CN111836244A

CN111836244A - Mobile phone standby communication module based on Internet of things module, communication method and mobile phone

Info

Publication number: CN111836244A
Application number: CN201910322712.8A
Authority: CN
Inventors: 高翔; 李增良; 安康
Original assignee: Casic Feihang Technology Research Institute of Casia Haiying Mechanical and Electronic Research Institute
Current assignee: Casic Feihang Technology Research Institute of Casia Haiying Mechanical and Electronic Research Institute
Priority date: 2019-04-22
Filing date: 2019-04-22
Publication date: 2020-10-27
Anticipated expiration: 2039-04-22
Also published as: CN111836244B

Abstract

The invention provides a mobile phone standby communication module based on an Internet of things module, a communication method and a mobile phone, the module comprises a standby communication service software client, a standby communication man-machine interface unit, an Internet of things module, a main control module and a standby battery, wherein the standby communication service software client is used for editing and storing preset communication contents and configuration state reminding modes, the standby communication man-machine interface unit is used for selecting communication contents to be sent from the preset communication contents and finishing reminding of a user, the Internet of things module is used for sending the communication contents to be sent to a communication opposite terminal, the main control module is respectively connected with the standby communication service software client, the standby communication man-machine interface unit and the Internet of things module, and the standby battery is respectively connected with the standby communication service software client, the standby communication man-machine interface unit, the Internet of things module and the main control module. By applying the technical scheme of the invention, the technical problem that the mobile phone loses all communication capacity due to insufficient electric quantity of the main battery in the prior art is solved.

Description

Mobile phone standby communication module based on Internet of things module, communication method and mobile phone

Technical Field

The invention relates to the technical field of communication of the Internet of things, in particular to a standby communication module of a mobile phone based on an Internet of things module, a communication method and the mobile phone.

Background

Along with the popularization of mobile communication technology and electronic technology, the mobile phone becomes an essential article in life of people, and the popularization of the smart phone meets the requirements of mobile office, online entertainment and the like of people after the basic communication requirements of people are met. However, since the mobile phone is a portable device and has a limited volume and weight, it cannot carry more than a certain amount of energy. With the increasing power consumption of mobile phones, the problem of short endurance time of mobile phones is increasingly prominent considering that the maximum power supply of batteries is reduced along with the increase of the charging and discharging times of the batteries in the prior battery technology. In the case of intensive use, the mobile phone is often automatically powered off due to insufficient power, which loses the basic feature of the mobile phone as a communication tool.

Disclosure of Invention

The invention provides a mobile phone standby communication module based on an Internet of things module, a communication method and a mobile phone, which can solve the technical problem that the mobile phone loses all communication capacity due to insufficient electric quantity of a main battery in the prior art.

According to an aspect of the present invention, a standby communication module for a mobile phone based on an internet of things module is provided, the standby communication module for a mobile phone includes: the standby communication service software client is used for editing and storing preset communication contents and configuration state reminding modes; the standby communication man-machine interface unit is used for selecting communication contents to be sent from preset communication contents and finishing reminding for a user; the Internet of things module is used for sending the communication content to be sent to the communication opposite end through an operator network or a self-organizing network; the main control module is respectively connected with the standby communication service software client, the standby communication man-machine interface unit and the Internet of things module, and is used for receiving signals of the standby communication man-machine interface unit, calling corresponding communication content to be sent according to the signals, sending the communication content to the Internet of things module and controlling the Internet of things module to send the communication content to be sent to a communication opposite terminal; the standby battery is respectively connected with the standby communication service software client, the standby communication man-machine interface unit, the Internet of things module and the main control module, and the standby battery is charged when the main battery of the mobile phone is charged so as to supply power to the standby communication service software client, the standby communication man-machine interface unit, the Internet of things module and the main control module when the main battery of the mobile phone cannot support the main function of the mobile phone.

Further, the main control module comprises a processor and a memory, the memory is used for storing preset communication contents, the processor is used for receiving signals of the standby communication man-machine interface unit, calling the communication contents to be sent from the preset communication contents according to the signals, sending the communication contents to be sent to the internet of things module, and controlling the internet of things module to send the communication contents to be sent to the communication opposite terminal.

Further, the standby communication man-machine interface unit comprises an input device unit and an output device unit, the main control module receives signals of the input device unit, calls communication content to be sent from preset communication content according to the signals and sends the communication content to be sent to the internet of things module, and the output device unit is used for confirming and reminding the standby communication state of the mobile phone and the sending state of the communication content to be sent.

