CN106097659B - A kind of drowned monitoring method and wearable device based on wearable device - Google Patents

Abstract

The present embodiments relate to wearable device technical fields, disclose a kind of drowned monitoring method based on wearable device and wearable device, this method include：The micro-control module of wearable device obtains the testing result of soaked detection module in wearable device, when the environment residing for testing result instruction wearable device is water environment, it obtains the sensing data that sensor assembly records in wearable device and judges whether sensing data matches with the preset condition stored in the first memory module, if so, micro-control module determines that the user of wearable device is in drowned state and the communication module in wearable device is controlled to send the alarm signal for drowned state at least one alarm platform.The embodiment of the present invention without other auxiliary devices can be completed it is drowned monitor and alarm and distance is not limited between by wearable device and alarm platform, improve the general applicability of drowned monitoring technology.

Description

A kind of drowned monitoring method and wearable device based on wearable device

Technical field

The present invention relates to wearable device technical fields, and in particular to a kind of drowned monitoring method based on wearable device And wearable device.

Background technology

The event of children's drowning can all occur in annual summer vacation, with gradually universal, the people of intelligent wearable device Also it increasingly wants to monitor drowning incident by intelligent wearable device or other the relevant technologies, to send out report in advance Alert signal and then the injures and deaths for reducing personnel.

Currently, the U.S. and Switzerland etc. country be all proposed with the relevant drowned monitoring product of drowned monitoring technology, such as The preventing child of iSwimband is drowned wearable real-time watch device and BlueFox swimming pool monitoring systems etc., basic principle For：The wearable device (such as bracelet, headring) that user wears ceaselessly sends signal to reception device, when user occurs After drowned loss of consciousness, body can sink automatically, when the environmental condition residing for user meets preset condition, such as when use The depth that person's body sinks is more than the pressure around predetermined depth H or user is more than default pressure P, and current state continues When time is more than preset time T, is drowned by reception device according to the signal determining user received and send out alarm signal.It can See, current drowned monitoring technology need to be by auxiliary device, and it reduce the general applicability of drowned monitoring technology.

Invention content

The embodiment of the invention discloses a kind of drowned monitoring method and wearable device based on wearable device, Neng Gouti The general applicability of the drowned monitoring technology of height.

First aspect of the embodiment of the present invention discloses a kind of drowned monitoring method based on wearable device, described wearable Equipment includes micro-control module, soaked detection module, sensor assembly, the first memory module, communication module and power management Module, wherein, the power management module is the micro-control module, the soaked detection module, the sensor assembly, institute The first memory module and communication module power supply are stated, the method includes：

The micro-control module obtains the testing result of the soaked detection module；

When the environment residing for the testing result instruction wearable device is water environment, the micro-control module obtains The sensing data of the sensor assembly record is taken, and judges the sensing data whether with being stored in first memory module Preset condition match；

When the sensing data and the preset condition match, the micro-control module determines the wearable device User be in drowned state, and the communication module is controlled to be sent to pre-set at least one alarm platform for described The alarm signal of drowned state.

As an alternative embodiment, in first aspect of the embodiment of the present invention, the wearable device further includes Second memory module, the method further include：

The micro-control module obtains the transmission state that the communication module is directed to the alarm signal；

When alarm signal described in the transmission state instruction sends failure, the micro-control module is by the sensing data It is stored in second memory module.

As an alternative embodiment, in first aspect of the embodiment of the present invention, the wearable device further includes Locating module and output module；

When the environment residing for the testing result instruction wearable device is the water environment, the micro-control molding Before block obtains the sensing data of the sensor assembly record, the method further includes：

The micro-control module obtains the first position residing for the water environment that the locating module navigates to, and judges Whether the first position is one of them in the first predeterminated position；

When judging result is when being, the micro-control module controls the output module to export the first prompt message, described First prompt message is exporting the first prompting letter for prompting the first position as drowning incident spot, when detecting After preset time period after breath the wearable device still in the first position the water environment when, triggering perform institute State the operation for the sensing data for obtaining the sensor assembly record.

As an alternative embodiment, in first aspect of the embodiment of the present invention, when the testing result indicates institute When the environment stated residing for wearable device is the water environment, the micro-control module obtains the biography of the sensor assembly record Before feeling data, the method further includes：

The micro-control module obtains the second position and the direction of motion of the wearable device in the water environment, When the distance of any position in the second position and the second predeterminated position is less than or equal to pre-determined distance and the direction of motion During towards any position, triggering performs the operation of the sensing data for obtaining the sensor assembly record.

