CN118101751A - Message pushing method and system - Google Patents

Abstract

The invention relates to the technical field of mobile internet, and discloses a message pushing method and a system, wherein the method comprises the following steps: receiving request video information sent by a mobile phone APP terminal, wherein the request video information comprises a video number and corresponding preset request time; pushing heartbeat messages to the mobile phone APP terminal according to the preset request time; performing sequence processing on the request video information and sending the request video information to the mobile phone APP terminal; judging whether the message pushed to the mobile phone APP terminal is successful or not, generating a cache queue from the sequence message with failed pushing, receiving the request of the mobile phone APP terminal at the preset request time again, taking out the message from the cache queue for pushing, and carrying out reverse sequence processing on the received message by the mobile phone APP terminal. The invention improves the flexibility of sending the heartbeat message and saves the power consumption and the flow of the mobile phone APP terminal equipment.

Description

Message pushing method and system

Technical Field

The invention relates to the technical field of mobile internet, in particular to a message pushing method and a message pushing system.

Background

The push technology is a technology for actively sending a message to the mobile phone APP terminal by a server based on a mobile phone APP terminal service mechanism. In the application based on the mobile video pushing technology, a server initiates a pushing event and actively pushes updated information to a mobile video end so as to ensure timeliness of the information. However, in the absence of any data transmission, the network connection will be disconnected, and therefore, in order to maintain the connection state of the network connection, the mobile video terminal has to periodically send a heartbeat query to the server, and the server performs a message query after receiving the heartbeat query and returns the queried message to the mobile video terminal. However, in the application based on the mobile video push technology, whether the message returned by the push server is received or not, frequent sending of the heartbeat inquiry is performed, which consumes the electric quantity and the flow of the mobile video terminal device.

Therefore, a message pushing method is needed to save the power consumption and the traffic of the mobile phone APP terminal device.

Disclosure of Invention

In view of the above problems, the present invention is provided to provide a message pushing method and system for overcoming the above problems of higher power consumption and higher traffic of the mobile phone APP terminal device.

According to one aspect of the present invention, there is provided a message pushing method, including:

Receiving request video information sent by a mobile phone APP terminal, wherein the request video information comprises a video number and corresponding preset request time;

Pushing heartbeat messages to the mobile phone APP terminal according to the preset request time;

Performing sequence processing on the request video information and sending the request video information to the mobile phone APP terminal;

Judging whether the message pushed to the mobile phone APP terminal is successful or not, generating a cache queue from the sequence message with failed pushing, receiving the request of the mobile phone APP terminal at the preset request time again, taking out the message from the cache queue for pushing, and carrying out reverse sequence processing on the received message by the mobile phone APP terminal.

Still further, the method further comprises: judging whether the equipment to which the mobile phone APP terminal belongs is in a do-not-disturb mode, if so, prohibiting to push the message to the mobile phone APP terminal, and if not, continuing to push the message to the mobile phone APP terminal when the mobile phone APP terminal is switched from the do-not-disturb mode to the normal mode.

Further, when the mobile phone APP terminal is switched from the do not disturb mode to the normal mode, continuing to push a message to the mobile phone APP terminal further includes:

When the mobile phone APP terminal is in a do-not-disturb mode, pushing a message to a notification bar of the mobile phone APP terminal equipment so as to display the notification message through the notification bar; and/or pushing the message to the mobile phone APP terminal in a vibration or sound mode when the mobile phone APP terminal equipment is switched to a normal mode.

Further, the pushing the heartbeat message to the mobile phone APP terminal according to the preset request time further includes:

judging whether the mobile phone APP terminal receives the heartbeat message, if so, adjusting the sending interval time of the heartbeat message to a first preset threshold value, and if not, adjusting the sending interval time of the heartbeat message to a second preset threshold value, wherein the second preset threshold value is larger than the first preset threshold value.

Still further, the method further comprises:

determining the number of active terminals in the mobile phone APP terminal target area;

And aiming at any active terminal, calculating the center point distance of the target area according to the latest uploaded position information of the active terminal.