Further, the standby communication man-machine interface unit comprises a key, a loudspeaker, a mobile phone vibrator and an indicator light.

Further, the standby communication module of the mobile phone based on the internet of things module further comprises a standby communication antenna, the standby communication antenna is connected with the internet of things module, and the internet of things module sends communication content to be sent to a communication opposite terminal through the standby communication antenna.

Further, the standby communication antenna is multiplexed with the main function antenna of the mobile phone.

According to another aspect of the present invention, a mobile phone standby communication method based on an internet of things module is provided, where the mobile phone standby communication method uses the mobile phone standby communication module described above, and the mobile phone standby communication method includes: editing and storing preset communication content, a confirmation reminding mode of a preset standby communication state and a confirmation reminding mode of a preset to-be-sent communication content sending state so as to complete initialization of a standby communication function; judging the effectiveness of the initialization of the standby communication function, and if the preset communication content is effective, enabling the standby communication module of the mobile phone to enter a standby state; if the preset communication content is invalid, repeating the first step and the second step; step three, a user operates a key to initiate standby communication, the standby communication activation state is judged, and when the mobile phone standby communication module does not successfully enter the activation state, the mobile phone standby communication module keeps the standby state; when the mobile phone standby communication module successfully enters the activation state, judging whether the user has further key operation within the set time, if the user does not have further key operation within the set time, turning the mobile phone standby communication module to the standby state, and if the user has further key operation within the set time, turning to the step four; step four, the main control module receives a signal of the standby communication man-machine interface unit, calls communication content to be sent from preset communication content according to the signal and sends the communication content to be sent to the Internet of things module; step five, the main control module controls the Internet of things module to send the communication content to be sent to the communication opposite end through the operator network or the self-organizing network; and step six, judging the sending state of the communication content to be sent, and after the sending of the communication content to be sent is finished, giving a sending success confirmation prompt by the standby communication man-machine interface unit, and enabling the standby communication module to enter the standby state.

Further, the fourth step specifically includes: the main control module receives signals of the input device unit, calls communication content to be sent from preset communication content and sends the communication content to be sent to the Internet of things module, and the output device unit confirms whether the sending state of the communication content to be sent is correct or not.

Further, when the standby communication state of the mobile phone is successfully activated, the output device unit confirms and reminds that the standby communication state of the mobile phone is correct in a sound, flash or vibration mode; when the communication content to be sent is successfully sent, the output equipment unit confirms and reminds that the sending state of the communication content to be sent is correct in a sound, flash or vibration mode, and the mode for confirming and reminding the correct standby communication state is different from the mode for confirming and reminding the correct sending state of the communication content to be sent.

According to another aspect of the invention, a mobile phone is provided, and the mobile phone comprises the mobile phone standby communication module.

By applying the technical scheme of the invention, the mobile phone standby communication module based on the Internet of things module is provided, can ensure that the mobile phone has standby communication capacity, especially can ensure life-critical emergency communication capacity such as calling for help and position sending of a user under emergency conditions, and has obvious safety value; in addition, the standby communication module of the mobile phone fully utilizes the characteristic of low power consumption of the Internet of things module, and the standby power supply can be charged along with the main power supply at the same time, so that the endurance time is long; moreover, when the user has a standby communication requirement, the user can directly awaken the related function of the standby communication module through the standby communication man-machine interface unit and communicate, and the communication function can be quickly and conveniently completed without redundant operation. Compared with the prior art, the mobile phone standby communication module provided by the invention can provide standby communication capability for a user when normal communication cannot be carried out due to insufficient electric quantity of the main battery of the mobile phone, and greatly improves the safety and convenience of use of the mobile phone.

Drawings

The accompanying drawings, which are included to provide a further understanding of the embodiments of the invention and are incorporated in and constitute a part of this specification, illustrate embodiments of the invention and together with the description serve to explain the principles of the invention. It is obvious that the drawings in the following description are only some embodiments of the invention, and that for a person skilled in the art, other drawings can be derived from them without inventive effort.

Fig. 1 is a schematic structural composition diagram of a mobile phone standby communication module based on an internet of things module according to an embodiment of the present invention;

FIG. 2 is a diagram illustrating a standby communication performed by a standby communication module according to an embodiment of the present invention;

FIG. 3 is a flow chart illustrating a standby communication performed by a standby communication module according to an embodiment of the present invention;

FIG. 4 is a block diagram illustrating components of a standby communication module provided in accordance with an exemplary embodiment of the present invention;

fig. 5 is a schematic diagram illustrating a handset performing an alternate communication operation according to an embodiment of the present invention;

fig. 6 is a diagram illustrating an operational state transition of a handset standby communication according to an embodiment of the present invention.

