CN115226076A - Method and system for enabling mobile terminal to enter driving mode based on server - Google Patents

Abstract

A method and a system for enabling a mobile terminal to enter a driving mode based on a server are provided, wherein the method comprises the following steps: acquiring vehicle motion information; acquiring motion information of the mobile terminal; and comparing the vehicle motion information with the mobile terminal motion information, and sending an indication signal for entering or exiting the driving mode to the mobile terminal according to the comparison result. Whether the mobile terminal enters the driving mode or not can be automatically judged, the trouble of manual setting is reduced, additional installation of a marker is not needed, and the method has the characteristics of low cost, convenience and quickness.

Description

Method and system for enabling mobile terminal to enter driving mode based on server

Technical Field

The invention relates to the technical field of communication, in particular to a method and a system for enabling a mobile terminal to enter a driving mode based on a server.

Background

With the development and progress of the society, automobiles and mobile phones have become widely popularized, and the problem of safety in use of mobile phones when driving automobiles is also gradually attracting attention of people. For this reason, many mobile phone providers set a "driving mode" at the mobile phone end to solve the safety problem in driving. For example, the 'driving mode' provided by Mate 9 in Hua enables the telephone dialing and answering in driving to be very safe and convenient, and only by saying 'a certain telephone is called', the mobile phone automatically dials a telephone for you and is switched to the hands-free mode; when there is incoming call or short message, it can answer or hang up through voice command.

In the prior art, a method for determining that a mobile phone enters a driving mode generally includes: connect specific markers on the car, perform motion detection and manual settings, etc. Various deficiencies exist in the prior art and are briefly described below.

Attaching specific markers on the car: the technology is beneficial to vehicle-mounted Bluetooth or an additional NFC chip is installed as a marker. The method has limitations, for example, it is beneficial to associate vehicle-mounted bluetooth and mobile phone bluetooth between the vehicle and the mobile phone, when the user uses the mobile phone, the bluetooth may be turned off for privacy consideration or power saving, and when the mobile phone bluetooth is in a turned-off state, the mobile phone and the vehicle-mounted terminal cannot establish contact.

And (3) carrying out motion detection: the technology utilizes the motion detection equipment of the mobile phone to judge whether the mobile phone is in a motion state. However, the scheme can only determine the state of the mobile phone user, but cannot determine whether the mobile phone user is the same person as the driver, and when the mobile phone user is in other motor vehicles or a vehicle driven by a non-user, whether the mobile phone needs to enter the driving mode cannot be accurately determined.

Manual setting: the method is accurate, but the operation is troublesome, and automatic setting cannot be realized.

In short, the existing method for determining that the mobile phone enters the driving mode needs to be further improved.

Disclosure of Invention

The invention aims to provide a method, a system, a storage medium and a vehicle-mounted terminal for judging whether a mobile terminal enters a driving mode so as to improve the conventional method for judging whether a mobile phone enters the driving mode.

In order to solve the technical problem, the technical scheme of the invention provides a method for enabling a mobile terminal to enter a driving mode based on a server, which comprises the following steps: acquiring vehicle motion information; acquiring motion information of the mobile terminal; and comparing the vehicle motion information with the mobile terminal motion information, and sending an indication signal for entering or exiting a driving mode to the mobile terminal according to the comparison result.

Optionally, before obtaining the vehicle motion information and obtaining the motion information of the mobile terminal, the method further includes: and associating the vehicle-mounted terminal with the mobile terminal.

Optionally, the step of associating the vehicle-mounted terminal with the mobile terminal includes: acquiring first user information from a mobile terminal; acquiring second user information of the vehicle; and associating the first user information with second user information.

Optionally, the step of obtaining the first user information from the mobile terminal includes: the mobile terminal stores a first account of the first user information; and acquiring the first account.

Optionally, the step of acquiring second user information of the vehicle includes: the server stores a second account of the second user information; and acquiring the second account.

Optionally, before obtaining the vehicle motion information and the mobile terminal motion information, the method further includes: when the vehicle is started, vehicle starting information is obtained from the vehicle-mounted terminal, and the vehicle is determined to enter a running state.

