CN106918348B - Information processing method and electronic equipment - Google Patents

Abstract

The invention discloses an information processing method and electronic equipment, which determine a navigation strategy based on acquired environment information or user data by determining a starting point and an end point, wherein the navigation strategy comprises a navigation route selection strategy or a navigation prompting mode. According to the scheme, after the starting point and the end point are determined, the navigation strategy is determined based on the environment information or the user data, so that the strategy for selecting the navigation route or the navigation prompting mode is determined according to the user requirements, and the user experience is improved.

Description

Information processing method and electronic equipment

Technical Field

The present invention relates to the field of control, and in particular, to an information processing method and an electronic device.

Background

Currently, when a navigation route is prompted for a user through an electronic device, a navigation route is generally generated directly according to a starting point and an end point input by the user, so that the user can select the navigation route.

However, when the navigation route is generated in this way, the influence factors considered in the process of generating the navigation route are single, and the use experience of the user is reduced.

Disclosure of Invention

In view of this, the present invention provides an information processing method and an electronic device, so as to solve the problems that in the prior art, the influence factor considered in the process of generating a navigation route is single, and the use experience of a user is reduced, and the specific scheme is as follows:

an information processing method comprising:

determining a starting point and an end point;

determining a navigation strategy based on the acquired environment information and/or user data, the navigation strategy comprising a strategy of navigation routing or a mode of navigation prompting.

Further, the determining a navigation policy based on the obtained user data includes:

the user data includes: user historical navigation routing features.

Further, the historical navigation routing features include:

the location or type of location the user has historically chosen or abandoned the route passed.

Further, the determining a navigation policy based on the environment information includes:

acquiring the current time or the current place, and determining a navigation strategy adapted to the current time or the current place.

Further, the determining a navigation prompting mode based on the acquired environment information includes:

determining the current geographic position based on the acquired environment information;

and determining a navigation language prompt mode matched with the geographic position based on the geographic position.

Further, the navigation language prompting method matched with the geographic position includes:

the language of the navigation language is matched with the geographic position, and/or

The linguistic representation of the navigation is matched to the geographic location.

An electronic device, comprising: a processor and a memory, wherein:

the memory is used for storing the acquired environment information or user data;

the processor is used for determining a starting point and an end point, and determining a navigation strategy based on the environment information and/or the user data stored in the memory, wherein the navigation strategy comprises a navigation route selection strategy or a navigation prompting mode.

Further, the processor determines a navigation strategy based on the user data stored by the memory, including:

the user data includes: user historical navigation routing features.

Further, the historical navigation routing features include:

the location or type of location the user has historically chosen or abandoned the route passed.

Further, the processor determines a navigation strategy based on the environmental information stored by the memory, including:

the processor obtains a current time or a current location and determines a navigation strategy adapted to the current time or the current location.

Further, the processor determines a navigation prompt mode based on the environment information stored in the memory, including:

the processor determines the current geographic position based on the environmental information stored in the memory, and determines a navigation language prompt mode matched with the geographic position based on the geographic position.

Further, the processor determining a navigation language prompt style matching the geographic location includes:

the processor determines the language of the navigation language matching the geographic location and/or determines the language expression of the navigation language matching the geographic location.

According to the technical scheme, the information processing method and the electronic device disclosed by the application determine the navigation strategy based on the acquired environment information or user data by determining the starting point and the end point, wherein the navigation strategy comprises a navigation route selection strategy or a navigation prompting mode. According to the scheme, after the starting point and the end point are determined, the navigation strategy is determined based on the environment information or the user data, so that the strategy for selecting the navigation route or the navigation prompting mode is determined according to the user requirements, and the user experience is improved.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings used in the description of the embodiments or the prior art will be briefly described below, it is obvious that the drawings in the following description are only some embodiments of the present invention, and for those skilled in the art, other drawings can be obtained according to the drawings without creative efforts.

