CN106686048A - Data transmission method and wearable equipment - Google Patents

Abstract

An embodiment of the invention discloses a data transmission method and wearable equipment. The data transmission method includes that the wearable equipment acquires physiological information of a user; the wearable equipment sends a prompt message to a target terminal according to the physiological information so as to prompt the target terminal of the physiological status of the user, wherein the wearable equipment and the target terminal are positioned in cell-based NB-IoT (narrow band Internet of Things). The data transmission method has the advantage that the wearable equipment and the target terminal can be communicated with the NB-IoT, so that communication between the wearable equipment and the target terminal is more flexible and efficient.

Description

A kind of data transmission method and wearable device

Technical field

The present invention relates to field of computer technology, more particularly to a kind of data transmission method and wearable device.

Background technology

Based on cellular arrowband Internet of Things (English：Narrow Band Internet of Things, referred to as：NB-IoT) Standard is in the third generation partner program of in September, 2015 (English：3rd Generation Partnership Project, letter Claim：3GPP) announce project verification.NB-IOT be one kind can wide variety of emerging technology in the world, focus on low work( Consumption wide area (English：Low Power Wide Area, referred to as：LPWA) Internet of Things (English：Internet Of Things, letter Claim：IOT) market, it have cover it is wide, connect that low many, speed, low cost, power consumption be few, the excellent feature of framework, can be widely It is applied to the vertical industries such as remote meter reading, asset tracking, intelligent parking, wisdom agricultural.

NB-IoT defines many resource units to 15kHz subcarriers, is no longer confined to Long Term Evolution (English：Long Term Evolution, referred to as：The resource units of { 12 subcarriers, 1 millisecond } defined in LTE), more neatly to distribute each Plant the running time-frequency resource of resource units.As shown in figure 1, the resource units defined in NB-IoT include：{ 1 subcarrier, 8 milliseconds } Resource units 101, the resource units 102 of { 3 subcarriers, 4 milliseconds }, the He of resource units 103 of { 6 subcarriers, 2 milliseconds } The resource units 104 of { 12 subcarriers, 1 millisecond }.

The running time-frequency resource of the resource units of all size is how using being that those skilled in the art grinds in NB-IoT The problem studied carefully.

The content of the invention

The embodiment of the invention discloses a kind of data transmission method and wearable device, the wearable device and the target end End can be communicated based on NB-IoT so that the communication between the wearable device and the target terminal is more flexibly and high Effect.

In a first aspect, embodiments providing a kind of data transmission method, the method includes：

Wearable device obtains the physiologic information of user；

The wearable device sends prompting message according to the physiologic information to target terminal, with to the target terminal The physiological situation of the user is pointed out, the wearable device is with the target terminal in based on cellular arrowband Internet of Things In NB-IoT.

With reference in a first aspect, in the first possible implementation of first aspect, the wearable device is according to institute State physiologic information and send prompting message to target terminal, including：

Whether the wearable device judges the user in default precarious position according to the physiologic information；

If the user is in the default precarious position, the wearable device is target resource unit in specification Running time-frequency resource on to target terminal send dangerous tip message so that the target terminal know the user be in the danger Dangerous state.

Optionally, the running time-frequency resource of the target resource unit for the NB-IoT multiple resources unit in time domain most Long resource units.

Optionally, the physiologic information includes at least one in blood pressure, blood fat, blood glucose, heart rate.

By performing above-mentioned steps, whether the wearable device judges user in dangerous shape according to the physiologic information of user State, if dangerous tip message is sent to the target terminal on the running time-frequency resource that specification is target resource unit if, will User situation in the hole notifies to give the target terminal in time, contributes to the user and is succoured in time.

With reference to the first possible implementation of first aspect, in two kinds of possible implementations of first aspect In, if the user is in the precarious position, methods described also includes：

The wearable device sends on the running time-frequency resource that specification is the target resource unit to the target terminal The positional information of the wearable device.

