阅读说明：本技术 一种信息的交互方法，穿戴设备以及存储介质 (A kind of exchange method of information, wearable device and storage medium ) 是由 张洵 龚建勇 龚树强 张俊宏 于 2019-07-26 设计创作，主要内容包括：本发明实施例公开了一种信息的交互方法,穿戴设备以及存储介质,用于避免穿戴设备所位于的通信环境中的信号对穿戴设备之间的信息交互的干扰,且有效的节省穿戴设备的功耗,提高穿戴设备的待机时长。本发明实施例方法包括：第一穿戴设备获取待交互信息,所述第一穿戴设备为所述目标用户所穿戴的所述多个穿戴设备中的任一个；所述第一穿戴设备与目标用户进行电容耦合,使能目标用户的人体产生电场以确定人体通信通道；所述第一穿戴设备通过所述人体通信信道,向所述第二穿戴设备发送所述待交互信息。(The embodiment of the invention discloses a kind of exchange methods of information, wearable device and storage medium, interference of the signal in communication environment to the information exchange between wearable device for avoiding wearable device from being located at, and the effective power consumption for saving wearable device, improve the standby time of wearable device.The method comprise the steps that the first wearable device obtains any of the multiple wearable device dressed to interactive information, first wearable device by the target user；First wearable device and target user carry out capacitive coupling, and the human body for enabling target user generates electric field to determine human body communication channel；By the human body communication channel, the second wearable device of Xiang Suoshu sends described to interactive information first wearable device.)

1. a kind of exchange method of information, which is characterized in that the method is used for human body interactive system, the human body interactive system The multiple wearable devices dressed including target user and the target user, which comprises

First wearable device is obtained to interactive information, and first wearable device is dressed the multiple by the target user Any of wearable device；

First wearable device and the target user carry out capacitive coupling, and the human body for enabling the target user generates electric field To determine human body communication channel；

By the human body communication channel, the second wearable device of Xiang Suoshu sends described to interaction letter first wearable device Breath.

2. exchange method according to claim 1, which is characterized in that first wearable device and the target user into Row capacitive coupling, enable the target user human body generate electric field to determine human body communication channel before, the method is also wrapped It includes:

First wearable device judges whether the distance between first wearable device and the target user are greater than or wait In the first pre-determined distance；

If so, first wearable device generates prompt information；

First wearable device and target user progress capacitive coupling are executed if it is not, then triggering, the target is enabled and uses The human body at family generates the step of electric field is to determine human body communication channel.

3. exchange method according to claim 1 or 2, which is characterized in that the method also includes:

First wearable device detects the target range between first wearable device and second wearable device；

First wearable device judges whether the target range is less than or equal to the second pre-determined distance；

If so, triggering executes first wearable device and the target user carries out capacitive coupling, enables the target and use The human body at family generates the step of electric field is to determine human body communication channel；

If it is not, then first wearable device is described wait interact to second wearable device transmission by short distance communication network Information.

4. exchange method according to any one of claims 1 to 3, which is characterized in that first wearable device passes through institute State human body communication channel, the second wearable device of Xiang Suoshu send it is described to interactive information after, the method also includes:

If first wearable device does not receive response message, first wearable device by the human body communication channel Described to interactive information to second wearable device transmission by short distance communication network, the response message is used to indicate institute State the second wearable device be successfully received it is described to interactive information.

5. exchange method according to any one of claims 1 to 4, which is characterized in that the frequency of the human body communication channel Minimum value for any value in target interval, the target interval is 6 kHz, and the maximum value of the target interval is 100 megahertzs.

6. exchange method according to any one of claims 1 to 5, which is characterized in that the human body interactive system further includes Terminal, first wearable device, which is obtained to interactive information, includes:

First wearable device is obtained described to interactive information by short distance communication network from the terminal.

7. exchange method according to any one of claims 1 to 5, which is characterized in that first wearable device obtain to Interactive information includes:

First wearable device is based on Virtual User identification card SIM, is obtained by radio frequency communication network described wait interact Information.

8. exchange method according to any one of claims 1 to 5, which is characterized in that first wearable device obtain to Interactive information includes:

First wearable device passes through the sensor integrated, obtains described to interactive information.

9. a kind of wearable device, which is characterized in that the wearable device is the first wearable device, and first wearable device is used for Human body interactive system, the human body interactive system include that multiple wearings for being dressed of target user and the target user are set Any of the multiple wearable device standby, that first wearable device is dressed by the target user, described first Wearable device includes:

Receiving unit, for obtaining to interactive information；

Processing unit, for the target user carry out capacitive coupling, enable the target user human body generate electric field with Determine human body communication channel；

Transmission unit, for by the human body communication channel, the second wearable device of Xiang Suoshu to send described to interactive information.

10. wearable device according to claim 9, which is characterized in that the processing unit is also used to, and detects described When one wearable device and the target user are separated, prompt information is generated, the prompt information is for prompting described first to wear Wear the state that equipment is separated with the target user.

11. wearable device according to claim 9 or 10, which is characterized in that the processing unit is also used to:

Detect the target range between first wearable device and second wearable device；

Judge whether the target range is less than or equal to pre-determined distance；

If so, triggering executes first wearable device and the target user carries out capacitive coupling, enables the target and use The human body at family generates the step of electric field is to determine human body communication channel；

If it is not, then being sent by short distance communication network to second wearable device described to interactive information.

12. according to the described in any item wearable devices of claim 9 to 11, which is characterized in that the processing unit is also used to, if It determines that the receiving unit does not receive response message by the human body communication channel, then triggers the transmission unit and send institute It states to interactive information；

The transmission unit is also used to, and is believed to second wearable device transmission is described to interaction by short distance communication network Breath, the response message be used to indicate second wearable device be successfully received it is described to interactive information.

13. a kind of wearable device, which is characterized in that the wearable device is the first wearable device, and first wearable device is used In human body interactive system, the human body interactive system includes that multiple wearings for being dressed of target user and the target user are set Any of the multiple wearable device standby, that first wearable device is dressed by the target user, described first Wearable device includes low frequency transceiver module and Anneta module；

The Anneta module is used for, and is obtained to interactive information；

The low frequency transceiver module is used to carry out capacitive coupling with the target user, and the human body for enabling the target user generates Electric field includes the Anneta module and the target user to determine human body communication channel, the human body communication channel；

The low frequency transceiver module is used for, and by the human body communication channel, the second wearable device of Xiang Suoshu sends described wait hand over Mutual information.

14. wearable device according to claim 13, which is characterized in that the low frequency transceiver module and the Anneta module On same system grade chip SOC, or, the low frequency transceiver module and the Anneta module are located on different chips.

15. wearable device described in 3 or 14 according to claim 1, which is characterized in that first wearable device further includes processing Device, the processor connect sensor, and the processor is used to obtain by the sensor described to interactive information.

16. wearable device according to claim 15, which is characterized in that if it is described to interactive information be audio/video information, Then the processor connection is for carrying out the audio coding and decoding device of encoding and decoding processing to audio, video data.

17. wearable device according to claim 15 or 16, which is characterized in that first wearable device further includes base band Processor is connected with the baseband processor between the processor and the low frequency transceiver module.

