CN106550086B - Terminal and push information prompting method - Google Patents

Abstract

The invention provides a terminal and a method for prompting push information, wherein the terminal comprises: the co-processing module is arranged between the modulation and demodulation module and the application processing module and is used for generating a corresponding prompt signal when the push information sent by the modulation and demodulation module is acquired; the posture sensing module is connected to the co-processing module and used for detecting whether the posture change information of the body structure is matched with the preset posture change information or not after the push information is acquired by the co-processing module, and generating a prompt instruction when the posture change information is detected to be matched with the preset posture change information; the co-processing module is further configured to: and when the prompt instruction is acquired, the push information is sent to an application processing module of the terminal so as to be provided for the application processing module to analyze and prompt. By the technical scheme of the invention, the power loss of the terminal is reduced.

Description

Terminal and push information prompting method

Technical Field

The invention relates to the technical field of terminals, in particular to a terminal and a prompting method for pushing information.

Background

Mobile terminals such as mobile phones, smart watches, tablet computers and the like are widely popularized in the lives of users, when a base station pushes various service information to a terminal, a modem module of the terminal acquires push information (carried in a Protocol application data packet) to be analyzed and sends the push information to an application processing module for analysis, the analysis process of the application processing module is substantially to remove a packet header of the Protocol application data packet, and the Protocol application data packet with the packet header removed is analyzed according to a Transmission Control Protocol/Internet Protocol (TCP/IP), and finally the push information in the Protocol application packet is displayed on a bright screen interface of the terminal, but the power consumption of the terminal is sharply increased due to the screen lighting and the analysis process of the application processing module.

In the related art, in order to reduce the power consumption problem of the above-mentioned prompt scheme for pushing information, a terminal engineer proposes a cache scheme for pushing information, that is, when the modem module obtains the pushing information, if it is detected that the terminal is in a dark screen state, the application data packet is cached, that is, the application processing module is not awakened to perform parsing, so as to reduce the power consumption of the terminal.

However, the above technical solution for reducing power consumption ignores the timeliness of the push information, that is, the user cannot know the push information without waking up the application processing module or the dark screen state, which may cause the user to miss important push information, and seriously affect the user experience of the user.

Disclosure of Invention

The invention is based on at least one of the technical problems, and provides a terminal and a push information prompting method, wherein a co-processing module is arranged between a modulation and demodulation module and an application processing module, the push information received by the modulation and demodulation module is cached, and a gesture sensing module triggers a coprocessor to transmit the push information to the application processing module when detecting preset gesture change information, so that power consumption loss caused by directly awakening the application processing module is avoided, meanwhile, a corresponding prompting signal is generated, namely, a user can immediately know the push information, and whether to check the push information is selected according to the prompting signal.

In view of this, according to an embodiment of the first aspect of the present invention, there is provided a terminal, including: the co-processing module is arranged between the modulation and demodulation module and the application processing module and is used for generating a corresponding prompt signal when the push information sent by the modulation and demodulation module is acquired; the posture sensing module is connected to the co-processing module and used for detecting whether the posture change information of the body structure is matched with the preset posture change information or not after the push information is acquired by the co-processing module, and generating a prompt instruction when the posture change information is detected to be matched with the preset posture change information; the co-processing module is further configured to: and when the prompt instruction is acquired, the push information is sent to an application processing module of the terminal so as to be provided for the application processing module to analyze and prompt.

In the technical scheme, the coprocessing module is arranged between the modulation and demodulation module and the application processing module, the push information received by the modulation and demodulation module is cached, the gesture sensing module triggers the coprocessor to transmit the push information to the application processing module when detecting the preset gesture change information, power consumption loss caused by directly awakening the application processing module is avoided, meanwhile, a corresponding prompt signal is generated, namely a user can immediately know the push information, and whether the push information is checked or not is selected according to the prompt signal.

