CN115022459A - Travel reminding method and electronic equipment - Google Patents

Abstract

The application provides a travel reminding method and electronic equipment. By adopting the method, whether the PUSH fence of the first travel application is triggered is detected, and the PUSH fence trigger of the first travel application is used for indicating the electronic equipment to receive a PUSH message sent by the server of the first travel application; detecting whether a target fence of a current scene is triggered, wherein the target fence of the current scene comprises a target geo-fence of the current scene, and the target geo-fence trigger of the current scene is used for indicating that the electronic equipment is located in a target area of the current scene; if the target fence trigger of the current scene or the PUSH fence trigger of the first travel application is detected, judging whether the travel prompt of the current scene is displayed or not; and if the travel prompt of the current scene is determined to be displayed, displaying the travel prompt of the current scene, and removing the target fence of the current scene or ignoring the PUSH message of the current scene acquired next time according to the triggered fence. The method and the device can provide accurate travel reminding for the user.

Description

Travel reminding method and electronic equipment

Technical Field

The application relates to the technical field of computers, in particular to a travel reminding method and electronic equipment.

Background

With the rapid development of electronic technology, the popularity of mobile terminals such as smart phones is higher and higher, and with the development of network technology, the functions of the mobile terminals are more and more powerful, and users can complete many things such as sending mails and ordering train tickets on line through the mobile terminals. Generally, after a user orders a train ticket, a ticket purchasing website pushes a short message prompt to the user so as to prevent the user from missing a journey.

However, the prompt method using the short message is poor in instantaneity, inaccurate in prompt and poor in user experience.

Disclosure of Invention

The application provides an optimized travel reminding method and electronic equipment.

In some scenarios, the reminding mode using the short message may be affected by the environment, which may result in that the mobile phone may not provide an accurate travel reminder for the user in time. In some embodiments of the application, the electronic device can accurately judge the behavior of the user through the fences with multiple dimensions, and timely and accurately provide travel reminding for the user.

In some embodiments, the handset may determine that the user arrived at a train station or airport through collaboration between 3 fences. Taking the train-out behavior example, the three fences can be PUSH fences for train-out applications (such as railway 12306 applications), geo-fences for the railway station, and time fences, wherein the time fences can be bottom-in fences. When the user orders the train ticket, the user can subscribe the PUSH fence applied to the railway 12306, and after obtaining the travel information (such as the travel time of the train and the departure station of the train), the user subscribes the geo fence and the time fence. When neither the PUSH fence nor the geo-fence of the registration (also called subscription) is triggered, the handset can determine whether the user arrives at the train station through the bottom-pocketed time fence. When the context awareness module in the mobile phone detects that the inbound message pushed by the application of the railway 12306 is received, the subscribed PUSH fence is triggered, and the subscribed geo fence and the subscribed time fence are cancelled at the same time, that is, the PUSH fence is used as the standard at this time. When the subscribed geo-fence is triggered, canceling the subscribed bottom-of-pocket time fence, and meanwhile ignoring the received PUSH message indicating the arrival; when the bottom-of-pocket time fence triggers, the subscribed geofences are cancelled while the received PUSH message indicating an inbound is ignored. Different environments have different influences on the triggering of the PUSH fence and the geo-fence, for example, the environment with poor network signals is not beneficial to receiving PUSH messages, but the environment has no influence on positioning geographic positions, and in the environment, because the mobile phone is also equipped with the geo-fence instead of completely depending on the PUSH fence, the problem that whether the user arrives at a railway station or not can not be determined due to the fact that the PUSH fence is not triggered can be avoided. Some environments can affect the PUSH fence and the geo-fence at the same time, and the time fence is not affected by the environment, so that the prompt pop-up of the travel reminder can be ensured. In some scenarios, a geofence (i.e., a target geofence hereinafter of the present application) may have an effective time attribute, and a train station fence may be understood as including a time fence and a geofence associated with the time fence (the time fence is used to determine the time to register the geofence, and may also be understood as the time fence used to determine the effective time of the geofence): the method includes the steps that a train station fence is subscribed in advance (subscription can be understood as registration), a time fence in the train station fence can be registered first (or understood as effective first), when the time fence starts to be registered, and then whether the geo fence is triggered or not can be set to be effective time, for example, when a train station fence is set before 5 days, but the effective time can be fifth day (when the time fence is triggered), even if a user passes through the train station in the last four days, a context awareness module in a mobile phone cannot sense the geo fence event, and power consumption of the train fence is reduced. Through the cooperation of the fences with multiple dimensions, the behavior of the user can be accurately judged, and the travel reminding can be timely and accurately provided for the user.

In a first aspect, the present application provides a method for travel reminding, which is applied to an electronic device, and the method includes: detecting whether a PUSH fence of a first trip application is triggered, wherein the PUSH fence trigger of the first trip application is used for indicating that an electronic device receives a PUSH message sent by a server of the first trip application; detecting whether a target fence of a current scene is triggered, wherein the target fence of the current scene comprises a target geo-fence of the current scene, and the target geo-fence trigger of the current scene is used for indicating that the electronic equipment is located in a target area of the current scene; if the target fence trigger of the current scene or the PUSH fence trigger of the first travel application is detected, judging whether the travel prompt of the current scene is displayed or not; and if the travel prompt of the current scene is determined to be displayed, displaying the travel prompt of the current scene, and removing the target fence of the current scene or ignoring the PUSH message of the current scene acquired next time according to the triggered fence.

In some scenarios, if only one-dimensional fence is registered (for example, only a geo-fence is registered), since the current latitude and longitude information acquired by the mobile phone is greatly influenced by the environment, and the geographic location information acquired by the context awareness module in the mobile phone may be inaccurate, a problem that a trip reminder cannot be provided for the user in time may be caused, and similarly, a problem that a reminder is missed or mistakenly reminded may exist in both a single-use time fence and a single-use PUSH fence of a first trip application (for example, a user has arrived at a station, and a problem that a PUSH message indicating that the user has arrived at the station and sent by a server of a railway 12306 ″ application is not received by the mobile phone of the user due to a network delay or signal problem may cause a problem that the electronic device has missed a reminder. In the application, the electronic device registers a plurality of fences with different functions (dimensions), such as PUSH fences and target geofences of various scenes, according to the trip data; the electronic equipment monitors the information of two different dimensions simultaneously, so that the information of each dimension is compensated mutually in different scenes, the problem that the user cannot be reminded of going out due to inaccurate monitoring of one piece of information is avoided, and the accuracy of going out reminding is improved.

According to the first aspect, if it is detected that the target fence of the current scene is triggered or the PUSH fence of the first travel application is triggered, whether to display the travel reminder of the current scene is determined, including: if the target fence trigger of the current scene is detected, determining to display the travel reminder of the current scene; if detecting that the PUSH fence of the first trip application is triggered, analyzing the received PUSH message, and judging whether the PUSH message of the current scene exists in the PUSH message or not; if the PUSH message of the current scene is determined to be acquired, determining to display the travel prompt of the current scene; and if the PUSH message of the current scene is determined not to be acquired, the display of the travel prompt of the current scene is determined to be cancelled.

In this way, since the PUSH message generally includes a lot of content, for example, the current scene is a scene of arriving at the departure station, the electronic device detects the PUSH fence trigger, and the PUSH message received by the electronic device may be train ticket information for train trip. The received PUSH message cannot be used to determine whether the user arrives at the train station. In this example, through the analysis of the PUSH message, when it is detected that the PUSH message of the current scene is acquired, the guidance information of the current scene is determined to be displayed, so that the accuracy of determining and displaying the guidance information of the current scene is improved, and the guidance information is prevented from being displayed mistakenly subsequently. When the target geo-fence is triggered, the position of the electronic equipment can be indicated, the guiding information of the scene can be determined and displayed without other operations, and the judging speed is high.

According to the first aspect, in the method, according to the triggered fence, releasing the target fence of the current scene or ignoring the PUSH message of the current scene acquired next time includes: if the PUSH fence of the first travel application is triggered and the PUSH message of the current scene is determined to be acquired, the target fence of the current scene is removed; and if the target fence is triggered, ignoring the PUSH message of the current scene acquired next time.

In this way, when the PUSH fence is triggered and the PUSH message of the current scene is determined to be acquired, the guidance information of the current scene is determined to be displayed, the target fence of the current scene is removed, and unnecessary power consumption can be reduced; similarly, when the target fence is determined to be triggered, the guidance information of the current scene can be determined to be displayed, and the next acquired PUSH message of the current scene does not need to be processed, so that the power consumption is reduced.