18. 3 to 17 described in any item wearable devices according to claim 1, which is characterized in that the low frequency transceiver module includes Low frequency transmission unit and low frequency reception unit, the low frequency transmission unit send letter by the human body communication channel for controlling The frequency of breath, the low frequency reception unit are used to control the frequency by the human body communication channel reception information, wherein described The frequency of human body communication channel is any value in target interval, and the minimum value of the target interval is 6 kHz, the mesh The maximum value for marking section is 100 megahertzs.

19. 3 to 18 described in any item wearable devices according to claim 1, which is characterized in that first wearable device also wraps The short-range communication module for short haul connection is included, and/or, first wearable device further includes penetrating for radio communication Frequency module.

20. a kind of chip, which is characterized in that including communication interface, memory and processor, the memory is calculated for storing Machine program, the processor is for reading and executing the computer program stored in the memory, to execute such as right It is required that method described in any one of 1-8.

21. a kind of computer readable storage medium, which is characterized in that be stored with computer in the computer readable storage medium Program, when the computer program executes on computers, so that computer is executed as described in any one of claim 1-8 Method.

22. a kind of human body interactive system, which is characterized in that the human body interactive system includes that target user and the target are used Multiple wearable devices that family is dressed, the multiple wearable device include the first wearable device and the second wearable device；

First wearable device is for obtaining to interactive information；First wearable device be also used to the target user into Row capacitive coupling, the human body for enabling the target user generate electric field to determine human body communication channel；First wearable device It is also used to through the human body communication channel, the second wearable device of Xiang Suoshu sends described to interactive information.

Technical field

This application involves field of communication technology more particularly to a kind of exchange method of information, wearable device and deposit Storage media.

Background technique

With the development of communication technology, the type for the wearable device that user is worn is more and more various, and wearable device can be Intelligent bracelet, wireless headset, glasses etc..

Summary of the invention

This application provides a kind of exchange method of information, wearable device and storage medium can be improved effectively The signal quality of information exchange, and power consumption can be effectively reduced.

The embodiment of the present application first aspect provides a kind of exchange method of information, and the method is for human body interaction system System, the human body interactive system includes multiple wearable devices that target user and the target user are dressed, the method It include: that the first wearable device is obtained to interactive information, first wearable device is dressed described more by the target user Any of a wearable device；First wearable device and target user carry out capacitive coupling, enable the people of target user Body generates electric field to determine human body communication channel；First wearable device passes through the human body communication channel, Xiang Suoshu second Wearable device sends described to interactive information.

As it can be seen that using method shown in present aspect, because first wearable device is worn by human body communication channel to second It is described to interactive information to wear equipment transmission, so that the frequency and power consumption in transmission process are all relatively low, so will not produce to human body Raw injury, and do capacitive coupling using human body is a capacitor, the interference of suffered environment be it is very limited, even if first Bluetooth signal and WIFI signal in communication environment at wearable device etc., these signals all will not be to human body communication channels It interferes, so that the first wearable device will be sent to the second wearable device by human body communication channel to interactive information, It can effectively ensure the stabilization and quality of information transmission, and because human body communication channel carries out the transmission to interactive information, be consumed The power consumption taken is relatively low, to effectively raise the standby time of wearable device.

Based on the embodiment of the present application in a first aspect, in a kind of optional implementation of the embodiment of the present application first aspect, First wearable device and target user carry out capacitive coupling, and the human body of enabled target user generates electric field to determine that human body is logical Before believing channel, the method also includes: first wearable device judges first wearable device and the target user The distance between whether be greater than or equal to the first pre-determined distance；If so, first wearable device generates prompt information；If It is no, then it triggers and executes first wearable device and target user's progress capacitive coupling, the human body for enabling target user generates electricity The step of field is to determine human body communication channel.

As it can be seen that first wearable device can predefine the first pre-determined distance, wherein first pre-determined distance is Refer to, when the distance between first wearable device and target user is greater than or equal to first pre-determined distance, described first Wearable device can not determine the human body communication channel based on human body, specifically, if target user do not have normal wear this first Wearable device, then first wearable device can not be sent to interactive information, only by human body communication channel to the second wearable device It, just can be logical by human body communication in the case where having at a distance from the first wearable device is between target user less than the first preset value Road carries out the transmission to interactive information, improves and carries out the success rate sent to interactive information by human body communication channel, avoids In the case where not wearing the first wearable device successfully because of target user, it is not successfully transmitted to interactive information to the second wearing The appearance of the case where equipment.

Based on the embodiment of the present application in a first aspect, in a kind of optional implementation of the embodiment of the present application first aspect, The method also includes: first wearable device detects the mesh between first wearable device and second wearable device Subject distance；First wearable device judges whether the target range is less than or equal to the second pre-determined distance；If so, triggering It executes first wearable device and target user carries out capacitive coupling, the human body for enabling target user generates electric field to determine people The step of body communication channel；If it is not, then first wearable device passes through short distance communication network to second wearable device It sends described to interactive information.

As it can be seen that whether first wearable device detects the distance between first wearable device and second wearable device Less than or equal to the second preset value, second is less than or equal to only at a distance from the first wearable device is between the second wearable device In the case where preset value, the transmission to interactive information can be just carried out by human body communication channel, improved logical by human body communication Road carries out the success rate sent to interactive information, and at a distance from detecting the first wearable device between the second wearable device In the case where the second preset value, the first wearable device can be described to interactive information by short distance communication network transmission, keeps away The appearance for the case where having exempted from not to be successfully transmitted to interactive information to the second wearable device.

Based on the embodiment of the present application in a first aspect, in a kind of optional implementation of the embodiment of the present application first aspect, First wearable device by the human body communication channel, the second wearable device of Xiang Suoshu send it is described to interactive information it Afterwards, the method also includes: if first wearable device does not receive response message by the human body communication channel, institute It is described to interactive information, the response to second wearable device transmission by short distance communication network to state the first wearable device Message be used to indicate second wearable device be successfully received it is described to interactive information.

As it can be seen that determining not receiving the second wearable device by the human body communication channel in first wearable device Transmitted response message, then illustrate second wearable device be unsuccessfully received transmitted by the first wearable device it is described to Interactive information, then there is packet loss to interactive information via what the human body communication channel was transmitted in explanation, then described first wears Wearing equipment can be described to interactive information to the transmission of the second wearable device by short distance communication network, avoids and does not have to interactive information There is the appearance for the case where being successfully transmitted to the second wearable device.

Based on the embodiment of the present application in a first aspect, in a kind of optional implementation of the embodiment of the present application first aspect, The frequency of the human body communication channel is any value in target interval, and the minimum value of the target interval is 6 kHz, institute The maximum value for stating target interval is 100 megahertzs.

As it can be seen that using method shown in present aspect, so that the frequency in human body communication channel is located in the target interval, from And make the human body communication channel can be improved transmitted to the signal quality of interactive information and safety and reliable Property.

Based on the embodiment of the present application in a first aspect, in a kind of optional implementation of the embodiment of the present application first aspect, The human body interactive system further includes terminal, and it includes: that first wearing is set that first wearable device, which is obtained to interactive information, It is standby to pass through short distance communication network, it is obtained from the terminal described to interactive information.

As it can be seen that the first wearable device can be described to interactive information from terminal acquisition by short distance communication network, in success It gets after interactive information, this can be waited for that interactive information is transmitted to second and wears by human body communication channel by the first wearable device Wear equipment.