Wherein the figures include the following reference numerals:

10. a standby communication service software client; 20. a standby communication human-machine interface unit; 30. an Internet of things module; 40. a main control module; 50. a backup battery; 60. a backup communications antenna.

Detailed Description

It should be noted that the embodiments and features of the embodiments in the present application may be combined with each other without conflict. The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. The following description of at least one exemplary embodiment is merely illustrative in nature and is in no way intended to limit the invention, its application, or uses. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

It is noted that the terminology used herein is for the purpose of describing particular embodiments only and is not intended to be limiting of example embodiments according to the present application. As used herein, the singular forms "a", "an" and "the" are intended to include the plural forms as well, and it should be understood that when the terms "comprises" and/or "comprising" are used in this specification, they specify the presence of stated features, steps, operations, devices, components, and/or combinations thereof, unless the context clearly indicates otherwise.

The relative arrangement of the components and steps, the numerical expressions and numerical values set forth in these embodiments do not limit the scope of the present invention unless specifically stated otherwise. Meanwhile, it should be understood that the sizes of the respective portions shown in the drawings are not drawn in an actual proportional relationship for the convenience of description. Techniques, methods, and apparatus known to those of ordinary skill in the relevant art may not be discussed in detail but are intended to be part of the specification where appropriate. In all examples shown and discussed herein, any particular value should be construed as merely illustrative, and not limiting. Thus, other examples of the exemplary embodiments may have different values. It should be noted that: like reference numbers and letters refer to like items in the following figures, and thus, once an item is defined in one figure, further discussion thereof is not required in subsequent figures.

As shown in fig. 1 to 6, according to an embodiment of the present invention, a standby communication module for a mobile phone based on an internet of things module is provided, the standby communication module for a mobile phone includes a standby communication service software client 10, a standby communication human-machine interface unit 20, an internet of things module 30, a main control module 40, and a standby battery 50, the standby communication service software client 10 is configured to edit and store preset communication contents and a configuration state reminding manner, the standby communication human-machine interface unit 20 is configured to select communication contents to be sent from the preset communication contents and complete reminding for a user, the internet of things module 30 is configured to send the communication contents to be sent to a communication peer through an operator network or an ad hoc network, the main control module 40 is connected to the standby communication service software client 10, the standby communication human-machine interface unit 20, and the internet of things module 30, the main control module 40 is configured to receive signals of the standby communication human-machine interface, the communication content to be sent is called according to the signal and sent to the internet of things module 30, and the internet of things module 30 is controlled to send the communication content to be sent to the communication opposite end, the standby battery 50 is respectively connected with the standby communication service software client 10, the standby communication man-machine interface unit 20, the internet of things module 30 and the main control module 40, and the standby battery 50 is charged when a main battery of the mobile phone is charged so as to supply power to the standby communication service software client 10, the standby communication man-machine interface unit 20, the internet of things module 30 and the main control module 40 when the main battery of the mobile phone cannot support the main function of the mobile phone.

By applying the configuration mode, the standby communication module of the mobile phone based on the Internet of things module is provided, the standby communication module of the mobile phone can ensure that the mobile phone has standby communication capability, especially in emergency situations, life-critical emergency communication capabilities such as calling for help and position sending of a user can be ensured, and the standby communication module has obvious safety value; in addition, the standby communication module of the mobile phone fully utilizes the characteristic of low power consumption of the Internet of things module, and the standby power supply can be charged along with the main power supply at the same time, so that the endurance time is long; moreover, when the user has a standby communication requirement, the user can directly awaken the related function of the standby communication module through the standby communication man-machine interface unit and communicate, and the communication function can be quickly and conveniently completed without redundant operation. Compared with the prior art, the mobile phone standby communication module provided by the invention can provide standby communication capability for a user when normal communication cannot be carried out due to insufficient electric quantity of the main battery of the mobile phone, and greatly improves the safety and convenience of use of the mobile phone.

In the present invention, in order to implement transmission of the set communication content according to the user instruction, the main control module 40 includes a processor and a memory, the memory is used for storing the preset communication content, and the processor is used for receiving the signal of the standby communication man-machine interface unit 20, calling the communication content to be sent from the preset communication content according to the signal, sending the communication content to be sent to the internet of things module 30, and controlling the internet of things module 30 to send the communication content to be sent to the correspondent node.