Specifically, after the modem module obtains the push information sent by the base station, the modem module does not directly wake up the application service module for parsing, or simply buffer and wait for the display screen of the terminal to be lighted to generate a prompt interface, but the processing module intercepts the push information and sends the push information to the application processing module, and simultaneously generates a corresponding prompt signal with power consumption far lower than that of lighting up the display screen or waking up the application processing module, the prompt signal is generated according to the type of the push information, for example, if the push information is the push information of an application program server, an LED indicator lamp of the terminal flashes green light, or the terminal vibrates once, if the push information is a short message, an LED indicator lamp of the terminal flashes yellow light, or the terminal vibrates three times, if the push information is the mail push information of an emergency contact, an LED indicator lamp of the terminal flashes red light, or the terminal vibrates three times, thereby reducing power consumption loss, the instantaneity of the push information is guaranteed, a user can determine whether to awaken the application processing module according to the prompt information, the multiple prompt schemes are only used for explaining the difference of the prompt information, and the range and the type of the prompt information are not limited.

After the co-processing module intercepts the push information, the attitude sensing module detects attitude change information of the terminal, the attitude change information comprises angular velocity change information and linear velocity change information of the terminal, a user determines whether to check the push information according to the prompt information, if so, the attitude of the terminal is changed, such as turning over the terminal or swinging the terminal or vibrating the terminal, and the like, so that the application processing module is triggered to analyze a data packet of the push information, and a display screen is lightened to generate a prompt interface.

In the above technical solution, preferably, the attitude sensing module includes an accelerometer and/or a gyroscope, the attitude change information detected by the accelerometer includes linear velocity change information, and the attitude change information detected by the gyroscope includes angular velocity change information, and when the accelerometer and the gyroscope work simultaneously, the attitude change information is generated according to a preset weighted value, the linear velocity change information, and the angular velocity change information.

In the technical scheme, the attitude sensor comprises the accelerometer and/or the gyroscope, so that the accuracy and the reliability of the prompting scheme for pushing the information can be improved while the product generation cost is not increased, for example, weighted values are respectively preset for a linear velocity change value and an angular velocity change value, the weighted sum result is used as attitude change information, and various attitude change information of the integrated terminal determines whether to awaken the application processing module and light the display screen.

In any one of the above technical solutions, preferably, the method further includes: the storage module is connected to the attitude sensing module and used for prestoring preset attitude change information and preset weighted values, wherein the preset attitude change information comprises preset linear velocity change information matched with the linear velocity change information, and the preset attitude change information further comprises preset angular velocity change information matched with the angular velocity change information.

In the technical scheme, the detection efficiency and accuracy can be improved by setting the storage module to pre-store the preset posture change information and the preset weighted value.

In any one of the foregoing technical solutions, preferably, the co-processing module is further configured to perform classification and identification processing on the push information, and the co-processing module further includes: and the prompting module is connected to the co-processing module and used for respectively generating corresponding prompting signals for different types of push information according to the classification recognition result of the push information, wherein the prompting module comprises at least one of a plurality of LED indicating lamps, a buzzer and a micro motor, the plurality of LED indicating lamps are used for generating optical prompting signals, the buzzer is used for generating acoustic prompting signals, and the micro motor is used for generating vibration prompting signals.

In the technical scheme, the prompt module, such as a plurality of LED indicator lamps, a buzzer and a micro motor, is arranged in the coprocessor, so that the timeliness of information push can be ensured, and a user is informed of the type of the information push on the premise of not waking up the application processing module.

In any one of the above technical solutions, preferably, the body structure of the terminal further includes: and the display screen is connected to the application processing module, and the application processing module triggers the display screen to display the analyzed push information after acquiring the prompt instruction.

In the technical scheme, after the prompt instruction is acquired, the display screen is triggered to display the analyzed push information, so that a user can know the push information at any time, and meanwhile, the power consumption of the prompt information is reduced.