Optionally, the step of acquiring the vehicle start information by the vehicle-mounted terminal includes: and the vehicle starting equipment sends vehicle starting information to the vehicle-mounted terminal, and comprises a vehicle key.

Optionally, the step of comparing the vehicle motion information with the mobile terminal motion information includes: and comparing the vehicle motion information with the mobile terminal motion information, and sending a signal for entering a driving mode to the mobile terminal when a comparison result meets a set condition.

Optionally, a unit cycle time and a preset frequency are provided, the vehicle motion information and the mobile terminal motion information are compared every other unit cycle time to obtain a single comparison result, and the setting conditions include: judging that the vehicle motion information is consistent with the motion information of the mobile terminal and the vehicle is in a running state according to a single comparison result, and judging that the vehicle is matched with the mobile terminal; and the matching times of the vehicle and the mobile terminal continuously reach the preset frequency.

Optionally, the motion information includes one or more of coordinates, velocity, acceleration, and angular velocity in combination.

Optionally, the method further includes: and after receiving the indication signal, the mobile terminal is correspondingly controlled to enter or exit the driving mode.

Correspondingly, the technical scheme of the invention also provides a system for enabling the mobile terminal to enter a driving mode based on the server, which comprises the following steps: the acquisition unit comprises a first acquisition module and a second acquisition module, wherein the first acquisition module is used for acquiring vehicle motion information from the vehicle-mounted terminal, and the second acquisition module is used for acquiring mobile terminal motion information from the mobile terminal; and the logic judgment unit is used for comparing the vehicle motion information with the mobile terminal motion information and sending an indication signal for entering or exiting the driving mode to the mobile terminal according to the comparison result.

Optionally, the method further includes: and the association unit is used for associating the vehicle-mounted terminal with the mobile terminal before the vehicle motion information is acquired and the mobile terminal motion information is acquired.

Optionally, the association unit includes a third obtaining module, a fourth obtaining module, and an association module: the third acquisition module is used for acquiring first user information from the mobile terminal, the fourth acquisition module is used for acquiring second user information of the vehicle, and the association module is used for associating the first user information with the second user information.

Optionally, further comprising: the first storage unit is positioned at the mobile terminal and used for storing a first account of the first user information; the third obtaining module is used for obtaining the first account.

Optionally, further comprising: the second storage unit is positioned in the server and used for storing a second account of the second user information; the fourth obtaining module is configured to obtain the second account.

Optionally, the method further includes: the information acquisition unit is used for acquiring vehicle starting information from the vehicle-mounted terminal when the vehicle is started before acquiring the vehicle motion information and the mobile terminal motion information so as to determine that the vehicle enters a running state.

Optionally, the method further includes: the vehicle starting device comprises an information sending unit located in the vehicle starting device, the information sending unit is used for sending vehicle starting information to the vehicle-mounted terminal, and the vehicle starting device comprises a vehicle key.

Optionally, the logic determination unit includes a data analysis module and a determination module, the data analysis module is configured to compare the vehicle motion information with the mobile terminal motion information, and the determination module is configured to send a signal for entering a driving mode to the mobile terminal after obtaining information that a comparison result meets a set condition.

Optionally, the logic determining unit further includes a preset module, the preset module is configured to provide unit cycle time and preset frequency, the data analyzing module is configured to compare the vehicle motion information with the mobile terminal motion information every other unit cycle time to obtain a single comparison result, the determining module is configured to determine whether a set condition is met according to multiple comparison results, and the set condition includes: judging that the vehicle motion information is consistent with the motion information of the mobile terminal and the vehicle is in a running state according to a single comparison result, and judging that the vehicle is matched with the mobile terminal; and the matching times of the vehicle and the mobile terminal continuously reach the preset frequency.

Optionally, the method further includes: and the control unit is used for correspondingly controlling the mobile terminal to enter or exit the driving mode after the mobile terminal receives the indication signal.

Embodiments of the present invention further provide a storage medium, on which a computer program is stored, where the computer program is executed by a processor to perform the steps of the above method.

The embodiment of the present invention further provides a server, which includes a memory and a processor, where the memory stores a computer program capable of running on the processor, and is characterized in that the processor executes the steps of the above method when running the computer program.

