CN104677362B - Interaction method of track route data independent of digital map - Google Patents

Abstract

The invention discloses an interaction method of track route data independent of a digital map, which comprises a track data packet storage mechanism and a track data packet reading mechanism, wherein the track data packet storage mechanism realizes that a user mobile device records longitude and latitude and a moving track route of a geographic position, records multimedia information of an interest point of a corresponding user at any geographic position and is received by other user mobile devices; the track data packet reading mechanism realizes that the mobile equipment of the user receives data of other users or the mobile equipment of the user, displays the route track and iconized display of multimedia information and interest points on a map, and can click and expand the content of the multimedia information. According to the interaction method of the track route data independent of the digital map, after the data packet is generated and imported, a user can see the whole route and the icons displayed by the multimedia information on the route and selectively interact with the whole route and the icons, so that the user experience that the content is visual and visible and the user experience can be obtained instantly is realized.

Description

Interaction method of track route data independent of digital map

Technical Field

The invention relates to the technical field of location-based services, in particular to a method for sharing and tracking location information records of a mobile phone map.

Background

The mobile phone map refers to a location service and an application related to a user location, which are used for map browsing, rapid positioning, location searching, route planning and the like through a mobile terminal such as a mobile phone and the like by using WAP or application software. With the wide popularization of smart phones, the permeability of mobile phone maps will continuously rise, and the mobile phone maps are closely related to the travel life of people.

By using satellite positioning, a mobile phone map service provider can track the motion trail of a user and store the motion trail of the user. However, the current technology only stores a single track route for navigation, or records and shares multimedia information such as pictures and videos with position information at a certain position point, and is mainly used for social contact. With the development of the mobile internet, the mobile phone map becomes an entrance of the mobile internet social relationship, the current mobile phone map cannot track the motion trail of the user and simultaneously track the user to record the shared position information, and in this respect, the user experience of the mobile phone map needs to be improved. The movement track of the existing map and information sharing software is separated from the data storage form of the shared information, so that the existing map and information sharing software cannot be guaranteed to be stored or shared at the same time, and the user can interactively display the concerned multimedia information.

Disclosure of Invention

The present invention is directed to solve the above problems in the prior art, and an object of the present invention is to provide a method for storing a data packet of multimedia information having location information and a location trajectory route independent of a map, and a method for interacting a user with the data packet.

In order to achieve the purpose of the invention, the invention is realized by the following technical scheme:

an interaction method of track route data independent of a digital map is applied to a mobile device which is provided with a satellite positioning system, a multimedia recording module and a storage module comprising a route storage unit, an interest point storage unit and a multimedia storage unit, and comprises a track data packet storage mechanism and a track data packet reading mechanism, wherein the track data packet storage mechanism comprises the following steps:

step S11, the user mobile device starts track recording, the satellite positioning system of the mobile device is used for recording the longitude and latitude and the moving track route of the geographic position, and the multimedia recording function of the mobile device is used for recording the multimedia information of the geographic position corresponding to the user at any geographic position;

step S12, the user mobile equipment stores the moving track route generated in the step S11 in a route storage unit, generates a geographic position with multimedia information as an interest point, stores the longitude and latitude of the interest point in the interest point storage unit, and stores the multimedia information in a multimedia storage unit;

step S13, the user mobile device packages the moving track route, the longitude and latitude of the interest point and the multimedia information into a data packet for other user mobile devices to receive;

the track data packet reading mechanism comprises the following steps:

step S21, the user mobile device receives the movement track route, longitude and latitude and multimedia information of other user mobile devices, and respectively imports the movement track route, longitude and latitude and multimedia information into a route storage unit, an interest point storage unit and a multimedia storage unit;

step S22, the mobile device of the user extracts the longitude and latitude of each geographic position in the route storage unit of the step S12 or the step S21 and matches the longitude and latitude of the geographic position on the map, and after the matching is successful, the track route is displayed on the map in a two-dimensional mode;

step S23, after the matching of the moving track route is successful, the mobile device of the user extracts the longitude and latitude of each interest point stored in the interest point storage unit, and inserts the interest point into the track route and displays the interest point on the map;

and step S24, after the interest point is successfully inserted, the user mobile device extracts the multimedia information of the multimedia storage unit, inserts the multimedia information into the corresponding interest point and displays the multimedia information on the map, thereby completing the importing of the data packet.

The multimedia recording function of step S11 acquires the geographic location latitude and longitude and the time point while recording the multimedia information, and marks the time point with the multimedia information, thereby synchronously matching the geographic location latitude and longitude.

The interest points in the step S23 and the multimedia information in the step S24 are displayed as icons, and the icons can be clicked by a user to show specific geographic positions and multimedia information contents.

The method comprises the steps of acquiring a track route by using a satellite positioning system, implanting multimedia information such as texts, pictures and videos into position points on the route, storing the track route and the multimedia information into a data packet independent of an electronic map, storing the data into a server without sending the data to the mobile device, sharing the data with the mobile device in an off-line mode, and sending and sharing the data to other mobile devices, wherein the track route and the multimedia information with the position point information can be read by the other mobile devices after the data packet is received by the other mobile devices.