With reference to the first possible implementation of first aspect, or second possible realization side of first aspect Formula, in the third possible implementation of first aspect, the wearable device is when specification is target resource unit Sending dangerous tip message to target terminal in frequency resource includes：

The wearable device to the base station in NB-IoT sends dangerous tip message, so that the base station is mesh in specification The dangerous tip message is forwarded on the running time-frequency resource of mark resource units to target terminal.

With reference to the first possible implementation of first aspect, or second possible realization side of first aspect Formula, or the third possible implementation of first aspect, it is described in the 4th kind of possible implementation of first aspect Target resource unit be the NB-IoT multiple resources unit in the most short resource units of time domain.

With reference to the 4th kind of possible implementation of first aspect, in the 5th kind of possible implementation of first aspect In, the multiple resources unit include specification be { 1 subcarrier, 8 milliseconds }, { 3 subcarriers, 4 milliseconds }, 6 subcarriers, 2 Millisecond } and the resource units of { 12 subcarriers, 1 millisecond } at least two.

Second aspect, the embodiment of the present invention provides a kind of wearable device, and the wearable device includes：

Acquiring unit, for obtaining the physiologic information of user；

Transmitting element, for sending prompting message to target terminal according to the physiologic information, with to the target terminal The physiological situation of the user is pointed out, the wearable device is with the target terminal in based on cellular arrowband Internet of Things In NB-IoT.

With reference to second aspect, in the first possible implementation of second aspect, the transmitting element includes：

Judgment sub-unit, for judging the user whether in default precarious position according to the physiologic information；

First send subelement, for the judged result of the judgment sub-unit for be when, specification be target resource Dangerous tip message is sent to target terminal on the running time-frequency resource of unit, so that the target terminal knows that the user is in institute State precarious position；The wearable device is with the target terminal in based in cellular arrowband Internet of Things NB-IoT.

Optionally, the running time-frequency resource of the target resource unit for the NB-IoT multiple resources unit in time domain most Long resource units.

Optionally, the physiologic information includes at least one in blood pressure, blood fat, blood glucose, heart rate.

By running said units, whether the wearable device judges user in dangerous shape according to the physiologic information of user State, if dangerous tip message is sent to the target terminal on the running time-frequency resource that specification is target resource unit if, will User situation in the hole notifies to give the target terminal in time, contributes to the user and is succoured in time.

With reference to the first possible implementation of second aspect, in second possible implementation of second aspect In, the transmitting element also includes that second sends subelement：

Second send subelement, for the judged result of the judging unit for be when, specification be the target provide The positional information of the wearable device is sent on the running time-frequency resource of source unit to the target terminal.

With reference to the first possible implementation of second aspect, or second possible realization side of second aspect Formula, in the third possible implementation of second aspect, described first sends subelement specifically in NB-IoT Base station sends dangerous tip message, so that the base station turns on the running time-frequency resource that specification is target resource unit to target terminal Send out dangerous tip message described.

With reference to the first possible implementation of second aspect, or second possible realization side of second aspect Formula, or the third possible implementation of second aspect, it is described in the 4th kind of possible implementation of second aspect Target resource unit be the NB-IoT multiple resources unit in the most short resource units of time domain.

With reference to the 4th kind of possible implementation of second aspect, in the 5th kind of possible implementation of second aspect In, the multiple resources unit include specification be { 1 subcarrier, 8 milliseconds }, { 3 subcarriers, 4 milliseconds }, 6 subcarriers, 2 Millisecond } and the resource units of { 12 subcarriers, 1 millisecond } at least two.

By implementing the embodiment of the present invention, the wearable device can be led to the target terminal based on NB-IoT Letter so that the communication between the wearable device and the target terminal is more flexibly and efficient.

Further, the wearable device judges whether user is in the hole according to the physiologic information of user, if place In then in specification to send dangerous tip message to the target terminal on the running time-frequency resource of target resource unit, at the user Notify to give the target terminal in time in the situation of precarious position, contribute to the user and succoured in time.