According to an embodiment of the second aspect of the present invention, a method for prompting information push is provided, including: when the push information is acquired, generating a corresponding prompt signal; after the push information is acquired, detecting whether the posture change information of the body structure of the terminal is matched with preset posture change information or not, and generating a prompt instruction when the posture change information is detected to be matched with the preset posture change information; and when the prompt instruction is acquired, sending the push information to an application processing module of the terminal so as to be provided for the application processing module to analyze and prompt.

In the technical scheme, the coprocessing module is arranged between the modulation and demodulation module and the application processing module, the push information received by the modulation and demodulation module is cached, the gesture sensing module triggers the coprocessor to transmit the push information to the application processing module when detecting the preset gesture change information, power consumption loss caused by directly awakening the application processing module is avoided, meanwhile, a corresponding prompt signal is generated, namely a user can immediately know the push information, and whether the push information is checked or not is selected according to the prompt signal.

Specifically, after the modem module obtains the push information sent by the base station, the modem module does not directly wake up the application service module for parsing, or simply buffer and wait for the display screen of the terminal to be lighted to generate a prompt interface, but the processing module intercepts the push information and sends the push information to the application processing module, and simultaneously generates a corresponding prompt signal with power consumption far lower than that of lighting up the display screen or waking up the application processing module, the prompt signal is generated according to the type of the push information, for example, if the push information is the push information of an application program server, an LED indicator lamp of the terminal flashes green light, or the terminal vibrates once, if the push information is a short message, an LED indicator lamp of the terminal flashes yellow light, or the terminal vibrates three times, if the push information is the mail push information of an emergency contact, an LED indicator lamp of the terminal flashes red light, or the terminal vibrates three times, thereby reducing power consumption loss, the instantaneity of the push information is guaranteed, a user can determine whether to awaken the application processing module according to the prompt information, the multiple prompt schemes are only used for explaining the difference of the prompt information, and the range and the type of the prompt information are not limited.

After the co-processing module intercepts the push information, the attitude sensing module detects attitude change information of the terminal, the attitude change information comprises angular velocity change information and linear velocity change information of the terminal, a user determines whether to check the push information according to the prompt information, if so, the attitude of the terminal is changed, such as turning over the terminal or swinging the terminal or vibrating the terminal, and the like, so that the application processing module is triggered to analyze a data packet of the push information, and a display screen is lightened to generate a prompt interface.

In the above technical solution, preferably, the attitude change information includes linear velocity change information and/or angular velocity change information, and when the linear velocity change information and the angular velocity change information are detected at the same time, the attitude change information is generated according to a preset weighting value, the linear velocity change information, and the angular velocity change information.

In the technical scheme, the attitude sensor comprises the accelerometer and/or the gyroscope, so that the accuracy and the reliability of the prompting scheme for pushing the information can be improved while the product generation cost is not increased, for example, weighted values are respectively preset for a linear velocity change value and an angular velocity change value, the weighted sum result is used as attitude change information, and various attitude change information of the integrated terminal determines whether to awaken the application processing module and light the display screen.

In any one of the above technical solutions, preferably, before acquiring the push information, the method further includes: and pre-storing preset attitude change information and preset weighted values, wherein the preset attitude change information comprises preset linear velocity change information matched with the linear velocity change information, and the preset attitude change information also comprises preset angular velocity change information matched with the angular velocity change information.

In the technical scheme, the detection efficiency and accuracy can be improved by setting the storage module to pre-store the preset posture change information and the preset weighted value.

In any one of the above technical solutions, preferably, when acquiring the push information, generating a corresponding prompt signal specifically includes the following steps: classifying and identifying the push information; and respectively generating corresponding prompt signals for different types of push information according to the classification and identification results of the push information, wherein the prompt signals comprise optical prompt signals generated by a plurality of LED indicator lamps of the terminal, acoustic prompt signals generated by a buzzer of the terminal and vibration prompt signals generated by a micro motor of the terminal.