FIG. 1 is a flow chart of an information processing method according to an embodiment of the present invention;

FIG. 2 is a flowchart of an information processing method according to an embodiment of the present invention;

FIG. 3 is a flowchart of an information processing method according to an embodiment of the present invention;

FIG. 4 is a flowchart of an information processing method according to an embodiment of the present invention;

FIG. 5 is a flowchart of an information processing method according to an embodiment of the present invention;

fig. 6 is a schematic structural diagram of an electronic device according to an embodiment of the disclosure.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

The invention discloses an information processing method, the flow chart of which is shown in figure 1, comprising the following steps:

step S11, determining a starting point and an end point;

the starting point and the end point can be input by a user, and can also be as follows: the electronic device automatically locates the starting point, and the ending point may be a common address for presetting, such as: the home or the company only needs to select to go home or go to the company when determining the terminal.

Step S12, determining a navigation policy based on the acquired environment information and/or user data, wherein the navigation policy includes a policy of navigation route selection or a navigation prompt mode.

The strategy of navigation route selection, namely how to select the navigation route and in which case to select which navigation route.

For example: when the local stadium is holding a concert or other large event, then the navigation routing strategy may include: abandons the route passing through the local stadium and selects other routes.

Navigation prompt mode, i.e. the mode of prompting the user how to proceed.

For example: when passing through a certain intersection, the prompting is carried out through the landmark building of the intersection.

The user data may include: the personal data of the current user itself may also include: data of a plurality of users.

The embodiment discloses an information processing method, which determines a navigation strategy based on acquired environment information or user data by determining a starting point and an end point, wherein the navigation strategy comprises a navigation route selection strategy or a navigation prompting mode. According to the scheme, after the starting point and the end point are determined, the navigation strategy is determined based on the environment information or the user data, so that the strategy for selecting the navigation route or the navigation prompting mode is determined according to the user requirements, and the user experience is improved.

The present embodiment discloses an information processing method, a flowchart of which is shown in fig. 2, and includes:

step S21, determining a starting point and an end point;

and step S22, determining the strategy of the navigation route selection based on the acquired characteristics of the navigation route selection of the user history.

The characteristics of the historical navigation route selection of the user, namely, the route characteristics of the user in the driving process are summarized in the records of a plurality of historical navigation routes of the user, such as: more external loops or more major loops are taken. Then, when determining the strategy of the navigation route, the characteristics of the historical navigation route selection can be used as the basis for the current navigation route selection, such as: the determination of the navigation route is preferably performed by a strategy of taking an outer loop, or, preferably, taking a major road.

The characteristics of the user history navigation route selection may include: the navigation route selection characteristics of a plurality of user histories may be only data of navigation route selection of the current user history.

The present embodiment can be combined with the above embodiments.

The embodiment discloses an information processing method, which determines a navigation strategy based on acquired environment information or user data by determining a starting point and an end point, wherein the navigation strategy comprises a navigation route selection strategy or a navigation prompting mode. According to the scheme, after the starting point and the end point are determined, the navigation strategy is determined based on the environment information or the user data, so that the strategy for selecting the navigation route or the navigation prompting mode is determined according to the user requirements, and the user experience is improved.

The present embodiment discloses an information processing method, a flowchart of which is shown in fig. 3, and the method includes:

step S31, determining a starting point and an end point;

step S32, determining a navigation routing strategy based on the acquired place or type of place through which the route historically selected or abandoned by the user passes.

The user data is analyzed to determine a navigation route selected by the user history or a navigation route discarded by the user history.

The navigation routes selected by the user history are analyzed, more routes or places in the navigation routes selected by the user history can be determined, and the routes or places which the user passes through are analyzed, so that more route characteristics or place characteristics of the user can be determined.

For example: when the route selected by the user in history is analyzed, the fact that the user passes through more streets is determined, and then the first street is preferably passed through when the current navigation route is selected;

when the first street is analyzed, it may be clear that there is no densely populated place such as a residential area, a school, or a shopping mall in the first street, and then, when the current navigation route is selected, it may be preferable to pass through a street that does not include the densely populated place such as a residential area, a school, or a shopping mall.

When the routes abandoned by the user history are analyzed, roads or places needing to pass through in a plurality of routes abandoned by the user history or roads or places needing to pass through in a plurality of abandoned routes can be determined, and the changed roads or places are analyzed, so that the characteristics and types of the roads or places passed through by the routes abandoned by the user are determined.