Description of the drawings

In order to be illustrated more clearly that the embodiment of the present invention or technical scheme of the prior art, below will be to embodiment or existing The accompanying drawing to be used needed for having technology description is briefly described, it should be apparent that, drawings in the following description are the present invention Some embodiments, for those of ordinary skill in the art, on the premise of not paying creative work, can be with basis These accompanying drawings obtain other accompanying drawings.

Fig. 1 is the schematic diagram of a scenario of the multiple resources unit in prior art defined in NB-IoT；

Fig. 2 is a kind of schematic flow sheet of data transmission method provided in an embodiment of the present invention；

Fig. 3 is the schematic flow sheet of another data transmission method provided in an embodiment of the present invention；

Fig. 4 is a kind of structural representation of wearable device provided in an embodiment of the present invention；

Fig. 5 is the structural representation of another wearable device provided in an embodiment of the present invention；

Fig. 6 is the structural representation of another wearable device provided in an embodiment of the present invention.

Specific embodiment

Below in conjunction with the accompanying drawing in the embodiment of the present invention, the technical scheme in the embodiment of the present invention is carried out clear, complete Site preparation is described, it is clear that described embodiment is a part of embodiment of the present invention, rather than the embodiment of whole.Based on this Embodiment in invention, the every other reality that those of ordinary skill in the art are obtained under the premise of creative work is not made Example is applied, the scope of protection of the invention is belonged to.

In embodiments of the present invention, wearable device obtains the physiologic information of user；The wearable device is according to described Physiologic information to target terminal sends prompting message, and for example, the prompting message is specially dangerous tip message, and the prompting message is used In the physiological situation that the user is pointed out to the target terminal, the wearable device is with the target terminal in based on honeybee In the arrowband Internet of Things NB-IoT of nest, in other words, the wearable device can be entered with the target terminal based on NB-IoT Row communication so that the communication between the wearable device and the target terminal is more flexibly and efficient.In order to more fully understand this The scheme that invention is implemented, below in conjunction with concrete scene the scheme citing description to the embodiment of the present invention is carried out.

Refer to Fig. 2, Fig. 2 is a kind of schematic flow sheet of data transmission method provided in an embodiment of the present invention, the method Including but not limited to following steps.

Step S201：Wearable device obtains the physiologic information of user.

Specifically, the wearable device can be the electronic equipments such as Intelligent bracelet, intelligent watch, due to the wearable device It is close to user's skin or distance users skin is nearer, therefore the wearable device can get the physiologic information of user, should Which information physiologic information is specially does not limit herein, and optionally, the physiologic information includes blood glucose, blood fat, blood pressure and heart rate In at least one.

Further, can be pre-configured with the wearable device and be used on the device for gathering the physiologic information, for example, should Wearable device can include the sensor and timer for sensing user's beat pulse, in preset time period, every time By the sensor sensing to user once heart beating when just the numerical value of record is added one by the timer, when then this is default Between in section total beats of record can obtain heart rate divided by the preset time period.It is of course also possible to by other means Obtain heart rate；How other physiological parameters specifically obtain no longer is illustrated one by one herein.

Step S202：Whether the wearable device judges the user in default danger according to the physiologic information State.

Specifically, in advance dangerous thresholding can be set for the physiologic information, when the physiologic information exceeds the dangerous thresholding Show that the user is in the default precarious position.As an example it is assumed that the physiologic information is heart rate, and the dangerous door for setting When being limited to 40 beats/min, think that the user is in default precarious position if the heart rate of user is less than 40 beats/min.

In a kind of optional scheme, when default physiologic information has multinomial, the multinomial physiologic information is beyond correspondence Dangerous thresholding when, just think the user be in default precarious position.For example, the physiologic information includes heart rate and blood Pressure, and the corresponding dangerous thresholding of heart rate is 40 beats/min, the corresponding dangerous thresholding of blood pressure is diastolic pressure 12kpa, then work as user Heart rate then show the user in the default precarious position more than 12kpa less than 40 beats/min and diastolic pressure.