Based on the embodiment of the present application in a first aspect, in a kind of optional implementation of the embodiment of the present application first aspect, It includes: that first wearable device is based on Virtual User identification card SIM that first wearable device, which is obtained to interactive information, It is obtained by radio frequency communication network described to interactive information.

As it can be seen that the first wearable device can be obtained from base station to interactive information by Virtual User identification card SIM, at Function gets described after interactive information, this can be waited for that interactive information is transmitted to by human body communication channel by the first wearable device Second wearable device.

Based on the embodiment of the present application in a first aspect, in a kind of optional implementation of the embodiment of the present application first aspect, It includes: that first wearable device passes through the sensor integrated that first wearable device, which is obtained to interactive information, obtains institute It states to interactive information.

Wherein, the sensing data includes but to be not limited to sensor that the first wearable device integrates collected to people The health and fitness informations such as heart rate, the blood oxygen of body, one or more sensors that the sensor can be as follows:

Photosensors, ambient light sensor, Hall sensor, capacitance sensor, acceleration transducer or heart rate detection Sensor etc..

The embodiment of the present application second aspect provides a kind of wearable device, and the wearable device is the first wearable device, institute The first wearable device is stated for human body interactive system, the human body interactive system includes target user and target user institute Multiple wearable devices of wearing, in the multiple wearable device that first wearable device is dressed by the target user Any one, first wearable device includes: receiving unit, for obtaining to interactive information；Processing unit, for being used with target Family carries out capacitive coupling, and the human body for enabling target user generates electric field to determine human body communication channel；Transmission unit, for passing through The human body communication channel, the second wearable device of Xiang Suoshu send described to interactive information.

Wearable device shown in present aspect is for executing method shown in first aspect, specific implementation procedure and beneficial effect The explanation of fruit, please be detailed in it is above-mentioned shown in, do not repeat them here specifically.

Based on the embodiment of the present application second aspect, in a kind of optional implementation of the embodiment of the present application second aspect, The processing unit is also used to, and when detecting that first wearable device and the target user are separated, generates prompt information, The state that the prompt information is used to that first wearable device and the target user to be prompted to be separated.

Based on the embodiment of the present application second aspect, in a kind of optional implementation of the embodiment of the present application second aspect, The processing unit is also used to: detecting the target range between first wearable device and second wearable device；Judgement Whether the target range is less than or equal to pre-determined distance；If so, triggering executes first wearable device and target user Capacitive coupling is carried out, the human body for enabling target user generates the step of electric field is to determine human body communication channel；If it is not, then by short Range communication network sends described to interactive information to second wearable device.

Based on the embodiment of the present application second aspect, in a kind of optional implementation of the embodiment of the present application second aspect, The processing unit is also used to, however, it is determined that the receiving unit does not receive response message by the human body communication channel, then It is described to interactive information to trigger the transmission unit transmission；The transmission unit is also used to, by short distance communication network to institute It is described to interactive information to state the transmission of the second wearable device, the response message is used to indicate second wearable device and successfully connects It receives described to interactive information.

Based on the embodiment of the present application second aspect, in a kind of optional implementation of the embodiment of the present application second aspect, The human body interactive system further includes terminal, and the receiving unit is also used to, and by short distance communication network, is obtained from the terminal It takes described to interactive information.

Based on the embodiment of the present application second aspect, in a kind of optional implementation of the embodiment of the present application second aspect, The receiving unit is also used to, and is based on Virtual User identification card SIM, is obtained by radio frequency communication network described to interaction letter Breath.

Based on the embodiment of the present application second aspect, in a kind of optional implementation of the embodiment of the present application second aspect, The receiving unit is also used to, and by the sensor integrated, is obtained described to interactive information.

The embodiment of the present application third aspect provides a kind of wearable device, and the wearable device is the first wearable device, institute The first wearable device is stated for human body interactive system, the human body interactive system includes target user and target user institute Multiple wearable devices of wearing, in the multiple wearable device that first wearable device is dressed by the target user Any one, first wearable device includes low frequency transceiver module and Anneta module；The Anneta module is used for, and is obtained wait interact Information；The low frequency transceiver module be used for target user carry out capacitive coupling, enable target user human body generate electric field with Determine that human body communication channel, the human body communication channel include the Anneta module and the target user；The low frequency transmitting-receiving Module is used for, and by the human body communication channel, the second wearable device of Xiang Suoshu sends described to interactive information.

Wearable device shown in present aspect specific implementation procedure and has for executing method shown in above-mentioned first aspect Beneficial effect illustrates, and please be detailed in shown in first aspect, not repeat them here in present aspect specifically.

Based on the embodiment of the present application third aspect, in a kind of optional implementation of the embodiment of the present application third aspect, The low frequency transceiver module and the Anneta module are located on same system grade chip SOC, or, the low frequency transceiver module and institute Anneta module is stated to be located on different chips.

Based on the embodiment of the present application third aspect, in a kind of optional implementation of the embodiment of the present application third aspect, First wearable device further includes processor, and the processor connects sensor, and the processor is for passing through the sensing Device obtains described to interactive information.

Based on the embodiment of the present application third aspect, in a kind of optional implementation of the embodiment of the present application third aspect, It to interactive information is audio/video information if described, processor connection is for carrying out encoding and decoding processing to audio, video data Audio coding and decoding device.

Based on the embodiment of the present application third aspect, in a kind of optional implementation of the embodiment of the present application third aspect, First wearable device further includes baseband processor, is connected with institute between the processor and the low frequency transceiver module State baseband processor.

Based on the embodiment of the present application third aspect, in a kind of optional implementation of the embodiment of the present application third aspect, The low frequency transceiver module includes low frequency transmission unit and low frequency reception unit, and the low frequency transmission unit passes through institute for controlling The frequency that human body communication channel sends information is stated, the low frequency reception unit passes through the human body communication channel reception for controlling The frequency of information, wherein the frequency of the human body communication channel is any value in target interval, and the target interval is most Small value is 6 kHz, and the maximum value of the target interval is 100 megahertzs.

Based on the embodiment of the present application third aspect, in a kind of optional implementation of the embodiment of the present application third aspect, First wearable device further includes the short-range communication module for short haul connection, and/or, first wearable device is also Including the radio-frequency module for radio communication.

The embodiment of the present application fourth aspect provides a kind of chip, including communication interface, memory and processor, described to deposit Reservoir is for storing computer program, and the processor is for reading and executing the computer journey stored in the memory Sequence, in described in any item methods as shown in above-mentioned first aspect of execution.

The 5th aspect of the embodiment of the present application provides a kind of computer readable storage medium, the computer-readable storage medium Computer program is stored in matter, when the computer program executes on computers, so that computer executes such as above-mentioned the Described in any item methods shown in one side.

The 6th aspect of the embodiment of the present application provides a kind of human body interactive system, which is characterized in that human body interaction system System includes multiple wearable devices that target user and the target user are dressed, and the multiple wearable device is worn including first Wear equipment and the second wearable device；First wearable device is for obtaining to interactive information；First wearable device is also used In carrying out capacitive coupling with target user, the human body for enabling target user generates electric field to determine human body communication channel；Described One wearable device is also used to through the human body communication channel, and the second wearable device of Xiang Suoshu sends described to interactive information.Its In, first wearable device is for executing described in any item methods as shown in above-mentioned first aspect.