Further, the specific formula for calculating the center point distance of the target area according to the latest uploaded position information is as follows:

Wherein θ ₁ is the latitude of the active terminal farthest from the target area, θ ₂ is the latitude of the active terminal nearest to the target area, Δσ is the average value of the difference between the longitude of the center point of the target area and the longitude of the active terminal, e is the first eccentricity, f is the second eccentricity, and p _i is the probability that the i-th historical uploading position belongs to the center point of the target area.

Still further, the method further comprises:

And for any active terminal, determining whether the active terminal is positioned in the target area according to the distance between the active terminal and the center point of the target area and the boundary of the target area, and determining the active terminal as a target active terminal if the active terminal is positioned in the target area.

Further, the sequence processing and sending the requested video information to the mobile phone APP terminal further includes:

And creating a message pushing thread queue corresponding to the mobile phone APP terminals, and pushing offline messages according to the ID numbers of the devices to which the mobile phone APP terminals belong.

Still further, the method further comprises:

Determining the number of devices associated with the ID number of the device to which the mobile phone APP terminal belongs, and creating a device information base with the corresponding number according to the number of the devices;

the specific formula for determining the number of the devices associated with the ID number of the device to which the mobile phone APP terminal belongs is as follows:

Wherein X is the number of devices associated with the ID number of the device to which the mobile phone APP terminal belongs, X is a set threshold, n is the maximum number of message push threads, k is a constant,

According to another aspect of the present invention, there is provided a message pushing system, including:

The video information request module is used for receiving request video information sent by the mobile phone APP terminal, wherein the request video information comprises a video number and corresponding preset request time;

The heartbeat message pushing module is used for pushing heartbeat messages to the mobile phone APP terminal according to the preset request time;

The sequence message sending module is used for carrying out sequence processing on the request video information and sending the request video information to the mobile phone APP terminal;

the message judging module is used for judging whether the message pushed to the mobile phone APP terminal is successful or not, generating a cache queue from the sequence message with failed pushing, receiving the request of the mobile phone APP terminal at the preset request time again, taking out the message from the cache queue for pushing, and carrying out reverse sequence processing on the received message by the mobile phone APP terminal.

The foregoing description is only an overview of the present invention, and is intended to be implemented in accordance with the teachings of the present invention in order that the same may be more clearly understood and to make the same and other objects, features and advantages of the present invention more readily apparent.

Drawings

Various other advantages and benefits will become apparent to those of ordinary skill in the art upon reading the following detailed description of the preferred embodiments. The drawings are only for purposes of illustrating the preferred embodiments and are not to be construed as limiting the invention. Also, like reference numerals are used to designate like parts throughout the figures. In the drawings:

Fig. 1 shows a flow diagram of a message pushing method according to an embodiment of the present invention;

Fig. 2 shows a schematic diagram of the structure of a message pushing system according to an embodiment of the present invention.

Detailed Description

Exemplary embodiments of the present invention will be described in more detail below with reference to the accompanying drawings. While exemplary embodiments of the present invention are shown in the drawings, it should be understood that the present invention may be embodied in various forms and should not be limited to the embodiments set forth herein. Rather, these embodiments are provided so that this disclosure will be thorough and complete, and will fully convey the scope of the invention to those skilled in the art.

Fig. 1 shows a flow diagram of a message pushing method according to an embodiment of the present invention. According to the method, heartbeat messages are pushed to the mobile phone APP terminal according to preset request time, whether the messages pushed to the mobile phone APP terminal are successful or not is judged, a buffer queue is generated by sequence messages which are failed to push, the request of the mobile phone APP terminal at the preset request time is received again, the messages are taken out from the buffer queue to push, and the mobile phone APP terminal carries out reverse sequence processing on the received messages. Specifically, the method comprises the following steps:

step S101, receiving request video information sent by a mobile phone APP terminal, wherein the request video information comprises a video number and corresponding preset request time.

The mobile phone APP terminal sends a POST video request to the server, the POST video request comprises a video number and corresponding preset request time, and the mobile phone APP terminal subscribes a message conforming to the POST request to the server.

Step S102, a heartbeat message is pushed to the mobile phone APP terminal according to the preset request time.