In another optional scheme, when default physiologic information has multinomial, any one of the multinomial physiologic information When physiologic information exceeds corresponding dangerous thresholding, then it is assumed that the user is in default precarious position.For example, the physiology letter Breath includes heart rate and blood pressure, and the corresponding dangerous thresholding of heart rate is 40 beats/min, and the corresponding dangerous thresholding of blood pressure is diastolic pressure 12kpa, then when the heart rate of user thinks that the user is in the hole less than 40 beats/min, when diastolic pressure is more than 12kpa Think the user in the default precarious position, when user heart rate is less than 40 beats/min and diastolic pressure is also recognized more than 12kpa The default precarious position is in for the user.

Step S203：If the user is in the default precarious position, the wearable device is mesh in specification Dangerous tip message is sent on the running time-frequency resource of mark resource units to target terminal.

Specifically, the wearable device is in the target terminal and is based in cellular arrowband Internet of Things NB-IoT, Carrying out data transmission the resource units of used running time-frequency resource in NB-IoT between each terminal unit has multiple choices leeway, For example, there is specification in the NB-IoT for { 1 subcarrier, 8 milliseconds }, { 3 subcarriers, 4 milliseconds }, { 6 subcarriers, 2 millis Second } and { 12 subcarriers, 1 millisecond } resource units.If the resource of the running time-frequency resource adopted during certain equipment transmission data Unit is { 6 subcarriers, 2 milliseconds } specification, then the frequency domain length for illustrating the running time-frequency resource is 6 subcarriers, and time domain is long Spend for 2 milliseconds, the resource units of remaining specification the like.

When judge user be in the default precarious position when, the wearable device in advance with the wearable device The target terminal for having associated sends dangerous tip message, and the dangerous tip message is specifically carried on resource units for target resource list Send on the running time-frequency resource of position, the target resource unit is the one kind in the multiple resources unit in the NB-IoT.Can in one kind In the scheme of choosing, the target resource unit is not the most long Resource Unit of time domain in the multiple resources unit.It is optional at another Scheme in, the target resource unit is the most short resource units of time domain in the multiple resources unit.It is understood that the danger The time that dangerous prompting message is carried on needed for sending when sending on the shorter resource units of time domain is shorter, ensure that the danger is carried Show that message is sent to faster the target terminal.

In a kind of optional scheme, the wearable device is on the running time-frequency resource that specification is target resource unit to mesh Mark terminal sends dangerous tip message, specially：The wearable device to the base station in NB-IoT sends dangerous tip message, So that the base station forwards the dangerous tip message on the running time-frequency resource that specification is target resource unit to target terminal. I other words, the embodiment of the present invention does not limit the wearable device and sends the dangerous tip message to the base station in NB-IoT and adopted Running time-frequency resource resource units, but require what the base station was adopted when the dangerous tip message is transmitted to into the target terminal The resource units of running time-frequency resource are the target resource unit.

In another optional scheme, the base station can also be the target resource for the target terminal scheduling resource unit The running time-frequency resource of unit, so that the target terminal subsequently can to this on the running time-frequency resource that resource units are the target resource unit Wearable device sends response message, and the response message can be given using some promptings of the user of the wearable device, or suggestion； Being possibly used the user of the wearable device cannot perceive the response message, and now the response message can be used to remind Around the wearable device other people come help use the wearable device user.

The target terminal can be mobile phone, panel computer, notebook computer, palm PC, mobile internet device (English Text：Mobile internet device, referred to as：MID), wearable device (such as intelligent watch (such as iWatch), intelligence Bracelet, pedometer etc.) or other can installation and deployment instant messaging applications client terminal unit.

In another optional scheme, when various physiologic informations have been pre-configured with, for example, the physiology letter being pre-configured with Breath includes blood pressure, blood glucose, blood fat, heart rate, then, it is that the user is further indicates in the dangerous tip message for that or which Physiological parameter is not up to standard causes user in the hole.

Step S204：The target terminal receives the dangerous tip message that the wearable device sends.

Step S205：The target terminal knows that user is in the hole by the dangerous tip message.