In the technical scheme, the prompt module, such as a plurality of LED indicator lamps, a buzzer and a micro motor, is arranged in the coprocessor, so that the timeliness of information push can be ensured, and a user is informed of the type of the information push on the premise of not waking up the application processing module.

In any one of the above technical solutions, preferably, the method further includes: and after the prompt instruction is acquired, a display screen of the terminal is triggered to display the analyzed push information.

In the technical scheme, after the prompt instruction is acquired, the display screen is triggered to display the analyzed push information, so that a user can know the push information at any time, and meanwhile, the power consumption of the prompt information is reduced.

According to the technical scheme, the coprocessing module is arranged between the modulation and demodulation module and the application processing module, the push information received by the modulation and demodulation module is cached, the gesture sensing module triggers the coprocessor to transmit the push information to the application processing module when detecting the preset gesture change information, power consumption loss caused by directly awakening the application processing module is avoided, meanwhile, a corresponding prompt signal is generated, namely, a user can immediately know the push information, and whether the push information is checked or not is selected according to the prompt signal.

Drawings

Fig. 1 shows a schematic view of a first embodiment of a terminal according to the invention;

fig. 2 shows a schematic view of an embodiment two of the terminal according to the invention;

FIG. 3 shows a schematic flow diagram of a method of prompting for push information according to an embodiment of the invention;

fig. 4 is a schematic interface diagram illustrating a method for prompting a terminal to push information according to an embodiment of the present invention;

fig. 5 is another interface diagram illustrating a prompting method for pushing information of the terminal according to the embodiment shown in fig. 4;

fig. 6 is a schematic interface diagram illustrating a method for prompting the terminal to push information according to the embodiment shown in fig. 5.

Detailed Description

In order that the above objects, features and advantages of the present invention can be more clearly understood, a more particular description of the invention will be rendered by reference to the appended drawings. It should be noted that the embodiments and features of the embodiments of the present application may be combined with each other without conflict.

In the following description, numerous specific details are set forth in order to provide a thorough understanding of the present invention, however, the present invention may be practiced in other ways than those specifically described herein, and therefore the scope of the present invention is not limited by the specific embodiments disclosed below.

Fig. 1 shows a schematic diagram of a first embodiment of a terminal according to the invention.

Fig. 2 shows a schematic view of an embodiment two of the terminal according to the invention.

A terminal according to an embodiment of the present invention will be specifically described below with reference to fig. 1 and 2.

The first embodiment is as follows:

as shown in fig. 1, a terminal 100 according to an embodiment of the present invention includes: the body structure is provided with a modulation and demodulation module 102 and an application processing module 104, the modulation and demodulation module 102 is used for acquiring push information sent by the service module and sending the push information to the application processing module 104, and the application processing module 104 analyzes the push information and then prompts the push information to a user; the co-processing module 106 is arranged between the modem module 102 and the application processing module 104, and is configured to generate a corresponding prompt signal when acquiring the push information sent by the modem module 102; the posture sensing module 108 is connected to the co-processing module 106, and is configured to detect whether posture change information of the body structure matches preset posture change information after the co-processing module 106 acquires the push information, and generate a prompt instruction when detecting that the posture change information matches the preset posture change information; the co-processing module 106 is further configured to: and when the prompt instruction is acquired, sending the push information to the application processing module 104 of the terminal 100 so as to be provided for the application processing module 104 to analyze the prompt.

In the technical scheme, the co-processing module 106 is arranged between the modem module 102 and the application processing module 104 to cache the push information received by the modem module 102, and when the gesture sensing module 108 detects the preset gesture change information, the co-processor is triggered to transmit the push information to the application processing module 104, so that power loss caused by directly waking up the application processing module 104 is avoided, meanwhile, a corresponding prompt signal is generated, that is, a user can immediately know the push information, and whether to check the push information is selected according to the prompt signal.