The server side pushes the heartbeat message to the mobile phone APP terminal at regular time, and the server side generates a video request message which accords with the subscription of the mobile phone APP terminal and then sends the video request message to the mobile phone APP terminal through corresponding HTTP connection.

Further, the pushing the heartbeat message to the mobile phone APP terminal according to the preset request time further includes:

judging whether the mobile phone APP terminal receives the heartbeat message, if so, adjusting the sending interval time of the heartbeat message to a first preset threshold value, and if not, adjusting the sending interval time of the heartbeat message to a second preset threshold value, wherein the second preset threshold value is larger than the first preset threshold value.

Judging whether a push server returns a push message according to whether the mobile phone APP terminal receives the push message, if the mobile phone APP terminal listens to and receives the push message of the push server, adjusting the sending interval time of the heartbeat message to a first preset threshold value, if the mobile phone APP terminal judges that the push server does not return the push message, indicating that no updated message exists in the push server, and further, not needing to push the message to a client, adjusting the sending interval time of the heartbeat message to a second preset threshold value, wherein the second preset threshold value is larger than the first preset threshold value. The adjustment of the transmission interval time of the heartbeat message is actually to lengthen or shorten the transmission interval time. When the mobile phone APP terminal receives the response of the push server to the heartbeat inquiry, the fact that the push server has the information which needs to be pushed to the mobile phone APP terminal is indicated, at the moment, in order to guarantee the timely push of the information, the sending interval time of the heartbeat inquiry is shortened, and then the sending frequency of the heartbeat inquiry is improved; if the mobile phone APP terminal does not receive the pushed message, the sending interval time is prolonged and shortened, so that the flow is saved, and the power consumption of the mobile phone APP terminal equipment is further reduced.

Still further, the method further comprises: judging whether the equipment to which the mobile phone APP terminal belongs is in a do-not-disturb mode, if so, prohibiting to push the message to the mobile phone APP terminal, and if not, continuing to push the message to the mobile phone APP terminal when the mobile phone APP terminal is switched from the do-not-disturb mode to the normal mode.

Further, when the mobile phone APP terminal is switched from the do not disturb mode to the normal mode, continuing to push a message to the mobile phone APP terminal further includes:

When the mobile phone APP terminal is in a do-not-disturb mode, pushing a message to a notification bar of the mobile phone APP terminal equipment so as to display the notification message through the notification bar; and/or pushing the message to the mobile phone APP terminal in a vibration or sound mode when the mobile phone APP terminal equipment is switched to a normal mode.

When the mobile phone APP terminal equipment is switched from the do-not-disturb mode to the normal mode, the mobile phone APP terminal equipment is awakened, so that the notification message received in the do-not-disturb mode can be intensively pushed to the user in order not to influence the receiving of the notification message by the user, and the notification message received in the do-not-disturb mode can be intensively pushed to the message notification column of the mobile phone APP terminal equipment, so that the user can view the notification message received in the do-not-disturb mode before through the message notification column when the screen is lightened. The message can be pushed to the mobile phone APP terminal in a vibration or sound mode.

Still further, the method further comprises:

determining the number of active terminals in the mobile phone APP terminal target area;

And aiming at any active terminal, calculating the center point distance of the target area according to the latest uploaded position information of the active terminal.

And determining the number of active terminals in a target area (such as a range of 3 km) of the mobile phone APP terminal, and calculating the center point distance of the target area according to the latest uploaded position information.

Further, the specific formula for calculating the center point distance of the target area according to the latest uploaded position information is as follows:

Wherein θ ₁ is the latitude of the active terminal farthest from the target area, θ ₂ is the latitude of the active terminal nearest to the target area, Δσ is the average value of the difference between the longitude of the center point of the target area and the longitude of the active terminal, e is the first eccentricity, f is the second eccentricity, and p _i is the probability that the i-th historical uploading position belongs to the center point of the target area.

