CN108204817B - Navigation route processing method and device - Google Patents

Abstract

The invention relates to a navigation route processing method and device. The method comprises the following steps: acquiring a navigation request, and generating a navigation route according to a starting point and an end point in the navigation request; and obtaining attribute data of induction points in the navigation route, comparing the attribute data of the induction points in the navigation route with attribute data of the induction points in an induction point library on a server, and if the attribute data of the induction points in the navigation route is the same as the attribute data of the induction points in the induction point library and the induction data corresponding to the attribute data of the induction points in the navigation route is different from the induction data corresponding to the attribute data of the induction points in the induction point library on the server, correcting the navigation route by adopting the induction data corresponding to the attribute data of the induction points in the induction point library to obtain a corrected navigation route so as to navigate according to the corrected navigation route. The wrong guidance information is automatically corrected, and the navigation is carried out according to the corrected navigation route, so that the misguidance of the route is avoided.

Description

Navigation route processing method and device

Technical Field

The invention relates to the field of navigation data processing, in particular to a navigation route processing method and device.

Background

People often need to travel to various places as social activities become more frequent. However, it is not clear how to get to the desired place, and for this reason, various navigation applications have been created to assist the user in planning a route, i.e., a navigation route. The navigation route is a series of end-to-end road segment combinations starting from a starting point to a terminal point and containing shape and guidance information. The guidance information is a set of information of a navigation mode which prompts the user by using representation modes such as voice, images, icons and the like so that the user can correctly reach the destination along the navigation route.

The traditional induction production completely depends on road network data, however, the road network data has hysteresis, and the modification and update period of the road network data is long, so that the wrong induction information is produced, and route misguidance is generated.

Disclosure of Invention

Therefore, it is necessary to provide a navigation route processing method and apparatus for solving the problem of route misleading that is easily generated in the conventional guidance process, so as to automatically correct the wrong guidance information and avoid route misleading.

A navigation route processing method, comprising:

acquiring a navigation request, and generating a navigation route according to a starting point and an end point in the navigation request;

acquiring attribute data of induction points in the navigation route, and comparing the attribute data of the induction points in the navigation route with the attribute data of the induction points in an induction point library on a server;

if the attribute data of the induction points in the navigation route is the same as the attribute data of the induction points in the induction point library, judging whether the induction data corresponding to the attribute data of the induction points in the navigation route is the same as the induction data corresponding to the attribute data of the induction points in the induction point library on the server, if so, correcting the navigation route by adopting the induction data corresponding to the attribute data of the induction points in the induction point library to obtain a corrected navigation route, and navigating according to the corrected navigation route.

A navigation route processing method, comprising:

receiving version information of a locally stored guidance point library uploaded when a terminal starts a navigation application;

comparing the version information of the induction point library uploaded by the terminal with the version information of the induction point library stored in the server;

if the version information of the induction point database on the server is later than the version information of the induction point database uploaded by the terminal, sending the latest induction point database on the server to the terminal for storage so that the terminal generates a navigation route according to a starting point and a destination in a navigation request, acquiring induction points in the navigation route, comparing the attribute data of the induction points in the navigation route with the attribute data of the induction points in the induction point database stored locally, if the attribute data of the induction points in the navigation route is the same as the attribute data of the induction points in the induction point database, judging whether the induction data corresponding to the attribute data of the induction points in the navigation route is the same as the induction data corresponding to the attribute data of the induction points in the induction point database on the server, if not, correcting the navigation route by adopting the induction data corresponding to the attribute data of the induction points in the induction point database to obtain a corrected navigation route, and navigating according to the corrected navigation route.

A navigation route processing method, comprising:

receiving induction point attribute data in a navigation route generated by a terminal according to a starting point and an end point in the navigation request;

comparing the attribute data of the induction points in the navigation route with the attribute data of the induction points in an induction point library on a server, and if the attribute data of the induction points in the navigation route is the same as the attribute data of the induction points in the induction point library, judging whether the induction data corresponding to the attribute data of the induction points in the navigation route is the same as the induction data corresponding to the attribute data of the induction points in the induction point library on the server;

and if the guidance data corresponding to the guidance point attribute data in the navigation route is different from the guidance data corresponding to the guidance point attribute data in the guidance point database on the server, sending the guidance data corresponding to the guidance point attribute data which is the same as the guidance point attribute data in the navigation route in the guidance point database to the terminal, so that the terminal corrects the navigation route according to the guidance data in the guidance point database to obtain the corrected navigation route. A navigation route processing apparatus comprising:

the route generation module is used for acquiring a navigation request and generating a navigation route according to a starting point and an end point in the navigation request;

the comparison module is used for acquiring attribute data of the induction points in the navigation route and comparing the attribute data of the induction points in the navigation route with the induction points in an induction point library on the server, wherein the induction point library records the attribute data of the induction points and corresponding updated induction data, and if the attribute data of the induction points in the navigation route is the same as the attribute data of the induction points in the induction point library, whether the induction data corresponding to the attribute data of the induction points in the navigation route is the same as the induction data corresponding to the attribute data of the induction points in the induction point library on the server is judged;

and the correction module is used for correcting the navigation route by adopting the induction data corresponding to the induction point attribute data in the induction point library to obtain a corrected navigation route so as to carry out navigation according to the corrected navigation route if the induction data corresponding to the induction point attribute data in the navigation route is different from the induction data corresponding to the induction point attribute data in the induction point library on the server.

A navigation route processing apparatus comprising:

the receiving module is used for receiving the version information of the locally stored guidance point library uploaded when the terminal starts the navigation application;

the comparison module is used for comparing the version information of the induction point library uploaded by the terminal with the version information of the induction point library stored in the server;

a sending module, configured to send the latest guidance point library on the server to the terminal for storage if the version information of the guidance point library on the server is later than the version information of the guidance point library uploaded by the terminal, so that the terminal generates a navigation route according to a start point and an end point in a navigation request, acquires guidance point attribute data in the navigation route, compares the guidance point attribute data in the navigation route with locally stored guidance point attribute data in the guidance point library, and if the guidance point attribute data in the navigation route is the same as the guidance point attribute data in the guidance point library, determines whether guidance data corresponding to the guidance point attribute data in the navigation route is the same as guidance data corresponding to the guidance point attribute data in the guidance point library on the server, and corrects the navigation route by using the guidance data corresponding to the guidance point attribute data in the guidance point library to obtain a corrected navigation route And navigating according to the corrected navigation route.

A navigation route processing apparatus comprising:

the receiving module is used for receiving the attribute data of the induction points in the navigation route generated by the terminal according to the starting point and the end point in the navigation request;

the comparison module is used for comparing the attribute data of the induction points in the navigation route with the attribute data of the induction points in an induction point library on the server, and if the attribute data of the induction points in the navigation route is the same as the attribute data of the induction points in the induction point library, judging whether the induction data corresponding to the attribute data of the induction points in the navigation route is the same as the induction data corresponding to the attribute data of the induction points in the induction point library on the server;

and the sending module is used for sending the guidance data corresponding to the guidance point attribute data which is the same as the guidance point attribute data in the navigation route in the guidance point library to the terminal if the guidance data corresponding to the guidance point attribute data in the navigation route is different from the guidance data corresponding to the guidance point attribute data in the guidance point library on the server, so that the terminal corrects the navigation route according to the guidance data in the guidance point library to obtain the corrected navigation route.

