CN113676598A

CN113676598A - Mobile phone capable of automatically controlling incoming call and method thereof

Info

Publication number: CN113676598A
Application number: CN202111103838.XA
Authority: CN
Inventors: 张开生; 索浩博
Original assignee: Shaanxi University of Science and Technology
Current assignee: Shaanxi University of Science and Technology
Priority date: 2021-09-22
Filing date: 2021-09-22
Publication date: 2021-11-19
Anticipated expiration: 2041-09-22
Also published as: CN113676598B

Abstract

A handset and method for automatically controlling incoming call includes: and the awakening module is responsible for basic wireless communication and can awaken other dormant modules of the mobile phone. The awakening module is connected with the advanced contact storage module, a user can divide telephone contacts into high-level contacts and common-level contacts and store the high-level contacts in the advanced contact storage module, and the awakening module is further connected with the radio frequency module, the SIM card module, the memory module, the voice communication module and the display module; the mobile phone can realize functions of dormancy shutdown, advanced silence and the like, a user can still hear incoming call ringtone and hear incoming calls of high-level contacts under the conditions of dormancy shutdown and advanced silence, the mobile phone can be automatically set to carry out voice high-volume hands-free conversation after the incoming call is connected, and if no one answers the incoming call, the mobile phone can continuously ring for reminding; the method has the advantage of distinguishing the incoming call contacts.

Description

Mobile phone capable of automatically controlling incoming call and method thereof

Technical Field

The invention belongs to the technical field of communication, and particularly relates to a mobile phone capable of automatically controlling incoming call and a method thereof.

Background

The existing mobile phone may face many different harassing calls if the existing mobile phone is kept in a normal standby state all the time.

However, if the user turns on the mute mode, the flight mode or turns off the mobile phone, the user may miss the emergency calls from family, friends, leaders, etc.

Disclosure of Invention

Compared with the traditional smart phone with the added advanced mute and sleep shutdown functions, the mobile phone and the method can effectively process the incoming calls of different contacts, enable the user to timely hear the emergency calls made by family, friends and leaders in the advanced mute and sleep shutdown states, and have the advantage of distinguishing the incoming call contacts.

In order to achieve the purpose, the invention adopts the technical scheme that: a mobile phone capable of automatically controlling incoming calls comprises a wake-up module, an advanced contact storage module, a radio frequency module, an SIM card module, a memory module, a voice call module and a display module;

the wake-up module comprises a baseband processor and a power management chip; the data transmission end of the baseband processor is electrically connected with the data transmission end of the power management chip, is responsible for basic wireless communication and can wake up other dormant modules of the mobile phone;

the data output end of the power management chip is respectively connected with the input end of the display module, the input end of the advanced contact storage module, the input end of the memory module, the input end of the SIM module, the input end of the radio frequency module, the input end of the microphone and the input end of the loudspeaker, and the power management chip is used for power management of each module;

the data transmission end of the advanced contact storage module is connected with the data storage end of the baseband processor, and the advanced contact storage module adopts an EEPROM (electrically erasable programmable read-Only memory) storage chip and is only used for storing the data of the high-level contact;

the data transmission end of the radio frequency module is connected with the data transmission end of the baseband processor, and the radio frequency module is mainly used for receiving and transmitting radio frequency signals;

the SIM card module is used as an identity identification card for providing multimedia communication for the mobile phone and provides a unique number capable of identifying a user for the mobile phone of the user;

the memory module is used for providing a memory required by the running of the mobile phone and storing data required by the mobile phone and a user;

the voice call module is used for receiving and sending audio signals when the mobile phone is in normal call, the input end of a loudspeaker of the voice call module is connected with the output end of the baseband processor, and the output end of a microphone is connected with the input end of the baseband processor;

the data input end of the display module is connected with the data output end of the baseband processor, and the display module is used for displaying the current working state of the mobile phone or inputting manual instructions.

The advanced contact storage module adopts an EEPROM of M24C64 type as a storage chip, the storage space is 64Kbit, the EEPROM storage chip and the baseband processor adopt IIC bus communication, the IIC bus communication comprises a data line SDA and a clock line SCL, the data line SDA and the clock line SCL are connected to a working power supply VDD through a pull-up resistor R1 and a pull-up resistor R2 to form an IIC bus, the pull-up resistor R1 and the pull-up resistor R2 enable the data line SDA and the clock line SCL to be at high level when idle, and an address line is used for enabling the baseband processor to address the chip.