Specifically, the target terminal received and carried to being sent using the user of the target terminal after the dangerous tip message Show, therefore the user is known in the hole using the user of the wearable device.

For example, ring device and touch display screen are configured with the target terminal, the target terminal receives the danger By the ring device vibration after dangerous prompting message, when sensing that the target terminal vibrates using the user of the target terminal Know in the hole using the user of the wearable device.

For example, audio parts and touch display screen are configured with the target terminal, the target terminal receives the danger Voice prompt is sent by the audio parts after dangerous prompting message, hears that the target terminal sends using the user of the target terminal Voice prompt when would know that it is in the hole using the wearable device.

For example, light device and touch display screen are configured with the target terminal, the target terminal receives the danger The light of flicker is sent after dangerous prompting message by the light device, sees that the target terminal is sent out using the user of the target terminal Would know that during the light prompt for going out in the hole using the user of the wearable device.

For example, touch display screen is configured with the target terminal, the target terminal receives the dangerous tip message Afterwards pop-up is ejected by the touch display screen, when seeing the pop-up that the touch display screen shows using the user of the target terminal i.e. Would know that in the hole using the user of the wearable device.

It is understood that the target terminal receives the mode that the dangerous tip message rear line sends prompting may be used also Think other modes, for example, prompting is sent by modes such as output character, image, animations, prompting mode do not limited herein It is fixed.

When knowing that user using the wearable device is in the hole using the user of the target terminal, so that it may and When corresponding help is provided.

In the method described by Fig. 2, the wearable device can be led to the target terminal based on NB-IoT Letter so that the communication between the wearable device and the target terminal is more flexibly and efficient.

Further, the wearable device judges whether user is in the hole according to the physiologic information of user, if place In then in specification to send dangerous tip message to the target terminal on the running time-frequency resource of target resource unit, at the user Notify to give the target terminal in time in the situation of precarious position, contribute to the user and succoured in time.

Refer to Fig. 3, Fig. 3 is the schematic flow sheet of another data transmission method provided in an embodiment of the present invention, the party Method includes but is not limited to following steps.

Step S301：Wearable device obtains the physiologic information of user.

Specifically, step S301 can be to should refer to step S201, and here is omitted.

Step S302：Whether the wearable device judges the user in default danger according to the physiologic information State.

Specifically, step S302 can be to should refer to step S202, and here is omitted.

Step S303：If the user is in the default precarious position, the wearable device is mesh in specification Dangerous tip message is sent to target terminal on the running time-frequency resource of mark resource units, so that the target terminal knows the user In the precarious position.

Step S304：The target terminal receives the dangerous tip message that the wearable device sends.

Step S305：The target terminal knows that user is in the hole by the dangerous tip message.

Specifically, step S303~S305 can be to should refer to step S203~S205, and here is omitted.

Step S306：If the user is in the precarious position, the wearable device is target money in specification The positional information of the wearable device is sent on the running time-frequency resource of source unit to the target terminal.

Specifically, when the user is in the precarious position, the wearable device not only will be sent out to the target terminal Dangerous tip message is sent, also itself current position the target terminal is sent to into.Can match somebody with somebody in advance in the wearable device Put for the module of positioning, for example, global positioning system (English：Global Positioning System, referred to as：GPS) mould Block.

It should be noted that the positional information and the dangerous tip message which first sends and is not restricted herein, both were both Can successively send can also be while send；Further, the positional information and the dangerous tip message are also in same Different piece in message.

Step S307：The target terminal receives the location message that the wearable device sends.

Step S308：The target terminal knows the position that user is located by the location message.

Specifically, just can be obtained using the wearable device according to the location message using the user of the target terminal The position of user, such that it is able to provide more fully for the user using the wearable device in the case where situation is more urgent Help.

Optionally, calling for help module is provided with the wearable device, the target terminal can control the calling for help module and send Prompting is called for help, for pointing out the user around the wearable device to succour the user using the wearable device in time. Voice communication can be carried out between the target terminal and the wearable device, if be sent to this from the target terminal wearable set Standby voice there is no response, then can be with the remote activation calling for help module using the user of the target terminal.