Specifically, after obtaining the push information sent by the base station, the modem module 102 does not directly wake up the application service module for parsing, or simply buffer and wait for the display 112 (shown in fig. 2) of the terminal 100 to be turned on to generate a prompt interface, but the co-processing module 106 intercepts the push information sent to the application processing module 104, and generates a corresponding prompt signal with power consumption much lower than that of turning on the display 112 or waking up the application processing module 104, where the prompt signal is generated according to the type of the push information, for example, if the push information is the push information of an application server, the LED indicator of the terminal 100 flashes green light, or the terminal 100 vibrates once, if the push information is the short message push information, the LED indicator of the terminal 100 flashes yellow light, or the terminal 100 vibrates three times, and if the push information is the mail push information of an emergency contact, the LED indicator of the terminal 100 flashes red light, or the terminal 100 vibrates three times, so that the power loss is reduced, and the instantaneity of the push information is ensured, and the user can determine whether to awaken the application processing module 104 according to the prompt information.

After the co-processing module 106 intercepts the push information, the gesture sensing module 108 detects gesture change information of the terminal 100, where the gesture change information includes angular velocity change information and linear velocity change information of the terminal 100, and the user determines whether to check the push information according to the prompt information, and changes the gesture of the terminal 100 if the push information needs to be checked, for example, turning over the terminal 100 or swinging the terminal 100 or vibrating the terminal 100, and so on, to trigger the application processing module 104 to analyze a data packet of the push information, and light up the display screen 112 to generate a prompt interface.

The push message 302 depicted by the dashed line indicates that it is not visible, the application processing module is not awake, and the display is not lit.

In the above technical solution, preferably, the attitude sensing module 108 includes an accelerometer and/or a gyroscope, the attitude change information detected by the accelerometer includes linear velocity change information, and the attitude change information detected by the gyroscope includes angular velocity change information, and when the accelerometer and the gyroscope work simultaneously, the attitude change information is generated according to a preset weighting value, the linear velocity change information, and the angular velocity change information.

In this technical solution, by setting the attitude sensor to include an accelerometer and/or a gyroscope, the accuracy and reliability of the prompting scheme for pushing information can be improved without increasing the product generation cost, for example, weighting values are respectively preset for the line speed variation value and the angular speed variation value, the result of the weighted summation is taken as the attitude variation information, and the various attitude variation information of the integrated terminal 100 determines whether to awaken the application processing module 104 and light the display screen 112.

Example two:

as shown in fig. 2, in the first embodiment, the terminal further includes: the storage module 110 is connected to the attitude sensing module 108, and is configured to pre-store preset attitude change information and preset weighting values, where the preset attitude change information includes preset linear velocity change information used for matching with the linear velocity change information, and the preset attitude change information further includes preset angular velocity change information used for matching with the angular velocity change information.

In the technical scheme, the preset posture change information and the preset weighted value are pre-stored by the storage module 110, so that the detection efficiency and accuracy can be improved.

In any one of the foregoing technical solutions, preferably, the co-processing module 106 is further configured to perform classification and identification processing on the push information, and the co-processing module 106 further includes: the prompt module 1062 is connected to the co-processing module 106 and configured to generate corresponding prompt signals for different types of push information according to the classification and identification results of the push information, where the prompt module 1062 includes at least one of a plurality of LED indicators, a buzzer and a micro motor, the plurality of LED indicators are used to generate optical prompt signals, the buzzer is used to generate acoustic prompt signals, and the micro motor is used to generate vibratory prompt signals.

In this technical solution, by providing the prompt module 1062, such as a plurality of LED indicators, a buzzer, and a micro motor, in the coprocessor, the timeliness of pushing information can be ensured, that is, the user is informed of the type of the pushed information on the premise of not waking up the application processing module 104.

In any of the above technical solutions, preferably, the body structure of the terminal 100 further includes: and the display screen 112 is connected to the application processing module 104, and after the application processing module 104 acquires the prompt instruction, the display screen 112 is triggered to display the analyzed push information.