The method for calling into the mobile phone by using the automatic controllable telephone comprises the following steps:

step 1, setting contacts in a mobile phone directory into two levels of high-level contacts and common-level contacts, and storing the high-level contacts in a high-level contact storage module;

step 2, the mobile phone comprises a normal shutdown mode and a dormant shutdown mode, when the mobile phone of the user is in the dormant shutdown mode and the mobile phone of the high-level contact receives an incoming call signal and transmits the incoming call signal to the baseband processor, and the baseband processor reads data in the high-level contact storage module to judge whether the incoming call contact is the high-level contact; if the incoming call is from the high-level contact, the baseband processor wakes up the mobile phone to start and controls the speaker module to ring for reminding;

step 3, after the user connects the incoming call of the high-level contact, the baseband processor automatically sets the mobile phone to carry out voice high-volume hands-free call;

and 4, if the incoming call of the high-level contact person is not answered by a person, the loudspeaker module automatically rings at intervals to remind, and the user automatically stops after checking the information of the missed call.

The setting process of the high-level contact persons is specifically as follows:

step S11, dividing the contact persons in the user mobile phone directory into two grades of high-level contact persons and common-level contact persons, and setting a strange incoming call verification password;

and step S12, storing the telephone number of each high-level contact and the unfamiliar call verification password in a high-level contact storage module.

The sleep shutdown comprises the following specific processing steps:

step S21, placing the mobile phone in a sleep power-off mode;

after the user selects the hibernation mode, the system will count down to prompt whether to enter the hibernation mode, if yes, the system will count down if no. If the operation is carried out, entering a dormant shutdown mode, otherwise, canceling the operation;

step S22, when the contact person is coming, the baseband processor reads the advanced contact person storage module, judges whether the coming contact person is a high-level contact person, if yes, the step S23 is executed, if not, the step is ended;

step S23, the awakening module 1 awakens each module of the mobile phone to recover the normal working state, and increases the ring volume of the mobile phone and reminds the ringing;

step S24, whether the user has heard the incoming call of the high-level contact person is judged, if yes, step S251 is executed, and if not, step S252 is executed;

step S251, when answering the incoming call of the high-level contact person, the system automatically sets a large volume hands-free call;

step S252, when a high-level contact person calls but the user does not answer, the mobile phone rings again at fixed time intervals until the mobile phone disappears after the user checks;

step S26, after the call is over or the missed call information is checked, the mobile phone automatically returns to the sleep power-off state.

Furthermore, when a high-level contact uses a strange number to dial, a password can be obtained from a user in advance, upgrading verification is carried out in a mode of adding a dialing password behind the strange number, the incoming call of the strange number can be upgraded to a high-level incoming call after verification is successful, the incoming call of the strange number is still a common-level incoming call after the new incoming call is dialed by the strange number, if the incoming call needs to be upgraded to the high-level incoming call, upgrading verification is carried out in a mode of adding the dialing password again, and the password used for upgrading the strange number to the high-level contact is stored in the high-level contact storage module.

A method for automatically controlling incoming calls to a mobile phone comprises the following steps:

step 2, the mobile phone comprises a normal mute mode and an advanced mute mode, when the mobile phone of the user is in the advanced mute mode and the high-level contact person calls, the radio frequency module receives a call signal and transmits the call signal to the baseband processor, and the baseband processor reads the data of the high-level contact person storage module to judge whether the call contact person is the high-level contact person; if the incoming call is from the high-level contact, the baseband processor raises the mobile phone ring and controls the speaker module to ring for reminding;

step 3, after the user connects the incoming call of the high-level contact, the baseband processor can automatically set the mobile phone to carry out voice high-volume hands-free call;

Further, in step 2, when the normal mute or the advanced mute is enabled, the system determines whether a countdown prompt appears, if the determination is selected or no operation is performed during the countdown, the system enters the mute mode, otherwise, the above operation is cancelled.

The invention has the beneficial effects that:

1) the mobile phone performs distinguishing processing on the contacts in different levels, and the user can start advanced mute and dormancy shutdown to prevent harassing calls and simultaneously can not miss emergency calls made by relatives, friends and leaders.

2) The mobile phone can continuously remind the unanswered high-level incoming calls, so that the user can find and check the incoming calls as early as possible.