According to the navigation route processing method and the navigation route processing device, the navigation route is generated according to the starting point and the end point in the navigation request, the attribute data of the induction points in the navigation route is obtained, the attribute data of the induction points in the navigation route is compared with the attribute data of the induction points in the induction point library on the server, whether the induction data corresponding to the attribute data of the induction points in the navigation route is the same as the induction data corresponding to the attribute data of the induction points on the server is further judged, if the induction data in the induction point library is different from the induction data corresponding to the attribute data of the induction points on the server, the induction data corresponding to the navigation route is corrected by adopting the induction data in the induction point library, the corrected navigation route is obtained, the wrong induction information is automatically corrected, the navigation is carried out according to the corrected.

Drawings

FIG. 1 is a diagram of an exemplary navigation routing process;

fig. 2A is a schematic diagram of an internal structure of a terminal in one embodiment;

FIG. 2B is a diagram illustrating an internal architecture of a server according to an embodiment;

FIG. 3 is a flow diagram of a method of navigation routing processing in one embodiment;

FIG. 4 is a flow chart of a navigation routing process in another embodiment;

FIG. 5 is a flow chart of a navigation routing processing method in another embodiment;

FIG. 6 is a flow chart of a navigation routing processing method in another embodiment;

FIG. 7 is a block diagram showing the structure of a navigation route processing device according to an embodiment;

FIG. 8 is a block diagram showing the construction of a navigation route processing apparatus according to another embodiment;

FIG. 9 is a block diagram showing the construction of a navigation route processing apparatus according to another embodiment;

fig. 10 is a block diagram showing the structure of a navigation route processing apparatus according to another embodiment.

Detailed Description

In order to make the objects, technical solutions and advantages of the present invention more apparent, the present invention is described in further detail below with reference to the accompanying drawings and embodiments. It should be understood that the specific embodiments described herein are merely illustrative of the invention and are not intended to limit the invention.

FIG. 1 is a diagram illustrating an exemplary application environment of a navigation routing method according to an embodiment. As shown in fig. 1, the application environment includes a terminal 110 and a server 120. The terminal 110 and the server 120 perform data communication through a network. When acquiring that the user starts the navigation application, the terminal 110 acquires version information of the locally stored guidance point library, and uploads the version information to the server 120. The server 120 compares the version information of the guidance point library uploaded by the terminal 110 with the version information of the guidance point library stored in the server, and transmits the guidance point library on the server to the terminal 110 for storage if the version information of the guidance point library on the server is later than the version information of the guidance point library on the terminal. The terminal 110 generates a navigation route according to the navigation request, compares the attribute data of the guidance point in the navigation route with the attribute data of the guidance point in the guidance point library stored locally, determines whether the guidance data corresponding to the attribute data of the guidance point in the navigation route is the same as the guidance data corresponding to the attribute data of the guidance point in the guidance point library on the server, corrects the navigation route from the guidance data corresponding to the attribute data of the guidance point in the guidance point library if the guidance data is different from the guidance data of the guidance point library on the server, obtains the corrected navigation route, and performs navigation according to the corrected navigation route, thereby improving the accuracy of the navigation route and avoiding misleading the route.

The terminal 110 is a device having networking, positioning, data processing, and input-output functions. The terminal 110 may be a smartphone, a tablet, a vehicle-mounted device, a personal digital assistant, a wearable device, or the like. The operating system run by the terminal 110 is not limited in type, and may be IOS, Android, WinCE, QNX (Unix real-time operating system), and the like.

The server 120 may be a single computer or a cluster of multiple computers or the like or a cloud server or the like.

Fig. 2A is a schematic diagram of an internal structure of the terminal in one embodiment. As shown in fig. 2A, the terminal includes a processor, a nonvolatile storage medium, an internal memory, a network interface, a display screen, and an input device, which are connected through a system bus. The terminal comprises a nonvolatile storage medium and a navigation route processing device, wherein the nonvolatile storage medium of the terminal stores an operating system, and the navigation route processing device is used for realizing a navigation route processing method. The processor is used for providing calculation and control capability and supporting the operation of the whole terminal. An internal memory in the terminal provides an environment for operation of the navigation route processing device in the non-volatile storage medium, and the internal memory can store computer readable instructions, and when the computer readable instructions are executed by the processor, the processor can be caused to execute a navigation route processing method. The network interface is used for carrying out network communication with the server, such as sending a data request to the server, receiving the latest induction point library returned by the server and the like. The display screen of the terminal can be a liquid crystal display screen or an electronic ink display screen, and the input device can be a touch layer covered on the display screen, a key, a track ball or a touch pad arranged on a shell of the terminal, or an external keyboard, a touch pad or a mouse. The terminal can be a mobile phone, a tablet computer, a vehicle-mounted device, a personal digital assistant or a wearable device. Those skilled in the art will appreciate that the configuration shown in fig. 2A is a block diagram of only a portion of the configuration relevant to the present application, and does not constitute a limitation on the terminal to which the present application is applied, and a particular terminal may include more or less components than those shown in the drawings, or may combine certain components, or have a different arrangement of components.

Fig. 2B is a schematic diagram of an internal structure of a server (or a cloud, etc.) in one embodiment. As shown in fig. 2B, the server includes a processor, a non-volatile storage medium, an internal memory, and a network interface connected by a system bus. The non-volatile storage medium of the server stores an operating system, a database and a navigation route processing device, the database stores a guidance point library, and the navigation route processing device is used for realizing a navigation route processing method suitable for the server. The processor of the server is used for providing calculation and control capacity and supporting the operation of the whole server. The internal memory of the server provides an environment for the operation of the navigation route processing device in the non-volatile storage medium, and the internal memory can store computer readable instructions which, when executed by the processor, can cause the processor to execute a navigation route processing method. The network interface of the server is used for communicating with an external terminal through a network connection, such as receiving a data request sent by the terminal and returning a guidance point library to the terminal. The server may be implemented as a stand-alone server or as a server cluster consisting of a plurality of servers. Those skilled in the art will appreciate that the architecture shown in fig. 2B is merely a block diagram of some of the structures associated with the present solution and does not constitute a limitation on the servers to which the present solution applies, and that a particular server may include more or less components than those shown, or combine certain components, or have a different arrangement of components.

FIG. 3 is a flow diagram of a method for processing a navigation route in one embodiment. As shown in fig. 3, a navigation route processing method, which is executed on the terminal in fig. 1 and 2, includes:

step 302, acquiring a navigation request, and generating a navigation route according to a starting point and an end point in the navigation request.

In this embodiment, the terminal is provided with a navigation application, acquires a user click or touch navigation application, and starts and runs the navigation application. The terminal acquires information of a starting point and an end point input by a user in navigation application, initiates a navigation request according to the starting point and the end point, and plans a route from the starting point to the end point according to the navigation request to generate a navigation route. The navigation route is composed of a series of end-to-end road sections starting from a starting point to a terminal point, and comprises shape and guidance point information. The induction point information includes induction point attribute data and corresponding induction data. The induction point attribute data is used to uniquely represent the identity of the induction point. The attribute information of the induction point can comprise longitude and latitude, induction point identification and the like. Latitude and longitude can be used to uniquely represent the location of the induction point. The induction point identification may be a string of characters that uniquely represents the induction point. The character string may include one or more of letters, numbers, characters. The inducement data refers to the specific content indicated by the inducement points, such as left turn, right turn, etc.

The inducement points may include turn inducement cue points and alert inducement cue points. The turn-inducing prompt point includes an intersection having a specific intersection characteristic, and the like. The specific intersection features may include a Y-type binary intersection, a triple intersection, a T-type, an H-type, an F-type, a cross, a roundabout, and the like. The guidance data for turn guidance cue points may include route-through type and natural features. Route-passing types may include left turn, right turn, turn around, left, right, along the middle, and the like. The natural ground objects can comprise traffic lights, slopes, overhead frames, tunnels, bridges, crossing scenes and the like. The alert inducement cue points may include traffic information locations of routes through roads, and the like. The traffic information locations of the routes through the roads may include lane lines, cameras, traffic signs, and the like.

