CN112217995A - Geographic information active acquisition method and system based on 5G base station - Google Patents

Abstract

The invention relates to a geographic information active acquisition method and a system based on a 5G base station, wherein the system comprises the following steps: the system comprises a plurality of 5G small base stations arranged at a specific geographic position, wherein each 5G small base station is provided with a remote monitoring camera; the mobile phone APP comprises a map module and a remote monitoring camera module, wherein the map module is used for managing and displaying the remote monitoring camera; and the mobile phone is used for selecting a certain remote monitoring camera through the map module, and receiving and viewing the geographic information sent by the remote monitoring camera. The invention provides real-time geographic information of the travel destination by utilizing the monitoring system based on the 5G base station, thereby providing convenience for people to travel.

Description

Geographic information active acquisition method and system based on 5G base station

Technical Field

The invention relates to the technical field of networks and application, in particular to a geographic information active acquisition method and system based on a 5G base station.

Background

With the continuous improvement of living standard and the continuous acceleration of life rhythm of people, the needs of people on the trip across regions are more and more frequent, including tourism, exploration, business trip, allopatric lecture and the like. For convenience of travel, the latest conditions of the destination, including weather conditions, scenery of a target scenic spot, traffic conditions, and the like, need to be known in advance. At present, people generally know the information of the destination by passively receiving the message pushed by the network or searching some historical information through surfing the internet, and the information is not accurate, sometimes even useful information of the destination cannot be obtained, and reliable and convenient information and help cannot be provided for people going out.

Disclosure of Invention

Based on this, it is necessary to provide a method and a system for actively acquiring geographic information based on a 5G base station, and a monitoring system based on the 5G base station is used to provide real-time geographic information of a trip destination, so as to provide convenience for people to trip.

In order to achieve the above purpose, the invention adopts the following technical scheme.

The invention firstly provides a geographic information active acquisition method based on a 5G base station, which comprises the following steps:

configuring a mobile phone APP, wherein the mobile phone APP comprises a map module;

acquiring a 5G small base station near the position or at a specific geographic position according to the position of the mobile phone, and displaying the 5G small base station on the map module, wherein the 5G small base station is configured with a remote monitoring camera;

calling a corresponding remote monitoring camera according to the 5G small base station selected by the user;

acquiring geographic information of the position by using the remote monitoring camera;

and sending the geographic information to the mobile phone through the mobile phone APP.

In the above method, the step of acquiring, according to the location of the mobile phone, the 5G small cell site near the location or in a specific geographic location further includes:

binding an MDN code to each 5G small base station, wherein the MDN code corresponds to a certain street name or a landmark building name;

registering the MDN code to the map module to associate the location of the 5G small cell site with a corresponding street or landmark building;

and when the map module points to a certain geographic position, automatically identifying the street name or the landmark building where the position is located, and matching the street name or the landmark building to the corresponding 5G small base station according to the index.

In the above method, the step of calling the corresponding remote monitoring camera according to the 5G small base station selected by the user further includes:

according to the selected 5G small base station, sending an instruction to a remote monitoring camera corresponding to the 5G small base station through the mobile phone APP so as to control the remote monitoring camera,

and the remote monitoring camera is in signal connection with the selected 5G small base station through a 5G network.

In the above method, the step of acquiring the geographic information of the location by using the remote monitoring camera includes:

and operating the remote monitoring camera to shoot the geographic information of the position in the form of pictures or videos.

In the above method, the step of sending the geographic information to the mobile phone through the mobile phone APP specifically includes:

the remote monitoring camera is accessed to a 5G network through a corresponding 5G small base station;

uploading the geographic information to the mobile phone APP;

and the mobile phone receives and views the geographic information through the mobile phone APP.

In the method, the geographic information includes real-time weather, real-time street view and/or real-time road conditions of the current position.

The invention also provides a geographic information active acquisition system based on the 5G base station, which comprises the following steps:

the system comprises a plurality of 5G small base stations arranged at a specific geographic position, wherein each 5G small base station is provided with a remote monitoring camera;

the mobile phone APP comprises a map module and a remote monitoring camera module, wherein the map module is used for managing and displaying the remote monitoring camera;

and the mobile phone is used for selecting a certain remote monitoring camera through the map module, and receiving and viewing the geographic information sent by the remote monitoring camera.