Compared with the prior art, the technical scheme of the embodiment of the invention has the following beneficial effects:

the embodiment of the invention provides a method for enabling a mobile terminal to enter a driving mode based on a server, which comprises the following steps: acquiring vehicle motion information; acquiring motion information of the mobile terminal; and comparing the vehicle motion information with the mobile terminal motion information, and sending an indication signal for entering or exiting a driving mode to the mobile terminal according to the comparison result. Whether the mobile terminal enters the driving mode or not can be automatically judged, the trouble of manual setting is reduced, additional installation of a marker is not needed, and the method has the advantages of being low in cost, convenient and fast.

Furthermore, the motion state information may be information such as acceleration and angular velocity, which does not relate to sensitive information of the user, such as coordinate position, and avoids disclosure of privacy users.

The embodiment of the invention provides a system for enabling a mobile terminal to enter a driving mode based on a server, which can automatically judge whether the mobile terminal enters the driving mode, reduce the trouble of manual setting, avoid the need of starting Bluetooth, avoid privacy disclosure caused by the need of starting Bluetooth, avoid the need of additionally installing a marker, and has the characteristics of low cost, convenience and quickness.

Furthermore, the motion state information may be information such as acceleration and angular velocity, which does not relate to sensitive information of the user, such as coordinate position, and avoids disclosure of privacy users.

Drawings

FIG. 1 is a schematic illustration of a playback interface for an audio application before and after entering a driving mode;

FIG. 2 is a flow chart of a method for entering a mobile terminal into a driving mode based on a server according to an embodiment of the invention;

FIG. 3 is a flowchart illustrating steps for associating a vehicle mounted terminal with a mobile terminal in an embodiment of the present invention;

fig. 4 is a schematic structural diagram of a system for enabling a mobile terminal to enter a driving mode based on a server according to an embodiment of the present invention.

Detailed Description

As background art shows, the existing method for determining that a mobile phone enters a driving mode needs to be further improved. To facilitate understanding of this concept of driving mode, please refer to fig. 1.

FIG. 1 is a schematic diagram of a playback interface for an audio application before and after entering a driving mode.

Referring to fig. 1, before entering the driving mode, the playing interface 10 of the audio application includes a first background region 101, a first playing control region 102, and a first information display region 103; after entering the driving mode, the playing interface 20 of the audio application includes a second background region 201, a second playing control region 202, and a second information displaying region 203.

Compared with the interface before entering the driving mode, the playing interface in the driving mode increases the convenience of operation, such as: showing some important information in a larger font for the user to view; some less important details etc. are omitted. Specifically, the method comprises the following steps: the second information display area 203 is placed at a position convenient for the user to view relative to the first information display area 103, and the display area is enlarged; the area occupied by the second background region 201 is reduced with respect to the first background region 101; the second play control area 202 enlarges the control keys with respect to the first play control area 102 and omits the progress key and the loop play key. The driving mode state is added to some applications in the mobile phone, so that a user can conveniently check or operate the mobile phone when driving a vehicle, and driving safety is facilitated.

In order to optimize and determine a method for a mobile terminal to enter a driving mode, an embodiment of the present invention provides a method for a server to enable a mobile terminal to enter a driving mode, including: acquiring vehicle motion information; acquiring motion information of the mobile terminal; and comparing the vehicle motion information with the mobile terminal motion information, and sending an indication signal for entering or exiting the driving mode to the mobile terminal according to the comparison result. Whether the mobile terminal enters the driving mode or not can be automatically judged, the trouble of manual setting is reduced, additional installation of a marker is not needed, and the method has the advantages of being low in cost, convenient and fast.

In order to make the aforementioned objects, features and advantages of the present invention comprehensible, embodiments accompanied with figures are described in detail below.

Fig. 2 is a flowchart of a method for entering a mobile terminal into a driving mode based on a server according to an embodiment of the present invention.

Referring to fig. 2, the method for enabling a mobile terminal to enter a driving mode based on a server includes the following steps:

step S301, vehicle motion information is obtained;

step S302, obtaining the motion information of the mobile terminal;

and S302, comparing the vehicle motion information with the mobile terminal motion information, and sending an indication signal for entering or exiting a driving mode to the mobile terminal according to the comparison result.