Step 304, obtaining attribute data of the guidance point in the navigation route, comparing the attribute data of the guidance point in the navigation route with attribute data of the guidance point in a guidance point library on a server, and if the attribute data of the guidance point in the navigation route is the same as the attribute data of the guidance point in the guidance point library, judging whether the guidance data corresponding to the attribute data of the guidance point in the navigation route is the same as the guidance data corresponding to the attribute data of the guidance point in the guidance point library on the server.

In one embodiment, a library of induction points is first stored locally at the terminal. The induction point database records induction point attribute data and corresponding updated induction data. The induction point attribute data in the induction point library refers to induction point attribute data with original induction data being wrong and updated induction data. The induction point library stored by the terminal is the latest induction point library downloaded from the server. Induction points refer to key cue points on the route. The induction points can include turning induction prompt points and warning induction prompt points, such as important turning intersections, cameras on roads, positions of traffic hazard signs, and the like.

After the terminal acquires the navigation route, extracting attribute data of the induction points from the navigation route, comparing the attribute data of the induction points in the navigation route with the attribute data of the induction points in the induction point library on the server, if the attribute data of the induction points in the navigation route is the same as the attribute data of the induction points in the induction point library on the server, indicating that the induction data corresponding to the attribute data of the induction points of the navigation route may have errors, further judging whether the induction data corresponding to the attribute data of the induction points in the navigation route is the same as the induction data corresponding to the attribute data of the induction points in the induction point library on the server, if the induction data corresponding to the attribute data of the induction points in the navigation route is different from the induction data corresponding to the attribute data of the induction points in the induction point library on the server, indicating that the induction data in the navigation route has errors, replacing the induction data in the navigation route with the corresponding induction data in the induction point library, the method comprises the steps of realizing correction of a navigation route, if attribute data of induction points in the navigation route are different from attribute data of induction points in an induction point database on a server, indicating that the induction data in the navigation route are correct and do not need to be corrected, and if the induction data corresponding to the attribute data of the induction points in the navigation route are the same as the induction data corresponding to the attribute data of the induction points in the induction point database on the server, indicating that the induction data in the navigation route are correct and do not need to be corrected.

In one embodiment, the method includes the steps of obtaining attribute data of induction points in the navigation route, uploading the attribute data of the induction points in the navigation route to a server, comparing the attribute data of the induction points in a latest induction point library with the attribute data of the induction points in the navigation route by the server, if the attribute data of the induction points in the navigation route is the same as the attribute data of the induction points in the induction point library, judging whether the induction data corresponding to the attribute data of the induction points in the navigation route is the same as the induction data corresponding to the attribute data of the induction points in the induction point library on the server, if the induction data corresponding to the attribute data of the induction points in the navigation route is different from the induction data corresponding to the attribute data of the induction points in the induction point library on the server, downloading the induction data corresponding to the attribute data of the induction points in the navigation route from the induction point library of the server by a terminal, and correcting the navigation route by adopting the downloaded guidance data in the guidance point library to obtain a corrected navigation route.

And if the guidance data corresponding to the guidance point attribute data in the navigation route is the same as the guidance data corresponding to the guidance point attribute data in the guidance point database on the server, indicating that the guidance data corresponding to the guidance point attribute data in the navigation route is correct and does not need to be corrected.

Step 306, if the guidance data corresponding to the guidance point attribute data in the navigation route is different from the guidance data corresponding to the guidance point attribute data in the guidance point library on the server, correcting the navigation route by using the guidance data corresponding to the guidance point attribute data in the guidance point library to obtain a corrected navigation route, so as to perform navigation according to the corrected navigation route.

If the guidance data corresponding to the guidance point attribute data in the navigation route is the same as the guidance data corresponding to the guidance point attribute data in the guidance point library on the server, the guidance data corresponding to the guidance point attribute data in the navigation route does not need to be corrected.

The navigation route processing method of this embodiment generates a navigation route according to a start point and an end point in a navigation request, obtains attribute data of guidance points in the navigation route, compares the attribute data of the guidance points in the navigation route with attribute data of the guidance points in a guidance point library on a server, further determines whether guidance data corresponding to the attribute data of the guidance points in the navigation route is the same as the attribute data of the guidance points in the guidance point library on the server, if so, corrects the guidance data corresponding to the guidance points in the guidance point library using the guidance data of the guidance points in the guidance point library to obtain a corrected navigation route, automatically corrects wrong guidance information, and navigates according to the corrected navigation route, route misleading is avoided. In general, when an existing induction point has an error, the existing induction point cannot be updated for a long time on the electronic map, so that a route error occurs, the induction point database is adopted to carry out statistics and data updating on the induction point with the error, the updating timeliness can be ensured, only the induction point data with the error needs to be updated, the whole electronic map does not need to be updated, and the updated data volume can be reduced.

FIG. 4 is a flow chart of a navigation routing process in another embodiment. As shown in fig. 4, the navigation route processing method includes steps 402 to 410.

Step 402, when the navigation application is started, obtaining the version information of the locally stored guidance point library, and uploading the version information of the locally stored guidance point library to a server.

In this embodiment, the version information may include a version number or a version last update time stamp, or include a version number and a version last update time stamp. The version number is a number for uniquely identifying the version of the induced point library, such as version 1.0, version 2.0, and the like, but is not limited thereto. The last update timestamp of the version refers to that the induced point library records corresponding update time every time the induced point library is updated. For example, the last update time stamp for the version is 2016, 10, 18, 10 minutes, 10 seconds, etc.

Step 404, if the server determines that the version information of the guidance point library on the server is later than the version information of the locally stored guidance point library, downloading the guidance point library from the server.

In this embodiment, that the version information of the guidance point library on the server is later than the version information of the guidance point library stored on the terminal means that the guidance point library on the server is newer than the guidance point library stored on the terminal.

In one embodiment, when a navigation application is started, a locally stored guidance point library is obtained and uploaded to a server; and comparing the locally stored induction point library with the induction point library on the server to obtain a comparison result, and updating the locally stored induction point library according to the comparison result.

Comparing the locally stored induction point library with the induction point library on the server to obtain a comparison result, and updating the locally stored induction point library according to the comparison result comprises the following steps: comparing the induced point attribute data in the induced point library on the server with the induced point attribute data of the induced point library stored in the terminal, if the induced point attribute data is the same as the induced point attribute data of the induced point library stored in the terminal, judging whether the induced data corresponding to the induced point attribute data in the induced point library on the server is the same as the induced data corresponding to the induced point attribute data in the induced point library stored in the terminal, and if the induced data corresponding to the induced point attribute data in the induced point library on the server is different from the induced data corresponding to the induced point attribute data in the induced point library stored in the terminal, updating the induced data corresponding to the induced point attribute data in the induced point library stored in the terminal; if the induction point attribute data exists in the induction point library on the server and the induction point attribute data does not exist in the induction point library stored by the terminal, updating the induction point attribute data and the induction data existing in the induction point library on the server to the induction point library stored by the terminal; and if the induction point attribute data does not exist in the induction point library on the server and the induction point attribute data exists in the induction point library stored by the terminal, reserving the induction point attribute data existing in the induction point library stored by the terminal.