Detailed description of the invention

Fig. 1 is a kind of example structure exemplary diagram of human body interactive system provided herein；

Fig. 2 is a kind of embodiment step flow chart of the exchange method of information provided herein；

Fig. 3 is another embodiment step flow chart of the exchange method of information provided herein；

Fig. 4 is another embodiment step flow chart of the exchange method of information provided herein；

Fig. 5 is a kind of embodiment Sample Scenario figure of the exchange method of information provided herein；

Fig. 6 is another embodiment Sample Scenario figure of the exchange method of information provided herein；

Fig. 7 is another embodiment Sample Scenario figure of the exchange method of information provided herein；

Fig. 8 is another embodiment Sample Scenario figure of the exchange method of information provided herein；

Fig. 9 is a kind of example structure exemplary diagram of wearable device provided herein；

Figure 10 is another example structure exemplary diagram of wearable device provided herein；

Figure 11 is another example structure exemplary diagram of wearable device provided herein；

Figure 12 is another example structure exemplary diagram of wearable device provided herein；

Figure 13 is another example structure exemplary diagram of wearable device provided herein.

Specific embodiment

Following will be combined with the drawings in the embodiments of the present invention, and technical solution in the embodiment of the present invention carries out clear, complete Site preparation description, it is clear that described embodiments are only a part of the embodiments of the present invention, instead of all the embodiments.It is based on Embodiment in the present invention, those skilled in the art's every other implementation obtained without creative efforts Example, shall fall within the protection scope of the present invention.

The term "and/or" occurred in the application, can be a kind of incidence relation for describing affiliated partner, and expression can deposit In three kinds of relationships, for example, A and/or B, can indicate: individualism A exists simultaneously A and B, these three situations of individualism B. In addition, character "/" in the application, typicallys represent the relationship that forward-backward correlation object is a kind of "or".

The description and claims of this application and term " first " in above-mentioned attached drawing, " second " etc. are for distinguishing Similar object, without being used to describe a particular order or precedence order.It should be understood that the data used in this way are in appropriate feelings It can be interchanged under condition, so that the embodiments described herein can be real with the sequence other than the content for illustrating or describing herein It applies.In addition, term " includes " and " having " and their any deformation, it is intended that cover it is non-exclusive include, for example, packet The process, method, system, product or equipment for having contained series of steps or module those of be not necessarily limited to be clearly listed step or Module, but may include other steps being not clearly listed or intrinsic for these process, methods, product or equipment or Module.

The embodiment of the invention provides a kind of exchange method of information, this method for effectively improve wearable device to Machine duration, and the signal quality of interacted information can be effectively improved, to better understand information provided herein Exchange method, the specific structure of human body interactive system applied by the exchange method first to information shown in the application below It illustrates:

As shown in Figure 1, the human body interactive system includes human body 101, terminal 102 and the target user institute of target user The multiple wearable devices worn, the present embodiment to the specific device type of wearable device without limitation, as long as the wearable device energy It enough realizes the interaction of the information between different wearable devices, and/or realizes that the information between the wearable device and terminal 102 is handed over Mutually；

The type of wearable device shown in the present embodiment can be wireless headset 104, and optionally, which can be As follows is any:

The neck hanging type earphone being hung on neck, headphone, in-ear typed Bluetooth headset, half in-ear typed Bluetooth headset, half Open bluetooth headset, open bluetooth headset, monaural bluetooth headset, true wireless stereo (true wireless stereo, TWS) bluetooth headset, and the wired dual-purpose earphone of bluetooth with wire rod etc..

The type of wearable device can also be glasses 105, and glasses 105 include being used for augmented reality (augmented Reality, AR) glasses, for virtual reality (virtual reality, VR) glasses, be used for mixed reality (mix Reality, MR) glasses etc.；The type of wearable device can be also Intelligent bracelet 103, and the present embodiment is to the Intelligent bracelet 103 The function that can be realized without limitation, shows the time, target user's fortune can be achieved for example, the hand energy bracelet 103 can be realized Detection functions such as dynamic, health, sleep etc., specifically in the present embodiment without limitation.Wearable device shown in the present embodiment may be used also For smartwatch etc..

Based on human body interactive system shown in FIG. 1, below in conjunction with the interaction shown in Fig. 2 to information provided by the present embodiment The specific execution process of method illustrates:

Step 201, the first wearable device are obtained to interactive information.

Multiple wearings that first wearable device and the second wearable device shown in the present embodiment are worn by target user are set Any two in standby, and first wearable device is used for accessed to interactive information to second wearable device It sends.Wherein, first wearable device can be Intelligent bracelet shown in FIG. 1, glasses, wireless headset etc., specifically in this implementation In example without limitation.

The present embodiment to the specifying information type to interactive information without limitation, in setting for first wearable device In the case that standby type is different, the information type to interactive information be would also vary from；For example, being worn described first Wear equipment be wireless headset in main earphone, and the second wearable device be wireless headset in slave earphone in the case where, it is described to Interactive information is audio-frequency information；For another example, if first wearable device is that intelligent hand is bad, second wearable device is wireless ear Machine, then described to interactive information can also be audio-frequency information, for another example, if first wearable device is wireless headset, described second Wearable device is Intelligent bracelet, then described to interactive information can be sensing data, and the sensing data includes but is not limited to The sensor that first wearable device integrates is collected to health and fitness informations such as heart rate, the blood oxygens of human body, for another example, described wait interact Information can be also facility information, which includes but is not limited to remaining capacity information of terminal etc..

The present embodiment obtains the concrete mode to interactive information without limitation to first wearable device, as long as institute Stating the first wearable device accessed can will send to interactive information to second wearable device, below to described the One wearable device is obtained to be illustrated to several optional modes of interactive information:

Mode 1

First wearable device is obtained described to interactive information, this reality by short distance communication network from the terminal Example is applied to the specific communication type of the short distance communication network without limitation, for example, the short distance communication network can be for such as It is one or more shown in lower:

Direct-type infrared ray (direct-beamir), scattering formula infrared ray (diffuseir), omni-directional infrared ray (ominidirectionalir), bluetooth, WIFI, ZigBee protocol (ZigBee) or near-field communication (NFC) etc..

For example, if first wearable device is the main earphone in wireless headset, and second wearable device is wireless Slave earphone in earphone, then main earphone can obtain audio-frequency information (i.e. to interactive information) from terminal by short distance communication network, The main earphone shown as follows can send the audio-frequency information to from earphone.

Mode 2

First wearable device is based on Virtual User identification card, is obtained by radio frequency communication network described wait interact Information, specifically, being integrated with Virtual User identification card (subscriber in the first wearable device shown in the method Identification module, SIM), virtual SIM shown in the present embodiment includes but is not limited to embedded user identification card (embedded subscriber identification module, ESIM), soft sim (soft SIM) or virtual SIM (virtual SIM, vSIM).

For example, first wearable device can be Intelligent bracelet, the second wearable device is wireless headset, the Intelligent bracelet Communicating data (i.e. to interactive information) is obtained to base station by radio frequency communication network for realizing based on virtual SIM, the intelligence Energy bracelet shown as follows can send the communicating data to wireless headset.

Mode 3

First wearable device passes through the sensor integrated, and acquisition is described to interactive information, and the present embodiment is to described The concrete type for the sensor that first wearable device integrates without limitation, for example, the sensor can be as follows one Kind or multiple sensors:

Photosensors, ambient light sensor, Hall sensor, capacitance sensor, acceleration transducer or heart rate detection Sensor etc..