The following detailed description will be made in conjunction with the accompanying drawings.

Referring to fig. 2, vehicle movement information is obtained; and acquiring the motion information of the mobile terminal.

Specifically, the server acquires vehicle motion information from the in-vehicle terminal. The vehicle-mounted terminal can be used for realizing communication between a user and a vehicle, between the vehicle and the outside (such as the Internet and a mobile terminal) and between the user and vehicle-mounted equipment.

In this embodiment, the mobile terminal is a mobile phone. The mobile phone is almost a necessary product for people's life in modern society, the use safety of the mobile phone is a necessity of people when the vehicle is running, and the mobile phone of a driver is in a driving mode when the vehicle is running, which is beneficial to improving the running safety. In other embodiments, the mobile terminal may also be a portable device such as an iPad and a smart watch.

Specifically, a specific application program (app) is set in the mobile terminal so as to upload the mobile terminal motion data to a server.

The motion information includes a combination of one or more of coordinates, velocity, acceleration, angular velocity.

In this embodiment, the vehicle-mounted terminal is associated with a first acceleration sensor and a first gyroscope which are arranged in a vehicle, and the first acceleration sensor and the first gyroscope are respectively used for providing acceleration information and angular velocity information of a vehicle; the motion information comprises acceleration and angular velocity, and the method for acquiring the vehicle motion information comprises the following steps: the vehicle-mounted terminal acquires the acceleration of the vehicle from the first acceleration sensor; the vehicle-mounted terminal acquires the angular velocity of the vehicle from the first gyroscope; and the vehicle-mounted terminal sends the vehicle motion information to a server. In the embodiment, the vehicle motion information does not need to acquire the positioning coordinates of the vehicle, the privacy of the user is not involved, and the use safety of the user is improved.

In other embodiments, the motion information includes location coordinates of the vehicle. A first GRP navigation system is arranged in the vehicle system; the method for acquiring the vehicle motion information comprises the steps that a vehicle-mounted terminal acquires the positioning coordinate of a vehicle from a first GPR navigation system; and the vehicle-mounted terminal sends the vehicle motion information to a server.

Accordingly, the server self-acquires the motion information of the mobile terminal. The mobile terminal motion information and the vehicle motion information may be compared.

In this embodiment, the mobile terminal is associated with a second acceleration sensor and a second gyroscope which are arranged in the mobile terminal, and the second acceleration sensor and the second gyroscope are respectively used for providing an acceleration and an angular velocity of the mobile terminal; the motion information comprises acceleration information and angular velocity information, and the method for acquiring the motion information of the mobile terminal comprises the following steps: the mobile terminal acquires the acceleration of the mobile terminal from the second acceleration sensor; the mobile terminal obtains the angular velocity of the mobile terminal from the second gyroscope; and the mobile terminal sends the motion information of the mobile terminal to a server. In the embodiment, the mobile terminal motion information does not need to acquire the positioning coordinates of the mobile terminal, so that the privacy of the user is not involved, and the use safety of the user is improved.

In other embodiments, the motion information includes location coordinates of the mobile terminal. A second GRP navigation system is arranged in the mobile terminal; the mobile terminal obtains the positioning coordinate of the mobile terminal from the second GPR navigation system; and the mobile terminal sends the motion information of the mobile terminal to a server.

The motion information also includes a specific time, etc. And comparing the vehicle motion information and the mobile terminal motion information at the same moment in follow-up. For example, the same time may be specified to a certain time, a certain minute, even a certain second, etc.

In this embodiment, before obtaining the vehicle motion information and obtaining the motion information of the mobile terminal, the method further includes: and associating the vehicle-mounted terminal with the mobile terminal. Please refer to fig. 3 for a step of associating the vehicle-mounted terminal with the mobile terminal.

Fig. 3 is a flowchart illustrating a procedure for associating the in-vehicle terminal with the mobile terminal according to an embodiment of the present invention.

Referring to fig. 3, the step of associating the in-vehicle terminal with the mobile terminal includes:

step S401, first user information is obtained from a mobile terminal;

step S402, second user information of the vehicle is obtained;

step S403, associating the first user information with the second user information.