In the system, each 5G small base station is bound with an MDN code, and the MDN code corresponds to a certain street name or a landmark building name;

and when the map module points to a certain geographic position, automatically identifying the street name or the landmark building where the position is located, and matching the street name or the landmark building to the corresponding 5G small base station according to the index.

In the above system, the mobile phone is configured to:

selecting a required 5G small base station, and sending an instruction to a remote monitoring camera corresponding to the 5G small base station through the mobile phone APP;

controlling the remote monitoring camera to enable the remote monitoring camera to shoot geographic information of the position in a picture or video mode;

receiving geographic information sent by the remote monitoring camera through the mobile phone APP,

the geographic information comprises real-time weather, real-time street view and/or real-time road conditions of the current position.

In the system, the mobile phone APP further comprises a user management module, the user management module performs unified management and authorization on registered mobile phone users, and positions the current user through the map module so as to push a remote monitoring camera near the current user for the user to call.

The invention has the following advantages:

1. the problem of network blind areas of destinations can be solved simultaneously by arranging the 5G small base station configured with the remote monitoring camera, so that a user can connect and control the remote monitoring camera through a mobile phone APP to obtain required geographic information;

2. a user only needs to log in the mobile phone APP through the mobile phone and select the remote monitoring camera of the destination, so that the real-time weather, real-time street view and/or real-time road condition of the destination can be actively acquired through the remote monitoring camera, and reliable and convenient travel help is provided for the user;

3. the user can be registered and managed through the mobile phone APP, the mobile phone user can be authorized and managed through a payment mechanism, and a convenient user management platform is provided for operators.

Drawings

Fig. 1 is a schematic flowchart of a method for actively acquiring geographic information based on a 5G base station in this embodiment;

fig. 2 is a schematic layout diagram of a 5G small base station in the first embodiment;

fig. 3 is a schematic view of a selection interface of a mobile phone APP in the first embodiment;

fig. 4 is a schematic block structure diagram of a geographic information active acquisition system based on a 5G base station in the second embodiment.

The implementation of the objects of the present invention and their functions and principles will be further explained in the detailed description with reference to the attached drawings.

Detailed Description

The following further description is made with reference to the drawings and specific embodiments.

The first embodiment is as follows:

as shown in fig. 1, the present embodiment provides a method for actively acquiring geographic information based on a 5G base station, which mainly includes the following steps:

s1: configuring a mobile phone APP, wherein the mobile phone APP comprises a map module;

s2: according to the position of the mobile phone, acquiring a 5G small base station near the position or at a specific geographic position, and displaying the small base station on the map module;

s3: calling a corresponding remote monitoring camera according to the 5G small base station selected by the user;

s4: acquiring geographic information of the position by using the remote monitoring camera;

s5: and sending the geographic information to the mobile phone through the mobile phone APP.

Before step S1, it is necessary to arrange several 5G small base stations in a specific geographical location in advance, each 5G small base station is configured with a remote monitoring camera, and the remote monitoring camera can be connected to the 5G network through the 5G small base station.

As shown in fig. 2, one or more 5G small base stations can be set at some intersections, and when the position of the 5G small base station is marked, an MDN code can be allocated to the 5G small base station, where the MDN code represents a street or a landmark building where the 5G small base station is located, so that positioning by using a GPS module can be avoided, and the purposes of saving cost and avoiding maintenance are achieved.

Therefore, in step S2, the step of acquiring the 5G small cell site near the location or in the specific geographic location according to the location of the mobile phone further includes:

binding an MDN code to each 5G small base station, wherein the MDN code corresponds to a certain street name or a landmark building name;

registering the MDN code to the map module to associate the location of the 5G small cell site with a corresponding street or landmark building;

and when the map module points to a certain geographic position, automatically identifying the street name or the landmark building where the position is located, and matching the street name or the landmark building to the corresponding 5G small base station according to the index.

Specifically, as shown in fig. 3, after the mobile phone APP locates the current position of the mobile phone, a nearby 5G small base station is automatically searched, and since the 5G small base station is correspondingly provided with one remote monitoring camera, all nearby remote monitoring cameras can be matched and displayed on a map. The user only needs to select a specific position, and the 5G small base station (or the remote monitoring camera) at the position can be selected.