In the method described by Fig. 3, the wearable device can be led to the target terminal based on NB-IoT Letter so that the communication between the wearable device and the target terminal is more flexibly and efficient.

Further, the wearable device judges whether user is in the hole according to the physiologic information of user, if place In then in specification to send dangerous tip message to the target terminal on the running time-frequency resource of target resource unit, at the user Notify to give the target terminal in time in the situation of precarious position, contribute to the user and succoured in time.

The above-mentioned method for illustrating the embodiment of the present invention, for the ease of preferably implementing the above-mentioned of the embodiment of the present invention Scheme, correspondingly, has been provided below the device of the embodiment of the present invention.

Fig. 4 is referred to, Fig. 4 is a kind of structural representation of wearable device 40 provided in an embodiment of the present invention, and this can wear To wear equipment 40 can include acquiring unit 401 and transmitting element 402, wherein, unit is described in detail as follows.

Acquiring unit 401 is used to obtain the physiologic information of user；

Transmitting element 402 is used to send prompting message to target terminal according to the physiologic information, with to the target end The physiological situation of the end prompting user, the wearable device is with the target terminal in based on cellular arrowband Internet of Things In NB-IoT.

In a kind of optional scheme, the transmitting element 402 includes：

Judgment sub-unit, for judging the user whether in default precarious position according to the physiologic information；

First send subelement, for the judged result of the judgment sub-unit for be when, specification be target resource Dangerous tip message is sent to target terminal on the running time-frequency resource of unit, so that the target terminal knows that the user is in institute State precarious position；The wearable device is with the target terminal in based in cellular arrowband Internet of Things NB-IoT.

Optionally, the running time-frequency resource of the target resource unit for the NB-IoT multiple resources unit in time domain most Long resource units.

Optionally, the physiologic information includes at least one in blood pressure, blood fat, blood glucose, heart rate.

By running said units, whether the wearable device 40 judges user in danger according to the physiologic information of user State, if if in specification to send dangerous tip message to the target terminal on the running time-frequency resource of target resource unit, with User situation in the hole is notified to give the target terminal in time, is contributed to the user and is succoured in time.

In another optional scheme, described first sends subelement specifically for sending danger to the base station in NB-IoT Dangerous prompting message, so that the base station forwards the danger on the running time-frequency resource that specification is target resource unit to target terminal Prompting message.

In another optional scheme, the target resource unit be the NB-IoT multiple resources unit in time domain Most short resource units.

In another optional scheme, the multiple resources unit include specification be { 1 subcarrier, 8 milliseconds }, { 3 Subcarrier, 4 milliseconds }, at least two in the resource units of { 6 subcarriers, 2 milliseconds } and { 12 subcarriers, 1 millisecond }.

It should be noted that in embodiments of the present invention, implementing for unit can also be corresponded to reference to shown in Fig. 2 Embodiment of the method corresponding description.

In the wearable device 40 described by Fig. 4, the wearable device 40 can be based on NB- with the target terminal IoT is communicated so that the communication between the wearable device 40 and the target terminal is more flexibly and efficient.

Further, the wearable device 40 judges whether user is in the hole according to the physiologic information of user, if In then in specification to send dangerous tip message to the target terminal on the running time-frequency resource of target resource unit, by the user Situation in the hole notifies to give the target terminal in time, contributes to the user and is succoured in time.

Fig. 5 is referred to, Fig. 5 is the structural representation of another wearable device 40 provided in an embodiment of the present invention, and this can Wearable device 40 also includes the acquiring unit 401 and transmitting element 402 shown in Fig. 4；The transmitting element 402 is except sub including judging Outside unit and the first transmitting element, can also include that second sends subelement, the second transmission subelement is used in the judgement When the judged result of subelement is to be, send to the target terminal on the running time-frequency resource that specification is the target resource unit The positional information of the wearable device.