In the technical scheme, after the prompt instruction is acquired, the display screen 112 is triggered to display the analyzed push information, so that a user can know the push information at any time, and meanwhile, the power consumption of the prompt information is reduced.

Fig. 3 shows a schematic flow chart of a method of prompting for push information according to an embodiment of the present invention.

Fig. 4 is a schematic interface diagram illustrating a method for prompting a terminal to push information according to an embodiment of the present invention.

Fig. 5 is another interface diagram illustrating a method for prompting the terminal to push information according to the embodiment shown in fig. 4.

Fig. 6 is a schematic interface diagram illustrating a method for prompting the terminal to push information according to the embodiment shown in fig. 5.

The following describes a push information prompting method according to an embodiment of the present invention with reference to fig. 3 to 6.

As shown in fig. 3 to 6, the prompting method of the push information 302 according to the embodiment of the present invention includes: step 202, generating a corresponding prompt signal when the push information 302 is acquired; step 204, after the push information 302 is obtained, detecting whether the posture change information of the body structure of the terminal is matched with the preset posture change information, and generating a prompt instruction when the posture change information is detected to be matched with the preset posture change information; in step 206, when the prompt instruction is obtained, the push information 302 is sent to the application processing module of the terminal, so as to be provided for the application processing module to perform analysis prompt.

In the technical scheme, the coprocessing module is arranged between the modulation and demodulation module and the application processing module to cache the push information 302 received by the modulation and demodulation module, and when the gesture sensing module detects preset gesture change information, the coprocessor is triggered to transmit the push information 302 to the application processing module, so that power loss caused by directly awakening the application processing module is avoided, meanwhile, a corresponding prompt signal is generated, namely a user can immediately know the push information 302, and whether to check the push information 302 is selected according to the prompt signal.

Specifically, after the modem module obtains the push information 302 sent by the base station, the modem module does not directly wake up the application service module for parsing, or simply buffer and wait for the display screen of the terminal to be lit to generate a prompt interface, but the co-processing module intercepts the push information 302 and sends it to the application processing module, and at the same time, the power consumption of generating a corresponding prompt signal is much lower than the power consumption of lighting up the display screen or waking up the application processing module, and the prompt signal is generated according to the type of the push information 302, for example, if the push information 302 is the push information 302 of the application program server, the LED indicator 304 of the terminal flashes green light, or the terminal vibrates once, if the push information 302 is the short message push information, the LED indicator 304 of the terminal flashes yellow light, or the terminal vibrates three times, if the push information 302 is the mail push information of an emergency contact, the LED indicator 304 of the terminal flashes red light, or the terminal vibrates three times, and then while reducing the power consumption loss, guaranteed the immediacy of the push information 302, the user can confirm whether to wake up the application processing module according to the prompt information, the above-mentioned many prompt schemes are only used for the difference of many kinds of explanation prompt information, and do not limit the scope and kind of the prompt information.

After the co-processing module intercepts the push information 302, the posture sensing module detects posture change information of the terminal, the posture change information includes angular velocity change information and linear velocity change information of the terminal, a user determines whether to check the push information 302 according to the prompt information, if so, the posture of the terminal is changed, such as turning over the terminal or swinging the terminal or vibrating the terminal, and then the application processing module is triggered to analyze a data packet of the push information 302, and a display screen is lightened to generate a prompt interface.

In the above technical solution, preferably, the attitude change information includes linear velocity change information and/or angular velocity change information, and when the linear velocity change information and the angular velocity change information are detected at the same time, the attitude change information is generated according to a preset weighting value, the linear velocity change information, and the angular velocity change information.

In the technical scheme, by arranging the attitude sensor to comprise an accelerometer and/or a gyroscope, the accuracy and reliability of the prompting scheme of the push information 302 can be improved while the product generation cost is not increased, for example, weighting values are respectively preset for a linear velocity change value and an angular velocity change value, the result of weighted summation is used as attitude change information, and various attitude change information of the terminal is integrated to determine whether to awaken the application processing module and light the display screen.