Then, the next step S3 is executed, which further includes:

and sending an instruction to a remote monitoring camera corresponding to the 5G small base station through the mobile phone APP according to the selected 5G small base station so as to control the remote monitoring camera.

In this embodiment, the step S4 of acquiring the geographic information of the location by using the remote monitoring camera further includes:

and operating the remote monitoring camera to shoot the geographic information of the position in the form of pictures or videos.

Then, the geographic information is sent to the mobile phone through a mobile phone APP, and the specific steps include:

after the remote monitoring camera accesses the 5G network through the corresponding 5G small base station, the geographic information is uploaded to the mobile phone APP, the mobile phone receives and observes the geographic information through the mobile phone APP, and the geographic information comprises the real-time weather, the real-time street view and/or the real-time road condition of the current position.

Thus, the embodiment can provide real-time geographic information of the travel destination by using the monitoring system based on the 5G base station, thereby providing convenience for people's travel.

Example two:

as shown in fig. 4, the present embodiment further provides a geographic information active acquisition system 100 based on a 5G base station, which includes:

the system comprises a plurality of 5G small base stations 10 arranged at specific geographic positions, wherein each 5G small base station 10 is provided with a remote monitoring camera.

The mobile phone APP 20 comprises a map module 21 for managing and displaying the remote monitoring camera.

And the mobile phone 30 is used for selecting a certain remote monitoring camera through the map module 21, and receiving and viewing the geographic information sent by the remote monitoring camera.

The geographic information comprises real-time weather, real-time street view, real-time road conditions and the like of the current position.

In order to mark the 5G small base stations 10 with the positions, each 5G small base station 10 is bound with an MDN code, which corresponds to a street name or a landmark building name, and each 5G small base station 10 is assigned with a unique ID code.

When a user points to a certain geographical position through the map module 21, the street name or the landmark building where the position is located is automatically identified, and the corresponding 5G small base station 10 or the remote monitoring camera is matched according to the index.

In actual operation, the mobile phone is mainly used for:

firstly, a required 5G small base station 10 is selected, and an instruction is sent to a remote monitoring camera corresponding to the 5G small base station 10 through a mobile phone APP 20. It can be understood that, while the 5G small cell site 10 is selected, the present embodiment may also implement sending an instruction to the remote monitoring camera corresponding to the 5G small cell site 10, which is technically feasible.

And secondly, controlling the remote monitoring camera to enable the remote monitoring camera to shoot the geographic information of the position in a picture or video mode. That is, the user can control the remote monitoring camera to take a picture or make a video so as to obtain geographic information in the form of a picture or a video, for example, for information such as weather and scenery, the user can know real-time weather and street view of the position through the picture, and for real-time traffic road conditions, the user can know the geographical information more accurately and intuitively through the video.

And thirdly, receiving the geographic information sent by the remote monitoring camera through the mobile phone APP. The remote monitoring camera uploads the picture or the video to the server of the mobile phone APP 20 through the 5G network, and the server pushes the corresponding user according to the operation condition of the client, so that the user can receive and view the geographic information.

The mobile phone APP 20 of this embodiment further includes a user management module 22, where the user management module 22 is configured to perform unified management and authorization on a plurality of registered mobile phone users, and locate the current user through the map module 21, so as to preferentially push a remote monitoring camera near the current user for the user to call. Therefore, the active geographic information acquiring system 100 based on the 5G base station in this embodiment can provide charging services to the user through the management platform of the member registration system, which is not only convenient for the user, but also brings benefits to the service provider.

In summary, the invention has the following advantages:

1. the problem of network blind areas of destinations can be solved simultaneously by arranging the 5G small base station configured with the remote monitoring camera, so that a user can connect and control the remote monitoring camera through a mobile phone APP to obtain required geographic information;

2. a user only needs to log in the mobile phone APP through the mobile phone and select the remote monitoring camera of the destination, so that the real-time weather, real-time street view and/or real-time road condition of the destination can be actively acquired through the remote monitoring camera, and reliable and convenient travel help is provided for the user;

3. the user can be registered and managed through the mobile phone APP, the mobile phone user can be authorized and managed through a payment mechanism, and a convenient user management platform is provided for operators.