In one embodiment, the method comprises the steps of comparing a locally stored induction point library with an induction point library on a server to obtain a comparison result, updating the locally stored induction point library according to the comparison result, receiving the comparison result that the version information of the induction point library on the server is later than that of the locally stored induction point library, downloading the induction point library from the server according to the comparison result, and updating the locally stored induction point library.

Step 406, acquiring a navigation request, and generating a navigation route according to a starting point and an end point in the navigation request.

In this embodiment, the terminal is provided with a navigation application, acquires a user click or touch navigation application, and starts and runs the navigation application. The terminal acquires information of a starting point and an end point input by a user in navigation application, initiates a navigation request according to the starting point and the end point, and plans a route from the starting point to the end point according to the navigation request to generate a navigation route. The navigation route is composed of a series of end-to-end road sections starting from a starting point to a terminal point, and comprises shape and guidance point information. The induction point information includes induction point attribute data and corresponding induction data. The induction point attribute data is used to uniquely represent the identity of the induction point. The attribute information of the induction point can comprise longitude and latitude, induction point identification and the like. Latitude and longitude can be used to uniquely represent the location of the induction point. The induction point identification may be a string of characters that uniquely represents the induction point. The character string may include one or more of letters, numbers, characters.

The inducement points may include turn inducement cue points and alert inducement cue points.

Step 408, obtaining attribute data of the guidance point in the navigation route, comparing the attribute data of the guidance point in the navigation route with attribute data of the guidance point in a locally stored guidance point library, and if the attribute data of the guidance point in the navigation route is the same as the attribute data of the guidance point in the guidance point library, determining whether the guidance data corresponding to the attribute data of the guidance point in the navigation route is the same as the guidance data corresponding to the attribute data of the guidance point in the locally stored guidance point library.

In this embodiment, first, an induction point library is stored locally in the terminal. The induction point database records induction point attribute data and corresponding updated induction data. The induction point attribute data in the induction point library refers to induction point attribute data with original induction data being wrong and updated induction data. The induction point library stored by the terminal is the latest induction point library downloaded from the server. Induction points refer to key cue points on the route. The induction points can include turning induction prompt points and warning induction prompt points, such as important turning intersections, cameras on roads, positions of traffic hazard signs, and the like.

After the terminal acquires the navigation route, extracting attribute data of the induction points from the navigation route, comparing the attribute data of the induction points in the navigation route with the attribute data of the induction points in a locally stored induction point library, if the attribute data of the induction points in the navigation route is the same as the attribute data of the induction points in the locally stored induction point library, indicating that the induction data corresponding to the attribute data of the induction points of the navigation route possibly has errors, further judging whether the induction data corresponding to the attribute data of the induction points in the navigation route is the same as the induction data corresponding to the attribute data of the induction points in the locally stored induction point library, if the induction data corresponding to the attribute data of the induction points in the navigation route is different from the induction data corresponding to the attribute data of the induction points in the locally stored induction point library, indicating that the induction data in the navigation route has errors, the method includes the steps that induced data in a navigation route are replaced by induced data corresponding to induced point databases, correction of the navigation route is achieved, if the induced point attribute data in the navigation route are different from induced point attribute data in locally stored induced point databases, it is indicated that the induced data in the navigation route are correct, correction is not needed, and if the induced data corresponding to the induced point attribute data in the navigation route are the same as the induced data corresponding to the induced point attribute data in the locally stored induced point databases, it is indicated that the induced data in the navigation route are correct, and correction is not needed. Step 410, if the guidance data corresponding to the guidance point attribute data in the navigation route is different from the guidance data corresponding to the guidance point attribute data in the locally stored guidance point library, correcting the navigation route by using the guidance data corresponding to the guidance point attribute data in the guidance point library to obtain a corrected navigation route, so as to perform navigation according to the corrected navigation route.

In the navigation route processing method of the embodiment, the version information of the guidance point library stored in the terminal is sent to the server, and when the server judges that the guidance point library on the server is a new database, the terminal downloads the guidance point library from the server, updates the local guidance point library of the terminal, ensures that the data of the guidance point library is up-to-date, and can correct the navigation route more accurately; generating a navigation route according to a starting point and a terminal point in a navigation request, acquiring an induction point in the navigation route, comparing attribute data of the induction point in the navigation route with attribute data of the induction point in an induction point library stored locally, if the attribute data of the induction point in the navigation route is the same as the attribute data of the induction point in the induction point library on a server, indicating that the induction data corresponding to the attribute data of the induction point of the navigation route may have errors, further judging whether the induction data corresponding to the attribute data of the induction point in the navigation route is the same as the induction data corresponding to the attribute data of the induction point in the induction point library on the server, if the induction data corresponding to the attribute data of the induction point in the navigation route is different from the induction data corresponding to the attribute data of the induction point in the induction point library on the server, correcting the corresponding induction point in the navigation route by using the induction point in the induction point library, the corrected navigation route is obtained, the wrong guidance information is automatically corrected, and the navigation is carried out according to the corrected navigation route, so that the misguidance of the route is avoided; the method can also iteratively correct the induction problem, provide better and safer navigation, has incomparable timeliness and low cost, and can repair induction errors at a minute level without updating huge data files and new navigation applications.

In one embodiment, a navigation route processing method includes: acquiring a navigation request, and generating a navigation route according to a starting point and an end point in the navigation request; acquiring attribute data of induction points in the navigation route, uploading the attribute data of the induction points in the navigation route to a server, comparing the attribute data of the induction points in a latest induction point library with the attribute data of the induction points in the navigation route by the server, if the attribute data of the induction points in the navigation route is the same as the attribute data of the induction points in the induction point library, judging whether the induction data corresponding to the attribute data of the induction points in the navigation route is the same as the induction data corresponding to the attribute data of the induction points in the induction point library on the server, if so, downloading the induction data corresponding to the attribute data of the induction points in the navigation route from the induction point library of the server, wherein the induction data is the same as the attribute data of the induction points in the navigation route, and correcting the navigation route by adopting the downloaded guidance data in the guidance point library to obtain a corrected navigation route.

In the embodiment, the induction points with the same attribute data and different induction data as those in the navigation route are downloaded from the induction point library of the server, so that a complete induction point library is not required to be downloaded, and the network flow is saved.

In one embodiment, the navigation route processing method further includes: receiving and storing the guidance point library on the server transmitted from the second terminal when the navigation application is started; and comparing the induction point library of the first terminal with the induction point library of the second terminal to obtain a comparison result, and updating the induction point library of the first terminal according to the comparison result.

The first terminal (local) can receive the transmitted induction point library from the second terminal through wireless communication modes such as Bluetooth and WiFi, and network flow can be saved during transmission through Bluetooth and the like.

Comparing the induction point library of the first terminal with the induction point library of the second terminal to obtain a comparison result, and updating the induction point library of the first terminal according to the comparison result, wherein the method comprises the following steps: comparing the induction point library transmitted by the second terminal with the locally stored induction point library, and if the versions of the induction point library of the second terminal and the locally stored induction point library are the same, not updating the locally stored induction point library; and if the version of the induction point library of the second terminal is later than that of the locally stored induction point library, updating the locally stored induction point library by adopting the induction point library of the second terminal.