As a specific embodiment of the present invention, from the feasibility point of view, the standby communication service software client 10 is an application software (APP) under the main function of the mobile phone, which needs to support the user to compile the preset content, similar to the editing and storing of the common short messages. The function needs to be realized by means of the input and output device of the mobile phone, meanwhile, the preset communication content is stored in a memory through the main function of the mobile phone (specifically, the operating system of the mobile phone is driven by a bottom layer), the memory can be a main memory of the mobile phone, and can also be a special standby memory, for example, an EEPROM or Flash with the capacity of 1MB, and the processor can call the memory of the part. In addition, the processor runs an embedded special software, the function is simple, and only the interaction with the standby communication man-machine interface unit 20 is needed to be supported (namely, the key state is judged, the loudspeaker is driven, and the like, and the state is confirmed). The standby communication man-machine interface unit 20 is a bridge between a user and a machine, the user informs a processor through the standby communication man-machine interface unit 20, the processor calls communication contents to be sent from preset communication contents according to signals sent by the standby communication man-machine interface unit 20 and informs the internet of things module 30 that data are sent, so that the internet of things module 30 has sending capacity, the data to be sent are sent to the internet of things module 30 (the internet of things module has a small-capacity memory as a data transfer station), and the internet of things module 30 sends the data to a communication opposite terminal through an operator network or a self-organization network after receiving the data.

In addition, in the present invention, in order to realize the transmission of information between the mobile phones, the internet of things module 30 may be implemented by using one or more technologies of NB-IoT, LoRa, bluetooth, ZiGBee, NFC, and IEEE 802.15.4. Specifically, the technology of the internet of things is represented by technologies such as NB-IoT, LoRa, bluetooth, ZiGBee, NFC, IEEE 802.15.4, and the like, and has the characteristics of low power consumption, simple networking, high communication energy efficiency, long communication distance, and the like, by taking the realization of the internet of everything as a development idea. With the maturity of the internet of things technology, the integration level of the internet of things communication module is continuously improved, the bluetooth technology is comprehensively popularized in smart phones, and the smart phones have certain internet of things communication capability characterized by the WPAN wireless personal area network. The NB-IoT technology and the LoRa technology are adopted to realize the wide-area Internet of things communication capability, and the Internet of things communication capability is gradually popularized on the mobile phone.

Further, in the present invention, in order to select the communication content to be sent according to the user instruction, the standby communication human-machine interface unit 20 may be configured to include an input device unit and an output device unit, the main control module 40 receives the signal of the input device unit, calls the communication content to be sent from the preset communication content according to the signal, and sends the communication content to be sent to the internet of things module 30, and the output device unit is configured to confirm and remind the standby communication state of the mobile phone and the sending state of the communication content to be sent. In addition, in order to confirm the standby communication state of the mobile phone and the transmission state of the communication contents to be transmitted more clearly and intuitively, the standby communication hmi unit 20 may be configured to include a key, a speaker, a mobile phone vibrator, and an indicator lamp.

As a specific embodiment of the invention, the user edits the preset communication content through the communication service software client 10 and stores the preset communication content for standby, and the mobile phone operating system can perform timed reminding if the user does not edit the preset communication content. The user activates the standby state of the mobile phone through the keys, and if the standby state of the mobile phone is successfully activated, the output equipment unit can remind the user through sound, flash or vibration to confirm that the standby communication state of the mobile phone is correct. The user sends the selected preset communication content through key operation, and in this embodiment, the number of the preset communication content may be set to be consistent with the number of keys.

For example, as shown in fig. 2, the preset communication content 1 is "i'm mobile phone is out of power, please leave a message with a short message", and the preset communication content 2 is "i am at risk, please help me, my address is XXXX", when the number of times of pressing a button is one, the preset communication content 1 is sent, and when the number of times of pressing a button is two, the preset communication content 2 is sent. After the preset communication content is sent definitely, the mobile phone can remind the user in a sound, flash or vibration mode to confirm that the preset communication content is sent successfully. In order to clearly distinguish the standby communication state from the transmission state of the communication content to be transmitted, the confirmation reminding mode of the standby communication state may be set to be different from the confirmation reminding mode of the transmission state of the communication content to be transmitted. For example, when the confirmation reminding mode of the standby communication state is set to remind the user of the correctness of the standby communication state of the mobile phone through sound, the confirmation reminding mode of the sending state of the communication content to be sent can be set to remind the user of the success of the preset communication content sending state through flashing light.