According to a first aspect, the target fence of the current scene in the method further comprises a target time fence of the current scene; detecting whether a target fence of a current scene is triggered comprises: detecting whether a target geo-fence of a current scene is triggered and detecting whether a target time fence of the current scene is triggered, wherein the target time fence trigger of the current scene is used for indicating the preset appointed time of the current scene.

Like this, the target rail still includes target time rail, and also electronic equipment monitors three rail simultaneously, increases the target time rail of a time dimension, and the data of further richening the monitoring improve the accurate prediction to user's action, and then provides the accurate warning of going out for the user. For example, a train ticket of the user departs from the train at 10:00 days 1/12, and if the specified time for arriving at the departure station is preset to be 9:30, when the time reaches 9:30, the user can be predicted to arrive at the departure station, and then a travel prompt for arriving at the departure station is provided for the user.

According to the first aspect, according to the triggered fence, releasing the target fence of the current scene or ignoring the PUSH message of the current scene acquired next time includes: if the target time fence trigger of the current scene is determined, removing the target geo-fence of the current scene and ignoring the PUSH message of the current scene acquired next time; if the target geo-fence trigger of the current scene is determined, removing the target time fence of the current scene and ignoring the PUSH message of the current scene acquired next time; and if the PUSH fence of the first travel application is triggered and the PUSH message of the current scene is determined to be acquired, removing the target geo-fence of the current scene and the target time fence of the current scene.

In this way, when the target fence further includes the target time fence, if the target geo-fence is triggered or the target time fence is triggered, not only the PUSH message of the current scene acquired next time needs to be ignored, but also another fence in the target fence needs to be removed, and if the PUSH fence of the first trip application is triggered and it is determined that the PUSH message of the current scene is acquired, the target geo-fence and the target time fence are removed, so that the power consumption of the electronic device is reduced.

According to the first aspect, before detecting whether a PUSH fence of the first travel application is triggered, the method further comprises: if the fact that an authorization relation exists between the authorization object and the specified application account is detected, registering a PUSH fence of the first trip application, wherein the authorization object comprises an identification of the electronic equipment or an account of the user on a user service platform, and the specified application account is an account of a server of the first trip application of the user.

In this way, when the existence relation between the authorization object and the specified application account is detected, the PUSH fence of the first trip application is registered, so as to ensure that the PUSH message can be detected in time.

According to a first aspect, a target geofence for a current scene comprises: an effective time fence and an effective geo-fence; detecting whether a target fence of a current scene is triggered, including: detecting whether an effective time fence in a target geo-fence of a current scene is triggered, wherein the effective time fence trigger is used for indicating that preset registration time of the target geo-fence is reached; if the trigger of the effective time fence in the target geo-fence of the current scene is detected, registering the effective geo-fence in the target geo-fence of the current scene; detecting whether the effective geo-fence of the target geo-fence of the current scene is triggered, and if the effective geo-fence of the target geo-fence of the current scene is detected to be triggered, determining that the target fence of the current scene is triggered.

In this way, the target geofence comprises an effective time fence and an effective geofence, and the effective geofence is registered only when the effective time fence is triggered, so that the electronic device detects the position of the electronic device only after the effective time fence is triggered, power consumption is reduced, the problem of false triggering when a user passes through the target position is avoided, and the accuracy of the target geofence is improved.

According to a first aspect, prior to detecting whether an effective time fence in the target geofences of the current scene is triggered, the method further comprises: acquiring travel data of a user; and registering the effective time fence of the target geo-fence of each scene according to the travel data and the scenes of each trip. In this way, the effective time fence of each scene is registered through the trip data of the user, so that the registration of the effective geo-fence in the target geo-fence is matched with the trip of the user, and the accuracy of the target geo-fence is further improved. For example, the ticket buying time of the user is 1 month and 1 day, and the departure time of the train is 1 month and 5 days, so that the effective time fence can be triggered at 1 month and 5 days according to the departure time of the user, the effective geo-fence is registered, and the effective geo-fence in the target geo-fence is not registered before 1 month and 5 days, so that the position of the electronic device cannot be monitored, that is, the problem of position false detection cannot occur.

According to a first aspect, the scene of travel comprises: a scene of arriving at the departure station, a scene of going on a trip, a scene of arriving at the destination station, and a scene of departing from the destination station. The scene of going out is the scene that the user needs to remind, carries out the trip to this scene of going out and reminds, and is pointed, improves user's experience.

According to a first aspect, the trigger condition for a target time fence of a scene arriving at a departure station comprises: the time difference value from the predicted departure time is less than or equal to a first preset time length; the target area of the target geofence of the scene arriving at the origin includes: the area where the departure station is located. Therefore, the target time fence can be determined according to the travel of the user, the travel requirement of the user is met, and the travel reminding accuracy is improved.

According to a first aspect, the triggering condition of the target time fence of the scene in the trip comprises: detecting that the position is between the estimated departure time and the estimated arrival time; the target area of the target geofence for the in-flight scene includes a preset area outside of the starting station. Therefore, the target time fence of the scene in the journey can be determined according to the journey of the user, the requirement of the user on travel is met, and the accuracy of travel reminding is improved.

According to a first aspect, the trigger condition of a target time fence of a scene arriving at a destination: the sum of the time of reaching the estimated arrival time and the estimated error duration; the target area of the target geofence of the scene of arrival at the destination station includes: the area of the destination station. Therefore, the target time fence of the scene reaching the destination station can be determined according to the travel of the user, the travel requirement of the user is met, and the travel reminding accuracy is improved. Meanwhile, the area where the destination station is located is used as a target area of a target geo-fence reaching the destination station scene, so that the setting of the target geo-fence of the scene meets the travel requirement of a user.

According to a first aspect, the trigger condition of the target time fence of the scene leaving the destination: the sum of the estimated arrival time and the preset outbound time is reached; the target area of the target geofence of the scene leaving the destination station includes: a preset area outside the area of the destination station. Therefore, the target time fence and the target geographic fence of the scene leaving the destination station can determine the corresponding trigger conditions according to the journey of the user, so that the trigger of the fence meets the requirement of the user on trip, and the accuracy of trip reminding is improved.

According to a first aspect, registering an effective time fence of a target geofence for each scene according to trip data and scenes for each trip includes: acquiring an estimated departure time from the journey data, and registering an effective time fence in a target geo-fence arriving at a departure station scene and an effective time fence in the target geo-fence under a scene in a registered journey; the trigger condition of the effective time fence in the target geo-fence arriving at the departure station scene and the trigger condition of the effective time fence in the target geo-fence in the in-journey scene are both: the distance between the estimated departure time and the preset first trigger time is less than or equal to the preset first trigger time;

acquiring estimated arrival time from the travel data, registering an effective time fence in the target geo-fence in the scene of an arrival destination station and registering an effective time fence in the target geo-fence in the scene of an departure destination station; the effective time fence trigger condition in the target geo-fence in the in-trip scenario and the effective time fence trigger condition in the target geo-fence in the arrival destination scenario are both: and the distance between the predicted departure time and the preset second trigger time is less than or equal to the preset second trigger time.

Therefore, the triggering conditions of the fence are determined according to the predicted arrival time and the predicted departure time, so that the triggering of the fence meets the requirement of the user on trip, and the accuracy of trip reminding is improved.

According to the first aspect, before displaying the travel reminder of the current scene, the method further includes: canceling the travel reminding of the last scene; or, the displayed content is instructed to be updated from the travel reminder of the last scene to the travel reminder of the current scene. Therefore, the problem that the user is disturbed by outdated trip reminding is avoided, and the use experience of the user is improved.