For example, first wearable device can be wireless headset, second wearable device can be Intelligent bracelet, then described Wireless headset, which is based on sensor, can collect sensing data (i.e. to interactive information), and the sensing data can be target user Heart rate information, then the wireless headset can as follows shown in, by the heart rate information of target user to Intelligent bracelet send out It send.

Step 202, first wearable device determine human body communication channel.

Human body communication channel is illustrated first below:

First wearable device shown in the present embodiment be based on wireless body area network (wireless body area network, Wban the human body communication channel) is determined, which refers to the multiple wearable devices established and worn in target user Between information network, the level-one lower than local area network in network classification, the first wearable device shown in the present embodiment can be based on The human body communication technology of wireless body area network determines the human body communication channel, wherein human body communication technology refers to, utilizes human body As the mode of information channel transmission information, feasibility is built upon on the conductive capability basis that human body has, specifically , due to being made of by 60% or more the moisture containing conductive materials in tissue, human body is a conductor.Human body The communication technology is a kind of communication mode using the body of people as communication signal transmissions medium.

In the present embodiment, the capacitive coupling of first wearable device based on human body communication technology is used with target Family carries out capacitive coupling, and the human body for enabling target user generates electric field to determine human body communication channel, specifically, capacitive coupling side Formula refers to, allows human body to generate electric field using the oscillation of the first wearable device, and detect the variation of electric field by the second wearable device, from And realize communication.More specifically, the first wearable device may include two electrodes, and one of electrode and human body carry out capacitor coupling It closes, another electrode and ground carry out capacitive coupling to determine human body communication channel.

The frequency to interactive information transmitted below to the human body communication channel illustrates:

The frequency of the human body communication channel is any value in target interval, and the minimum value of the target interval is 6 KHz (6kHz), the maximum value of the target interval are 100 megahertzs (MHz).

Specifically, the high-frequency signal greater than 10kHz can be permitted by the cell membrane of high impedance due to existing in human body More different frequency volume 50kHz people's electric signals below, in order to keep the safety and reliability of human body communication, the letter of human body communication Number working frequency should be maintained at 50kHz or more.Since the radiofrequency signal efficiency of transmission in human body of 100kHz-100MHz is high In aerial efficiency of transmission, so communication frequency needs to be limited between 100kHz-100MHz, the human body communication channel Communication speed be less than or equal to 10 megabits per second.

Again because of sub-band coding (sub-band coding, SBC), Advanced Audio Coding (advanced audio Coding, AAC) etc. codec signals bandwidth between 100-300 kilobits per second (kbps), the 96kHz/24bit of high definition Audio signal adds other sensor signals if lossless audio is even more the bandwidth for needing 2 megabits per second (Mbps) or more, And data acquisition signal etc., so human body communication channel can be to select between 100kHz-100MHz.Need it is clear that, The present embodiment to the explanation of the frequency in the human body communication channel without limitation, as long as first wearable device can be by this Human body communication channel carries out the transmission to interactive information.

By the human body communication channel, the second wearable device of Xiang Suoshu sends institute for step 203, first wearable device It states to interactive information.

It in the present embodiment, is got in first wearable device described to interactive information, and has determined that the human body is logical In the case where believing channel, first wearable device can pass through the human body communication channel, the second wearable device of Xiang Suoshu hair It send described to interactive information.

Using method shown in the present embodiment, because first wearable device is set by human body communication channel to the second wearing Preparation send it is described to interactive information so that the frequency and power consumption in transmission process are all relatively low, so will not generate wound to human body Evil, and capacitive coupling is done using human body is a capacitor, the interference of suffered environment is very limited, even if first dresses Bluetooth signal and WIFI signal in communication environment at equipment etc., these signals will not all cause human body communication channel Interference, so that the first wearable device will be sent to the second wearable device by human body communication channel to interactive information, it can The effective stabilization and quality for ensureing information transmission, and because human body communication channel carries out the transmission to interactive information, it is spent Power consumption is relatively low, to effectively raise the standby time of wearable device.

Below in conjunction with shown in Fig. 3, another process that executes of the exchange method of information provided herein is shown Example property explanation:

Step 301, the first wearable device are obtained to interactive information.

The specific implementation procedure of step 301 shown in the present embodiment, please be detailed in shown in step 201 shown in Fig. 2, specifically hold Row process, does not repeat them here.

Whether step 302, the first wearable device judge the distance between first wearable device and the target user More than or equal to the first pre-determined distance, if so, 303 are thened follow the steps, if it is not, thening follow the steps 304.

In the present embodiment, first wearable device can predefine the first pre-determined distance, wherein described first it is default away from It is described when the distance between first wearable device and target user is greater than or equal to first pre-determined distance from referring to First wearable device can not determine the human body communication channel based on human body, specifically, if target user does not have normal wear should First wearable device, then first wearable device can not be sent to the second wearable device by human body communication channel and be believed to interaction Breath, it is specific for example, if first wearable device is main earphone, in the case where target user takes main earphone, with target The main earphone that user has disengaged from can not send audio-frequency information to be interacted to set of headphones by human body communication channel.

Optionally, the first wearable device shown in the present embodiment can obtain described first based on the range sensor integrated The distance between wearable device and the target user, the present embodiment obtain first wearing to first wearable device and set The standby detailed process with the distance between the target user is without limitation.

The present embodiment to the size of first pre-determined distance without limitation, as long as in the first wearable device and target user The distance between be greater than or equal to first pre-determined distance in the case where, which can not pass through human body communication channel It sends to the second wearable device to interactive information, and it is first pre- to be less than this at a distance from the first wearable device is between target user If in the case where distance, which can be sent to the second wearable device to interactive information by human body communication channel .

Step 303, first wearable device generate prompt information.

Specifically, be greater than at a distance from first wearable device determines the first wearable device between target user or In the case where equal to first pre-determined distance, then the first wearable device determination can not carry out believing to interaction by human body communication channel The transmission of breath, then first wearable device produces prompt information, specifying information class of the present embodiment to the prompt information Type without limitation, as long as the prompt information is used to indicate the communication that can not carry out human body communication channel, for example, described mention Show that information can be audio-frequency information or character information etc..In the case where target user receives prompt information, the target user Again the first wearable device can be adjusted, so that target user can successfully wear first wearable device.

Optionally, first wearable device can periodically execute step 302, so as to have adjusted first in target user After wearable device, by executing step 302, so that the first wearable device determines that first wearable device and the target are used The distance between family has been less than the case where first pre-determined distance, and then triggers and execute step 304.

Step 304, first wearable device determine human body communication channel.

By the human body communication channel, the second wearable device of Xiang Suoshu sends institute for step 305, first wearable device It states to interactive information.

Implementation procedure between step 304 to step 305 shown in the present embodiment, please be detailed in step 202 shown in Fig. 2 to Shown in step 203, specific implementation procedure in detail as shown in Figure 2, is not repeated them here specifically please.

Using method shown in the present embodiment, first wearable device can periodically detect first wearable device Whether the distance between target user is less than the first preset value, only at a distance from the first wearable device is between target user In the case where less than the first preset value, the transmission to interactive information can be just carried out by human body communication channel, improves and passes through people Body communication channel carries out the success rate sent to interactive information, avoids because target user does not wear the first wearable device successfully In the case where, the appearance for the case where not being successfully transmitted to interactive information to the second wearable device.