Comparing the induction point library of the first terminal with the induction point library of the second terminal to obtain a comparison result, and updating the induction point library of the first terminal according to the comparison result, wherein the method comprises the following steps: comparing the induction point attribute data in the induction point library on the second terminal with the induction point attribute data of the induction point library stored in the first terminal, if the induction point attribute data is the same as the induction point attribute data of the induction point library stored in the first terminal, judging whether the induction data corresponding to the induction point attribute data in the induction point library on the second terminal is the same as the induction data corresponding to the induction point attribute data in the induction point library stored in the terminal, and if the induction data is not the same as the induction point attribute data of the induction point library stored in the first terminal, updating the induction data corresponding to the induction point attribute data in the induction point library stored in the first terminal by adopting the induction data corresponding to the induction point attribute data in the induction point library on the second terminal; if the attribute data of the induction points exist in the induction point library on the second terminal and the attribute data of the induction points do not exist in the induction point library stored in the first terminal, updating the attribute data of the induction points and the induction data existing in the induction point library of the second terminal with the induction point library stored in the first terminal; and if the induction point attribute data does not exist in the induction point library of the second terminal and the induction point attribute data exists in the induction point library stored in the first terminal, reserving the induction point attribute data existing in the induction point library stored in the first terminal.

In one embodiment, the navigation route processing method further includes: and acquiring the selected shared object and a sharing instruction, and sharing the induction point library downloaded from the server to the selected shared object according to the sharing instruction.

In this embodiment, the shared object refers to a user sharing the induction point library. The terminal that downloads the library of the induction points from the server may establish a connection with another terminal of the sharing object through a wired network or a wireless network and then transmit the library of the induction points to the terminal of the sharing object. The wireless network connection may be wifi or bluetooth or NFC (Near Field Communication), or a 4G or 3G or 2G network, etc.

Specifically, the terminal downloading the induction point library establishes a bluetooth connection with the terminal of the shared object, and transmits the induction point library to the terminal of the shared object through bluetooth communication. For example, the terminal comprises a first vehicle-mounted device and a second vehicle-mounted device, the first vehicle-mounted device downloads the induction point library, the second vehicle-mounted device can independently establish Bluetooth or near field communication with the first vehicle-mounted device, and the first vehicle-mounted device transmits the induction point library to the second vehicle-mounted device.

In addition, the terminal downloading the induction point library is sent to the terminal of the shared object through instant messaging application, e-mail or multimedia message and the like.

In this embodiment, the guidance point library is shared with the selected shared object through the sharing instruction, and the terminals of the shared object do not need to be downloaded from the server, and are directly shared from the downloaded terminals, so that the load of the server can be reduced. By establishing connection between the terminals, the data can be shared from the terminals with the downloaded guidance point library under the condition that other terminals are not connected with the network, so that the network flow is saved, the guidance point library is updated in time, and the accuracy of terminal navigation of the shared object is improved.

In one embodiment, the navigation route processing method further includes: and acquiring a sharing instruction, and sharing the modified navigation route to a social platform or the selected friend to be shared according to the sharing instruction.

In this embodiment, the sharing refers to sharing data to a social platform or a friend. The social platform refers to a platform for sharing or spreading information, and can be an instant messaging application platform, a microblog platform and the like.

In the embodiment, the navigation route is shared to the social platform through the sharing instruction, so that other users can conveniently know the navigation route, the propagation range of the correct navigation route is expanded, and friends who travel recently can conveniently know the correct navigation route in time.

FIG. 5 is a flow chart of a navigation routing processing method in another embodiment. As shown in fig. 5, a navigation route processing method, which runs on the server in fig. 1 and 2, includes steps 502 to 506. Wherein:

step 502, receiving the version information of the locally stored guidance point library uploaded when the terminal starts the navigation application.

In this embodiment, the terminal uploads the version information of the locally stored guidance point library when starting the navigation application. The version information includes a version number or a version last update time stamp, or includes a version number and a version last update time stamp. The version number is a number for uniquely identifying the version of the induced point library, such as version 1.0, version 2.0, and the like, but is not limited thereto. The last update timestamp of the version refers to that the induced point library records corresponding update time every time the induced point library is updated. For example, the last update time stamp for the version is 2016, 10, 18, 10 minutes, 10 seconds, etc.

Step 504, comparing the version information of the guidance point library uploaded by the terminal with the version information of the guidance point library stored on the server.

Step 506, if the version information of the guidance point library on the server is later than the version information of the guidance point library uploaded by the terminal, sending the latest guidance point library on the server to the terminal for storage, so that the terminal generates a navigation route according to a starting point and an end point in a navigation request, acquiring the attribute data of the guidance point in the navigation route, comparing the attribute data of the guidance point in the navigation route with the attribute data of the guidance point in the locally stored guidance point library, if the attribute data of the guidance point in the navigation route is the same as the attribute data of the guidance point in the guidance point library, judging whether the guidance data corresponding to the attribute data of the guidance point in the navigation route is the same as the guidance data corresponding to the attribute data of the guidance point in the locally stored guidance point library, and if the guidance data of the guidance point in the guidance point library is different from the attribute data of the guidance point library, modifying the navigation route by using the guidance data corresponding to the attribute data of the guidance point in the guidance point library to obtain a modified navigation route And navigating according to the corrected navigation route.

In this embodiment, that the version information of the guidance point library on the server is later than the version information of the guidance point library stored on the terminal means that the guidance point library on the server is newer than the guidance point library stored on the terminal. And the induction point database records induction point attribute data and corresponding updated induction data.

According to the navigation route processing method, the server receives the version information of the induction point library uploaded by the terminal, and when the induction point library on the server is judged to be a new database, the induction point library is sent to the terminal, the local induction point library of the terminal is updated, the data of the induction point library is ensured to be up-to-date, and the navigation route can be corrected more accurately; generating a navigation route according to a starting point and a terminal point in a navigation request, acquiring attribute data of an induction point in the navigation route, comparing the attribute data of the induction point in the navigation route with attribute data of the induction point in an induction point library stored locally, if the attribute data of the induction point in the navigation route is the same as the attribute data of the induction point in the induction point library on a server, indicating that the induction data corresponding to the attribute data of the induction point of the navigation route may have errors, further judging whether the induction data corresponding to the attribute data of the induction point in the navigation route is the same as the induction data corresponding to the attribute data of the induction point in the induction point library on the server, if the induction data corresponding to the attribute data of the induction point in the navigation route is different from the induction data corresponding to the attribute data of the induction point in the induction point library on the server, correcting the induction data corresponding to the navigation route by using the induction data corresponding to the attribute data of the induction point in the induction point library, the corrected navigation route is obtained, the wrong guidance information is automatically corrected, and the navigation is carried out according to the corrected navigation route, so that the misguidance of the route is avoided.

In one embodiment, the navigation route processing method further includes: and collecting induction error information, and updating an induction point library on the server according to the induction error information.

In this embodiment, various induced error information is collected, and the correct induced information corresponding to the induced error information is updated to the induced point library on the server.

The method and the system ensure that the data in the induction point library is up-to-date by regularly updating the induction point library on the server.

FIG. 6 is a flow chart of a navigation routing processing method in another embodiment. As shown in fig. 6, a navigation route processing method, which runs on the server in fig. 1 and 2, includes steps 602 to 606. Wherein:

step 602, the receiving terminal generates the attribute data of the guidance point in the navigation route according to the starting point and the end point in the navigation request.

Specifically, after the terminal generates the navigation route according to the starting point and the end point of the navigation request, the guidance point in the navigation route is obtained and uploaded to the server, and the server receives the guidance point.

Step 604, comparing the attribute data of the guidance point in the navigation route with the attribute data of the guidance point in the guidance point library on the server, and if the attribute data of the guidance point in the navigation route is the same as the attribute data of the guidance point in the guidance point library, determining whether the guidance data corresponding to the attribute data of the guidance point in the navigation route is the same as the guidance data corresponding to the attribute data of the guidance point in the guidance point library on the server.

Wherein, the induction point database records induction point attribute data and corresponding updated induction data.