According to a first aspect, if the first travel application is a train travel application, the method comprises: detecting whether a PUSH fence applied to train trip is triggered, wherein the PUSH fence trigger applied to train trip is used for indicating that electronic equipment receives a PUSH message sent by a server applied to train trip; detecting whether a railway station fence of a current scene is triggered, wherein the railway station fence of the current scene comprises a target geographic fence taking a railway station in the current scene as a target area; if detecting the train station fence of the current scene or the PUSH fence trigger applied by the train trip, judging whether to display the trip prompt of the current scene; if the travel prompt of the current scene is determined to be displayed, displaying the travel prompt of the current scene, and removing the rail of the railway station of the current scene or ignoring PUSH information of the current scene acquired next time according to the triggered rail;

if the first travel application is an airplane travel application, the method comprises the following steps: detecting whether a PUSH fence of the airplane travel application is triggered, wherein the PUSH fence trigger of the airplane travel application is used for indicating that the electronic equipment receives a PUSH message sent by a server of the airplane travel application; detecting whether an airport fence of a current scene is triggered, wherein the airport fence of the current scene comprises a target geo-fence taking an airport of the current scene as a target area; if the trigger of the airport fence or the PUSH fence applied by the airplane trip in the current scene is detected, judging whether the trip prompt in the current scene is displayed or not; and if the travel prompt of the current scene is determined to be displayed, displaying the travel prompt of the current scene, and removing the fence of the airport of the current scene or ignoring the PUSH message of the current scene acquired next time according to the triggered fence.

Therefore, the at least two fences can remind the train of each scene of the trip, and the at least two fences can remind the train of each scene of the trip

In a second aspect, the present application provides an electronic device, comprising: one or more processors; a memory; and one or more computer programs, where the one or more computer programs are stored on the memory, and when the computer programs are executed by the one or more processors, the electronic device is enabled to execute the method for reminding a trip according to any one of the implementations of the first aspect and the first aspect.

Any one implementation manner of the second aspect and the second aspect corresponds to any one implementation manner of the first aspect and the first aspect, respectively. For technical effects corresponding to any one implementation manner of the second aspect and the second aspect, reference may be made to the technical effects corresponding to any one implementation manner of the first aspect and the first aspect, and details are not repeated here.

In a third aspect, the present application provides a computer-readable medium, configured to store a computer program, and when the computer program runs on an electronic device, cause the electronic device to execute a method for reminding a trip, where the method corresponds to any one of the implementation manners of the first aspect and the first aspect.

Drawings

In order to more clearly illustrate the technical solutions of the embodiments of the present application, the drawings needed to be used in the description of the embodiments of the present application will be briefly introduced below, and it is obvious that the drawings in the following description are only some embodiments of the present application, and it is obvious for those skilled in the art that other drawings can be obtained according to these drawings without inventive exercise.

Fig. 1 is a schematic structural diagram of an exemplary illustrated electronic device;

FIG. 2 is a schematic diagram of a software architecture of an exemplary illustrated electronic device;

fig. 3 is a schematic diagram of a method for travel reminding according to an embodiment of the present application;

fig. 4 is a schematic diagram illustrating an example of a case where any fence of the current scenario is triggered or a case where a PUSH message of the current scenario is determined to be acquired;

fig. 5 is a schematic diagram of the hint information displayed by the various scenes shown as examples.

Detailed Description

The technical solutions in the embodiments of the present application will be clearly and completely described below with reference to the drawings in the embodiments of the present application, and it is obvious that the described embodiments are some, but not all, embodiments of the present application. All other embodiments obtained by a person of ordinary skill in the art based on the embodiments in the present application without making any creative effort belong to the protection scope of the present application.

The term "and/or" herein is merely an association relationship describing an associated object, and means that there may be three relationships, for example, a and/or B, which may mean: a exists alone, A and B exist simultaneously, and B exists alone.

The terms "first" and "second," and the like in the description and in the claims of the embodiments of the present application, are used for distinguishing between different objects and not for describing a particular order of the objects. For example, the first target object and the second target object, etc. are specific sequences for distinguishing different target objects, rather than describing target objects.

In the embodiments of the present application, the words "exemplary" or "such as" are used herein to mean serving as an example, instance, or illustration. Any embodiment or design described herein as "exemplary" or "e.g.," is not necessarily to be construed as preferred or advantageous over other embodiments or designs. Rather, use of the word "exemplary" or "such as" is intended to present concepts related in a concrete fashion.

In the description of the embodiments of the present application, the meaning of "a plurality" means two or more unless otherwise specified. For example, a plurality of processing units refers to two or more processing units; the plurality of systems refers to two or more systems.

Fig. 1 is a schematic structural diagram of an electronic device 100 according to an embodiment of the present disclosure. It should be understood that the electronic device 100 shown in fig. 1 is only one example of an electronic device, and that the electronic device 100 may have more or fewer components than shown in the figures, may combine two or more components, or may have a different configuration of components. The various components shown in fig. 1 may be implemented in hardware, software, or a combination of hardware and software, including one or more signal processing and/or application specific integrated circuits.

The electronic device 100 may include: the mobile terminal includes a processor 110, an external memory interface 120, an internal memory 121, a Universal Serial Bus (USB) interface 130, a charging management module 140, a power management module 141, a battery 142, an antenna 1, an antenna 2, a mobile communication module 150, a wireless communication module 160, an audio module 170, a speaker 170A, a receiver 170B, a microphone 170C, an earphone interface 170D, a sensor module 180, a button 190, a motor 191, an indicator 192, a camera 193, a display screen 194, a Subscriber Identity Module (SIM) card interface 195, and the like. Wherein the sensor module 180 may include a pressure sensor, a gyroscope sensor, an air pressure sensor, a magnetic sensor, an acceleration sensor, a distance sensor, a proximity light sensor, a fingerprint sensor, a temperature sensor, a touch sensor, an ambient light sensor, a bone conduction sensor, etc.

Fig. 2 is a block diagram of a software structure of the electronic device 100 according to the embodiment of the present application.

The layered architecture of the electronic device 100 divides the software into several layers, each layer having a clear role and division of labor. The layers communicate with each other through a software interface. In some embodiments, the Android system is divided into four layers, an application layer, an application framework layer, an Android runtime (Android runtime) and system library, and a kernel layer from top to bottom.

As shown in fig. 2, the application layer may include a series of application packages. The application package may include applications such as a context awareness module, a service logic processing module, a service presentation module, a gallery, WLAN, bluetooth, music, games, short messages, and the like.

The context awareness module is resident in operation or operates in a low-power consumption mode and has the capability of perceiving external facts or environments. When the card reminds the service processing starting state, the context awareness module monitors registered events (such as specific time, specific place, specific event and the like), and if a user triggers one of the events, the context awareness module sends a notification to the service logic processing module. In addition, the context awareness module may also detect related events and obtain states of the events from other application programs or application program framework layers or kernel layers of the application program layer through the application program interface, such as detecting bluetooth connection, network connection, monitoring user short messages, customizing timers, and the like.

The business logic processing module is used for realizing the display of various cards and the display of notifications.

And the service presentation module (such as YOYO suggestion) is used for controlling the display or disappearance of the card. For example, the service presentation module may receive a command for displaying a reminder card transmitted by the service logic processing module and display the reminder card to the user. Correspondingly, if a card disappearing command transmitted by the service logic processing module is received, the service presenting module eliminates the card.

The application framework layer provides an Application Programming Interface (API) and a programming framework for the application program of the application layer. The application framework layer includes a number of predefined functions.

As shown in FIG. 2, the application framework layers may include a window manager, content provider, view system, explorer, notification manager, activity manager, and the like.

The system library may include a plurality of functional modules. For example: surface managers (surface managers), Media Libraries (Media Libraries), three-dimensional graphics processing Libraries (e.g., OpenGL ES), 2D graphics engines (e.g., SGL), and the like.

The kernel layer is a layer between hardware and software. The kernel layer at least comprises a display driver, a Wi-Fi driver, a Bluetooth driver, an audio driver, a sensor driver and the like.

It is to be understood that the layers in the software structure and the components included in each layer shown in fig. 2 do not constitute a specific limitation to the electronic device 100. In other embodiments of the present application, electronic device 100 may include more or fewer layers than those shown, and may include more or fewer components in each layer, which is not limited in this application.

In some embodiments, the ticket purchasing application may remind the user of the trip by a short message after the user purchases a train ticket, for example, route information (such as train number, route date, departure place, destination, and the like) is sent before the trip to remind the user of the trip, and the trip is reasonably arranged. However, due to the environmental influence, the mobile phone may not provide an accurate travel reminder for the user in time.

Some embodiments of the application provide a method for travel reminding, so that electronic equipment can timely and accurately provide travel reminding for a user.

In the embodiment of the present application, the electronic device is described by taking a mobile phone as an example. In other embodiments, the electronic device may also be a tablet, a smart wearable device, an in-vehicle device, or the like. Optionally, the trip reminding can remind the train trip of the user, and can also be used for reminding the airplane trip and the ship trip of the user. In this example, the train trip reminding of the user is taken as an example for explanation, and the train trip reminding can be referred to as both the airplane trip reminding and the ship trip reminding.