Below in conjunction with shown in Fig. 4, another process that executes of the exchange method of information provided herein is shown Example property explanation:

Step 401, the first wearable device are obtained to interactive information.

The specific implementation procedure of step 401 shown in the present embodiment, please be detailed in shown in step 201 shown in Fig. 2, specifically hold Row process does not repeat them here in the present embodiment.

Step 402, first wearable device detect between first wearable device and second wearable device Target range；

Specifically, determining to need the case where sending to the second wearable device to interactive information in first wearable device Under, first wearable device can detect first the target between first wearable device and second wearable device away from From.

Optionally, first wearable device can be obtained based on the range sensor that has integrated first wearable device and Target range between second wearable device, detailed process do not repeat them here in the present embodiment.

Step 403, first wearable device judge whether the target range is less than or equal to the second pre-determined distance, if It is no, 404 are thened follow the steps, if so, thening follow the steps 405.

The present embodiment to the size of second pre-determined distance without limitation, as long as being dressed in the first wearable device and second In the case that target range between equipment is greater than second pre-determined distance, which can not be logical by human body communication Road is sent to the second wearable device to interactive information, and the target range between the first wearable device and the second wearable device is small In or be equal to second pre-determined distance in the case where, first wearable device can by human body communication channel to second wearing set Preparation is sent to interactive information.

Step 404, first wearable device are by short distance communication network to described in second wearable device transmission To interactive information.

Target range between first wearable device and second wearable device be greater than described second it is default away from From when, first wearable device i.e. can determine that, first wearable device can not be worn by human body communication channel to second It is described to interactive information to wear equipment transmission, then first wearable device can be dressed by short distance communication network to described second Equipment transmission is described to interactive information, illustrates to the short haul connection, please be detailed in shown in above-described embodiment, specifically exist It is not repeated them here in the present embodiment.

Step 405, first wearable device determine human body communication channel.

Target range between first wearable device and second wearable device is less than or equal to described second When pre-determined distance, first wearable device be can determine that, first wearable device can be by human body communication channel to the Two wearable devices send described to interactive information, i.e., executable step 405.

By the human body communication channel, the second wearable device of Xiang Suoshu sends institute for step 406, first wearable device It states to interactive information.

Implementation procedure between step 405 to step 406 shown in the present embodiment, please be detailed in step 202 shown in Fig. 2 to Shown in step 203, specific implementation procedure in detail as shown in Figure 2, is not repeated them here specifically please.

It is described if step 407, first wearable device do not receive response message by the human body communication channel First wearable device is sent by short distance communication network to second wearable device described to interactive information.

In the present embodiment, the success to interactive information is sent to improve the first wearable device to the second wearable device Rate, then first wearable device can periodically detect whether to receive the response message of the second wearable device transmission, wherein The response message be used to indicate second wearable device be successfully received it is described to interactive information.

Determine that not receiving the second wearable device by the human body communication channel is sent out in first wearable device It is described wait interact transmitted by the first wearable device then to illustrate that second wearable device is unsuccessfully received for the response message sent Information, then there is packet loss to interactive information via what the human body communication channel was transmitted in explanation, then first wearing is set It is described to interactive information for that can be sent by short distance communication network to the second wearable device, to the short distance communication network It illustrates, please be detailed in shown in above-described embodiment, not repeat them here in the present embodiment specifically.

Using method shown in the present embodiment, first wearable device detects first wearable device and the second wearing Whether the distance between equipment is less than or equal to the second preset value, only between the first wearable device and the second wearable device In the case that distance is less than or equal to the second preset value, the transmission to interactive information can be just carried out by human body communication channel, is mentioned It is high that the success rate sent to interactive information is carried out by human body communication channel, and detecting the first wearable device and second In the case that the distance between wearable device is greater than the second preset value, the first wearable device can be sent by short distance communication network It is described to interactive information, avoid the appearance for the case where not being successfully transmitted to interactive information to the second wearable device.

For the exchange method for better understanding information provided herein, example is carried out below in conjunction with concrete application scene Property explanation；

Scene 1, for this scene using the first wearable device as the main earphone in wireless headset, the second wearable device is wireless headset Middle set of headphones, and for being audio-frequency information to interactive information；Specifically, the wireless headset in this scene is TWS earphone；

TWS earphone products form and the relatively previous bluetooth headset of function are realized and are substantially innovated, and have both been got rid of traditional light Just type bluetooth headset only has monaural, can not enjoy the defect of stereo music, and gets rid of traditional neck hanging type or wear-type ear Machine has a connecting line, causes moving scene inconvenient, and the difficulty of storage.TWS earphone has started one upsurge, The rapid growth phase is welcome, TWS earphone has driven the spending spree of wireless headset, is the substitution to conventional Bluetooth earphone, city Field scale is considerable, according to measuring and calculating, is expected to the year two thousand twenty market scale more than 15,000,000,000 U.S. dollars.It can see from the above development, the following companion With mobile phone full frameization, the development trend of non-poreization, TWS earphone is expected to become standard configuration.

Firstly, as shown in figure 5, main TWS earphone 501 can first pass through the short distance communication networks such as bluetooth or WIFI and terminal 502 establish connection, so that main TWS earphone can obtain audio-frequency information from terminal 502, wherein the audio-frequency information includes and main TWS The corresponding audio-frequency information of earphone 501 and audio-frequency information corresponding with secondary TWS earphone 503；

The audio-frequency information received after local encoding and decoding, it is corresponding to be got main TWS earphone 501 by main TWS earphone 501 Audio-frequency information and audio-frequency information corresponding with secondary TWS earphone 503；

Secondly, main TWS earphone 501 is corresponding with secondary TWS earphone 503 to the transmission of secondary TWS earphone 503 by human body communication channel Audio-frequency information.Shown in Figure 6, the main TWS earphone 501 includes for carrying out capacity coupled electrode with human body 601 602, the main TWS earphone 501 can by the human body communication channel that has created by the corresponding audio-frequency information of secondary TWS earphone 503, It is sent to secondary TWS earphone 503.

The advantage done so is that main TWS earphone 501 sends audio letter to secondary TWS earphone 503 by human body communication channel Breath it is low in energy consumption, efficiency of transmission is high, not will cause that broadcast time-delay is big, so that in the scene for playing film or playing games Under, it can effectively ensure the synchronous of the audio-frequency information between main TWS earphone 501 and secondary TWS earphone 503.And pass through human body Communication channel carries out the transmission of audio-frequency information, can effectively ensure the stabilization of the communication signal of secondary TWS earphone 503, be not in Music Caton and call disconnection phenomenon.

Optionally, if there is the packet loss phenomenon of the audio-frequency information of main TWS earphone 501, main TWS earphone 501 can directly be sent out Send the message for being used to indicate packet loss to terminal 502, to notify the main TWS earphone 501 of terminal 502 packet loss occur, terminal 502 can be weighed Audio-frequency information is passed to main TWS earphone 501.If secondary TWS earphone 503 occur packet loss occurs, secondary TWS earphone 503 needs first to send use Main TWS earphone 501 is given in the message of instruction packet loss, main TWS earphone 501, which retransmits, is used to indicate the message of packet loss to terminal 502, Then retransmission of audio information gives main TWS earphone 501 to terminal 502, and main TWS earphone 501 passes through human body communication channel for audio-frequency information again It retransmits to secondary TWS earphone 503.