3) The user can still answer the high-level incoming call in the dormant power-off state of the mobile phone, so that the electric quantity of the mobile phone is saved, and the standby time of the mobile phone is prolonged.

Drawings

Fig. 1 is a block diagram of a handset for automatically controlling incoming calls.

Fig. 2 is a block diagram of a sleep shutdown of an automatic controlled incoming call handset.

Fig. 3 is a schematic circuit diagram of an advanced contact storage module of a handset for automatically controlling incoming calls.

Fig. 4 is a flow chart of setting high-level contacts for a handset capable of automatically controlling incoming calls according to the present invention.

Fig. 5 is a flow chart of the present invention in a dormant off state of a handset for automatically controlling incoming calls.

Fig. 6 is a flow chart of the present invention for automatically controlling the incoming call of the handset in the high-level mute state.

Detailed Description

The present invention will be described in further detail with reference to the accompanying drawings.

Referring to fig. 1, an automatic controllable telephone incoming call handset, the handset comprising:

the awakening module 1: the mobile phone comprises a baseband processor 2 and a power management chip 3, is responsible for basic wireless communication, and can wake up other dormant modules of the mobile phone;

the advanced contact storage module 4: the high-level contact storage module 4 adopts an EEPROM storage chip and is only used for storing the data of the high-level contacts;

the radio frequency module 5: the radio frequency module 5 comprises a radio frequency transmitting circuit and a radio frequency receiving circuit, and is mainly used for receiving and transmitting radio frequency signals;

the SIM card module 6: the identification card is used as an identification card for providing multimedia communication for the mobile phone, and provides a unique number capable of identifying the user for the mobile phone of the user;

the memory module 7: the mobile phone is used for providing a memory required by the running of the mobile phone and storing various data required by the mobile phone and a user;

the voice call module 8: the mobile phone is used for receiving and sending the audio signal when the mobile phone is in normal conversation;

the display module 11: used for displaying the current working state of the mobile phone or inputting manual instructions.

Referring to fig. 2, the mobile phone includes a normal shutdown mode and a sleep shutdown mode, in the sleep shutdown state, the baseband processor 1 is in the low power consumption mode to operate, the power management chip 3, the radio frequency module 5, and the SIM card module 6 operate normally, and the rest of the modules are in the shutdown state, when the baseband processor 2 receives an incoming call signal transmitted from the radio frequency circuit, the advanced contact storage module 4 is read to determine whether the incoming call contact is a high-level contact, and if the incoming call contact is a high-level contact, the baseband processor 2 sends a control signal to wake up the rest of the mobile phone, such as the voice call module 8, the display module 11, and the like, so that the mobile phone returns to the normal operating state.

Referring to fig. 3, fig. 3 is a schematic circuit diagram of the advanced contact storage module 4, the advanced contact storage module 4 selects an EEPROM of M24C64 type as a storage chip, the storage space is 64Kbit, the EEPROM storage chip and the baseband processor use an IIC bus for communication, the IIC bus communication includes a data line SDA and a clock line SCL, and the data line SDA and the clock line SCL are connected to a working power supply VDD through a pull-up resistor R1 and a pull-up resistor R2 to form an IIC bus, the pull-up resistor R1 and the pull-up resistor R2 make the data line SDA and the clock line SCL be at a high level when idle, and the address line is used to make the baseband processor address the chip.

Referring to fig. 4, fig. 4 is a flow chart for automatically controlling the handset setting high-level contacts for incoming calls.

And step S11, dividing each contact in the user mobile phone directory into different levels, and setting a strange incoming call authentication password.

Further, the levels are divided into two levels of high-level contacts and common-level contacts, and the contacts in the mobile phone directory are divided into different levels according to self-selection of the user. If the user can set family, friends and leaders as high-level incoming calls, other contact numbers and strange numbers are automatically set as ordinary-level incoming calls.

Particularly, if the high-level contact people forget the mobile phone or use other mobile phones to make a call under the condition that the mobile phone is out of power, the high-level contact people are considered as strange calls at the moment, and therefore the high-level contact people can not answer the call. Therefore, a mobile phone user can set a password in advance and inform a high-level contact person, when the contact person uses an unfamiliar number to dial, upgrading verification can be carried out in a mode of adding the password behind the number, after verification is successful, an incoming call with the unfamiliar number can be upgraded to a high-level incoming call, the incoming call with the unfamiliar number is still a common-level incoming call next time, and if the incoming call needs to be upgraded to the high-level incoming call, upgrading verification is carried out in a mode of adding the password again;

in step S12, the telephone number of each high-level contact and the unfamiliar call authentication password are stored in the high-level contact storage module 4.