Fig. 3 is an interaction diagram exemplarily illustrating the mobile phone executing the method for travel reminding and a server (such as a service platform of "railway 12306", hereinafter referred to as "12306 platform") of a specific application in the embodiment of the present application. The authorization reminding method comprises the following steps:

step 301: the business logic processing module requests the journey data from the 12306 platform.

Illustratively, the service platform account number of the user has an authorization relationship with an account number of the ticket-buying application server, and optionally, the service platform account number may be a user account number of the user in a server corresponding to the electronic device, and the service platform may be a server corresponding to the mobile phone, such as a glory platform. The account of the ticket-buying application server may be a user account of a user in a ticket-buying application (i.e. a first trip application), and optionally, the first trip application may be a train trip application, such as: railway 12306 applications, where to go applications, etc. The first travel application may also be an airplane travel application, such as a cruise crossbar application, an application for each airline company, and the like. In this example, the ticket purchasing application (i.e., the first travel application) is exemplified by a "railway 12306" application, and the service platform is exemplified by a glory platform. Through the authorization relationship between the glory account of the user and the 12306 account of the user, the 12306 platform can PUSH the PUSH message to the glory platform, so that the mobile phone bound with the glory account can conveniently acquire the travel data of the user.

For example, an authorized relationship exists between a glory account of a user and a 12306 account (i.e., the user account of the user in the railway 12306) (i.e., the glory account is bound to the 12306 account), when the user orders a train ticket using the 12306 account, the 12306 platform (i.e., the server corresponding to the application of the railway 12306) sends an order summary (the order summary includes time, train number information, etc.) of the train ticket to the glory platform, and the glory platform sends the order summary to the corresponding mobile phone a according to the binding relationship between the glory account and the terminal. The service logic processing module of the mobile phone a requests the travel data of the user to the interface of the 12306 platform according to the information of the order abstract, and the travel data may include complete information of the user travel, such as start station, destination, train number, departure date, seat number, ticket checking port, train state information (such as entered station, exited station), and ticket state (such as ticket change and ticket refund).

It should be noted that, when it is detected that an authorization relationship exists between the service platform account of the user and the user account in the ticket purchasing application, the service logic processing module may register a PUSH fence of the feedback information to the context awareness module, where the PUSH fence of the feedback information is used to detect whether a PUSH message fed back by the 12306 platform is received. Through the PUSH fence for feeding back information, a PUSH channel between the business logic processing module and the 12306 platform is communicated, so that the business logic processing module can communicate with the 12306 platform.

Step 302: 12306 platform returns the journey data to the business logic processing module.

Step 303: the service logic processing module registers the PUSH fence with the context awareness module.

Illustratively, upon receiving the trip data, the business logic processing module may register a PUSH fence with the context awareness module. The context awareness module registers the PUSH fence in response to the registration indication of the business logic processing module. In this example, the registration indication may indicate that the PUSH fence registered by the context awareness module is used to detect whether a message pushed by a specified platform, such as a 12306 platform (i.e., a server corresponding to the 12306 application), is received. For example, once the PUSH fence is registered in this example, the context awareness module will continuously detect whether the mobile phone receives the message pushed by the 12306 platform.

In one example, the PUSH fence registered in this step may not coincide with the PUSH fence of the feedback information. If the PUSH fence of the feedback information is consistent with the function of the PUSH fence, and the PUSH fence is registered before step 301, step 303 may not be executed.

Step 304: the business logic processing module registers the geo-fences of each scene to the context awareness module.

Optionally, the scene may include: arrive at the departure station, travel, arrive at the destination station, and leave the destination station. The division of the scene in this example is only an example, and in other embodiments, the scene may further include: leave the departure station, arrive at any of the waypoints in the route, etc., and there is no further description of possible scenarios.

Illustratively, the business logic processing module can register the geofences of the scenes with the context awareness module according to the trip data. The context awareness module registers the geofences of the respective scenarios in response to the registration indication of the business logic processing module. The registration indication indicates a target latitude and longitude in the geofence and an effective time of the geofence. For example, the service logic processing module may determine a first departure station registration instruction and a first journey registration instruction according to departure time and longitude and latitude information of the departure station, where the first departure station registration instruction is used for indicating a geo-fence of a scene registered to arrive at the departure station, and the first journey registration instruction is used for indicating a geo-fence of a scene in a registration journey. The service logic processing module can determine a first entering destination station registration instruction and a first leaving destination station registration instruction according to the arrival time and the longitude and latitude information of the destination station, wherein the first entering destination station registration instruction is used for indicating a geo-fence for registering an arrival destination station scene, and the first leaving destination station registration instruction is used for indicating a geo-fence for registering a leaving destination station scene.

Optionally, the process of registering the geofence of any scene by the context awareness module in this example may be: after the context awareness module receives indication information indicating that the geofence is registered, registering an effective time fence and an effective geofence. The triggering time of the effective time fence is determined by the service logic processing module according to the departure time of the train, for example, the time length from the departure time is less than or equal to 4 hours. The context awareness module registers the effective geo-fence after detecting that the effective time fence is triggered, and the target longitude and latitude of the effective geo-fence are provided by the service logic processing module, for example, if the current scene is a scene of arriving at the departure station, the target longitude and latitude of the effective geo-fence are the longitude and latitude information of the departure station. Optionally, the context awareness module destroys the effective time fence of the current scene at the same time. The context awareness module monitors in real-time whether the effective geofence is triggered. That is, the geofence in the present application has an effective time, and after the effective time is reached, the change in geographic location is located in real time.

In some embodiments, the business logic processing module registers the geofence of the current scene with a context awareness module, which registers the geofence to locate the change in geographic location in real-time. That is, the geofence does not have an effective time fence, and a change in geographic location of the user is detected immediately upon registration.

The geofence is exemplified in this application as having an effective time.

Step 305: and the service logic processing module registers the bottom-guaranteed time fence of each scene to the context awareness module.

Optionally, the scenes in this step are the same as the scenes in step 304, that is, the scenes include: arrive at the departure station, travel, arrive at the destination station, and leave the destination station.

For example, the business logic processing module can register the bottom-guaranteed time fence (also understood as a bottom-of-pocket time fence) of each scene according to the travel data. And the context awareness module responds to the registration instruction of the business logic processing module and registers the bottom-preserving time fence of each scene. For example, the service logic processing module may determine a second departure station registration instruction according to the departure time of the train, where the second departure station registration instruction is used to instruct the context awareness module to register a time fence reaching a departure station scene; the service logic processing module determines a second journey registration instruction according to the predicted arrival time and the predicted departure time in the journey data, and the second journey registration instruction indicates the scene perception module to register a bottom-preserving time fence of a scene in the journey; and the service logic processing module determines a second entering destination station registration instruction and a second leaving destination station registration instruction according to the predicted arrival time in the travel data, wherein the second entering destination station registration instruction is used for indicating a time fence for the context awareness module to register the arrival destination station scene, and the second leaving destination station registration instruction is used for indicating a time fence for the context awareness module to register the leaving destination station scene.

For example, the predicted departure time is T1 and the predicted arrival time is T4 in the trip data. The service logic processing module may indicate that the trigger condition of the time fence of the arrival departure station scenario is: the difference between T1-T is less than or equal to T1, where T is the detection time, and T1 is a first preset time period, which is 30 minutes in this example.

The service logic processing module may indicate that the trigger condition of the time fence of the scene in the journey is: t1 is more than or equal to T is less than or equal to T4, wherein T is detection time.

The service logic processing module may indicate that the trigger condition of the time fence of the arrival destination scenario is: t4 ± T2, where T is the detection time, T2 is the predicted delay or advance time provided by the 12306 platform, e.g., the predicted delay of the 12306 platform sending the train is 10 minutes, the trigger condition of the time fence to arrive at the destination station scene is T4+10 min.

The service logic processing module may indicate that the trigger condition of the time fence leaving the destination station scenario is: T-T4 + T3. Wherein t3 is a third preset duration, and t3 is greater than 0; in this example, the third preset time period is 60 minutes as an example.

Step 306: if the context awareness module detects that any one of the PUSH fence, the geo-fence of the current scenario, and the bottom-guaranteed time fence of the current scenario is triggered, step 307 is executed.