In this embodiment, the step of obtaining the first user information from the mobile terminal includes: the mobile terminal stores a first account of the first user information; and acquiring the first account.

Further, the specific application program set in the mobile terminal may provide the first user information to a server.

In this embodiment, the step of obtaining the second user information of the vehicle includes: the server stores a second account of the second user information; and acquiring the second account.

For example, in a typical application scenario, a user has a vehicle and a mobile phone together. The third mobile phone stores a first account with the first user information of third mobile phone, and the account name is 'third mobile phone'. And meanwhile, zusanli registers a second account with the account name of 'Zusanli' on the server, and the second account has second user information of Zusanli. The server associates the first user information with the second user information, so that after the server acquires the motion information from the Zhang Sanjian mobile phone and the motion information from the Zhang Sanjian mobile phone subsequently, whether the mobile phone with the account number of the Zhang Sanjian mobile phone needs to enter a driving mode is judged according to a comparison result of the motion information of the Zhang Sanjian mobile phone and the motion information of the Zhang Sanjian mobile phone.

The first user information and the second user information may be from different users. For example, in a typical application scenario, a family with lie four as a third person may also use a third vehicle. The technical scheme of the invention can also control the mobile phone of the LiIV to enter the driving mode. The lee mobile phone stores a first account with lee first user information, and the account name is 'lee mobile phone'. At the server side, the information of the third party is taken as first user information and can be correlated with the information of the second user of the third party, so that after the server acquires the motion information from the mobile phone of the fourth party and the motion information from the mobile phone of the third party, whether the mobile phone with the account number of the mobile phone of the fourth party needs to enter a driving mode is judged according to the comparison result of the motion information of the mobile phone of the third party and the mobile phone of the fourth party.

Referring to fig. 2, before acquiring the vehicle motion information and the mobile terminal motion information, and when the vehicle is started, the vehicle start information is acquired from the vehicle-mounted terminal, and it is determined that the vehicle enters a driving state.

In this embodiment, the step of acquiring the vehicle start information by the vehicle-mounted terminal includes: and the vehicle starting equipment sends vehicle starting information to the vehicle-mounted terminal, and comprises a vehicle key. In other embodiments, the vehicle start information may be obtained by other devices, and the purpose of the vehicle start information is to confirm that the vehicle enters the driving state.

Specifically, the identification of the vehicle key is also associated with the vehicle user, and when the user opens the vehicle through the vehicle key, the server can acquire vehicle starting information from the vehicle key, so that the server can learn that the vehicle is in a running state. The server may determine whether the holder of the mobile terminal is in a traveling vehicle according to whether the mobile terminal motion information coincides with the vehicle motion information, to further determine whether the mobile terminal needs to be put into a driving mode.

Referring to fig. 2, the vehicle motion information is compared with the mobile terminal motion information, and an instruction signal for entering or exiting the driving mode is sent to the mobile terminal according to the comparison result.

The step of comparing the vehicle motion information with the mobile terminal motion information comprises: and comparing the vehicle motion information with the mobile terminal motion information, and sending a signal for entering a driving mode to the mobile terminal when a comparison result meets a set condition.

The setting conditions can be various, can be set according to experience, and can also be further optimized for multiple times according to the use condition of the existing setting conditions. The setting condition is flexible, and the condition of misjudgment can be reduced. For example, in a typical application scenario, the setting condition may be that the speed of the position change of the mobile terminal and the speed of the position change of the vehicle are both greater than a certain value, and the speed difference between the two is within a certain range, then the mobile terminal is considered to be in the associated vehicle, and a signal to enter the driving mode is sent to the mobile terminal. In another typical application scenario, the setting condition may be that the coordinates of the vehicle and the coordinates of the person are consistent.

In this embodiment, a unit cycle time and a preset frequency are provided, and the vehicle motion information and the mobile terminal motion information are compared every other unit cycle time to obtain a single comparison result, where the setting condition includes: judging that the vehicle motion information is consistent with the motion information of the mobile terminal and the vehicle is in a running state according to a single comparison result, and judging that the vehicle is matched with the mobile terminal; and the matching times of the vehicle and the mobile terminal continuously reach the preset frequency. For example, in a typical application scenario, the unit cycle time is set to 1 hour, the preset frequency may be 20 times, the vehicle motion information and the mobile terminal motion information are compared every 3 minutes, and when 15 times of comparison result shows that the vehicle motion information is consistent with the mobile terminal motion information and the vehicle is in a driving state, the mobile terminal is considered to be in the associated vehicle, so as to send a signal to enter the driving mode to the mobile terminal.