Scene 2, in this application scene, as shown in fig. 7, the first wearable device 701 can be Intelligent bracelet, the second wearable device For main TWS earphone 702, third wearable device is secondary TWS earphone 703；

In this scene, the first wearable device 701 can be established by the short distance communication networks such as bluetooth, WIFI and terminal 704 Connection, audio-frequency information can be sent to main TWS earphone 702 and secondary TWS earphone 703 by terminal 704, optionally, under this scene Audio-frequency information can also pass through the sound for conversing that the virtual SIM being arranged is got from base station for the first wearable device Frequency information, the mode specifically sent under this scene have following three kinds:

Mode 1

Firstly, the audio-frequency information accessed by the terminal 704 can be passed through human body communication channel by the first wearable device 701 The audio-frequency information is sent to main TWS earphone 702, wherein the audio-frequency information includes audio letter corresponding with main TWS earphone 702 Breath and audio-frequency information corresponding with secondary TWS earphone 703；

The audio-frequency information received after local encoding and decoding, it is corresponding to be got main TWS earphone 702 by main TWS earphone 702 Audio-frequency information and audio-frequency information corresponding with secondary TWS earphone 703；

Secondly, main TWS earphone 702 is corresponding with secondary TWS earphone 703 to the transmission of secondary TWS earphone 703 by human body communication channel Audio-frequency information.

Optionally, if there is the packet loss phenomenon of the audio-frequency information of main TWS earphone 702, main TWS earphone 702 can directly be sent out Send the message for being used to indicate packet loss to terminal 704, to notify the main TWS earphone 702 of terminal 704 packet loss occur, terminal 704 can be weighed Audio-frequency information is passed to main TWS earphone 702.If secondary TWS earphone 703 occur packet loss occurs, secondary TWS earphone 703 needs first to send use Main TWS earphone 702 is given in the message of instruction packet loss, main TWS earphone 702, which retransmits, is used to indicate the message of packet loss to terminal 704, Then retransmission of audio information gives main TWS earphone 702 to terminal 704, and main TWS earphone 702 passes through human body communication channel for audio-frequency information again It retransmits to secondary TWS earphone 703.

Mode 2

First wearable device 701 can be sent out the audio-frequency information accessed by the terminal 704 by human body communication channel synchronization Main TWS earphone 702 and secondary TWS earphone 703 are given, so that main TWS earphone 702 and secondary TWS earphone 703 can be realized ears Audio-frequency information is received simultaneously, and simultaneously plays the audio-frequency information received in locally decoding.

Optionally, if there is audio-frequency information packet loss, for example, if 703 packet loss of secondary TWS earphone, 703 packet loss of secondary TWS earphone The message for being used to indicate packet loss can be sent to main TWS earphone 702 by human body communication channel, will be used for by main TWS earphone 702 Indicate that the message of packet loss is sent to the first wearable device 701 by human body communication channel；If there is packet loss in main TWS earphone 702, The message for being used to indicate packet loss is sent to the first wearable device 701 by human body communication channel by main TWS earphone 702.

Using above-mentioned scene, main TWS earphone and secondary TWS earphone are wearable on the human body of same target user, can also wear Band is on the human body of different target user, for example, main TWS earphone is wearable on the human body of first object user, and secondary TWS ear Machine is wearable on the human body of the second target user, the human body communication channel under this scene include first object user human body and The human body of second target user, as long as specifically, between the human body of the first object user and the human body of the second target user Distance it is close enough, then the human body of first object user and the human body of the second target user can connect logical to form the human body Believe channel, then make winner's TWS earphone can by audio-frequency information by include first object user human body and the second target user Human body, secondary TWS earphone is sent to, so that first object user, by main TWS earphone, the second target user passes through pair TWS earphone can receive identical audio-frequency information.

Scene 3

With the first wearable device for TWS earphone under this scene, and sensor is integrated in the TWS earphone, described first Wearable device can acquire sensor information by the sensor integrated, and the sensor information can be heart rate, the blood oxygen of human body Etc. information, the first wearable device the sensor information can be sent to the second wearable device by human body communication channel, this The second wearable device under scene can be Intelligent bracelet；

Optionally, Intelligent bracelet can be analyzed and be located to the sensor information having received by internal preset application Reason, to detect, monitor to the physical condition of target user；

Also optional, the sensing data can also be sent to terminal by short distance communication network by Intelligent bracelet, by The application of terminal preset is analyzed and is handled to the sensor information having received, thus to the physical condition of target user into Row detection, monitoring etc..

Below in conjunction with shown in Fig. 9, the structure of the first wearable device is illustrated from the angle of functional module, this First wearable device shown in embodiment is used to execute the step of any of the above-described embodiment of the method correlation, specific implementation procedure and The explanation of beneficial effect please be detailed in shown in above-described embodiment, not repeat them here specifically, the first wearable device packet shown in the present embodiment It includes:

Receiving unit 901, for obtaining to interactive information；

Processing unit 902, for carrying out capacitive coupling with target user, the human body for enabling target user generates electric field with true Determine human body communication channel；

Transmission unit 903, for by the human body communication channel, the second wearable device of Xiang Suoshu to send described wait interact Information.

Optionally, the processing unit 902 is also used to, and detects that first wearable device mutually takes off with the target user From when, generate prompt information, the prompt information is used to prompt first wearable device and the target user is separated State.

Optionally, the processing unit 902 is also used to: detect first wearable device and second wearable device it Between target range；Judge whether the target range is less than or equal to pre-determined distance；It is worn if so, triggering executes described first It wears equipment and target user carries out capacitive coupling, the human body of enabled target user generates electric field to determine the step in human body communication channel Suddenly；If it is not, then being sent by short distance communication network to second wearable device described to interactive information.

Optionally, the processing unit 902 is also used to: if it is determined that the receiving unit 901 is believed by the human body communication Road does not receive response message, then trigger the transmission unit 903 send it is described to interactive information；

The transmission unit 903 is also used to, by short distance communication network to second wearable device send it is described to Interactive information, the response message be used to indicate second wearable device be successfully received it is described to interactive information.

Optionally, the human body interactive system further includes terminal, and the receiving unit 901 is also used to, logical by short distance Communication network obtains described to interactive information from the terminal.

Optionally, the receiving unit 901 is also used to, and is based on Virtual User identification card SIM, is passed through radio communication net Network obtains described to interactive information.

Optionally, the receiving unit 901 is also used to, and by the sensor integrated, is obtained described to interactive information.

Below in conjunction with shown in Figure 10, from the angle of entity hardware to the specific knot of the first wearable device provided herein Structure illustrates, and the first wearable device shown in the present embodiment is for executing the corresponding step of any of the above-described embodiment of the method Suddenly, specific implementation procedure please be detailed in shown in above-described embodiment, not repeated them here in the present embodiment specifically.

As shown in Figure 10, first wearable device 1000 includes:

Low frequency transceiver module 1001 and Anneta module 1002；

The Anneta module 1002 is used for, and is obtained to interactive information；

The low frequency transceiver module 1001 is used to carry out capacitive coupling with target user, and the human body for enabling target user generates Electric field includes the Anneta module 1002 and the target user to determine human body communication channel, the human body communication channel；

The low frequency transceiver module 1001 is used for, and by the human body communication channel, the second wearable device of Xiang Suoshu is sent It is described to interactive information.