The technical features of the embodiments described above may be arbitrarily combined, and for the sake of brevity, all possible combinations of the technical features in the embodiments described above are not described, but should be considered as being within the scope of the present specification as long as there is no contradiction between the combinations of the technical features.

The above-mentioned embodiments only express several embodiments of the present invention, and the description thereof is more specific and detailed, but not construed as limiting the scope of the present invention. It should be noted that, for a person skilled in the art, several variations and modifications can be made without departing from the inventive concept, which falls within the scope of the present invention.

Claims (10)

1. A geographic information active acquisition method based on a 5G base station is characterized by comprising the following steps:

configuring a mobile phone APP, wherein the mobile phone APP comprises a map module;

acquiring a 5G small base station near the position or at a specific geographic position according to the position of the mobile phone, and displaying the 5G small base station on the map module, wherein the 5G small base station is configured with a remote monitoring camera;

calling a corresponding remote monitoring camera according to the 5G small base station selected by the user;

acquiring geographic information of the position by using the remote monitoring camera;

and sending the geographic information to the mobile phone through the mobile phone APP.

2. The method of claim 1, wherein: the step of acquiring the 5G small cell site near the location or in a specific geographical location according to the location of the mobile phone further includes:

binding an MDN code to each 5G small base station, wherein the MDN code corresponds to a certain street name or a landmark building name;

registering the MDN code to the map module to associate the location of the 5G small cell site with a corresponding street or landmark building;

and when the map module points to a certain geographic position, automatically identifying the street name or the landmark building where the position is located, and matching the street name or the landmark building to the corresponding 5G small base station according to the index.

3. The method of claim 1, wherein: the step of calling the corresponding remote monitoring camera according to the 5G small base station selected by the user further comprises the following steps:

according to the selected 5G small base station, sending an instruction to a remote monitoring camera corresponding to the 5G small base station through the mobile phone APP so as to control the remote monitoring camera,

and the remote monitoring camera is in signal connection with the selected 5G small base station through a 5G network.

4. The method of claim 3, wherein: the step of acquiring the geographic information of the position by using the remote monitoring camera comprises the following steps:

and operating the remote monitoring camera to shoot the geographic information of the position in the form of pictures or videos.

5. The method of claim 4, wherein: the step of sending the geographic information to the mobile phone through the mobile phone APP specifically includes:

the remote monitoring camera is accessed to a 5G network through a corresponding 5G small base station;

uploading the geographic information to the mobile phone APP;

and the mobile phone receives and views the geographic information through the mobile phone APP.

6. The method of any one of claims 1 to 5, wherein: the geographic information includes real-time weather, real-time street view and/or real-time road conditions of the current location.

7. A geographic information active acquisition system based on a 5G base station is characterized by comprising:

the system comprises a plurality of 5G small base stations arranged at a specific geographic position, wherein each 5G small base station is provided with a remote monitoring camera;

the mobile phone APP comprises a map module and a remote monitoring camera module, wherein the map module is used for managing and displaying the remote monitoring camera;

and the mobile phone is used for selecting a certain remote monitoring camera through the map module, and receiving and viewing the geographic information sent by the remote monitoring camera.

8. The system of claim 7, wherein: binding an MDN code to each 5G small base station, wherein the MDN code corresponds to a certain street name or a landmark building name;

and when the map module points to a certain geographic position, automatically identifying the street name or the landmark building where the position is located, and matching the street name or the landmark building to the corresponding 5G small base station according to the index.

9. The system of claim 8, wherein the handset is to:

selecting a required 5G small base station, and sending an instruction to a remote monitoring camera corresponding to the 5G small base station through the mobile phone APP;

controlling the remote monitoring camera to enable the remote monitoring camera to shoot geographic information of the position in a picture or video mode;

receiving geographic information sent by the remote monitoring camera through the mobile phone APP,

the geographic information comprises real-time weather, real-time street view and/or real-time road conditions of the current position.

10. The system of claim 7, wherein the mobile phone APP further comprises a user management module, and the user management module performs unified management and authorization on registered mobile phone users and locates the current user through the map module to push a remote monitoring camera near the current user for the user to call.

Images