Further, in the present invention, in order to quickly and smoothly transmit the communication content to be transmitted, which is transmitted by the module of internet of things 30, to the communication peer, the standby communication module of the mobile phone based on the module of internet of things may be configured to further include a standby communication antenna 60, the standby communication antenna 60 is connected to the module of internet of things 30, and the module of internet of things 30 transmits the communication content to be transmitted to the communication peer through the standby communication antenna 60. By applying the configuration, the internet of things module 30 sends the communication content to be sent to the operator network or the self-organizing network through the standby communication antenna, and the operator network or the self-organizing network then sends the communication content to be sent to the mobile phone of the communication opposite-end user.

Furthermore, in the present invention, in order to increase the integration of the mobile phone and save the cost, the standby communication antenna 60 may be configured to be multiplexed with the main function antenna of the mobile phone. As other embodiments of the present invention, a dedicated backup communication antenna may also be provided for information transmission.

According to another aspect of the invention, a mobile phone standby communication method based on an internet of things module is provided, and uses the mobile phone standby communication module, and the mobile phone standby communication method includes: editing and storing preset communication content, a confirmation reminding mode of a preset standby communication state and a confirmation reminding mode of a preset to-be-sent communication content sending state so as to complete initialization of a standby communication function; judging the effectiveness of the initialization of the standby communication function, and if the preset communication content is effective, enabling the standby communication module of the mobile phone to enter a standby state; if the preset communication content is invalid, repeating the first step and the second step; step three, a user operates a key to initiate standby communication, the standby communication activation state is judged, and when the mobile phone standby communication module does not successfully enter the activation state, the mobile phone standby communication module keeps the standby state; when the mobile phone standby communication module successfully enters the activation state, judging whether the user has further key operation within the set time, if the user does not have further key operation within the set time, turning the mobile phone standby communication module to the standby state, and if the user has further key operation within the set time, turning to the step four; step four, the main control module 40 receives the signal of the standby communication human-machine interface unit 20, calls the communication content to be sent from the preset communication content according to the signal and sends the communication content to be sent to the internet of things module 30; step five, the main control module 40 controls the internet of things module 30 to send the communication content to be sent to the communication opposite end through the operator network or the self-organizing network; and step six, judging the sending state of the communication content to be sent, and after the sending of the communication content to be sent is finished, giving a sending success confirmation prompt by the standby communication man-machine interface unit 20, and enabling the standby communication module to enter the standby state.

By applying the configuration mode, the standby communication method of the mobile phone based on the IOT module is provided, the standby communication method can ensure that the mobile phone has standby communication capability, particularly, emergency communication capability which is vital to life such as calling for help and position sending of a user can be ensured under emergency conditions, and the safety value is obvious; in addition, when the user has a standby communication requirement, the user can directly awaken the related function of the standby communication module through the standby communication man-machine interface unit and carry out communication, and the communication function can be quickly and conveniently completed without redundant operation. Compared with the prior art, the mobile phone standby communication method provided by the invention can provide standby communication capability for a user when the mobile phone main battery is insufficient and normal communication cannot be carried out, thereby greatly improving the safety and convenience of mobile phone use.

Further, in the present invention, in order to select the communication content to be sent according to the user instruction, the step four may be configured to specifically include: the main control module 40 receives the signal of the input device unit, retrieves the communication content to be sent from the preset communication content and sends the communication content to be sent to the internet of things module 30, and the output device unit determines whether the sending state of the communication content to be sent is correct.

In addition, in the invention, in order to more clearly and intuitively confirm the standby communication state of the mobile phone and the sending state of the communication content to be sent, when the standby communication state of the mobile phone is successfully activated, the output equipment unit confirms and reminds that the standby communication state of the mobile phone is correct in a sound, flash or vibration mode; when the communication content to be sent is successfully sent, the output equipment unit confirms and reminds that the sending state of the communication content to be sent is correct in a sound, flash or vibration mode, and the mode for confirming and reminding the correct standby communication state is different from the mode for confirming and reminding the correct sending state of the communication content to be sent.

According to another aspect of the invention, a mobile phone is provided, which comprises the above mobile phone standby communication module. The mobile phone standby communication module can provide standby communication capability for a user when the mobile phone main battery is insufficient in electric quantity and cannot normally communicate, so that the mobile phone standby communication module is applied to a mobile phone, and the safety and the convenience of using the mobile phone can be greatly improved.