Optionally, as shown in figure 11, first wearable device 1100 further includes system level chip (system on Chip, SOC) 1101, it may include processor 1102, the low frequency transceiver module 1103 and Anneta module in the SOC1101 1104, the processor 1102 can be one or more field programmable gate arrays (field-programmable gate Array, FPGA), special integrated chip (application specific integrated circuit, ASIC), centre Manage device (central processor unit, CPU), network processing unit (network processor, NP), at digital signal Circuit (digital signal processor, DSP), microcontroller (micro controller unit, MCU) are managed, can be compiled Range controller (programmable logic device, PLD) or other integrated chips or said chip or processor Any combination etc..Processor 1102 shown in the present embodiment includes physical layer and protocol stack relevant treatment function；The present embodiment Explanation to the set-up mode of first wearable device is optional example, and without limitation, optionally, the low frequency receives and dispatches mould Block 1103 can be the set-up mode being separated from each other with SOC1100.Optionally, the Anneta module 1104 can be phase with SOC1100 The set-up mode mutually separated, specifically in the present embodiment without limitation.

Optionally, the processor 1102 is for judging the distance between first wearable device and the target user Whether the first pre-determined distance is greater than or equal to, if so, generating prompt information；It is held if it is not, then triggering low frequency transceiver module 1103 Capable to carry out capacitive coupling with target user, the human body for enabling target user generates the step of electric field is to determine human body communication channel.

Optionally, the processor 1102 is also used to, detect first wearable device and second wearable device it Between target range；First wearable device judges whether the target range is less than or equal to the second pre-determined distance；If so, Then trigger low frequency transceiver module 1103 execute with target user carry out capacitive coupling, enable target user human body generate electric field with The step of determining human body communication channel；If it is not, then triggering the Anneta module 1002 by short distance communication network to described the Two wearable devices send described to interactive information.

Optionally, the processor 1102 does not receive response message by the human body communication channel, then triggers antenna Module 1104 is sent by short distance communication network to second wearable device described to interactive information, the response message use It has been successfully received in instruction second wearable device described to interactive information.

Optionally, the frequency of the human body communication channel is any value in target interval, and the target interval is most Small value is 6 kHz, and the maximum value of the target interval is 100 megahertzs, the communication speed in the human body communication channel be less than or Equal to 10 megabits per second.

Optionally, the Anneta module 1104 is also used to, by short distance communication network, from the terminal obtain it is described to Interactive information.

Optionally, the processor 1102 is also used to, and is based on Virtual User identification card SIM, is passed through radio communication net Network obtains described to interactive information.

Optionally, for the structure of first wearable device referring also to shown in Figure 12, first wearable device 1200 can Including processor 1201, low frequency transceiver module 1202 and Anneta module 1203, the low frequency transceiver module 1202 and antenna Module 1203 illustrates, please be detailed in it is above-mentioned shown in, do not repeat them here in the present embodiment specifically；

Optionally, the processor 1201 can also connect audio coding and decoding device 1204, the audio coding and decoding device 1204 may include the driving circuit for driving loudspeaker equipment 1205 and microphone apparatus 1206, the audio coding and decoding device 1204 May also comprise the first driving circuit and the second driving circuit, first driving circuit is for determining loudspeaker equipment, described second Driving circuit is for driving microphone apparatus；

Optionally, the processor 1201 can connect one or more sensors 1207, the sensor 1207 include but It is not limited to pass close to optical sensor, ambient light sensor, Hall sensor, capacitance sensor, acceleration transducer, heart rate detection The type of sensor etc., the quantity of specific sensor 1207 and each sensor is without limitation.

Optionally, another structure of first wearable device also can be found in shown in Figure 13, first wearable device 1300 include processor 1301, low frequency transceiver module 1302, Anneta module 1303, audio coding and decoding device 1304, loudspeaker equipment 1305 and microphone apparatus 1306, sensor 1307, it illustrates please in detail as shown in Figure 12, does not do in the present embodiment specifically superfluous It states；

Shown in the present embodiment, the low frequency transceiver module 1302 specifically includes two mutually independent devices, i.e. low frequency Transmission unit 13021 and low frequency reception unit 13022, the low frequency transmission unit 13021 are logical by the human body for controlling Believe that channel sends the frequency of information, the low frequency reception unit 13022 is believed for controlling by the human body communication channel reception The frequency of breath, wherein the frequency of the human body communication channel is any value in target interval, the minimum of the target interval Value is 6 kHz, and the maximum value of the target interval is 100 megahertzs.

Optionally, first wearable device further includes baseband processor 1308, the processor 1301 and the low frequency The baseband processor 1308 is connected between transceiver module 1302.The baseband processor 1308 is for converting analog signal For the manageable digital signal of the processor 1301.

Optionally, first wearable device further includes short-range communication module 1309, the short-range communication module 1309, for carrying out short haul connection, illustrate the short haul connection, please be detailed in shown in above-described embodiment, specifically not It repeats.

Optionally, first wearable device further includes radio-frequency communication module 1310, and the radio-frequency communication module 1310 is used In carrying out radio communication, the radio communication is illustrated, please be detailed in shown in above-described embodiment, not repeat them here specifically.

It is apparent to those skilled in the art that for convenience and simplicity of description, the system of foregoing description, The specific work process of device and unit, can refer to corresponding processes in the foregoing method embodiment, and details are not described herein.

In several embodiments provided herein, it should be understood that disclosed system, device and method can be with It realizes by another way.For example, the apparatus embodiments described above are merely exemplary, for example, the unit It divides, only a kind of logical function partition, there may be another division manner in actual implementation, such as multiple units or components It can be combined or can be integrated into another system, or some features can be ignored or not executed.Another point, it is shown or The mutual coupling, direct-coupling or communication connection discussed can be through some interfaces, the indirect coupling of device or unit It closes or communicates to connect, can be electrical property, mechanical or other forms.

The unit as illustrated by the separation member may or may not be physically separated, aobvious as unit The component shown may or may not be physical unit, it can and it is in one place, or may be distributed over multiple In network unit.It can select some or all of unit therein according to the actual needs to realize the mesh of this embodiment scheme 's.

It, can also be in addition, the functional units in various embodiments of the present invention may be integrated into one processing unit It is that each unit physically exists alone, can also be integrated in one unit with two or more units.Above-mentioned integrated list Member both can take the form of hardware realization, can also realize in the form of software functional units.

If the integrated unit is realized in the form of SFU software functional unit and sells or use as independent product When, it can store in a computer readable storage medium.Based on this understanding, technical solution of the present invention is substantially The all or part of the part that contributes to existing technology or the technical solution can be in the form of software products in other words It embodies, which is stored in a storage medium, including some instructions are used so that a computer Equipment (can be personal computer, server or the network equipment etc.) executes the complete of each embodiment the method for the present invention Portion or part steps.And storage medium above-mentioned includes: USB flash disk, mobile hard disk, read-only memory (ROM, Read-Only Memory), random access memory (RAM, Random Access Memory), magnetic or disk etc. are various can store journey The medium of sequence code.

The above, the above embodiments are merely illustrative of the technical solutions of the present invention, rather than its limitations；Although referring to before Stating embodiment, invention is explained in detail, those skilled in the art should understand that: it still can be to preceding Technical solution documented by each embodiment is stated to modify or equivalent replacement of some of the technical features；And these It modifies or replaces, the spirit and scope for technical solution of various embodiments of the present invention that it does not separate the essence of the corresponding technical solution.