For example: when analyzing the routes discarded by the user history, determining that a plurality of routes discarded by the user or a plurality of routes all need to pass through a second street, and then discarding the routes passing through the second street when selecting the current navigation route;

when the second street is analyzed, it can be clear that the second street at least comprises a place with larger people flow, such as a hospital or a dish market, and then all routes needing to pass through the place with larger people flow are abandoned when the current navigation route is selected.

The present embodiment can be combined with the above embodiments.

The embodiment discloses an information processing method, which determines a navigation strategy based on acquired environment information or user data by determining a starting point and an end point, wherein the navigation strategy comprises a navigation route selection strategy or a navigation prompting mode. According to the scheme, after the starting point and the end point are determined, the navigation strategy is determined based on the environment information or the user data, so that the strategy for selecting the navigation route or the navigation prompting mode is determined according to the user requirements, and the user experience is improved.

The present embodiment discloses an information processing method, a flowchart of which is shown in fig. 4, and includes:

step S41, determining a starting point and an end point;

and step S42, acquiring the current time or the current place, and determining a navigation strategy adapted to the current time or the current place.

And acquiring the current time, and determining a navigation strategy adapted to the current time.

Wherein, the current time may include: different time periods, such as: day, night, or peak hours, idle hours, etc.

For example: when the current time period is night, determining a strategy for selecting a navigation route reaching the preset ambient brightness. Namely, when the current time is night, selecting a route with bright light on most road sections in the whole route, and not selecting a route passing through a path without illumination such as a street lamp;

and when the current time interval is night, determining a navigation prompt mode adaptive to the current environment brightness. For example: when passing through a certain intersection, because the light is relatively dim at night, a route prompting mode of prompting through a sign building is not selected, or a route prompting mode of prompting through a road name is not selected, and a mode of south, east, west and north or left and right is directly selected for route prompting.

And acquiring the current location, and determining a navigation strategy adapted to the current location.

Wherein, the current location may include: the specific city may also include: a certain area, or a specific location.

For example: and determining a navigation route selection strategy when the current location is a suburb and the traffic order reaches a preset condition. That is, if the vehicle is currently located in a suburban area, a route where a link with good traffic order is located is selected as the navigation route. In addition, if the current urban area is located, the route where the road section with the traffic jam is located is selected as the navigation route.

Further, the method can also comprise the following steps:

and acquiring the current time, and determining a navigation route selection strategy adaptive to the current time based on the place or the type of the place where the route selected or abandoned by the user passes.

Specifically, in a first time period, selecting a place where a historical user selects a route to pass through or a route where the type of the place is located; in a second time period, a route is selected in which the place or the type of the place passed by the route discarded by the history user is located.

For example: the places or the types of the places passed by the routes selected by the historical users comprise: an outer loop segment; the places or types of places passed by the routes discarded by the historical users include: main urban road sections. When the first time interval is daytime, selecting a route where the outer ring road section is located as a navigation route; when the second time period is night, the route in which the main urban road section is located is selected as a navigation route, and the outer ring section through which the route selected by the historical user passes is not selected.

The present embodiment can be combined with the above embodiments.

The embodiment discloses an information processing method, which determines a navigation strategy based on acquired environment information or user data by determining a starting point and an end point, wherein the navigation strategy comprises a navigation route selection strategy or a navigation prompting mode. According to the scheme, after the starting point and the end point are determined, the navigation strategy is determined based on the environment information or the user data, so that the strategy for selecting the navigation route or the navigation prompting mode is determined according to the user requirements, and the user experience is improved.

The present embodiment discloses an information processing method, a flowchart of which is shown in fig. 5, and includes:

step S51, determining a starting point and an end point;

step S52, determining the current geographic position based on the acquired environment information;

the environment information may include: the current location may also include: the current road section may further include: architectural style or animal and plant type of the current location.

Determining a current geographic location based on the environmental information, including: determining a current city or area based on the current position; determining a city or area where the road section is located based on the current road section, and further determining the current city or area; and determining the current region based on the architectural style or animal and plant types of the current position.