Referring to fig. 5, fig. 5 is a flow chart of a sleep off state of a handset for automatically controlling incoming calls.

Step S21, placing the mobile phone in a dormant power-off state;

it is noted that after the user selects hibernate shutdown, the system will have a countdown prompt to indicate whether to enter the hibernate shutdown mode, if so, if not. And if the operation is carried out, entering a dormant shutdown mode, otherwise, canceling the operation.

And step S22, the baseband processor reads the advanced contact storage module when the contact calls, judges whether the calling contact is a high-level contact, if so, executes step S23, and if not, ends.

Step S23, the wake-up module 1 wakes up the modules of the mobile phone to recover the normal working state, and increases the volume of the ring tone of the mobile phone to remind the user of ringing.

Step S24, whether the user has heard the incoming call of the high-level contact. If yes, step S251 is executed, and if no, step S252 is executed.

And step S251, the system is automatically set to a large-volume hands-free call when the incoming call of the high-level contact is answered.

In step S252, when there is an incoming call of a high-level contact but the user does not answer, the mobile phone rings again at fixed time intervals until the user disappears after checking.

Step S26, automatically returning to the sleep/power-off state after the call is over or after the missed call information is checked.

Referring to fig. 6, fig. 6 is a flow chart of an automatically controlled incoming call handset in an advanced mute state.

Step S31, the mobile phone is put in a high-level mute state;

after the user selects the advanced mute mode, the system will show that whether the countdown prompt enters the advanced mute mode, if the countdown prompt is determined or no operation is performed during countdown, the system enters the advanced mute mode, otherwise, the operation is cancelled;

step S32, when the contact calls, the baseband processor reads the high-level contact storage module, judges whether the call contact is a high-level contact, if yes, executes step S33, if not, ends;

step S33, the mobile phone automatically increases the volume of the ring, rings to remind the user, and realizes the sound call;

step S34, whether the user has heard the incoming call of the high-level contact person or not is judged, if yes, step S351 is executed, and if not, step S352 is executed;

step S351, when answering the incoming call of the high-level contact person, the system automatically sets the high-volume hands-free call;

step S352, when a high-level contact person calls but the user does not answer, the mobile phone rings again at fixed time intervals until the mobile phone disappears after the user checks;

and step S36, automatically returning to the advanced silent mode after the call is finished or the missed call information is checked.

Claims

1. A mobile phone capable of automatically controlling incoming calls is characterized by comprising a wake-up module (1), an advanced contact storage module (4), a radio frequency module (5), an SIM card module (6), a memory module (7), a voice call module (8) and a display module (11);

the awakening module (1) comprises a baseband processor (2) and a power management chip (3); the data transmission end of the baseband processor (2) is electrically connected with the data transmission end of the power management chip (3) and is responsible for basic wireless communication, and other dormant modules of the mobile phone can be awakened;

the data output end of the power management chip (3) is respectively connected with the input end of the display module (11), the input end of the advanced contact storage module (4), the input end of the memory module (7), the input end of the SIM module (6), the input end of the radio frequency module (5), the input end of the microphone (10) and the input end of the loudspeaker (9), and the power management chip (3) is used for power management of each module;

the data transmission end of the advanced contact storage module (4) is connected with the data storage end of the baseband processor, and the advanced contact storage module (4) adopts an EEPROM (electrically erasable programmable read-only memory) chip and is only used for storing the data of the high-level contact;

the data transmission end of the radio frequency module (5) is connected with the data transmission end of the baseband processor, and the radio frequency module (5) is mainly used for receiving and transmitting radio frequency signals;

the SIM card module (6) is used as an identity identification card for providing multimedia communication for the mobile phone, and provides a unique number capable of identifying a user for the mobile phone of the user;

the memory module (7) is used for providing a memory required by the running of the mobile phone and storing data required by the mobile phone and a user;

the voice call module (8) is used for receiving and sending audio signals during normal call of the mobile phone, the input end of a loudspeaker (9) of the voice call module (8) is connected with the output end of the baseband processor, and the output end of a microphone (10) is connected with the input end of the baseband processor;

the data input end of the display module (11) is connected with the data output end of the baseband processor, and the display module (11) is used for displaying the current working state of the mobile phone or inputting manual instructions.