The attribute information of the induction point can comprise longitude and latitude and/or induction point attribute data and the like. Latitude and longitude can be used to uniquely represent the location of the induction point. The induction point attribute data may be a character string for uniquely representing the induction point. The character string may include one or more of letters, numbers, characters.

Step 606, if the guidance data corresponding to the guidance point attribute data in the navigation route is different from the guidance data corresponding to the guidance point attribute data in the guidance point library on the server, sending the guidance data corresponding to the guidance point attribute data in the guidance point library, which is the same as the guidance point attribute data in the navigation route, to the terminal, so that the terminal corrects the navigation route according to the guidance data in the guidance point library to obtain the corrected navigation route.

In the navigation route processing method in this embodiment, the guidance point attribute data of the navigation route is compared with the guidance point attribute data in the guidance point library on the server by receiving the guidance point of the navigation route, if the guidance point attribute data is the same, it is further determined whether the guidance data corresponding to the guidance point attribute data in the navigation route is the same as the guidance data corresponding to the guidance point attribute data in the guidance point library on the server, and if the guidance data corresponding to the guidance point attribute data in the navigation route is different from the guidance data corresponding to the guidance point attribute data in the guidance point library on the server, which is the same as the guidance point attribute data in the navigation route, is sent to the terminal, so that the terminal can correct the navigation route without downloading the latest and save network traffic, the navigation route is also corrected.

FIG. 7 is a block diagram showing the structure of a navigation route processing device according to an embodiment. As shown in fig. 7, a navigation route processing apparatus 700, located on a terminal, includes a route generation module 702, a comparison module 704, and a modification module 706. Wherein:

the route generation module 702 is configured to obtain a navigation request, and generate a navigation route according to a start point and an end point in the navigation request.

The comparison module 704 is configured to obtain attribute data of an induction point in the navigation route, compare the attribute data of the induction point in the navigation route with attribute data of an induction point in an induction point library on a server, and if the attribute data of the induction point in the navigation route is the same as the attribute data of the induction point in the induction point library, determine whether the induction data corresponding to the attribute data of the induction point in the navigation route is the same as the induction data corresponding to the attribute data of the induction point in the induction point library on the server.

Wherein, the induction point database records induction point attribute data and corresponding updated induction data.

The correcting module 706 is configured to correct the navigation route by using the guidance data corresponding to the attribute data of the guidance point in the guidance point library to obtain a corrected navigation route if the guidance data corresponding to the attribute data of the guidance point in the navigation route is different from the guidance data corresponding to the attribute data of the guidance point in the guidance point library on the server, so as to perform navigation according to the corrected navigation route.

The navigation route processing apparatus of this embodiment generates a navigation route according to a start point and an end point in a navigation request, acquires attribute data of guidance points in the navigation route, compares the attribute data of the guidance points in the navigation route with attribute data of the guidance points in a guidance point library on a server, if the attribute data of the guidance points in the navigation route is the same as the attribute data of the guidance points in the guidance point library on the server, it indicates that there may be an error in the guidance data corresponding to the attribute data of the guidance points in the navigation route, further determines whether the guidance data corresponding to the attribute data of the guidance points in the navigation route is the same as the guidance data corresponding to the attribute data of the guidance points in the guidance point library on the server, if the guidance data corresponding to the attribute data of the guidance points in the navigation route is different from the guidance data corresponding to the attribute data of the guidance points in the guidance point library on the server, and correcting the corresponding guidance points in the navigation route by adopting the guidance points in the guidance point library to obtain the corrected navigation route, automatically correcting wrong guidance information, and navigating according to the corrected navigation route to avoid route misguidance.

FIG. 8 is a block diagram showing the structure of a navigation route processing apparatus according to another embodiment. As shown in fig. 8, a navigation route processing apparatus 800, located on a terminal, includes a route generation module 802, a comparison module 804, a modification module 806, an upload module 808, and a download module 810. Wherein:

the uploading module 808 is configured to, when the navigation application is started, acquire version information of the locally stored guidance point library, and upload the version information of the locally stored guidance point library to the server.

In this embodiment, the version information may include a version number or a version last update time stamp, or include a version number and a version last update time stamp.

The downloading module 810 is configured to download the latest induction point library from the server if the server determines that the version information of the induction point library on the server is later than the version information of the locally stored induction point library.

The navigation route processing device of the embodiment sends the version information of the guidance point library stored on the terminal to the server, and when the server judges that the guidance point library on the server is a new database, the terminal downloads the guidance point library from the server, updates the local guidance point library of the terminal, ensures that the data of the guidance point library is up-to-date, and can correct the navigation route more accurately; generating a navigation route according to a starting point and a terminal point in a navigation request, acquiring an induction point in the navigation route, comparing the induction point in the navigation route with induction points in a locally stored induction point library, if the attribute data of the induction point in the navigation route is the same as the attribute data of the induction point in the induction point library on a server, indicating that the induction data corresponding to the attribute data of the induction point of the navigation route may have errors, further judging whether the induction data corresponding to the attribute data of the induction point in the navigation route is the same as the induction data corresponding to the attribute data of the induction point in the induction point library on the server, if the induction data corresponding to the attribute data of the induction point in the navigation route is different from the induction data corresponding to the attribute data of the induction point in the induction point library on the server, correcting the induction point corresponding to the navigation route by using the induction point in the induction point library, the corrected navigation route is obtained, the wrong guidance information is automatically corrected, and the navigation is carried out according to the corrected navigation route, so that the misguidance of the route is avoided.

In one embodiment, the downloading module 810 is configured to download guidance data corresponding to the guidance point attribute data that is the same as the guidance point attribute data in the navigation route from the guidance point database of the server if the guidance point attribute data in the navigation route is the same as the guidance point attribute data in the guidance point database and it is determined that the guidance data corresponding to the guidance point attribute data in the navigation route is different from the guidance data corresponding to the guidance point attribute data in the guidance point database on the server.

The correcting module 806 is further configured to correct the navigation route by using the downloaded guidance data in the guidance point library to obtain a corrected navigation route.

In one embodiment, the navigation route processing further includes an induction point library receiving module and an induction point library updating module. The induction point library receiving module is used for receiving and storing the induction point library transmitted from the second terminal on the server when the navigation application is started before the navigation request is acquired; the induction point library updating module is used for comparing the induction point library of the first terminal with the induction point library of the second terminal to obtain a comparison result, and updating the induction point library of the first terminal according to the comparison result.

In one embodiment, the uploading module 808 is further configured to, when the navigation application is started, obtain a locally stored guidance point library, and upload the locally stored guidance point library to the server; the induction point library updating module is also used for comparing the locally stored induction point library with the induction point library on the server to obtain a comparison result, and updating the locally stored induction point library according to the comparison result.

Specifically, the induction point library updating module is further configured to compare induction point attribute data in the induction point library on the server with induction point attribute data of an induction point library stored in the terminal, if the induction point attribute data is the same as the induction point attribute data of the induction point library stored in the terminal, determine whether the induction data corresponding to the induction point attribute data in the induction point library on the server is the same as the induction data corresponding to the induction point attribute data in the induction point library stored in the terminal, and if the induction data is not the same as the induction point attribute data of the induction point library stored in the terminal, update the induction data corresponding to the induction point attribute data in the induction point library stored in the terminal with the induction data corresponding to the induction point attribute data in the induction point library on the server; if the induction point attribute data exists in the induction point library on the server and the induction point attribute data does not exist in the induction point library stored by the terminal, updating the induction point attribute data and the induction data existing in the induction point library on the server to the induction point library stored by the terminal; and if the induction point attribute data does not exist in the induction point library on the server and the induction point attribute data exists in the induction point library stored by the terminal, reserving the induction point attribute data existing in the induction point library stored by the terminal.