In this embodiment, the ellipsoid shape of the earth, the position distribution of the active terminal, and the change of longitude and latitude are considered, and the parameters e and f are adjusted to be flexibly applied to various scenes, so that the calculation accuracy is further improved. Specifically, by determining the distribution range θ ₁,θ₂ of the active terminals in the target area and calculating the distance of the center point, the center point of the target area can be more accurately located. Δσ provides location information of the active terminal relative to the target area center point. e and f may be eccentricity parameters of an ellipsoidal model of the earth (e.g., eccentricity parameters corresponding to an earth model such as WGS 84) to more precisely describe the shape of the earth, thereby affecting the calculation of the distance. p _i measures the proximity of the location data uploaded by the active terminal to the center point of the target area.

For example, for a target area, there are three active terminals A, B, C. A is furthest from the target area, B is centered, C is closest to the target area, and A, B, C latitude and longitude are known from the historically uploaded position data. The average value of the difference between the longitude of the center point of the target area and the longitude of the active terminal and the values of the eccentricities e and f (e=0.084 and f=0.016 respectively) are substituted into the formula to calculate the center point distance of the target area.

Still further, the method further comprises:

And for any active terminal, determining whether the active terminal is positioned in the target area according to the distance between the active terminal and the center point of the target area and the boundary of the target area, and determining the active terminal as a target active terminal if the active terminal is positioned in the target area.

The boundary distribution condition of the target area and the longitude and latitude information of the center point of the target area can be obtained from the received message pushing instruction, the distance between each active terminal and the center point of the target area is calculated according to the longitude and latitude information of each active terminal and the longitude and latitude information of the center point of the target area, whether the active terminal is located in the target area or not can be further determined according to the calculated distance and the center point and boundary distribution of the target area, and if the active terminal is located in the target area, the active terminal is determined to be the target active terminal, so that the accuracy of selecting the target active terminal is guaranteed.

Step S103, the request video information is processed in sequence and sent to the mobile phone APP terminal.

And the server uses a JSON format to sequence the message to process the requested video information, and sends the sequence message to the mobile phone APP terminal through the corresponding HTTP connection.

Further, the sequence processing and sending the requested video information to the mobile phone APP terminal further includes:

And creating a message pushing thread queue corresponding to the mobile phone APP terminals, and pushing offline messages according to the ID numbers of the devices to which the mobile phone APP terminals belong.

And creating a message pushing thread queue corresponding to the mobile phone APP terminal, avoiding the competition problem between messages and ensuring the ordered pushing of the messages. The thread queue adopts an abstract queue synchronizer AQS, the synchronizer AQS provides a first-in first-out FIFO queue and a synchronous lock, a head node head points to a first added thread in the queue, and a tail node tail points to a last added thread.

Still further, the method further comprises:

Determining the number of devices associated with the ID number of the device to which the mobile phone APP terminal belongs, and creating a device information base with the corresponding number according to the number of the devices;

the specific formula for determining the number of the devices associated with the ID number of the device to which the mobile phone APP terminal belongs is as follows:

Wherein X is the number of devices associated with the ID number of the device to which the mobile phone APP terminal belongs, X is a set threshold, n is the maximum number of message push threads, k is a constant,

Step S104, judging whether the message pushed to the mobile phone APP terminal is successful or not, generating a cache queue from the sequence message with failed pushing, receiving the request of the mobile phone APP terminal at the preset request time again, taking out the message from the cache queue for pushing, and carrying out reverse sequence processing on the received message by the mobile phone APP terminal.

According to the scheme provided by the invention, the request video information sent by the mobile phone APP terminal is received, wherein the request video information comprises a video number and corresponding preset request time; pushing heartbeat messages to the mobile phone APP terminal according to the preset request time; performing sequence processing on the request video information and sending the request video information to the mobile phone APP terminal; judging whether the message pushed to the mobile phone APP terminal is successful or not, generating a cache queue from the sequence message with failed pushing, receiving the request of the mobile phone APP terminal at the preset request time again, taking out the message from the cache queue for pushing, and carrying out reverse sequence processing on the received message by the mobile phone APP terminal. The invention improves the flexibility of sending the heartbeat message and saves the power consumption and the flow of the mobile phone APP terminal equipment.