The phrase "the vehicle motion information is consistent with the mobile terminal motion information" does not necessarily mean that "the vehicle motion information is completely consistent with the mobile terminal motion information", and may mean that a difference between a vehicle moving speed and a mobile terminal moving speed is within a certain range or a distance between a vehicle coordinate and a mobile terminal coordinate is within a certain range, or the like.

In this embodiment, the method further includes: and after receiving the indication signal, the mobile terminal correspondingly controls the mobile terminal to enter or exit the driving mode. For example, in a typical application scenario, after receiving an indication signal of "enter driving mode", the mobile phone controls the mobile terminal to enter driving mode accordingly, and in the driving mode, each application program in the mobile terminal is more suitable for being used in an environment in which a user is driving. And after the mobile terminal receives the indication signal of 'quitting the driving mode', correspondingly controlling the mobile terminal to quit the driving mode, so that each application program in the mobile terminal is more suitable for being used by a user in a normal living environment.

According to the technical scheme, whether the mobile terminal enters the driving mode or not can be automatically judged, the trouble of manual setting is reduced, additional installation of a marker is not needed, and the method and the device have the characteristics of low cost, convenience and quickness.

Specifically, the specific application program arranged in the mobile terminal receives the indication signal.

In another embodiment, after receiving the indication signal, the specific application program may also directly send a corresponding notification to some application programs, and the application programs that receive the notification may enter or exit the driving mode accordingly. For example, in a typical application scenario, after receiving an indication signal of "enter driving mode", the specific application program sends a corresponding notification to a dog search audio application in the mobile phone, and when the user opens the dog search audio application, an interface of the dog search audio application for playing music is in the "driving mode", so that the user can drive the vehicle and use the dog search audio application more safely and conveniently.

Fig. 4 is a schematic structural diagram of a system for enabling a mobile terminal to enter a driving mode based on a server according to an embodiment of the present invention.

Referring to fig. 4, the system 5 for enabling a mobile terminal to enter a driving mode based on a server includes: the acquiring unit 51 comprises a first acquiring module 511 and a second acquiring module 512, wherein the first acquiring module 511 is used for acquiring vehicle motion information from the vehicle-mounted terminal, and the second acquiring module 512 is used for acquiring mobile terminal motion information from the mobile terminal; and the logic judgment unit 52 is configured to compare the vehicle motion information with the mobile terminal motion information, and send an instruction signal for entering or exiting a driving mode to the mobile terminal according to the comparison result.

In this embodiment, the method further includes: an association unit 53 for associating the in-vehicle terminal and the mobile terminal before acquiring the vehicle motion information and acquiring the mobile terminal motion information.

In this embodiment, the association unit 53 includes a third obtaining module 531, a fourth obtaining module 532, and an association module 533: the third obtaining module 531 is configured to obtain first user information from the mobile terminal, the fourth obtaining module 532 is configured to obtain second user information of the vehicle, and the associating module 533 is configured to associate the first user information with the second user information.

In this embodiment, the method further includes: a first storage unit 54 located in the mobile terminal, where the first storage unit 54 is used for storing a first account of the first user information; the third obtaining module 531 is configured to obtain the first account.

In this embodiment, the method further includes: a second storage unit 55 located in the server, where the second storage unit 55 is used for storing a second account of the second user information; the fourth obtaining module 532 is configured to obtain the second account.

In this embodiment, the method further includes: an information obtaining unit 56, wherein the information obtaining unit 56 is used for obtaining vehicle starting information from the vehicle-mounted terminal when the vehicle is started before obtaining the vehicle motion information and the mobile terminal motion information so as to determine that the vehicle enters a running state.

In this embodiment, the method further includes: and an information transmitting unit 57 in the vehicle starting apparatus, the information transmitting unit 57 being configured to transmit vehicle starting information to the in-vehicle terminal, the vehicle starting apparatus including a vehicle key.