2. The mobile phone of claim 1, wherein the advanced contact storage module (4) adopts an M24C64 model EEPROM as a storage chip, the storage space is 64Kbit, the EEPROM storage chip and the baseband processor adopt an IIC bus for communication, the IIC bus communication includes a data line SDA and a clock line SCL, the data line SDA and the clock line SCL are connected to the working power supply VDD through a pull-up resistor R1 and a pull-up resistor R2 to form an IIC bus, the pull-up resistor R1 and the pull-up resistor R2 enable the data line SDA and the clock line SCL to be at a high level when idle, and the address line is used for enabling the baseband processor to address the chip.

3. The method for calling into the mobile phone by using the automatic controllable telephone is characterized by comprising the following steps:

step 1, setting contacts in a mobile phone directory into two levels of high-level contacts and common-level contacts, and storing the high-level contacts in a high-level contact storage module (4);

step 2, the mobile phone comprises a normal shutdown mode and a dormant shutdown mode, when the mobile phone of the user is in the dormant shutdown mode and a call comes from a high-level contact, the radio frequency module (5) receives the call signal and transmits the call signal to the baseband processor (2), and the baseband processor (2) reads data in the high-level contact storage module (4) to judge whether the call contact is the high-level contact; if the incoming call is from the high-level contact, the baseband processor (2) wakes up the mobile phone to start and controls the speaker module (9) to ring for reminding;

step 3, after the user connects the incoming call of the high-level contact, the baseband processor (2) automatically sets the mobile phone to carry out voice high-volume hands-free call;

and 4, if the incoming call of the high-level contact person is not answered by a person, the loudspeaker module (9) automatically rings at intervals to remind, and the user automatically stops after checking the missed call information.

4. The method of claim 3, wherein the high-level contacts are configured by the following steps:

and step S12, storing the telephone number of each high-level contact and the unfamiliar call verification password in a high-level contact storage module (4).

5. The method of claim 3, wherein the sleep shutdown comprises the following specific steps:

step S21, placing the mobile phone in a sleep power-off mode;

after a user selects the sleep shutdown, the system will generate a countdown prompt to prompt whether to enter a sleep shutdown mode, if the selection is determined or the countdown is not performed, the system enters the sleep shutdown mode, otherwise, the operation is cancelled;

6. The method as claimed in claim 3, wherein the high-level contacts can obtain the password from the user in advance when dialing with the strange number, and then upgrade and verify the strange number by adding the password after the strange number, and upgrade the incoming call with the strange number to the high-level incoming call after the verification is successful, but the incoming call with the strange number is still the ordinary-level incoming call next time, and if the incoming call needs to be upgraded to the high-level incoming call, upgrade and verify the strange number to the password of the high-level contacts by adding the dialing password again, and store the password of the high-level contacts in the high-level contact storage module.

7. A method for automatically controlling a telephone to call into a mobile phone is characterized by comprising the following steps:

step 2, the mobile phone comprises a normal mute mode and an advanced mute mode, when the mobile phone of the user is in the advanced mute mode and the mobile phone of the high-level contact person is in an incoming call, the radio frequency module (5) receives an incoming call signal and transmits the incoming call signal to the baseband processor (2), and the baseband processor (2) reads data of the high-level contact person storage module (4) to judge whether the incoming call contact person is the high-level contact person; if the incoming call is from the high-level contact, the baseband processor (2) raises the mobile phone ring and controls the speaker module (9) to ring for reminding;

step 3, after the user connects the incoming call of the high-level contact, the baseband processor (2) can automatically set the mobile phone to carry out voice high-volume hands-free call;

8. The method of claim 7, wherein step 2, when normal mute or advanced mute is enabled, the system determines whether a countdown prompt is present, and enters the mute mode if determination is selected or no operation is performed during the countdown, otherwise the above operation is cancelled.

9. The method of claim 7, wherein the high-level contacts, when dialing with the strange number, can obtain the password from the user in advance, and then upgrade and verify the password by dialing the strange number later, and after the verification is successful, the strange number incoming call can be upgraded to the high-level incoming call, but the strange number incoming call is still the ordinary-level incoming call next time, and if the high-level incoming call needs to be upgraded to be the high-level incoming call, the password for upgrading the strange number to the high-level contact needs to be upgraded and verified again in a password dialing mode, and the password for upgrading the strange number to the high-level contact is stored in the high-level contact storage module.