The satellite positioning system is either a global positioning system GPS, a Beidou system, a Galileo system or a Glonass system. Therefore, the device is suitable for the longitude and latitude of the geographic position of the acquisition equipment of the positioning systems of different countries or regions.

The multimedia recording function comprises text recording, sound recording, photographing and camera shooting, and the multimedia information comprises a text, an audio file, an image file and a video file. These multimedia recording functions and information can be used for self-service travel, for example, user a drives the vehicle from guangzhou to Guilin, a can save the entire driving route, and multimedia information such as the scenic introductions or cautions published when passing the Shaoguang Danxia mountain location. The stored data packet can be used for various purposes such as business and the like. And after the user B obtains the data packet shared by the user A, the travel information and recommendation of the user A can be completely copied. For more conservative drivers to go to strange places, multimedia information is more reliable than pure navigation.

And the moving track route, the longitude and latitude and the multimedia information are stored and imported into the map in a database file format or an XML data format. The data can be compatible with the existing map, namely, an off-line map packet is downloaded in advance on the map, and a user can still be assisted in navigating and browsing the route track and the multimedia information under the condition of no network. The storage and reading mode of the data packet has the advantages that the data packet is independent of a platform, can be imported into any existing map, does not need a network and a server, and only needs a satellite positioning system.

Drawings

Fig. 1 is a block diagram of an apparatus of a user mobile device.

Fig. 2 is a flowchart illustrating the steps of the method for interacting track route data independent of a digital map according to the present invention.

Fig. 3 is a map effect display diagram of the interaction method of trajectory route data independent of a digital map according to the present invention.

Detailed Description

The technical solutions in the embodiments of the present invention are clearly and completely described below with reference to the drawings and the embodiments, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments.

Referring to fig. 1 to 3, fig. 1 is a device structure diagram of a user mobile device, fig. 2 is a flowchart of a method for interacting track route data independent of a digital map according to the present invention, and fig. 3 is a map effect display diagram of an embodiment of the method for interacting track route data independent of a digital map.

The invention relates to an interaction method of track route data independent of a digital map, which is applied to a mobile device provided with a satellite positioning system 11, a multimedia recording module 12 and a storage module 17 comprising a route storage unit 13, an interest point storage unit 14 and a multimedia storage unit 15.

The satellite positioning system 11 of the mobile device is connected with the route storage unit 13 and the interest point storage unit 14, and the multimedia recording module 12 is connected with the multimedia storage unit 15;

the route storage unit 13, the interest point storage unit 14 and the multimedia storage unit 15 are further connected with a map display module 16, the map display module 16 extracts a moving track route 21 of the route storage unit 14, an interest point 22 of the interest point storage unit 14 and multimedia information 23 of the multimedia storage unit 15, meanwhile, the map display module 16 matches the interest point 22 with the moving track route 21 according to longitude and latitude, and matches the multimedia information 23 with the interest point 22 according to a generation time sequence.

The present invention includes a track packet storage mechanism and a track packet reading mechanism,

the track data packet storage mechanism comprises the following steps:

step S11, the user mobile device starts track recording, the satellite positioning system 11 of the mobile device is used for recording the longitude and latitude of the geographic position and the moving track route 21, and the multimedia recording module 12 of the mobile device is used for recording the multimedia information 23 corresponding to the geographic position of the user at any geographic position;

step S12, the user mobile device stores the movement track route 21 generated in step S11 in a route storage unit, generates a geographic position with multimedia information 23 as an interest point 22, stores the longitude and latitude of the interest point 22 in an interest point storage unit 14, and stores the multimedia information 23 in a multimedia storage unit 15;

step S13, the user mobile device packages the moving track route 21, the longitude and latitude of the interest point 22 and the multimedia information 23 into data packets respectively for other user mobile devices to receive;

the track data packet reading mechanism comprises the following steps:

step S21, the user mobile device receives the movement track route 21, the longitude and latitude of the interest point 22 and the multimedia information 23 of other user mobile devices, and respectively imports the movement track route, the longitude and latitude of the interest point 22 and the multimedia information into the route storage unit 13, the interest point storage unit 14 and the multimedia storage unit 15;

step S22, the user mobile device extracts and matches the longitude and latitude of each geographic location in the route storage unit 13 of step S12 or step S21 with the longitude and latitude of the geographic location on the map, and after the matching is successful, displays the movement trajectory route 21 on the map in a two-dimensional form;

step S23, after the matching of the movement track route 21 is successful, the mobile device of the user extracts the longitude and latitude of each point of interest 22 stored in the point of interest storage unit 14, and inserts the point of interest 22 into the movement track route 21 and displays the point of interest 22 on the map;

step S24, after the point of interest 22 is successfully inserted, the mobile device extracts the multimedia information 23 in the multimedia storage unit 15, and inserts the multimedia information into the corresponding point of interest 22 and displays the multimedia information on the map, thereby completing the importing of the data package.

The multimedia recording function of step S11 acquires the geographic location latitude and longitude and the time point while recording the multimedia information, and marks the time point with the multimedia information, thereby synchronously matching the geographic location latitude and longitude.