In one embodiment, the induction point library updating module is further configured to receive a comparison result between the induction point library on the server and a locally stored induction point library, and update the locally stored induction point library according to the comparison result.

Fig. 9 is a block diagram showing a configuration of a navigation route processing apparatus according to another embodiment. As shown in fig. 9, a navigation route processing apparatus 900, located on a terminal, includes a route generating module 902, a comparing module 904, a correcting module 906, an uploading module 908, a downloading module 910, a sharing module 912, and a sharing module 914.

Wherein: the sharing module 912 is configured to obtain the selected shared object and the sharing instruction, and share the induction point library downloaded from the server to the selected shared object according to the sharing instruction.

The sharing module 914 is configured to obtain a sharing instruction, and share the modified navigation route to a social platform or the selected friend to be shared according to the sharing instruction.

In other embodiments, a navigation route processing apparatus 900 may include any possible combination of a route generation module 902, a comparison module 904, a correction module 906, an upload module 908, a download module 910, a share module 912, and a share module 914.

Fig. 10 is a block diagram showing the structure of a navigation route processing apparatus according to another embodiment. As shown in fig. 10, a navigation route processing device, located on a server, includes a receiving module 1002, a comparing module 1004, a sending module 1006, and an updating module 1008. Wherein:

the receiving module 1002 is configured to receive version information of a locally stored guidance point library, which is uploaded when a terminal starts a navigation application.

The comparison module 1004 is configured to compare the version information of the guidance point library uploaded by the terminal with the version information of the guidance point library stored in the server.

The sending module 1006 is configured to send the latest induction point library on the server to the terminal for storage if the version information of the induction point library on the server is later than the version information of the induction point library uploaded by the terminal, where the induction point library records induction point attribute data and corresponding updated induction data, so that the terminal generates a navigation route according to a start point and an end point in a navigation request, acquires induction point attribute data in the navigation route, compares the induction point attribute data in the navigation route with induction point attribute data in a locally stored induction point library, and if the induction point attribute data in the navigation route is the same as the induction point attribute data in the induction point library, determines whether the induction data corresponding to the induction point attribute data in the navigation route is the same as the induction data corresponding to the induction point attribute data in the induction point library on the server, and if the difference is different, correcting the navigation route by adopting the guidance data corresponding to the attribute data of the guidance points in the guidance point library to obtain a corrected navigation route so as to navigate according to the corrected navigation route.

The updating module 1008 is configured to collect induced error information and update the induced point library on the server according to the induced error information.

In the navigation route processing device of the embodiment, the server receives the version information of the guidance point library uploaded by the terminal, and when the guidance point library on the server is judged to be a new database, the server sends the guidance point library to the terminal, updates the local guidance point library of the terminal, ensures that the data of the guidance point library is up-to-date, and can correct the navigation route more accurately; generating a navigation route according to a starting point and a terminal point in a navigation request, acquiring an induction point in the navigation route, comparing attribute data of the induction point in the navigation route with attribute data of the induction point in an induction point library stored locally, if the attribute data of the induction point in the navigation route is the same as the attribute data of the induction point in the induction point library, judging whether the induction data corresponding to the attribute data of the induction point in the navigation route is the same as the induction data corresponding to the attribute data of the induction point in the induction point library on the server, if not, correcting the induction data corresponding to the attribute data of the induction point in the induction point library to obtain a corrected navigation route, automatically correcting wrong induction information, navigating according to the corrected navigation route, and avoiding route misguidance.

In one embodiment, a navigation route processing device comprises a receiving module, a comparing module and a sending module.

The receiving module is used for receiving the attribute data of the induction points in the navigation route generated by the terminal according to the starting point and the end point in the navigation request;

the comparison module is used for comparing the attribute data of the induction points in the navigation route with the attribute data of the induction points in an induction point library on the server, and if the attribute data of the induction points in the navigation route is the same as the attribute data of the induction points in the induction point library, judging whether the induction data corresponding to the attribute data of the induction points in the navigation route is the same as the induction data corresponding to the attribute data of the induction points in the induction point library on the server;

and the sending module is used for sending the guidance data corresponding to the guidance point attribute data which is the same as the guidance point attribute data in the navigation route in the guidance point library to the terminal if the guidance data corresponding to the guidance point attribute data in the navigation route is different from the guidance data corresponding to the guidance point attribute data in the guidance point library on the server, so that the terminal corrects the navigation route according to the guidance data in the guidance point library to obtain the corrected navigation route. In other embodiments, a navigation routing processing apparatus may include all possible combinations of the receiving module 1002, the comparing module 1004, the sending module 1006, and the updating module 1008.

It will be understood by those skilled in the art that all or part of the processes of the methods of the embodiments described above can be implemented by a computer program, which can be stored in a non-volatile computer-readable storage medium, and can include the processes of the embodiments of the methods described above when the program is executed. The storage medium may be a magnetic disk, an optical disk, a Read-Only Memory (ROM), or the like.

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. Therefore, the protection scope of the present patent shall be subject to the appended claims.

Claims (21)

1. A navigation route processing method, comprising:

acquiring a navigation request, and generating a navigation route according to a starting point and an end point in the navigation request;

acquiring attribute data of induction points in the navigation route, comparing the attribute data of the induction points in the navigation route with attribute data of the induction points in an induction point library on a server, and if the attribute data of the induction points in the navigation route is the same as the attribute data of the induction points in the induction point library on the server, judging whether the induction data corresponding to the attribute data of the induction points in the navigation route is the same as the induction data corresponding to the attribute data of the induction points in the induction point library on the server;

and if the guidance data corresponding to the guidance point attribute data in the navigation route is different from the guidance data corresponding to the guidance point attribute data in the guidance point library on the server, correcting the navigation route by adopting the guidance data corresponding to the guidance point attribute data in the guidance point library on the server to obtain a corrected navigation route, and navigating according to the corrected navigation route.

2. The method of claim 1, wherein prior to the step of obtaining a navigation request, the method further comprises:

when a navigation application is started, acquiring a locally stored guidance point library, and uploading the locally stored guidance point library to a server;

and receiving a comparison result between the induction point library on the server and a locally stored induction point library, and updating the locally stored induction point library according to the comparison result.

3. The method of claim 2, wherein receiving a comparison of the library of induction points on the server with a locally stored library of induction points, and updating the locally stored library of induction points based on the comparison comprises:

and receiving a comparison result that the version information of the induction point library on the server is later than the version information of the locally stored induction point library, downloading the induction point library from the server according to the comparison result, and updating the locally stored induction point library.

4. The method of claim 3, wherein the version information comprises a version number and/or a version last update timestamp.

5. The method of claim 1, further comprising:

if the attribute data of the induction points in the navigation route is the same as the attribute data of the induction points in the induction point library on the server and the induction data corresponding to the attribute data of the induction points in the navigation route is judged to be different from the induction data corresponding to the attribute data of the induction points in the induction point library on the server, downloading the induction data corresponding to the attribute data of the induction points in the navigation route from the induction point library of the server;

the correcting the navigation route by adopting the guidance data corresponding to the attribute data of the guidance points in the guidance point library on the server to obtain the corrected navigation route comprises the following steps:

and correcting the navigation route by adopting the guidance data in the guidance point library downloaded from the server to obtain a corrected navigation route.

