnel (the complaining event data is obtained from the complaining platform, event processing data in a reporting system and a distribution scheduling system are combined, and the workload of the summarizing personnel is counted according to parameters such as event time, occurrence places (longitude and latitude), event types and the like);

step S4.3: the management platform performs information management on information collection personnel (provides functions of adding, editing and deleting of personnel, displays all personnel in a list, and inquires personnel through information such as names, mobile phone numbers, shifts and the like);

step S4.4: the management platform carries out scheduling management on the information acquisition personnel (a plurality of shift names and shift duration can be set by self-definition, and patrol work of the personnel can be flexibly arranged).

Preferably, the method further comprises the step S5: the management platform carries out interface configuration management according to the needs of the user (the needed interface can be selected by self-definition according to the needs of the user, the interfaces of other platforms can be configured for synchronization, the combination of the interfaces is more flexible, and corresponding cost is charged according to the used interfaces and the times of calling the interfaces).

Preferably, the method further comprises the step S6: the management platform carries out mobile phone positioning authorization management (mobile phone number positioning academic name communication operator network side positioning or cell-id positioning, which is a positioning channel provided by three operators) through a mobile phone operator, and the principle is that communication data between a mobile phone and a base station in the mobile process is acquired under a certain authorization mechanism, and the positioning adopts a short message authorization mode;

the mobile phone number positioning API comprises a white list opening API, a white list state inquiring API, a positioning API and a positioning canceling API.

After the interface is called, a short message is sent to a mobile phone number needing to be positioned, the owner replies 'Y' to indicate that the positioning service is approved to be opened, and the mobile phone number is added into an authorized white list).

Preferably, the overall analysis includes a periodic population, a male and female proportion, and an age distribution.

Preferably, the holistic view includes a periodic cell phone number, a male and female rate, an age distribution, an educational level, and a frequent activity area.

The above is to judge whether the staff arrives at the complaint location for checking after receiving the citizen complaint call, and to know the complaint area multi-occurrence area and the complaint crowd ratio (including male and female ratio, age distribution, education degree, etc.) through the positioning and gridding data of the mobile phone operator to the complaint crowd picture.

It should be noted that the technical features of the spatio-temporal platform, the gridding, etc. related to the present patent application should be regarded as the prior art, and the specific structure, the operation principle, the control mode and the spatial arrangement mode of the technical features may be selected conventionally in the field, and should not be regarded as the invention point of the present patent, and the present patent is not further specifically described in detail.

It will be apparent to those skilled in the art that modifications and equivalents may be made in the embodiments and/or portions thereof without departing from the spirit and scope of the present invention.

Claims (8)

1. A method for improving city management capability based on operator signaling data optimizes city management through a management platform, and is characterized by comprising the following steps:

step S1: the management platform acquires data and analyzes the acquired data;

step S1 is specifically implemented as the following steps:

step S1.1: the management platform acquires data of the complaint platform;

step S1.2: the management platform acquires data of the digital city management APP;

step S1.3: the management platform acquires data of a mobile phone operator;

step S2: the management platform acquires the daily work positioning of the information acquisition personnel, draws a work track graph of the information acquisition personnel according to the work positioning and acquires the gridding data of the regional map;

step S2.1: the management platform positions the working mobile phones of the information collection personnel every day through a mobile phone operator and synchronizes every day;

step S2.2: drawing a working track graph of the information acquisition personnel according to the positioning of the working mobile phone and spot-checking the working track graph of part of the information acquisition personnel;

step S2.3: comparing the daily working trajectory diagrams of the information acquisition personnel, processing and analyzing the daily working trajectory diagrams and outputting diagram data;

step S2.4: the management platform sends the working trajectory diagram of the information acquisition personnel to the space-time platform according to the established interface standard and acquires gridding data of the regional map;

and step S3: counting the gridded crowd in the multiple-sending area according to the gridded data management platform and portraying the complaining crowd;

and step S4: the management platform carries out statistical analysis on patrol areas of the information acquisition personnel and manages the information acquisition personnel.

2. The method for improving city management capability based on operator signaling data according to claim 1, wherein the step S3 is implemented as the following steps:

step S3.1: carrying out overall analysis on the gridding crowd according to a gridding standard management platform;

step S3.2: the management platform compares population data of mobile phone operators and then carries out integral portrait on gridded complaint people;

step S3.3: the encrypted mobile phone number of the complaint platform corresponds to the mobile phone number of the mobile phone operator.

3. The method for improving city management capability based on operator signaling data according to claim 2, wherein step S3.3 is implemented as the following steps:

step S3.3.1: obtaining a complaint platform mobile phone number rule and an encrypted group mobile phone number, and encrypting, comparing and outputting the group mobile phone number given by a mobile phone operator by using an encryption rule so as to portray the group;

step S3.3.2: and obtaining the mobile phone number through an interface for sending the short message by the complaint platform.

4. The method for improving city management capability based on operator signaling data according to claim 1, wherein the step S4 is implemented as the following steps:

step S4.1: the management platform analyzes and judges whether the arrangement of patrol tasks is reasonable or not according to the distribution of information acquisition personnel at each time period;

step S4.2: the management platform evaluates the workload of the information acquisition personnel;

step S4.3: the management platform performs information management on the information acquisition personnel;

step S4.4: and the management platform carries out scheduling management on the information acquisition personnel.

5. The method for improving city management capability based on operator signaling data according to claim 1, further comprising step S5: and the management platform performs interface configuration management according to the user requirement.

6. The method for improving city management capability based on operator signaling data according to claim 1, further comprising step S6: the management platform carries out mobile phone positioning authorization management through a mobile phone operator.

7. The method of claim 4, wherein the overall analysis comprises periodic population, male and female proportion and age distribution.

8. The method of claim 4, wherein the overall picture comprises periodic cell phone numbers, male and female proportions, age distribution, education level, and frequent activity area.