The interest points 22 in the step S23 and the multimedia information 23 in the step S24 are displayed as icons, and the icons can be clicked by the user to show specific geographic positions and multimedia information contents.

When the multimedia information 23 is generated, the multimedia information is synchronized with the longitude and latitude acquired by the mobile positioning system according to time and then is stored in a multimedia storage unit,

the satellite positioning system is either a global positioning system GPS, a Beidou system, a Galileo system or a Glonass system.

The multimedia recording function comprises text recording, sound recording, photographing and shooting, and the multimedia information 3 comprises a text, an audio file, an image file and a video file.

The moving track route 21, the longitude and latitude of the interest point 22 and the multimedia information 23 are stored and imported into various maps in a database file format or an XML data format.

According to the invention, a satellite positioning system is used for obtaining a moving track route, multimedia information such as texts, pictures, videos and the like is implanted into a certain geographic position on the route, then the moving track route and the multimedia information are stored into a data packet independent of an electronic map, the data does not need to be sent to a server, can be stored in the mobile equipment in an off-line mode, and can be sent and shared to other mobile equipment, and after the other mobile equipment receives the data packet, the track route and the multimedia information with position point information can be read.

The storage mode of the data packet has the advantages that the data packet is independent of a platform, can be imported into any existing map, does not need a network and a server, and only needs a satellite positioning system. The interaction mode of the user and the data packet is very convenient, after the data packet is imported, the user can see the whole route and the icons displayed by the multimedia information on the route and selectively interact with the route, and the user experience that the content is visual and visible and the user can obtain the content at once is realized.

The above embodiments are only used to illustrate the present invention and not to limit the technical solutions described in the present invention; thus, while the present invention has been described in detail with reference to the foregoing embodiments, it will be understood by those skilled in the art that various changes may be made and equivalents may be substituted; all such modifications and variations are intended to be included herein within the scope of this disclosure and the present invention and protected by the following claims.

Claims (4)

1. An interactive method of trajectory route data independent of digital map is applied to a mobile device having a satellite positioning system, a multimedia recording module and a storage module including a route storage unit, an interest point storage unit and a multimedia storage unit, characterized in that: including a track packet storage mechanism and a track packet reading mechanism,

the track data packet storage mechanism comprises the following steps:

step S11, the user mobile device starts track recording, a satellite positioning system of the mobile device is used for recording longitude and latitude and a moving track route of the geographic position, a multimedia recording function of the mobile device is used for recording multimedia information corresponding to the geographic position of the user at any geographic position, the multimedia recording function acquires the longitude and latitude and a time point of the geographic position while recording the multimedia information, and the multimedia information is marked by the time point, so that the longitude and latitude of the geographic position are synchronously matched;

step S12, the user mobile equipment stores the moving track route generated in the step S11 in a route storage unit, generates a geographic position with multimedia information as an interest point, stores the longitude and latitude of the interest point in the interest point storage unit, and stores the multimedia information in a multimedia storage unit;

step S13, the user mobile device packages the moving track route, the longitude and latitude of the interest point and the multimedia information into a data packet for other user mobile devices to receive;

the track data packet reading mechanism comprises the following steps:

step S21, the user mobile device receives the movement track routes, the longitude and latitude of the interest points and the multimedia information of other user mobile devices, and respectively leads the information into a route storage unit, an interest point storage unit and a multimedia storage unit;

step S22, the user mobile device extracts the longitude and latitude of each geographic position in the route storage unit and matches the longitude and latitude of the geographic position on the map, and after the matching is successful, the mobile track route is displayed on the map in a two-dimensional form;

step S23, after the matching of the moving track route is successful, the mobile device of the user extracts the longitude and latitude of each interest point stored in the interest point storage unit, and inserts the interest point into the moving track route and displays the interest point on the map;

the method comprises the steps that a satellite positioning system is utilized to obtain a moving track route, text, pictures and video multimedia information are implanted into position points on the route, then the moving track route and the multimedia information are stored into a data packet independent of an electronic map, the data do not need to be sent to a server, can be stored in a mobile device in an off-line mode, can be sent to and shared with other mobile devices, and after the other mobile devices receive the data packet, the moving track route and the multimedia information with the position point information can be read;

step S24, after the interest point is successfully inserted, the user mobile device extracts the multimedia information of the multimedia storage unit, inserts the multimedia information into the corresponding interest point and displays the multimedia information on the map, thereby completing the import of the data packet;

and the moving track route, the latitude and longitude of the interest point and the multimedia information are stored and imported into various maps in a database file format or an XML data format.

2. The method as claimed in claim 1, wherein the points of interest of step S23 and the multimedia information of step S24 are displayed as icons, and the icons are used for displaying the specific geographical position and multimedia information content after being clicked by the user.

3. The method of interacting trajectory route data independent of a digital map according to claim 1, wherein the satellite positioning system is either a global positioning system GPS, or a beidou system, or a galileo system, or a glonass system.

4. The interactive method for trajectory route data independent of digital map as claimed in claim 1, wherein said multimedia recording function comprises text recording, sound recording, photographing and video shooting, and said multimedia information comprises text, audio file, image file and video file.

Images