In order to further understand the present invention, the mobile phone standby communication module based on the internet of things module according to the present invention is described in detail below with reference to fig. 1 to 5.

As shown in fig. 1 to 5, according to an embodiment of the present invention, a mobile phone standby communication module based on an NB-IoT internet of things module and a mobile phone including the same are provided, which can provide a standby communication capability for a user when a main battery is low and normal communication cannot be performed.

The mobile phone standby communication module comprises a standby communication service software client 10, a standby communication man-machine interface unit 20, an internet of things module 30, a main control module 40, a standby battery 50 and a standby communication antenna 60, wherein the standby communication service software client 10 is used for editing and storing preset communication contents and configuring a state reminding mode, the standby communication man-machine interface unit 20 is used for selecting communication contents to be sent from the preset communication contents and finishing reminding for a user, and the internet of things module 30 is used for sending the communication contents to be sent to a communication opposite end through an operator network or a self-organization network.

The main control module 40 is respectively connected with the standby communication service software client 10, the standby communication man-machine interface unit 20 and the internet of things module 30, the main control module 40 is used for receiving signals of the standby communication man-machine interface unit 20, calling corresponding communication content to be sent according to the signals and sending the communication content to the internet of things module 30 and controlling the internet of things module 30 to send the communication content to be sent to a communication opposite end, the standby battery 50 is respectively connected with the standby communication service software client 10, the standby communication man-machine interface unit 20, the internet of things module 30 and the main control module 40, and the standby battery 50 is charged when a main battery of the mobile phone is charged and used for supplying power to the standby communication service software client 10, the standby communication man-machine interface unit 20, the internet of things module 30 and the main control module 40 when. The standby communication antenna 60 is connected with the internet of things module 30, and the internet of things module 30 sends the communication content to be sent to the communication opposite terminal through the standby communication antenna 60.

When a user uses the mobile phone, communication content can be preset on the standby communication service software client 10, after the mobile phone enters a standby communication mode, the mobile phone establishes connection with an operator base station or a self-organizing network through the internet of things module 30 and selects communication content to be sent from the preset communication content to send, the communication content to be sent reaches the mobile phone of a user at a communication opposite end through the operator cellular network or the self-organizing network, and the content received by the communication opposite end includes but is not limited to phone reminding, short message notification and the like.

Specifically, in this embodiment, as shown in fig. 2 to 6, the standby communication method for a mobile phone based on an internet of things module provided by the present invention includes the following steps.

Step one, under the condition that the electric quantity of a main battery of the mobile phone is sufficient, a user edits and stores preset communication content, a confirmation reminding mode of a preset standby communication state and a confirmation reminding mode of a preset to-be-sent communication content sending state through a standby communication service software client 10 so as to complete the initialization of a standby communication function. And if the preset content is not edited, the mobile phone operating system needs to remind regularly. The confirming of the presetting of the reminding mode specifically comprises presetting in a sound, vibration or flashing mode and presetting of reminding sound duration, intervals and the like. In the invention, the initialization content of the standby communication function can be modified, the standby communication function of the mobile phone enters a standby state (the standby state belongs to a dormant state relative to an activated state) once being initialized, and the standby communication module of the mobile phone does not need the support of the main function of the mobile phone in the standby state, namely the on-off state of the mobile phone does not influence the standby communication function of the standby communication module of the mobile phone at the moment.

Judging the effectiveness of the initialization of the standby communication function, and if the preset communication content is effective, enabling the standby communication module of the mobile phone to enter a standby state; and if the preset communication content is invalid, repeating the first step and the second step. The flag that the preset communication content is valid is as follows: firstly, a user successfully stores at least one piece of preset communication content and completes the setting of a reminding mode; and secondly, after the client is successfully installed, the client generates initial default configuration and the user confirms the configuration.

Step three, a user operates a key to initiate standby communication, the standby communication activation state is judged, and when the mobile phone standby communication module does not successfully enter the activation state, the mobile phone standby communication module keeps the standby state; and when the mobile phone standby communication module successfully enters the activation state, judging whether the user has further key operation within the set time, if the user does not have further key operation within the set time, turning the mobile phone standby communication module to the standby state, and if the user has further key operation within the set time, turning to the step four.