Claims (10)

1. A message pushing method, comprising:

Receiving request video information sent by a mobile phone APP terminal, wherein the request video information comprises a video number and corresponding preset request time;

Pushing heartbeat messages to the mobile phone APP terminal according to the preset request time;

Performing sequence processing on the request video information and sending the request video information to the mobile phone APP terminal;

Judging whether the message pushed to the mobile phone APP terminal is successful or not, generating a cache queue from the sequence message with failed pushing, receiving the request of the mobile phone APP terminal at the preset request time again, taking out the message from the cache queue for pushing, and carrying out reverse sequence processing on the received message by the mobile phone APP terminal.

2. The message pushing method of claim 1, further comprising: judging whether the equipment to which the mobile phone APP terminal belongs is in a do-not-disturb mode, if so, prohibiting to push the message to the mobile phone APP terminal, and if not, continuing to push the message to the mobile phone APP terminal when the mobile phone APP terminal is switched from the do-not-disturb mode to the normal mode.

3. The message pushing method according to claim 2, wherein when the mobile phone APP terminal is switched from the do not disturb mode to the normal mode, continuing to push the message to the mobile phone APP terminal further comprises:

When the mobile phone APP terminal is in a do-not-disturb mode, pushing a message to a notification bar of the mobile phone APP terminal equipment so as to display the notification message through the notification bar; and/or pushing the message to the mobile phone APP terminal in a vibration or sound mode when the mobile phone APP terminal equipment is switched to a normal mode.

4. The message pushing method according to claim 1, wherein pushing the heartbeat message to the mobile phone APP terminal according to the preset request time further comprises:

judging whether the mobile phone APP terminal receives the heartbeat message, if so, adjusting the sending interval time of the heartbeat message to a first preset threshold value, and if not, adjusting the sending interval time of the heartbeat message to a second preset threshold value, wherein the second preset threshold value is larger than the first preset threshold value.

5. The message pushing method of claim 1, further comprising:

determining the number of active terminals in the mobile phone APP terminal target area;

And aiming at any active terminal, calculating the center point distance of the target area according to the latest uploaded position information of the active terminal.

6. The message pushing method as claimed in claim 5, wherein the specific formula for calculating the center point distance of the target area according to the latest uploaded position information is as follows:

Wherein θ ₁ is the latitude of the active terminal farthest from the target area, θ ₂ is the latitude of the active terminal nearest to the target area, Δσ is the average value of the difference between the longitude of the center point of the target area and the longitude of the active terminal, e is the first eccentricity, f is the second eccentricity, and p _i is the probability that the i-th historical uploading position belongs to the center point of the target area.

7. The message pushing method of claim 6, further comprising:

And for any active terminal, determining whether the active terminal is positioned in the target area according to the distance between the active terminal and the center point of the target area and the boundary of the target area, and determining the active terminal as a target active terminal if the active terminal is positioned in the target area.

8. The message pushing method according to claim 1, wherein the sequence processing the requested video information and sending the processed video information to the APP terminal of the mobile phone further comprises:

And creating a message pushing thread queue corresponding to the mobile phone APP terminals, and pushing offline messages according to the ID numbers of the devices to which the mobile phone APP terminals belong.

9. The message pushing method of claim 8, further comprising:

Determining the number of devices associated with the ID number of the device to which the mobile phone APP terminal belongs, and creating a device information base with the corresponding number according to the number of the devices;

the specific formula for determining the number of the devices associated with the ID number of the device to which the mobile phone APP terminal belongs is as follows:

Wherein X is the number of devices associated with the ID number of the device to which the mobile phone APP terminal belongs, X is a set threshold, n is the maximum number of message push threads, k is a constant,

10. A message pushing system, comprising:

The video information request module is used for receiving request video information sent by the mobile phone APP terminal, wherein the request video information comprises a video number and corresponding preset request time;

The heartbeat message pushing module is used for pushing heartbeat messages to the mobile phone APP terminal according to the preset request time;

The sequence message sending module is used for carrying out sequence processing on the request video information and sending the request video information to the mobile phone APP terminal;

the message judging module is used for judging whether the message pushed to the mobile phone APP terminal is successful or not, generating a cache queue from the sequence message with failed pushing, receiving the request of the mobile phone APP terminal at the preset request time again, taking out the message from the cache queue for pushing, and carrying out reverse sequence processing on the received message by the mobile phone APP terminal.