In any one of the above technical solutions, before acquiring the push information 302, preferably, the method further includes: and pre-storing preset attitude change information and preset weighted values, wherein the preset attitude change information comprises preset linear velocity change information matched with the linear velocity change information, and the preset attitude change information also comprises preset angular velocity change information matched with the angular velocity change information.

In the technical scheme, the detection efficiency and accuracy can be improved by setting the storage module to pre-store the preset posture change information and the preset weighted value.

In any one of the above technical solutions, preferably, when the push information 302 is acquired, the generating of the corresponding prompt signal specifically includes the following steps: classifying and identifying the push information 302; according to the classification recognition result of the push information 302, corresponding prompt signals are respectively generated for different types of push information 302, wherein the prompt signals comprise optical prompt signals generated by a plurality of LED indicator lamps 304 of the terminal, acoustic prompt signals generated by a buzzer of the terminal and vibration prompt signals generated by a micro motor of the terminal.

In the technical scheme, the prompt module, such as the plurality of LED indicator lights 304, the buzzer and the micro motor, is arranged in the coprocessor, so that the timeliness of the push information 302 can be ensured, that is, the user is informed of the type of the push information 302 on the premise of not waking up the application processing module.

In any one of the above technical solutions, preferably, the method further includes: after the prompt instruction is obtained, the display screen of the terminal is triggered to display the analyzed push information 302.

In the technical scheme, after the prompt instruction is acquired, the display screen is triggered to display the analyzed push information 302, so that a user can know the push information 302 at any time, and meanwhile, the power consumption of the prompt information is reduced.

As shown in fig. 6, when it is detected that the angular velocity change information 308 of the terminal matches the preset angular velocity change information, the display screen is lit and a prompt interface 306 such as "10086 package use condition prompt" is generated.

The prompting method of the push information further comprises the following implementation modes:

step1, the Modem module receives the base station signal of the operator, converts it into digital signal, and reports it to the co-processing module (CP).

Step 2: the CP analyzes the push information category in the signal and is divided into three types, namely telephone, short message and notice.

And Step3, the CP lights different color indicator lamps according to the types of the push information and starts the audio subsystem to make sound.

Step4 the CP activates the gesture sensing module (or called motion sensor) to detect the user's actions.

Step5, if the CP detects that the action of the user to the terminal matches with the preset action, it wakes up the Application Processor (AP) and reports the message.

And Step6, the AP analyzes the push information, draws a prompt interface, lights the screen and prompts the flow to end.

In consideration of the technical problems of terminal power consumption increase and message instantaneity caused by push information provided in the related technology, the invention provides a novel terminal and a push information prompting method.

The steps in the method of the embodiment of the invention can be sequentially adjusted, combined and deleted according to actual needs.

The units in the terminal of the embodiment of the invention can be merged, divided and deleted according to actual needs.

It will be understood by those skilled in the art that all or part of the steps in the methods of the embodiments described above may be implemented by hardware instructions of a program, and the program may be stored in a computer-readable storage medium, where the storage medium includes Read-Only Memory (ROM), Random Access Memory (RAM), Programmable Read-Only Memory (PROM), Erasable Programmable Read-Only Memory (EPROM), One-time Programmable Read-Only Memory (OTPROM), Electrically Erasable Programmable Read-Only Memory (EEPROM), Compact Disc Read-Only Memory (CD-ROM), or other Memory, such as a magnetic disk, or a combination thereof, A tape memory, or any other medium readable by a computer that can be used to carry or store data.

The above description is only a preferred embodiment of the present invention and is not intended to limit the present invention, and various modifications and changes may be made by those skilled in the art. Any modification, equivalent replacement, or improvement made within the spirit and principle of the present invention should be included in the protection scope of the present invention.