Specifically, after the context awareness module registers the PUSH fence, the context awareness module will monitor whether the PUSH fence is triggered in real time. After the bottom-guaranteed time fence of the current scene is registered, the scene perception module monitors whether the current time reaches the trigger time of the bottom-guaranteed time fence.

The context awareness module detects that the current time reaches the effective time of the geo-fence, the context awareness module detects whether the longitude and latitude value reaches the triggering condition of the geo-fence in real time, and if the longitude and latitude value reaches the triggering condition, the context awareness module determines that the geo-fence is triggered. The context awareness module detects whether the current time reaches the trigger time of the bottom-preserving time fence, and determines that the bottom-preserving time fence is triggered when the current time reaches the trigger time of the bottom-preserving time fence.

For example, if the context awareness module receives a message pushed by the 12306 platform, the context awareness module determines that the PUSH fence is triggered. If the effective time of the registered geo-fence is T1, the destination longitude and latitude are (A, B), and the unit of the longitude and latitude is latitude, when the time T is detected to be T1, the context awareness module starts to detect the change of the geographic position, and when the longitude and latitude are detected to be consistent with the target longitude and latitude, the context awareness module determines that the geo-fence trigger is detected. If the triggering time of the bottom-preserving time fence is the time length from the departure time and is less than or equal to 30 minutes, the context awareness module determines that the bottom-preserving time fence is triggered.

If the context awareness module detects any fence trigger in the current scene, or detects a PUSH fence trigger, step 307 is executed.

Step 307: the context awareness module indicates any fence or PUSH fence trigger of the current scenario to the business logic processing module.

Step 308: and the service logic processing module determines any fence trigger of the current scene or determines to acquire the PUSH message of the current scene.

And if the service logic processing module receives the PUSH fence triggering indication reported by the context awareness module, acquiring the PUSH message from the context awareness module. The service logic processing module analyzes the PUSH message, acquires the PUSH type of the current scene, inquires whether the analyzed PUSH message has a message corresponding to the PUSH type of the current scene, and determines to acquire the PUSH message of the current scene if the message corresponding to the PUSH type of the current scene is inquired. And if the information corresponding to the PUSH type of the current scene is not inquired, the service logic processing module determines that the PUSH information of the current scene is not acquired. For example, the service logic processing module may pre-store a key identifier of a PUSH type arriving at the departure scene, and determine to acquire the PUSH message arriving at the departure scene if the key identifier of the PUSH type arriving at the departure scene exists in the analyzed PUSH message.

And the service logic processing module receives the indication, and then determines the trigger of the bottom-guaranteed time fence of the current scene. And if the service logic processing module receives the geofence trigger of the current scene reported by the context awareness module, determining the geofence trigger of the current scene.

This step may be followed by performing step 309 and step 310 simultaneously.

Step 309: and the service logic processing module sends indication information for indicating the service presentation module to display the prompt information to the context awareness module.

Illustratively, the indication information is used to instruct the service presenting module to display the prompt information of the current scene. And the service logic processing module determines prompt information corresponding to each scene. Alternatively, the prompt information of the arrival departure scene may include the predicted departure time and predicted arrival time of the train ticket, the departure place and destination, train number information, seat information, ticket gate information, and the like. The prompt message of the arrival departure scene can also be linked to a jump link, and the jump link can be linked to a page for viewing the details of the ticket in the 12306 platform. The prompt message of the arrival departure scene can also comprise a link jumping to a ticket refund page or a link jumping to a ticket change page, and the like.

Optionally, the prompt information of the scene in the journey may include a predicted departure time and a predicted arrival time, a departure place and a destination, train number information, seat information, a trigger link for a station arrival reminder, and the like.

Optionally, the prompt message of the arrival destination scene may include a predicted departure time and a predicted arrival time, a departure place and a destination, train number information, seat information, arrival prompt message (e.g., display "arrived at station"), and the like, and may further include a link for jumping to the 12306 platform to view the ticket details page.

Alternatively, the prompt message for the departure destination scene may include a predicted departure time and a predicted arrival time, a departure place and a destination, train number information, seat information, departure reminding information (e.g., display "has departed from station"), and the like.

In this example, the indication information may indicate that the service presentation module replaces the display content with the prompt information of the current scene, for example, the display content of the service presentation module at time T1 is information a, the indication information of the service logic processing module indicates that the service presentation module replaces the information a with information B, and the service presentation module displays the information B at time T2. The display mode does not need the service logic module to separately send the termination indication for terminating the display.

In some embodiments, the service logic processing module sends indication information for displaying the prompt information to the service presentation module, and at the same time, the service logic processing module sends a termination indication to the service presentation module, where the termination indication is used to instruct the service presentation module to terminate displaying the prompt information displayed last time.

In other embodiments, the service logic processing module may set a display duration threshold, and if the duration for displaying the prompt information of the same scene exceeds a preset display duration threshold, the service logic processing module may instruct the service presentation module to cancel the prompt information of the scene, for example, the prompt information arriving at the departure scene is displayed for 4 hours, and the preset display duration threshold is 4 hours.

Step 310: and releasing the specified fence of the current scene or releasing the specified fence of the current scene and ignoring the PUSH message of the current scene.

Illustratively, the designated fence of the current scene may be a guaranteed-time fence of the current scene, or a geofence of the current scene, or both the guaranteed-time fence of the current scene and the geofence of the current scene.

In one example, if the service logic processing module determines to acquire the PUSH message of the current scene, the service logic processing module instructs the context awareness module to release the bottom-guaranteed time fence of the current scene and the geo-fence of the current scene. The context awareness module releases the guaranteed-base time fence of the current scene and the geo-fence of the current scene in response to the indication of the business logic processing module.

For example, if the service logic module determines that a PUSH message to arrive at the departure scene is acquired, the service logic processing module instructs the context awareness module to release the bottom-guaranteed time fence of the arrival at the departure scene and the geo-fence of the arrival at the departure scene. The context awareness module still detects whether the guaranteed-base time fence of the remaining scenes is triggered and whether the geo-fences of the remaining scenes are triggered.

In another example, if the business logic processing module determines that the geofence trigger of the current scene, the business logic processing module instructs the context awareness module to release the warranty time fence of the current scene. After determining that the PUSH message of the current scene is acquired next time, the service logic processing module ignores the PUSH message of the current scene, that is, the service logic processing module cancels the operation on the PUSH message of the current scene.

For example, if the business logic module determines a geofence trigger to arrive at the departure scenario at time T1, the business logic processing module instructs the context awareness module to release the guaranteed-time fence from arriving at the departure scenario. And releasing the bottom-guaranteed time fence of the scene of the departure station by the scene perception module. The context awareness module still detects whether the bottom-guaranteed time fence of the rest of the scenes is triggered. If the context awareness module detects the PUSH fence trigger after 30S, the service logic processing module receives the event triggered by the PUSH fence reported by the context awareness module, and the service logic processing module analyzes the PUSH message and determines to acquire the PUSH message arriving at the starting station scene. The service logic processing module will ignore the PUSH message arriving at the departure scenario. In another example, if the context awareness module does not detect a PUSH fence trigger in the arrival starting scenario, the service logic processing module does not perform the operation of ignoring the PUSH message in the arrival starting scenario.

In another example, if the business logic processing module determines that the guaranteed-base time fence trigger for the current scene is triggered, the business logic processing module instructs the context awareness module to release the geofence for the current scene. After determining that the PUSH message of the current scene is acquired next time, the service logic processing module ignores the next acquired PUSH message of the current scene, that is, the service logic processing module cancels the operation on the PUSH message of the current scene.

For example, if the business logic module determines a guaranteed-time fence trigger to arrive at the departure scenario at time T2, the business logic processing module instructs the context aware module to unwrap the geofence to arrive at the departure scenario. Geofencing of the arrival origin scene is released by the context awareness module. The context awareness module monitors whether the geofences of the other scenes are triggered. If the context awareness module detects the PUSH fence trigger after 30S, the service logic processing module receives the event triggered by the PUSH fence reported by the context awareness module, and the service logic processing module analyzes the PUSH message and determines to acquire the PUSH message arriving at the starting station scene. The service logic processing module will ignore the PUSH message arriving at the departure scenario. In another example, if the context awareness module does not detect a PUSH fence trigger in the arrival starting scenario, the service logic processing module does not perform the operation of ignoring the PUSH message in the arrival starting scenario.