In this embodiment, the user activates the standby communication function of the mobile phone by long pressing the standby communication function key shown in fig. 5, and after the standby communication function of the mobile phone is activated, the output device unit may remind the user in a manner of sound, flashing light, or vibration to confirm that the standby communication state of the mobile phone is correct. And when the standby communication function of the mobile phone is activated, the user sends the preset communication content with the corresponding number by recording the number of times of pressing the key. In this embodiment, the preset communication content 1 is "i'm mobile phone is out of power, please leave a message with a short message", the preset communication content 2 is "i am at risk, please help me, my address is XXXX", when the number of times of pressing a button is one, the preset communication content 1 is sent, and when the number of times of pressing a button is two, the preset communication content 2 is sent. After the preset communication content is sent definitely, the mobile phone can remind the user in a sound, flash or vibration mode to confirm that the preset communication content is sent successfully.

Step four, the main control module 40 receives the signal of the standby communication human-machine interface unit 20, calls the communication content to be sent from the preset communication content according to the signal, and sends the communication content to be sent to the internet of things module 30.

Step five, the main control module 40 controls the internet of things module 30 to send the preset communication content to be sent to the operator network or the self-organizing network through the spare communication antenna 60, and the operator network or the self-organizing network further sends the preset communication content to be sent to the communication opposite terminal. In this embodiment, in order to improve the integration level of the mobile phone and save the cost, the antenna of the standby communication module is multiplexed with the main functional antenna of the mobile phone.

And step six, judging the sending state of the communication content to be sent, and after the sending of the communication content to be sent is finished, giving a sending success confirmation prompt by the standby communication man-machine interface unit 20, and enabling the standby communication module to enter the standby state.

In summary, the invention provides a standby communication module of a mobile phone based on an internet of things module and a mobile phone with the standby communication module, and the standby communication mode of the mobile phone is particularly suitable for the old, children, field workers and travelers in the use scene. Meanwhile, in the aspect of functional integration feasibility, as the old man-machine, the child watch and the outdoor communication equipment have the characteristic of customized design compared with the standard mobile phone, the constraint conditions of the size, the cost and the like are relatively easier to coordinate. Compared with the prior art, the standby communication module of the mobile phone has the following advantages.

First, security. The standby communication module of the mobile phone ensures that the mobile phone has standby communication capability, particularly ensures emergency communication capability relevant to life such as calling for help, position sending and the like of a user under emergency conditions, and has obvious safety value.

Secondly, the endurance time is long. The standby communication module of the mobile phone makes full use of the characteristic of low power consumption of the Internet of things module, and meanwhile, the standby power supply adopted by the standby communication module of the mobile phone can be charged along with the main power supply at the same time, and the standby communication module of the mobile phone theoretically has the endurance time of not less than one year because the charging interval of the main power supply is controllable.

Third, convenience. When a user has a standby communication requirement, related functions of the standby communication module of the mobile phone can be awakened directly through the standby communication man-machine interface unit and communicated, redundant operation is not needed, and the communication function can be completed quickly and conveniently.

Spatially relative terms, such as "above … …," "above … …," "above … …," "above," and the like, may be used herein for ease of description to describe one device or feature's spatial relationship to another device or feature as illustrated in the figures. It will be understood that the spatially relative terms are intended to encompass different orientations of the device in use or operation in addition to the orientation depicted in the figures. For example, if a device in the figures is turned over, devices described as "above" or "on" other devices or configurations would then be oriented "below" or "under" the other devices or configurations. Thus, the exemplary term "above … …" can include both an orientation of "above … …" and "below … …". The device may be otherwise variously oriented (rotated 90 degrees or at other orientations) and the spatially relative descriptors used herein interpreted accordingly.

It should be noted that the terms "first", "second", and the like are used to define the components, and are only used for convenience of distinguishing the corresponding components, and the terms have no special meanings unless otherwise stated, and therefore, the scope of the present invention should not be construed as being limited.

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

1. The utility model provides a cell-phone standby communication module based on thing networking module which characterized in that, cell-phone standby communication module includes:

the standby communication service software client (10), the standby communication service software client (10) is used for editing and storing preset communication content and configuration state reminding modes;

the standby communication man-machine interface unit (20), the standby communication man-machine interface unit (20) is used for selecting communication contents to be sent from the preset communication contents and finishing reminding for a user;

the Internet of things module (30), the Internet of things module (30) is used for sending the communication content to be sent to a communication opposite end through an operator network or an ad hoc network;

the main control module (40), the main control module (40) is respectively connected with the standby communication service software client (10), the standby communication man-machine interface unit (20) and the internet of things module (30), and the main control module (40) is used for receiving a signal of the standby communication man-machine interface unit (20), calling corresponding communication content to be sent according to the signal, sending the corresponding communication content to the internet of things module (30) and controlling the internet of things module (30) to send the communication content to be sent to a communication opposite terminal;

backup battery (50), backup battery (50) respectively with backup communication service software client (10) backup communication man-machine interface unit (20) thing networking module (30) and host system (40) are connected, backup battery (50) charge when the cell phone main battery charges in order to be used for when the cell phone main battery can not support cell phone main function operation to backup communication service software client (10) backup communication man-machine interface unit (20) thing networking module (30) and host system (40) power supply.