And step S53, determining a navigation language prompting mode matched with the geographic position based on the geographic position.

Because the language expression modes in different regions are different, the languages may also be different, and therefore, the navigation language prompt mode matched with the geographic location may include: the language of the navigation language is matched to the geographic location, and/or the language expression of the navigation is matched to the geographic location.

For example: in shanghai, native people in shanghai often speak shanghai, not mandarin, and people often express major bends and minor bends in major bends and minor bends. Therefore, if the current position is in the shanghai, navigation language prompt is performed in a language expression method familiar to shanghai by shanghai.

Further, the navigation language prompting mode can be determined based on the language habit of the user, such as: if the user is Sichuan, the navigation language prompt is carried out through the Sichuan.

The present embodiment can be combined with the above embodiments.

The embodiment discloses an information processing method, which determines a navigation strategy based on acquired environment information or user data by determining a starting point and an end point, wherein the navigation strategy comprises a navigation route selection strategy or a navigation prompting mode. According to the scheme, after the starting point and the end point are determined, the navigation strategy is determined based on the environment information or the user data, so that the strategy for selecting the navigation route or the navigation prompting mode is determined according to the user requirements, and the user experience is improved.

The embodiment discloses an electronic device, a schematic structural diagram of which is shown in fig. 6, and the electronic device includes:

a processor 61 and a memory 62.

The memory 62 is used for storing the acquired environment information or user data.

The processor 61 is configured to determine a start point and an end point, and determine a navigation strategy based on the environmental information and/or user data stored in the memory 62, the navigation strategy including a strategy for navigation routing or a manner of navigation prompts.

The starting point and the end point can be input by a user, and can also be as follows: the electronic device automatically locates the starting point, and the ending point may be a common address for presetting, such as: the home or the company only needs to select to go home or go to the company when determining the terminal.

The strategy of navigation route selection, namely how to select the navigation route and in which case to select which navigation route.

For example: when the local stadium is holding a concert or other large event, then the navigation routing strategy may include: abandons the route passing through the local stadium and selects other routes.

Navigation prompt mode, i.e. the mode of prompting the user how to proceed.

For example: when passing through a certain intersection, the prompting is carried out through the landmark building of the intersection.

The user data may include: the personal data of the current user itself may also include: data of a plurality of users.

The processor 61 determines a navigation strategy based on user data stored in the memory 62, wherein the user data comprises: user historical navigation routing features.

The characteristics of the historical navigation route selection of the user, namely, the route characteristics of the user in the driving process are summarized in the records of a plurality of historical navigation routes of the user, such as: more external loops or more major loops are taken. Then, when determining the strategy of the navigation route, the characteristics of the historical navigation route selection can be used as the basis for the current navigation route selection, such as: the determination of the navigation route is preferably performed by a strategy of taking an outer loop, or, preferably, taking a major road.

The characteristics of the user history navigation route selection may include: the navigation route selection characteristics of a plurality of user histories may be only data of navigation route selection of the current user history.

Features of historical navigation routing, including: the location or type of location the user has historically chosen or abandoned the route passed.

The user data is analyzed to determine a navigation route selected by the user history or a navigation route discarded by the user history.

The navigation routes selected by the user history are analyzed, more routes or places in the navigation routes selected by the user history can be determined, and the routes or places which the user passes through are analyzed, so that more route characteristics or place characteristics of the user can be determined.

For example: when the route selected by the user in history is analyzed, the fact that the user passes through more streets is determined, and then the first street is preferably passed through when the current navigation route is selected;

when the first street is analyzed, it may be clear that there is no densely populated place such as a residential area, a school, or a shopping mall in the first street, and then, when the current navigation route is selected, it may be preferable to pass through a street that does not include the densely populated place such as a residential area, a school, or a shopping mall.

When the routes abandoned by the user history are analyzed, roads or places needing to pass through in a plurality of routes abandoned by the user history or roads or places needing to pass through in a plurality of abandoned routes can be determined, and the changed roads or places are analyzed, so that the characteristics and types of the roads or places passed through by the routes abandoned by the user are determined.