6. The method of claim 1, wherein prior to the step of obtaining a navigation request, the method further comprises:

receiving and storing the guidance point library on the server transmitted from the second terminal when the navigation application is started;

and comparing the induction point library of the first terminal with the induction point library of the second terminal to obtain a comparison result, and updating the induction point library of the first terminal according to the comparison result.

7. A navigation route processing method, comprising:

receiving version information of a locally stored guidance point library uploaded when a terminal starts a navigation application;

comparing the version information of the induction point library uploaded by the terminal with the version information of the induction point library stored in the server;

if the version information of the induction point database on the server is later than the version information of the induction point database uploaded by the terminal, sending the latest induction point database on the server to the terminal for storage, so that the terminal generates a navigation route according to a starting point and a destination in a navigation request, acquiring induction point attribute data in the navigation route, comparing the induction point attribute data in the navigation route with induction point attribute data in a locally stored induction point database, if the induction point attribute data in the navigation route is the same as the induction point attribute data in the locally stored induction point database, judging whether the induction data corresponding to the induction point attribute data in the navigation route is the same as the induction data corresponding to the induction point attribute data in the locally stored induction point database, and if the induction point attribute data in the navigation route is different from the induction point attribute data in the locally stored induction point database, correcting the navigation route by using the induction data corresponding to the induction point attribute data in the locally stored induction point database to obtain a corrected navigation route The navigation route is used for navigating according to the corrected navigation route; wherein, the inducement point library stored locally on the terminal is the latest inducement point library downloaded from the server.

8. The method of claim 7, further comprising:

and collecting induction error information, and updating an induction point library on the server according to the induction error information.

9. A navigation route processing method, comprising:

receiving induction point attribute data in a navigation route generated by a terminal according to a starting point and an end point in the navigation request;

comparing the attribute data of the induction points in the navigation route with the attribute data of the induction points in an induction point library on a server, and if the attribute data of the induction points in the navigation route is the same as the attribute data of the induction points in the induction point library on the server, judging whether the induction data corresponding to the attribute data of the induction points in the navigation route is the same as the induction data corresponding to the attribute data of the induction points in the induction point library on the server;

and if the induction data corresponding to the induction point attribute data in the navigation route is different from the induction data corresponding to the induction point attribute data in the induction point database on the server, sending the induction data corresponding to the induction point attribute data which is the same as the induction point attribute data in the navigation route in the induction point database on the server to the terminal, so that the terminal corrects the navigation route according to the induction data in the induction point database on the server to obtain the corrected navigation route.

10. A navigation route processing apparatus, characterized by comprising:

the route generation module is used for acquiring a navigation request and generating a navigation route according to a starting point and an end point in the navigation request;

the comparison module is used for acquiring attribute data of induction points in the navigation route, comparing the attribute data of the induction points in the navigation route with attribute data of the induction points in an induction point library on a server, and if the attribute data of the induction points in the navigation route is the same as the attribute data of the induction points in the induction point library on the server, judging whether the induction data corresponding to the attribute data of the induction points in the navigation route is the same as the induction data corresponding to the attribute data of the induction points in the induction point library on the server;

and the correction module is used for correcting the navigation route by adopting the induction data corresponding to the attribute data of the induction points in the induction point database on the server to obtain a corrected navigation route so as to carry out navigation according to the corrected navigation route if the induction data corresponding to the attribute data of the induction points in the navigation route is different from the induction data corresponding to the attribute data of the induction points in the induction point database on the server.

11. The apparatus of claim 10, further comprising:

the system comprises an uploading module, a server and a processing module, wherein the uploading module is used for acquiring a locally stored guidance point library when a navigation application is started and uploading the locally stored guidance point library to the server;

and the induction point library updating module is used for receiving a comparison result of the induction point library on the server and a locally stored induction point library and updating the locally stored induction point library according to the comparison result.

12. The apparatus of claim 11, wherein the induction point library updating module is further configured to receive a comparison result that the version information of the induction point library on the server is later than the version information of the locally stored induction point library, download the induction point library from the server according to the comparison result, and update the locally stored induction point library.

13. The apparatus of claim 12, wherein the version information comprises a version number and/or a version last update timestamp.

14. The apparatus of claim 10, further comprising:

the download module is used for downloading the guidance data corresponding to the guidance point attribute data which is the same as the guidance point attribute data in the navigation route from the guidance point database of the server if the guidance point attribute data in the navigation route is the same as the guidance point attribute data in the guidance point database of the server and the guidance data corresponding to the guidance point attribute data in the guidance point database of the server is judged to be different;

the correction module is also used for correcting the navigation route by adopting the guidance data in the guidance point library downloaded from the server to obtain the corrected navigation route.

15. The apparatus of claim 10, further comprising:

the guidance point library receiving module is used for receiving and storing the guidance point library transmitted from the second terminal on the server when the navigation application is started before the navigation request is acquired;

and the induction point library updating module is used for comparing the induction point library of the first terminal with the induction point library of the second terminal to obtain a comparison result, and updating the induction point library of the first terminal according to the comparison result.

16. A navigation route processing apparatus, characterized by comprising:

the receiving module is used for receiving the version information of the locally stored guidance point library uploaded when the terminal starts the navigation application;

the comparison module is used for comparing the version information of the induction point library uploaded by the terminal with the version information of the induction point library stored in the server;

a sending module, configured to send the latest induction point database on the server to the terminal for storage if the version information of the induction point database on the server is later than the version information of the induction point database uploaded by the terminal, so that the terminal generates a navigation route according to a start point and an end point in a navigation request, acquires induction point attribute data in the navigation route, compares the induction point attribute data in the navigation route with induction point attribute data in the locally stored induction point database, determines whether induction data corresponding to the induction point attribute data in the navigation route is the same as induction point attribute data in the locally stored induction point database, and if so, corrects the induction data corresponding to the induction point attribute data in the locally stored induction point database by using the induction data corresponding to the induction point attribute data in the locally stored induction point database The navigation route is corrected to carry out navigation according to the corrected navigation route; wherein, the inducement point library stored locally on the terminal is the latest inducement point library downloaded from the server.

17. The apparatus of claim 16, further comprising:

and the updating module is used for collecting the induction error information and updating the induction point library on the server according to the induction error information.

18. A navigation route processing apparatus, characterized by comprising:

the receiving module is used for receiving the attribute data of the induction points in the navigation route generated by the terminal according to the starting point and the end point in the navigation request;

the comparison module is used for comparing the attribute data of the induction points in the navigation route with the attribute data of the induction points in an induction point library on the server, and if the attribute data of the induction points in the navigation route is the same as the attribute data of the induction points in the induction point library on the server, judging whether the induction data corresponding to the attribute data of the induction points in the navigation route is the same as the induction data corresponding to the attribute data of the induction points in the induction point library on the server;

and the sending module is used for sending the guidance data corresponding to the guidance point attribute data which is the same as the guidance point attribute data in the navigation route in the guidance point database on the server to the terminal if the guidance data corresponding to the guidance point attribute data in the navigation route is different from the guidance data corresponding to the guidance point attribute data in the guidance point database on the server, so that the terminal corrects the navigation route according to the guidance data in the guidance point database on the server to obtain the corrected navigation route.

19. A computer-readable storage medium, storing a computer program which, when executed by a processor, causes the processor to carry out the steps of the method according to any one of claims 1 to 9.

20. A terminal comprising a memory and a processor, the memory storing a computer program that, when executed by the processor, causes the processor to perform the steps of the method according to any one of claims 1 to 6.

21. A server comprising a memory and a processor, the memory storing a computer program that, when executed by the processor, causes the processor to perform the steps of the method of any one of claims 7 to 9.

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