The logic judgment unit 52 includes a data analysis module 521 and a judgment module 522, where the data analysis module 521 is configured to compare the vehicle motion information with the mobile terminal motion information, and the judgment module 522 is configured to send a signal of entering a driving mode to the mobile terminal after obtaining information that a comparison result meets a set condition.

The logic determining unit 52 further includes a preset module 523, where the preset module 523 is configured to provide a unit cycle time and a preset frequency, the data analyzing module 521 is configured to compare the vehicle motion information with the mobile terminal motion information every other unit cycle time to obtain a single comparison result, and the determining module 522 is configured to determine whether a set condition is met according to multiple comparison results, where the set condition includes: judging that the vehicle motion information is consistent with the motion information of the mobile terminal and the vehicle is in a running state according to a single comparison result, and judging that the vehicle is matched with the mobile terminal; and the matching times of the vehicle and the mobile terminal continuously reach the preset frequency.

Further comprising: a control unit 58, wherein the control unit 58 is configured to control the mobile terminal to enter or exit the driving mode accordingly after the mobile terminal receives the indication signal.

The embodiment of the present invention further discloses a storage medium, on which a computer program is stored, and when the computer program is executed by a processor, the method technical solution described in any one of the embodiments shown in fig. 2 to fig. 3 is executed. Preferably, the storage medium may include a computer-readable storage medium. Preferably, the storage medium may include ROM, RAM, magnetic or optical disks, or the like.

The embodiment of the present invention further discloses a server, which includes a memory and a processor, where the memory stores a computer program capable of running on the processor, and the processor executes the technical solutions of the methods described in the embodiments shown in fig. 2 to fig. 3 when running the computer program.

Although the present invention is disclosed above, the present invention is not limited thereto. Various changes and modifications may be effected therein by one skilled in the art without departing from the spirit and scope of the invention as defined in the appended claims.

Claims (23)

1. A method for enabling a mobile terminal to enter a driving mode based on a server comprises the following steps:

acquiring vehicle motion information;

acquiring motion information of the mobile terminal;

and comparing the vehicle motion information with the mobile terminal motion information, and sending an indication signal for entering or exiting the driving mode to the mobile terminal according to the comparison result.

2. The server-based method for entering a driving mode of a mobile terminal according to claim 1, further comprising, prior to obtaining vehicle motion information and obtaining mobile terminal motion information: and associating the vehicle-mounted terminal with the mobile terminal.

3. The server-based method of entering a mobile terminal into a driving mode according to claim 2, the step of associating the in-vehicle terminal and the mobile terminal comprising: acquiring first user information from a mobile terminal; acquiring second user information of the vehicle; and associating the first user information with second user information.

4. The server-based method of entering a driving mode for a mobile terminal according to claim 3, the step of obtaining the first user information from the mobile terminal comprising: the mobile terminal stores a first account of the first user information; and acquiring the first account.

5. The server-based method for entering a mobile terminal into a driving mode according to claim 3, the step of acquiring second user information of the vehicle comprising: the server stores a second account of the second user information; and acquiring the second account.

6. The server-based method of entering a driving mode for a mobile terminal according to claim 1, further comprising, prior to obtaining vehicle motion information and mobile terminal motion information: when the vehicle is started, vehicle starting information is obtained from the vehicle-mounted terminal, and the vehicle is determined to enter a running state.

7. The server-based method for entering a mobile terminal into a driving mode according to claim 6, wherein the step of the in-vehicle terminal acquiring vehicle start-up information comprises: and the vehicle starting equipment sends vehicle starting information to the vehicle-mounted terminal, and comprises a vehicle key.

8. The server-based method of entering a mobile terminal into a driving mode according to claim 1, the step of comparing the vehicle motion information with the mobile terminal motion information comprising: and comparing the vehicle motion information with the mobile terminal motion information, and sending a signal for entering a driving mode to the mobile terminal when a comparison result meets a set condition.