Claims (10)

1. The utility model provides a terminal, the structural modem module and the application processing module of being equipped with of body of terminal, modem module is used for acquireing the propelling movement information that the service module sent and sends to application processing module, application processing module is right the propelling movement information is analyzed the back and is indicateed for the user, its characterized in that, the terminal includes:

the co-processing module is arranged between the modulation and demodulation module and the application processing module and is used for generating a corresponding prompt signal when the push information sent by the modulation and demodulation module is acquired;

the posture sensing module is connected to the co-processing module and used for detecting whether the posture change information of the body structure is matched with preset posture change information or not after the push information is acquired by the co-processing module, and generating a prompt instruction when the posture change information is detected to be matched with the preset posture change information;

the co-processing module is further configured to: when a prompt instruction is obtained, the push information is sent to an application processing module of the terminal so that the application processing module can analyze and prompt;

the coprocessing module is further configured to perform classification, identification and processing on the push information, and the coprocessing module further includes:

the prompting module is connected to the co-processing module and used for respectively generating corresponding prompting signals for different types of push information according to the classification and identification results of the push information;

and the storage module is connected to the attitude sensing module and is used for prestoring the preset attitude change information and the preset weighted value.

2. The terminal of claim 1,

the attitude sensing module comprises an accelerometer and/or a gyroscope, the attitude change information detected by the accelerometer comprises linear velocity change information, the attitude change information detected by the gyroscope comprises angular velocity change information,

when the accelerometer and the gyroscope work simultaneously, the attitude change information is generated according to the preset weighted value, the linear velocity change information and the angular velocity change information.

3. The terminal according to claim 2, wherein the preset posture change information includes preset linear velocity change information for matching with the linear velocity change information, and the preset posture change information further includes preset angular velocity change information for matching with the angular velocity change information.

4. A terminal according to any of claims 1 to 3,

the prompting module comprises at least one of a plurality of LED indicating lamps, a buzzer and a micro motor, wherein the LED indicating lamps are used for generating optical prompting signals, the buzzer is used for generating acoustic prompting signals, and the micro motor is used for generating vibration prompting signals.

5. A terminal according to any of claims 1-3, wherein the body structure of the terminal further comprises:

and the display screen is connected to the application processing module, and the application processing module triggers the display screen to display the analyzed push information after acquiring the prompt instruction.

6. A prompting method for pushing information, which is applied to the terminal according to any one of claims 1 to 5, and is characterized in that the method comprises:

when the push information is acquired, generating a corresponding prompt signal;

after the push information is acquired, detecting whether the posture change information of the body structure of the terminal is matched with preset posture change information, and generating a prompt instruction when the posture change information is detected to be matched with the preset posture change information;

when the prompt instruction is obtained, the push information is sent to an application processing module of the terminal so that the application processing module can analyze and prompt;

when the push information is obtained, generating a corresponding prompt signal, specifically comprising the following steps:

carrying out classification and identification processing on the push information;

respectively generating corresponding prompt signals for different types of push information according to the classification and identification results of the push information;

before acquiring the push information, the method further comprises the following steps: and pre-storing the preset posture change information and the preset weighted value.

7. The push information prompting method according to claim 6,

the attitude change information includes linear velocity change information and/or angular velocity change information, and when the linear velocity change information and the angular velocity change information are detected at the same time, the attitude change information is generated according to the preset weighted value, the linear velocity change information and the angular velocity change information.

8. The push information prompting method according to claim 7,

the preset attitude change information comprises preset linear velocity change information matched with the linear velocity change information, and the preset attitude change information also comprises preset angular velocity change information matched with the angular velocity change information.

9. Push information prompting method according to any one of claims 6 to 8,

the prompt signals comprise optical prompt signals generated by a plurality of LED indicator lamps of the terminal, acoustic prompt signals generated by a buzzer of the terminal and vibration prompt signals generated by a micro motor of the terminal.

10. The method for prompting push information according to any one of claims 6 to 8, further comprising:

and after the prompt instruction is acquired, triggering a display screen of the terminal to display the analyzed push information.

Images