For example: when analyzing the routes discarded by the user history, determining that a plurality of routes discarded by the user or a plurality of routes all need to pass through a second street, and then discarding the routes passing through the second street when selecting the current navigation route;

when the second street is analyzed, it can be clear that the second street at least comprises a place with larger people flow, such as a hospital or a dish market, and then all routes needing to pass through the place with larger people flow are abandoned when the current navigation route is selected.

The processor 61 determines a navigation strategy based on the environment information stored in the memory 62, including: the processor 61 acquires the current time or the current location, and determines a navigation strategy adapted to the current time or the current location.

And acquiring the current time, and determining a navigation strategy adapted to the current time.

Wherein, the current time may include: different time periods, such as: day, night, or peak hours, idle hours, etc.

For example: when the current time period is night, determining a strategy for selecting a navigation route reaching the preset ambient brightness. Namely, when the current time is night, selecting a route with bright light on most road sections in the whole route, and not selecting a route passing through a path without illumination such as a street lamp;

and when the current time interval is night, determining a navigation prompt mode adaptive to the current environment brightness. For example: when passing through a certain intersection, because the light is relatively dim at night, a route prompting mode of prompting through a sign building is not selected, or a route prompting mode of prompting through a road name is not selected, and a mode of south, east, west and north or left and right is directly selected for route prompting.

And acquiring the current location, and determining a navigation strategy adapted to the current location.

Wherein, the current location may include: the specific city may also include: a certain area, or a specific location.

For example: and determining a navigation route selection strategy when the current location is a suburb and the traffic order reaches a preset condition. That is, if the vehicle is currently located in a suburban area, a route where a link with good traffic order is located is selected as the navigation route. In addition, if the current urban area is located, the route where the road section with the traffic jam is located is selected as the navigation route.

Further, the method can also comprise the following steps:

and acquiring the current time, and determining a navigation route selection strategy adaptive to the current time based on the place or the type of the place where the route selected or abandoned by the user passes.

Specifically, in a first time period, selecting a place where a historical user selects a route to pass through or a route where the type of the place is located; in a second time period, a route is selected in which the place or the type of the place passed by the route discarded by the history user is located.

For example: the places or the types of the places passed by the routes selected by the historical users comprise: an outer loop segment; the places or types of places passed by the routes discarded by the historical users include: main urban road sections. When the first time interval is daytime, selecting a route where the outer ring road section is located as a navigation route; when the second time period is night, the route in which the main urban road section is located is selected as a navigation route, and the outer ring section through which the route selected by the historical user passes is not selected.

The processor 61 determines a navigation prompt mode based on the environment information stored in the memory 62, including: the processor 61 determines the current geographical position based on the environment information stored in the memory 62, and determines the navigation language prompt mode matched with the geographical position based on the geographical position.

The environment information may include: the current location may also include: the current road section may further include: architectural style or animal and plant type of the current location.

Determining a current geographic location based on the environmental information, including: determining a current city or area based on the current position; determining a city or area where the road section is located based on the current road section, and further determining the current city or area; and determining the current region based on the architectural style or animal and plant types of the current position.

Because the language expression modes in different regions are different, the languages may also be different, and therefore, the navigation language prompt mode matched with the geographic location may include: the language of the navigation language is matched to the geographic location, and/or the language expression of the navigation is matched to the geographic location.

For example: in shanghai, native people in shanghai often speak shanghai, not mandarin, and people often express major bends and minor bends in major bends and minor bends. Therefore, if the current position is in the shanghai, navigation language prompt is performed in a language expression method familiar to shanghai by shanghai.

Further, the navigation language prompting mode can be determined based on the language habit of the user, such as: if the user is Sichuan, the navigation language prompt is carried out through the Sichuan.

The above embodiments can be combined and matched with each other.

The embodiment discloses an electronic device, which determines a starting point and an end point through a processor, and determines a navigation strategy based on acquired environment information or user data, wherein the navigation strategy comprises a navigation route selection strategy or a navigation prompting mode. According to the scheme, after the starting point and the end point are determined, the navigation strategy is determined based on the environment information or the user data, so that the strategy for selecting the navigation route or the navigation prompting mode is determined according to the user requirements, and the user experience is improved.