In this example, if there is one fence trigger in each scene, other fences in the scene may be unregistered or PUSH messages of the current scene acquired next time may be ignored, thereby reducing unnecessary power consumption.

Step 311: and the service presenting module displays the prompt message.

Illustratively, the service presentation module receives the prompt message sent by the service logic processing module, and displays the prompt message of the current scene, where the display mode may be a card mode, such as displaying a card on a desktop or displaying a card on a negative screen. The display mode may also include a notification mode display, such as: screen locking notification; a mode of voice display of the prompt message; or different prompt messages are displayed through different vibration frequencies.

It should be noted that, there is no sequence between step 311 and step 310, and the service presenting module receives the indication information (the indication information includes the prompt information), and then the prompt information may be displayed.

In this example, the display mode may include a card and a notification mode, that is, the service presentation module may display the card on the desktop, display the card on one negative screen, and display the notification information in the notification mode at the same time. Meanwhile, the prompt information is displayed in various modes, so that the exposure probability of the prompt information can be increased, the probability that the user sees the prompt information is increased, and the problem that the user misses the journey because the user misses the prompt information is avoided.

In the application, if only one dimensional fence is registered (for example, only a geo-fence is registered), since the current longitude and latitude information acquired by the mobile phone is greatly influenced by the environment, the geographic position information acquired by the context awareness module may be inaccurate, the problem of trip reminding or missed reminding may be caused, and similarly, the problem of missed reminding or missed reminding may exist in a single time-using fence or a single PUSH fence. In this example, the service logic processing module registers a plurality of fences with different functions (dimensions), such as PUSH fences, geo fences of each scene, and bottom-guaranteed time fences of each scene, with the context awareness module according to the trip data. The scene perception module monitors information of three different dimensions simultaneously, so that the information of each dimension is mutually compensated under different scenes, and the problem that travel reminding cannot be timely performed on a user due to inaccurate information monitoring is avoided.

The following describes a situation of any fence trigger in the current scenario or a situation of determining to acquire a PUSH message in the current scenario, respectively, with reference to fig. 4.

Case 1: time fence triggered scenario of current scenario.

Step 306 a: the context awareness module detects a guaranteed-time fence trigger of a current scene.

The specific process of this step is similar to the related description in step 306, and reference may be made to the related description in step 306, which will not be described herein again.

Step 307 a: the context awareness module indicates the guaranteed-base time fence trigger of the current scene to the business logic processing module.

Step 308 a: the business logic processing module determines the guaranteed-base time fence trigger of the current scene.

And if the service logic processing module receives the indication of the bottom-guaranteed time fence trigger of the current scene reported by the context awareness module, the service logic processing module determines the bottom-guaranteed time fence trigger of the current scene.

Step 309 a: and the service logic processing module sends indication information for indicating the service presentation module to display the prompt information to the service presentation module.

Step 310a 1: the business logic processing module sends a removal instruction for instructing removal of the geo-fence to the context awareness module.

And the service logic processing module determines the bottom-guaranteed time fence trigger of the current scene, and can reduce the power consumption of the mobile phone by removing the geo-fence mode of the current scene.

Step 310a 2: the context awareness module disassembles the geofence for the current scene.

The context awareness module can release the geofence of the current scene by means of unregistering.

Step 311 a: and the service presenting module displays the prompt message.

This step may refer to the related description of step 311, and will not be described herein again.

Step 312 a: the context awareness module detects a PUSH fence trigger.

In this example, after the prompt information of the current scene is displayed, the 12306 platform pushes a PUSH message to the service platform, which may be a user service platform, in this example, the service platform takes a glory platform as an example. The method comprises the steps that an authorization relation exists between a glory account of a user and a 12306 account, a 12306 platform pushes PUSH information to the glory platform, and the glory platform sends the PUSH information to a scene perception module of a mobile phone corresponding to the glory account after receiving the PUSH information. And the situation awareness receives the PUSH message and the PUSH fence is triggered.

Step 313 a: the context awareness module indicates PUSH fence triggering to the business logic processing module.

Step 314 a: and the service logic processing module determines to acquire the PUSH message of the current scene.

This step is similar to step 308, where the service logic processing module parses the PUSH message of the current scenario. The service logic processing module inquires whether the PUSH message of the current scene exists in the PUSH message, and if the PUSH message of the current scene exists, the PUSH message of the current scene is determined to be acquired.

Step 310a 3: the service logic processing module ignores the PUSH message of the current scene.

Since the bottom-guaranteed time fence trigger of the current scene is determined in step 308a, and the prompt information of the current scene is displayed in step 311, the service logic processing module ignores the PUSH message of the current scene received next time, that is, the service logic processing module does not process the PUSH message of the current scene received next time.

For example, if the current scenario is an arrival/departure scenario, the trigger condition of the bottom-guaranteed time fence of the arrival/departure scenario is: the difference between T1-T is less than or equal to T1, where T is the detection time, and T1 is a first preset time period, which is 30 minutes in this example. If the scene perception module detects that the difference value of T1-T is less than or equal to 30 minutes, the bottom-guaranteed time fence of the scene of the departure station is triggered, and the scene perception module reports the bottom-guaranteed time fence trigger of the scene of the departure station to the service logic processing module. And the service logic processing module instructs the service presenting module to display prompt information of the scene of the departure station. The service presentation module displays a prompt message for arriving at the departure scene at time T2. And at the time T2+ T5, the context awareness module receives a PUSH message sent by a glory platform, and triggers a PUSH fence. The context awareness module reports the PUSH fence trigger to the service logic processing module, for example, t5 is 1 min. And the service logic processing module analyzes the PUSH message and inquires the message of the scene of the departure station from the PUSH message. The service logic processing module determines to acquire the PUSH message arriving at the departure station scene. The service logic processing module ignores the PUSH message of the arriving departure scene and does not process the PUSH message of the arriving departure scene. If the service logic processing module determines that the obtained PUSH message of the scene in the journey is obtained, the environment where the mobile phone is located is indicated to be changed, and the processing can be carried out according to the steps in the case 2.

In this example, after the context awareness module detects that multiple fences are triggered in sequence, the service processing module performs corresponding processing on each triggered fence in sequence according to the sequence of the fence trigger time.

In some embodiments, if the context awareness module does not detect a PUSH fence trigger, none of the steps 313a, 314a, and 310a3 are performed.

Case 2: PUSH fence triggered scenario.

Step 304 b: 12306 platform pushes PUSH message to service platform.

Illustratively, the service platform may be a user service platform, and the service platform in this example is a glory platform. The glory account of the user has an authorization relationship with the 12306 account, and the 12306 platform pushes the PUSH message to the glory platform according to the authorization relationship.

Step 305 b: and the service platform sends the PUSH message to the context awareness module.

Exemplarily, after receiving the PUSH message, the glory platform queries the mobile phone bound to the glory account, and sends the PUSH message to the context awareness module of the mobile phone bound to the glory account.

Step 306 b: the context awareness module detects a PUSH fence trigger.

The context awareness receives the PUSH message, triggering a PUSH fence.

Step 307 b: the context awareness module indicates a PUSH fence trigger to the business logic processing module.

The specific process of this step is similar to the related description in step 307, and reference may be made to the related description in step 307, which will not be described herein again.

Step 308 b: and the service logic processing module determines to acquire the PUSH message of the current scene.

The specific process of this step is similar to the related description in step 308, and reference may be made to the related description in step 308, which will not be described herein again.

Step 309 b: and the service logic processing module sends indication information for indicating the service presentation module to display the prompt information to the service presentation module.

Step 310b 1: and the service logic processing module sends indication information for indicating the removal of the geofence of the current scene and the bottom-guaranteed time fence of the current scene to the context awareness module.

Illustratively, the service logic processing module determines to acquire the PUSH message of the current scene, and the service logic processing module may instruct the context awareness module to release (i.e., unregister) the geofence of the current scene and the bottom-guaranteed time fence of the current scene, and the context awareness module unregisters the geofence of the current scene and the bottom-guaranteed time fence of the current scene, so as to reduce power consumption of the mobile phone.

Step 310b 2: the context awareness module disassembles the geofence of the current scene and the warranty time fence of the current scene.

The context awareness module only disarms the geofence of the current scene and the time fence of the current scene. The geofences of the remaining scenes and the guaranteed time fences of the remaining scenes are retained.