2. The mobile phone standby communication module based on the internet of things module as claimed in claim 1, wherein the main control module (40) comprises a processor and a memory, the memory is used for storing the preset communication content, and the processor is used for receiving the signal of the standby communication man-machine interface unit (20), retrieving the communication content to be sent from the preset communication content according to the signal, sending the communication content to be sent to the internet of things module (30) and controlling the internet of things module (30) to send the communication content to be sent to a communication opposite end.

3. The mobile phone standby communication module based on the internet of things module as claimed in claim 2, wherein the standby communication man-machine interface unit (20) comprises an input device unit and an output device unit, the main control module (40) receives a signal of the input device unit, calls a communication content to be sent from the preset communication content according to the signal, and sends the communication content to be sent to the internet of things module (30), and the output device unit is used for confirming and reminding a standby communication state of a mobile phone and a sending state of the communication content to be sent.

4. The Internet of things module-based mobile phone standby communication module according to claim 3, wherein the standby communication human-machine interface unit (20) comprises a key, a speaker, a mobile phone vibrator and an indicator light.

5. The IOT module-based handset standby communication module according to any one of claims 1 to 4, further comprising a standby communication antenna (60), wherein the standby communication antenna (60) is connected to the IOT module (30), and the IOT module (30) transmits the communication content to be transmitted to the opposite communication terminal through the standby communication antenna (60).

6. The IOT module-based handset standby communication module of claim 5, wherein the standby communication antenna (60) is multiplexed with a main function antenna of the handset.

7. A standby communication method of a mobile phone based on an IOT (Internet of things) module, wherein the standby communication method of the mobile phone uses the standby communication module of the mobile phone as claimed in any one of claims 1 to 6, and the standby communication method of the mobile phone comprises the following steps:

editing and storing preset communication content, a confirmation reminding mode of a preset standby communication state and a confirmation reminding mode of a preset to-be-sent communication content sending state so as to complete initialization of a standby communication function;

judging the effectiveness of the initialization of the standby communication function, and if the preset communication content is effective, enabling the standby communication module of the mobile phone to enter a standby state; if the preset communication content is invalid, repeating the first step and the second step;

step three, a user operates a key to initiate standby communication, the standby communication activation state is judged, and when the mobile phone standby communication module does not successfully enter the activation state, the mobile phone standby communication module keeps the standby state; when the mobile phone standby communication module successfully enters the activation state, judging whether the user has further key operation within the set time, if the user does not have further key operation within the set time, turning the mobile phone standby communication module to the standby state, and if the user has further key operation within the set time, turning to the step four;

step four, the main control module (40) receives a signal of the standby communication man-machine interface unit (20), calls communication content to be sent from the preset communication content according to the signal and sends the communication content to be sent to the Internet of things module (30);

step five, the main control module (40) controls the internet of things module (30) to send the communication content to be sent to a communication opposite terminal through an operator network or a self-organizing network;

and step six, judging the sending state of the communication content to be sent, and after the sending of the communication content to be sent is finished, giving a sending success confirmation prompt by the standby communication man-machine interface unit (20) and enabling the standby communication module to enter a standby state.

8. The standby communication method for the mobile phone based on the internet of things module of claim 7, wherein the fourth step specifically comprises: the main control module (40) receives a signal of the input device unit, calls communication content to be sent from the preset communication content and sends the communication content to be sent to the Internet of things module (30), and the output device unit confirms whether the sending state of the communication content to be sent is correct or not.

9. The internet-of-things-module-based mobile phone standby communication method according to claim 8, wherein when the standby communication state of the mobile phone is successfully activated, the output device unit confirms to remind that the standby communication state of the mobile phone is correct in a sound, flash or vibration manner; when the communication content to be sent is successfully sent, the output device unit confirms and reminds that the sending state of the communication content to be sent is correct through a sound, flash or vibration mode, and the mode for reminding the correct standby communication state is different from the mode for reminding the correct sending state of the communication content to be sent.

10. A handset, characterized in that it comprises a handset standby communication module according to any one of claims 1 to 6.