It should be noted that in embodiments of the present invention, implementing for unit can also be corresponded to reference to shown in Fig. 3 Embodiment of the method corresponding description.

In the wearable device 40 described by Fig. 5, the wearable device 40 can be based on NB- with the target terminal IoT is communicated so that the communication between the wearable device 40 and the target terminal is more flexibly and efficient.

Further, the wearable device 40 judges whether user is in the hole according to the physiologic information of user, if In then in specification to send dangerous tip message to the target terminal on the running time-frequency resource of target resource unit, by the user Situation in the hole notifies to give the target terminal in time, contributes to the user and is succoured in time.

Fig. 6 is referred to, Fig. 6 is a kind of wearable device 60 provided in an embodiment of the present invention, and the wearable device 60 is Including processor 601 (quantity of processor 601 can be with one or more, in Fig. 6 by taking a processor as an example), memorizer 602 With transceiver 603 (radio-frequency module, antenna etc. can be included), in some embodiments of the invention, processor 601, memorizer 602 and transceiver 603 can be connected by bus or alternate manner, in Fig. 6 as a example by by bus connection.

The memorizer 602 is used for storage program；

The processor 601 calls the program in the memorizer 602, for performing following operation：

Obtain the physiologic information of user；

Prompting message is sent to target terminal according to the physiologic information by the transceiver 603, with to the target The physiological situation of user described in terminal notifying, the wearable device is with the target terminal in based on cellular arrowband Internet of Things In net NB-IoT.

In a kind of optional scheme, the processor 601 is by the transceiver 603 according to the physiologic information to mesh Mark terminal sends prompting message, specially：

Judge the user whether in default precarious position according to the physiologic information；

If the user be in the default precarious position, by the transceiver 603 specification be target resource Dangerous tip message is sent to target terminal on the running time-frequency resource of unit, so that the target terminal knows that the user is in institute State precarious position.

Optionally, the running time-frequency resource of the target resource unit for the NB-IoT multiple resources unit in time domain most Long resource units.

Optionally, the physiologic information includes at least one in blood pressure, blood fat, blood glucose, heart rate.

By performing aforesaid operations, whether the wearable device 60 judges user in danger according to the physiologic information of user State, if if in specification to send dangerous tip message to the target terminal on the running time-frequency resource of target resource unit, with User situation in the hole is notified to give the target terminal in time, is contributed to the user and is succoured in time.

In another optional scheme, if the user is in the precarious position, the processor 601 is additionally operable to lead to Cross on the running time-frequency resource that the transceiver 603 is the target resource unit and send the wearable device to the target terminal 60 positional information.

In another optional scheme, the logical 601 excessively described transceivers 603 of the processor are target resource list in specification Dangerous tip message is sent to target terminal on the running time-frequency resource of position, specially：

The processor 601 sends dangerous tip message by the transceiver 603 to the base station in NB-IoT, so that institute Base station is stated in specification to forward the dangerous tip message to target terminal on the running time-frequency resource of target resource unit.

In another optional scheme, the target resource unit be the NB-IoT multiple resources unit in time domain Most short resource units.

In another optional scheme, the multiple resources unit include specification be { 1 subcarrier, 8 milliseconds }, { 3 Subcarrier, 4 milliseconds }, at least two in the resource units of { 6 subcarriers, 2 milliseconds } and { 12 subcarriers, 1 millisecond }.

It should be noted that in embodiments of the present invention, implementing for unit can also be corresponded to reference to Fig. 2 and Tu The corresponding description of the embodiment of the method shown in 3.

In the wearable device 60 described by Fig. 6, the wearable device 60 can be based on NB- with the target terminal IoT is communicated so that the communication between the wearable device 60 and the target terminal is more flexibly and efficient.

Further, the wearable device 60 judges whether user is in the hole according to the physiologic information of user, if In then in specification to send dangerous tip message to the target terminal on the running time-frequency resource of target resource unit, by the user Situation in the hole notifies to give the target terminal in time, contributes to the user and is succoured in time.