9. The method for enabling a mobile terminal to enter a driving mode based on a server according to claim 8, providing a unit cycle time and a preset frequency, comparing the vehicle motion information and the mobile terminal motion information every other unit cycle time to obtain a single comparison result, wherein the setting conditions include: judging that the vehicle motion information is consistent with the motion information of the mobile terminal and the vehicle is in a running state according to a single comparison result, and judging that the vehicle is matched with the mobile terminal; and the matching times of the vehicle and the mobile terminal continuously reach the preset frequency.

10. The server-based method of entering a driving mode for a mobile terminal according to claim 1, the motion information comprising a combination of one or more of coordinates, velocity, acceleration, angular velocity.

11. The server-based method of entering a driving mode for a mobile terminal according to claim 1, further comprising: and after receiving the indication signal, the mobile terminal is correspondingly controlled to enter or exit the driving mode.

12. A system for entering a mobile terminal into a driving mode based on a server, comprising:

the acquisition unit comprises a first acquisition module and a second acquisition module, wherein the first acquisition module is used for acquiring vehicle motion information from the vehicle-mounted terminal, and the second acquisition module is used for acquiring mobile terminal motion information from the mobile terminal;

and the logic judgment unit is used for comparing the vehicle motion information with the mobile terminal motion information and sending an indication signal for entering or exiting the driving mode to the mobile terminal according to the comparison result.

13. The server-based system for entering a mobile terminal into a driving mode according to claim 12, further comprising: and the association unit is used for associating the vehicle-mounted terminal with the mobile terminal before the vehicle motion information is acquired and the mobile terminal motion information is acquired.

14. The server-based system for entering a mobile terminal into a driving mode according to claim 13, wherein the association unit comprises a third acquisition module, a fourth acquisition module and an association module: the third acquisition module is used for acquiring first user information from the mobile terminal, the fourth acquisition module is used for acquiring second user information of the vehicle, and the association module is used for associating the first user information with the second user information.

15. The server-based system for entering a mobile terminal into a driving mode according to claim 14, further comprising: the first storage unit is positioned on the mobile terminal and used for storing a first account of the first user information; the third obtaining module is used for obtaining the first account.

16. The server-based system for entering a mobile terminal into a driving mode according to claim 14, further comprising: the second storage unit is positioned in the server and used for storing a second account of the second user information; the fourth obtaining module is used for obtaining the second account.

17. The server-based system for entering a mobile terminal into a driving mode according to claim 12, further comprising: the information acquisition unit is used for acquiring vehicle starting information from the vehicle-mounted terminal when the vehicle is started before acquiring the vehicle motion information and the mobile terminal motion information so as to determine that the vehicle enters a running state.

18. The server-based system for entering a mobile terminal into a driving mode according to claim 17, further comprising: the vehicle starting device comprises an information sending unit located in the vehicle starting device, the information sending unit is used for sending vehicle starting information to the vehicle-mounted terminal, and the vehicle starting device comprises a vehicle key.

19. The system according to claim 12, wherein the logic determining unit comprises a data analyzing module for comparing the vehicle motion information with the mobile terminal motion information, and a determining module for sending a signal to enter the driving mode to the mobile terminal after obtaining information that the comparison result meets the set condition.

20. The server-based system for enabling a mobile terminal to enter a driving mode according to claim 19, wherein the logic determining unit further includes a preset module, the preset module is configured to provide a unit cycle time and a preset frequency, the data analyzing module is configured to compare the vehicle motion information and the mobile terminal motion information every unit cycle time to obtain a single comparison result, the determining module is configured to determine whether a set condition is met according to a plurality of comparison results, and the set condition includes: judging that the vehicle motion information is consistent with the motion information of the mobile terminal and the vehicle is in a running state according to a single comparison result, and judging that the vehicle is matched with the mobile terminal; and the matching times of the vehicle and the mobile terminal continuously reach the preset frequency.

21. The server-based system for entering a mobile terminal into a driving mode according to claim 12, further comprising: and the control unit is used for correspondingly controlling the mobile terminal to enter or exit the driving mode after the mobile terminal receives the indication signal.

22. A storage medium having stored thereon a computer program which, when executed by a processor, performs the steps of the method of any one of claims 1 to 11.

23. A server comprising a memory and a processor, the memory having stored thereon a computer program operable on the processor, wherein the processor, when executing the computer program, performs the steps of the method of any of claims 1 to 11.

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