Step 311 b: and the service presenting module displays the prompt information of the current scene.

The specific process of this step is similar to the related description in step 311, and reference may be made to the related description in step 311, which will not be described herein again.

Case 3: a geofence triggered scenario for the current scenario.

Step 306 c: the context awareness module detects a geofence trigger for a current scene.

Step 307 c: the context awareness module indicates to the business logic processing module a geofence trigger for the current scene.

Step 308 c: the business logic processing module determines a geofence trigger for the current scenario.

Step 309 c: and the service logic processing module sends indication information for indicating the service presentation module to display the prompt information to the service presentation module.

Step 310c 1: and the service logic processing module sends a releasing instruction for indicating to release the bottom-guaranteeing time fence to the context awareness module.

Step 310c 2: the context awareness module removes the bottom-guaranteed time fence of the current scene.

Step 311 c: and the service presenting module displays the prompt message.

Step 312 c: the context awareness module detects a PUSH fence trigger.

Step 313 c: the context awareness module indicates a PUSH fence trigger to the business logic processing module.

Step 314 c: and the service logic processing module determines to acquire the PUSH message of the current scene.

Step 310c 3: the service logic processing module ignores the PUSH message of the current scene.

Case 3 is similar to case 1, and steps in case 3 may refer to steps in case 1, which will not be described herein again. Similar to case 1, in some embodiments, if the context awareness module does not detect a PUSH fence trigger, none of the steps 313c, 314c, and 310c3 are performed.

The following describes a process of displaying the hint information for each scene with reference to fig. 5.

For example, taking the train departure behavior example, the first application may be a railway 12306, the ticket buying application server may be a 12306 server, and the service platform may be a glory platform. The service logic processing module of the handset executes step 301 shown in fig. 3 to request trip data. And the 12306 platform returns the journey data to the business logic processing module of the mobile phone. The travel data of the user may include predicted departure time (e.g., 5 months, 4 days, 9:20 shown in (1) of fig. 5), predicted arrival time (e.g., 5 months, 6 days, 9:45 shown in (1) of fig. 5), departure station latitude and longitude information, destination station latitude and longitude information, and the like. The service logic processing module registers PUSH fences, geo-fences of each scene, and warranty time fences of each scene to the context awareness module. Table 1 shows the trigger conditions of each scene and the geofence of each scene during train trip, the trigger conditions of the warranty time fence, and the PUSH message of each scene listed in this example.

TABLE 1

Scene	PUSH message	Geo-fencing	Bottom-protecting time fence
				Arrival and departure station	Obtaining PUSH information of incoming station	Enter the departure station	The difference of T1-T is less than or equal to T1
In the course of travel	Obtaining PUSH message in journey	Leave the departure station	T1≤t≤T4
				Reach the destination station	Is free of	Enter the destination station	T4±t2
Leaving the destination station	Obtaining outbound PUSH message	Leaving the destination station	t＝T4+t3

In table 1, T is a detection time, T1 is an estimated departure time, T4 is an estimated arrival time, T1 is a first preset time (e.g., T1 ═ 30min), T2 is a delay time provided by the 12306 platform, e.g., 10min, and T3 is a third preset time (e.g., T3 ═ 60 min).

The service logic processing module may set the geofence of each scene and the warranty time fence of each scene according to the trigger conditions in table 1. The business logic processing module can indicate that the effective time of the geo-fence arriving at the departure station scene is 2 hours before the expected departure time, and the business logic processing module can indicate that the effective time of the geo-fence in the journey is also 2 hours before the expected departure time. When the scene perception module detects that the time reaches 5 months, 4 days, 7:20, the scene perception module starts to detect whether the geo-fence arriving at the scene of the departure station is triggered or not and whether the geo-fence in the journey is triggered or not.

If the context awareness module detects that the longitude and latitude of the mobile phone are consistent with the longitude and latitude of the departure station in 5 months, 4 days, 8:20, the geo-fence of the scene of the departure station is triggered, namely the context awareness module detects that the geo-fence of the scene of the departure station is triggered. Each module of the mobile phone executes steps 307c to 311c according to the steps of case 3 in fig. 4. And the service presentation module displays prompt information arriving at the departure station in a card form. As shown in (1) in fig. 5, a card 402 of a scene of arriving at a departure station during a train trip is displayed on the desktop interface 401, prompt information of arriving at the departure station, such as predicted departure time, predicted arrival time, car seat number, destination, ticket gate information and a control 4021, is displayed in the card 402, and when the control 4021 is clicked, a jump can be made to a ticket detail page in the 12306 application. Optionally, steps 312c to 310a3 are not performed in this example.

In one example, the business logic processing module can indicate a time period for displaying the card 402, and if it is determined that the time period for displaying the card 402 exceeds a display time period threshold, the business logic processing module instructs the business presentation module to cancel displaying the card 402.

When the context awareness module detects a PUSH fence trigger (e.g., a PUSH message on the journey is received). Each module of the mobile phone executes step 307b to step 311b according to each step of case 2 in fig. 4. When the current scene is a trip, the service presentation module displays a card 404 of the scene in the trip in the train trip on the desktop interface 403 as shown in (2) of fig. 5, the card 404 displays trip information such as a predicted departure time, a predicted arrival time, a car seat number, a destination, a control 4041 and a control 4042, and if an operation of clicking the control 4041 is detected, the operation can jump to a ticket detail page in the 12306 application. If the operation of clicking the control 4042 is detected, the function of the arrival reminding can be subscribed.

When the context awareness module detects a guaranteed-bottom time fence trigger (e.g., time up to 5 months, 6 days, 9: 45). Each module of the mobile phone executes steps 307a to 311a according to the steps of case 1 in fig. 4, in this example, the context awareness module does not detect the PUSH fence trigger, that is, step 312a, step 313a, step 314a, and step 310a3 are not executed. The service presentation module displays the prompt information shown in (3) of fig. 5, a card 406 of a scene reaching a destination station in train traveling is displayed on a desktop interface 405, prompt information of reaching the destination station, such as predicted departure time, predicted arrival time, car seat number, destination, a control 4061 and information of a station that has arrived, is displayed in the card 406, and if an operation of clicking the control 4061 is detected, a ticket detail page in 12306 application can be skipped.

If the context awareness module detects that the longitude and latitude of the mobile phone are consistent with the longitude and latitude of the destination station in 5, 6, 10:20 days, the geofence of the departure destination station scene is triggered, namely the context awareness module detects the geofence trigger of the departure destination station scene. Each module of the mobile phone executes steps 307c to 311c according to the steps of case 3 in fig. 4. The service presentation module displays the prompt information of leaving the destination station in the form of a card. The reminder information may be displayed in the form of a notification. The reminder for the departure from destination scenario is not shown in fig. 5.

It will be appreciated that the electronic device, in order to implement the above-described functions, comprises corresponding hardware and/or software modules for performing the respective functions. The present application is capable of being implemented in hardware or a combination of hardware and computer software in conjunction with the exemplary algorithm steps described in connection with the embodiments disclosed herein. Whether a function is performed as hardware or computer software drives hardware depends upon the particular application and design constraints imposed on the solution. Skilled artisans may implement the described functionality in varying ways for each particular application, with the embodiment described in connection with the particular application, but such implementation decisions should not be interpreted as causing a departure from the scope of the present application.

The present embodiment also provides a computer storage medium, where a computer instruction is stored in the computer storage medium, and when the computer instruction runs on an electronic device, the electronic device executes the above related method steps to implement the method for travel reminding in the above embodiments. The storage medium includes: various media capable of storing program codes, such as a usb disk, a removable hard disk, a Read Only Memory (ROM), a Random Access Memory (RAM), a magnetic disk, or an optical disk.

The embodiment also provides a computer program product, which when running on a computer, causes the computer to execute the relevant steps to implement the method for travel reminding in the above embodiment.

The electronic device, the computer storage medium, the computer program product, or the chip provided in this embodiment are all configured to execute the corresponding method provided above, so that the beneficial effects achieved by the electronic device, the computer storage medium, the computer program product, or the chip may refer to the beneficial effects in the corresponding method provided above, and are not described herein again.

Any contents of the respective embodiments of the present application, and any contents of the same embodiment, can be freely combined. Any combination of the above is within the scope of the present application.