The embodiments in the present description are described in a progressive manner, each embodiment focuses on differences from other embodiments, and the same and similar parts among the embodiments are referred to each other. The device disclosed by the embodiment corresponds to the method disclosed by the embodiment, so that the description is simple, and the relevant points can be referred to the method part for description.

Those of skill would further appreciate that the various illustrative elements and algorithm steps described in connection with the embodiments disclosed herein may be implemented as electronic hardware, computer software, or combinations of both, and that the various illustrative components and steps have been described above generally in terms of their functionality in order to clearly illustrate this interchangeability of hardware and software. Whether such functionality is implemented as hardware or software depends upon the particular application and design constraints imposed on the implementation. Skilled artisans may implement the described functionality in varying ways for each particular application, but such implementation decisions should not be interpreted as causing a departure from the scope of the present invention.

The steps of a method or algorithm described in connection with the embodiments disclosed herein may be embodied directly in hardware, in a software module executed by a processor, or in a combination of the two. A software module may reside in Random Access Memory (RAM), memory, Read Only Memory (ROM), electrically programmable ROM, electrically erasable programmable ROM, registers, hard disk, a removable disk, a CD-ROM, or any other form of storage medium known in the art.

The previous description of the disclosed embodiments is provided to enable any person skilled in the art to make or use the present invention. Various modifications to these embodiments will be readily apparent to those skilled in the art, and the generic principles defined herein may be applied to other embodiments without departing from the spirit or scope of the invention. Thus, the present invention is not intended to be limited to the embodiments shown herein but is to be accorded the widest scope consistent with the principles and novel features disclosed herein.

Claims (8)

1. An information processing method characterized by comprising:

determining a starting point and an end point;

determining a navigation strategy based on the acquired environmental information and user data, the navigation strategy comprising a strategy of navigation routing;

wherein the determining a navigation policy based on the obtained environment information and user data comprises: and selecting a route where the type of the place passed by the route selected by the historical user is located in a first time interval and selecting a route where the type of the place passed by the route abandoned by the historical user is located in a second time interval based on the acquired environment information and the user data.

2. The method of claim 1, wherein determining a navigation policy based on the environmental information comprises:

acquiring the current time or the current place, and determining a navigation strategy adapted to the current time or the current place.

3. The method according to any one of claim 1, wherein the determining a navigation prompt mode based on the acquired environment information comprises:

determining the current geographic position based on the acquired environment information;

and determining a navigation language prompt mode matched with the geographic position based on the geographic position.

4. The method of claim 3, wherein the navigation language prompt matching the geographic location comprises:

the language of the navigation language is matched with the geographic position, and/or

The linguistic representation of the navigation is matched to the geographic location.

5. An electronic device, comprising: a processor and a memory, wherein:

the memory is used for storing the acquired environment information or user data;

the processor is used for determining a starting point and an end point, and determining a navigation strategy based on the environment information and the user data stored in the memory, wherein the navigation strategy comprises a navigation route selection strategy;

wherein the determining a navigation policy based on the obtained environment information and user data comprises: and selecting a route where the type of the place passed by the route selected by the historical user is located in a first time interval and selecting a route where the type of the place passed by the route abandoned by the historical user is located in a second time interval based on the acquired environment information and the user data.

6. The electronic device of any of claim 5, wherein the processor determines a navigation policy based on the environment information stored by the memory, comprising:

the processor obtains a current time or a current location and determines a navigation strategy adapted to the current time or the current location.

7. The electronic device of any of claim 5, wherein the processor determines a navigation prompt mode based on the environmental information stored in the memory, comprising:

the processor determines the current geographic position based on the environmental information stored in the memory, and determines a navigation language prompt mode matched with the geographic position based on the geographic position.

8. The electronic device of claim 7, wherein the processor determines a navigation language prompt style that matches the geographic location, comprising:

the processor determines the language of the navigation language matching the geographic location and/or determines the language expression of the navigation language matching the geographic location.

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