In sum, by implementing the embodiment of the present invention, the wearable device can be based on NB- with the target terminal IoT is communicated so that the communication between the wearable device and the target terminal is more flexibly and efficient.

Further, the wearable device judges whether user is in the hole according to the physiologic information of user, if place In then in specification to send dangerous tip message to the target terminal on the running time-frequency resource of target resource unit, at the user Notify to give the target terminal in time in the situation of precarious position, contribute to the user and succoured in time.

One of ordinary skill in the art will appreciate that realizing all or part of flow process in above-described embodiment method, can be Related hardware is instructed to complete by computer program, described program can be stored in computer read/write memory medium In, the program is upon execution, it may include such as the flow process of the embodiment of above-mentioned each method.And aforesaid storage medium includes：ROM、 RAM, magnetic disc or CD etc. are various can be with the medium of store program codes.

Above example only discloses preferred embodiment in the present invention, it is impossible to the interest field of the present invention is limited with this, One of ordinary skill in the art will appreciate that all or part of flow process of above-described embodiment is realized, and according to the claims in the present invention institute The equivalent variations of work, still fall within the covered scope of invention.

Claims (10)

1. a kind of data transmission method, it is characterised in that include：

Wearable device obtains the physiologic information of user；

The wearable device sends prompting message according to the physiologic information to target terminal, with to target terminal prompting The physiological situation of the user, the wearable device is with the target terminal in based on cellular arrowband Internet of Things NB-IoT In.

2. method according to claim 1, it is characterised in that the wearable device is according to the physiologic information to target Terminal sends prompting message, including：

Whether the wearable device judges the user in default precarious position according to the physiologic information；

If the user is in the default precarious position, the wearable device is when specification is target resource unit Dangerous tip message is sent to target terminal in frequency resource, so that the target terminal knows that the user is in the dangerous shape State.

3. method according to claim 2, it is characterised in that if the user is in the precarious position, methods described Also include：

The wearable device sends described on the running time-frequency resource that specification is the target resource unit to the target terminal The positional information of wearable device.

4. according to the method in claim 2 or 3, it is characterised in that the wearable device is target resource list in specification Sending dangerous tip message to target terminal on the running time-frequency resource of position includes：

The wearable device to the base station in NB-IoT sends dangerous tip message, so that the base station is target money in specification The dangerous tip message is forwarded on the running time-frequency resource of source unit to target terminal.

5. the method according to any one of Claims 1 to 4, it is characterised in that the target resource unit is the NB- The most short resource units of time domain in the multiple resources unit of IoT.

6. a kind of wearable device, it is characterised in that the wearable device includes：

Acquiring unit, for obtaining the physiologic information of user；

Transmitting element, for sending prompting message to target terminal according to the physiologic information, with to target terminal prompting The physiological situation of the user, the wearable device is with the target terminal in based on cellular arrowband Internet of Things NB-IoT In.

7. method according to claim 6, it is characterised in that the transmitting element includes：

Judgment sub-unit, for judging the user whether in default precarious position according to the physiologic information；

First send subelement, for the judged result of the judgment sub-unit for be when, specification be target resource unit Running time-frequency resource on to target terminal send dangerous tip message so that the target terminal know the user be in the danger Dangerous state；The wearable device is with the target terminal in based in cellular arrowband Internet of Things NB-IoT.

8. wearable device according to claim 7, it is characterised in that the transmitting element also includes second, and to send son single Unit：

Second send subelement, for the judged result of the judgment sub-unit for be when, specification be the target resource The positional information of the wearable device is sent on the running time-frequency resource of unit to the target terminal.

9. the wearable device according to claim 7 or 8, it is characterised in that described first send subelement specifically for Dangerous tip message is sent to the base station in NB-IoT, so that the base station is on the running time-frequency resource that specification is target resource unit The dangerous tip message is forwarded to target terminal.

10. the wearable device according to any one of claim 7~9, it is characterised in that the target resource unit is institute State the most short resource units of time domain in the multiple resources unit of NB-IoT.