While the present embodiments have been described with reference to the accompanying drawings, it is to be understood that the invention is not limited to the precise embodiments described above, which are meant to be illustrative and not restrictive, and that various changes may be made therein by those skilled in the art without departing from the spirit and scope of the invention as defined by the appended claims.

Claims (17)

1. A travel reminding method is applied to electronic equipment and comprises the following steps:

detecting whether a PUSH fence of a first trip application is triggered, wherein the PUSH fence trigger of the first trip application is used for indicating that the electronic equipment receives a PUSH message sent by a server of the first trip application;

detecting whether a target fence of a current scene is triggered, wherein the target fence of the current scene comprises a target geo-fence of the current scene, and the target geo-fence trigger of the current scene is used for indicating that the electronic equipment is located in a target area of the current scene;

if the target fence trigger of the current scene or the PUSH fence trigger of the first travel application is detected, judging whether the travel prompt of the current scene is displayed or not;

and if the travel prompt of the current scene is determined to be displayed, displaying the travel prompt of the current scene, and removing the target fence of the current scene or ignoring the PUSH message of the current scene acquired next time according to the triggered fence.

2. The method of claim 1, wherein the determining whether to display the travel reminder of the current scene if the target fence trigger of the current scene or the PUSH fence trigger of the first travel application is detected comprises:

if the target fence trigger of the current scene is detected, determining to display the travel reminder of the current scene;

if detecting that the PUSH fence of the first trip application is triggered, analyzing the received PUSH message, and judging whether the PUSH message of the current scene exists in the PUSH message; if the PUSH message of the current scene is determined to be acquired, determining to display the travel prompt of the current scene; and if the PUSH message of the current scene is determined not to be acquired, determining to cancel displaying the travel prompt of the current scene.

3. The method according to claim 1 or 2, wherein the releasing the target fence of the current scene or ignoring the PUSH message of the current scene obtained next time according to the triggered fence comprises:

if the PUSH fence of the first travel application is triggered and the PUSH message of the current scene is determined to be acquired, releasing the target fence of the current scene;

and if the target fence is determined to be triggered, ignoring the PUSH message of the current scene acquired next time.

4. The method of claim 1 or 2, wherein the target fence of the current scene further comprises a target time fence of the current scene;

the detecting whether the target fence of the current scene is triggered includes:

and detecting whether the target geo-fence of the current scene is triggered or not and detecting whether the target time fence of the current scene is triggered or not, wherein the target time fence trigger of the current scene is used for indicating that the preset specified time of the current scene is reached.

5. The method of claim 4, wherein the releasing the target fence of the current scene or ignoring a next acquired PUSH message of the current scene according to the triggered fence comprises:

if the target time fence trigger of the current scene is determined, removing the target geo-fence of the current scene and ignoring the PUSH message of the current scene acquired next time;

if the target geo-fence trigger of the current scene is determined, removing the target time fence of the current scene and ignoring the PUSH message of the current scene acquired next time;

and if the PUSH fence of the first travel application is triggered and the PUSH message of the current scene is determined to be acquired, removing the target geo-fence of the current scene and the target time fence of the current scene.

6. The method of claim 1, wherein before the detecting whether the PUSH fence of the first travel application is triggered, the method further comprises:

if an authorization relationship between an authorization object and a specified application account is detected, registering the PUSH fence of the first travel application, wherein the authorization object comprises an identifier of the electronic equipment or an account of a user on a user service platform, and the specified application account is an account of the user on a server of the first travel application.

7. The method of claim 1, wherein the target geofence for the current scene comprises: an effective time fence and an effective geo-fence;

the detecting whether the target fence of the current scene is triggered includes:

detecting whether an effective time fence in a target geo-fence of a current scene is triggered, wherein the effective time fence trigger is used for indicating that a preset registration time of the target geo-fence is reached;

if the trigger of the effective time fence in the target geo-fence of the current scene is detected, registering the effective geo-fence in the target geo-fence of the current scene;

detecting whether an effective geo-fence of a target geo-fence of a current scene is triggered, and if the effective geo-fence of the target geo-fence of the current scene is detected to be triggered, determining that the target fence of the current scene is triggered.

8. The method of claim 7, wherein prior to detecting whether an effective time fence in the target geofences of the current scene is triggered, the method further comprises:

acquiring travel data of a user;

and registering the effective time fence of the target geo-fence of each scene according to the travel data and the scenes of each trip.

9. The method of claim 7 or 8, wherein the scenes of travel comprise: a scene of arriving at the departure station, a scene of going on a trip, a scene of arriving at the destination station, and a scene of departing from the destination station.

10. The method of claim 9, wherein the trigger condition for the target time fence of the scene of arrival at the departure station comprises: the time difference value from the predicted departure time is less than or equal to a first preset time length;

the target area of the target geofence of the scene of arrival at the origin includes: the area where the departure station is located.

11. The method of claim 9, wherein the triggering condition for the target time fence for the in-flight scene comprises: detecting a location between an expected departure time and an expected arrival time;

a target area of a target geofence of the in-trip scene comprises a preset area outside of the origin.

12. The method of claim 9, wherein the trigger condition for the target time fence of the scene of arrival at the destination: the sum of the time between the estimated arrival time and the estimated error duration is reached;

the target area of the target geofence of the scene of arrival at the destination station includes: the area of the destination station.

13. The method of claim 9, wherein the trigger condition for the target time fence for the departure destination scenario is: the sum of the estimated arrival time and the preset outbound time is reached;

the target area of the target geofence of the scene leaving the destination station includes: and the destination station is located in a preset area outside the area.

14. The method of claim 9, wherein registering the effective time fence of the target geofence for each scene according to the trip data and the scenes of each trip comprises:

acquiring an estimated departure time from the journey data, and registering an effective time fence in the target geo-fences of the scene of the departure station and an effective time fence in the target geo-fences of the scene of the journey; the trigger condition of the effective time fence in the target geo-fence in the arrival starting station scene and the trigger condition of the effective time fence in the target geo-fence in the in-journey scene are both: the distance between the estimated departure time and the preset first trigger time is less than or equal to the preset first trigger time;

acquiring estimated arrival time from the travel data, and registering an effective time fence in the target geo-fence under the scene of an arrival destination station and an effective time fence in the target geo-fence under the scene of a departure destination station; the trigger condition of the effective time fence in the target geo-fence in the in-trip scenario and the trigger condition of the effective time fence in the target geo-fence in the arrival destination scenario are both: and the distance between the predicted departure time and the preset second trigger time is less than or equal to the preset second trigger time.

15. The method of claim 1, wherein prior to displaying the travel reminder for the current scene, the method further comprises:

canceling the travel reminding of the last scene;

alternatively, the first and second electrodes may be,

and indicating to update the display content from the travel reminder of the last scene to the travel reminder of the current scene.

16. The method of claim 1, wherein if the first travel application is a train travel application, the method comprises:

detecting whether a PUSH fence applied to train trip is triggered, wherein the PUSH fence trigger applied to train trip is used for indicating that the electronic equipment receives a PUSH message sent by a server applied to train trip; detecting whether a railway station fence of a current scene is triggered, wherein the railway station fence of the current scene comprises a target geo-fence taking a railway station in the current scene as the target area; if detecting the train station fence of the current scene or the PUSH fence trigger applied by the train trip, judging whether to display the trip prompt of the current scene; if the travel prompt of the current scene is determined to be displayed, displaying the travel prompt of the current scene, and removing the rail of the railway station of the current scene or ignoring PUSH information of the current scene acquired next time according to the triggered rail;

if the first travel application is an airplane travel application, the method comprises the following steps: detecting whether a PUSH fence of the airplane trip application is triggered, wherein the PUSH fence trigger of the airplane trip application is used for indicating that the electronic equipment receives a PUSH message sent by a server of the airplane trip application; detecting whether an airport fence of a current scene is triggered, wherein the airport fence of the current scene comprises a target geo-fence taking an airport of the current scene as the target area; if the trigger of the airport fence of the current scene or the PUSH fence applied by the airplane trip is detected, judging whether the trip prompt of the current scene is displayed or not; and if the travel prompt of the current scene is determined to be displayed, displaying the travel prompt of the current scene, and removing the fence of the airport of the current scene or ignoring the PUSH message of the current scene acquired next time according to the triggered fence.

17. An electronic device, comprising:

one or more processors;

a memory;

and one or more computer programs, stored on the memory, which, when executed by the one or more processors, cause the electronic device to perform the method of travel reminders of any of claims 1-16.

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