As an alternative embodiment, in first aspect of the embodiment of the present invention, the wearable device further includes Taking module, the method further include：

When the sensing data and the preset condition do not match that, the micro-control module starts the shooting mould Block, and the taking module is controlled to perform shooting operation, obtain video；

The micro-control module extracts the characteristic information in the video, and judge the characteristic information whether with default spy Information match is levied, when the characteristic information and the default characteristic information match, controls the output module output the Two prompt messages, there are drowning incidents for prompting in the water environment for second prompt message.

As an alternative embodiment, in first aspect of the embodiment of the present invention, the alarm signal includes described First position and the sensing data, heart rate data of the sensing data including the user for the wearable device, At least one of temperature data, exercise data and pressure data.

Second aspect of the embodiment of the present invention discloses a kind of wearable device, and the wearable device includes micro-control molding Block, soaked detection module, sensor assembly, the first memory module, communication module and power management module, wherein, the electricity Source control module for the micro-control module, the soaked detection module, the sensor assembly, first memory module with And the communication module power supply, wherein：

The soaked detection module for detecting the wearable device whether in water environment, obtains testing result；

The sensor assembly, for recording needle to the sensing data of the user of the wearable device；

The micro-control module indicates that the environment residing for the wearable device is the water for working as the testing result During environment, the sensing data is obtained, and judges whether the sensing data is preset with what is stored in first memory module Matching criteria, when judging result is when being, determines that the user of the wearable device is in drowned state, and controls described logical Believe that module sends the alarm signal for the drowned state to pre-set at least one alarm platform；

The communication module, for sending the alarm signal at least one alarm platform.

As an alternative embodiment, in second aspect of the embodiment of the present invention, the wearable device further includes Second memory module；

The micro-control module is additionally operable to obtain the transmission state that the communication module is directed to the alarm signal, and work as When alarm signal described in the transmission state instruction sends failure, the sensing data is stored in second memory module In；

Second memory module, for storing the sensing data.

As an alternative embodiment, in second aspect of the embodiment of the present invention, the wearable device further includes Locating module and output module；

The locating module indicates that the environment residing for the wearable device is the water ring for working as the testing result During border, the first position residing for the water environment is positioned；

The micro-control module is additionally operable to judge whether the first position is one of them in the first predeterminated position, When judging result is when being, controls the output module to export the first prompt message, first prompt message is used to prompt institute First position is stated as drowning incident spot, and after preset time period after exporting first prompt message is detected The wearable device still in the first position the water environment when, triggering, which performs, described obtains the sensing data Operation.

As an alternative embodiment, in second aspect of the embodiment of the present invention, the micro-control module is additionally operable to When the environment residing for the testing result instruction wearable device is the water environment, obtains the wearable device and exist The second position and the direction of motion in the water environment, and when the second position and any position in the second predeterminated position Distance when being less than or equal to pre-determined distance and the direction of motion towards any position, triggering, which performs, described obtains the biography Feel the operation of data.

As an alternative embodiment, in second aspect of the embodiment of the present invention, the wearable device further includes Taking module；

The micro-control module is additionally operable to when the sensing data is not matched that with the preset condition, described in startup Taking module, and the taking module is controlled to perform shooting operation, obtain video；

The micro-control module is additionally operable to extract the characteristic information in the video, and whether judges the characteristic information Match with default characteristic information, when judging result is when being, controls the output module to export the second prompt message, described the There are drowning incidents for prompting in the water environment for two prompt messages.

As an alternative embodiment, in second aspect of the embodiment of the present invention, the alarm signal includes described First position and the sensing data, heart rate data of the sensing data including the user for the wearable device, At least one of temperature data, exercise data and pressure data.

Compared with prior art, the embodiment of the present invention has the advantages that：

In the embodiment of the present invention, the micro-control module of wearable device obtains the inspection of soaked detection module in wearable device It surveys as a result, when the environment residing for testing result instruction wearable device is water environment, obtains sensor die in wearable device The sensing data of block record simultaneously judges whether sensing data matches with the preset condition stored in the first memory module, if so, Then micro-control module determines that the user of wearable device is in drowned state and controls the communication module in wearable device to extremely A few alarm platform sends the alarm signal for drowned state.It can be by wearable as it can be seen that implementing the embodiment of the present invention Micro-control module in equipment carries out the user of wearable device drowned monitoring, and works as and monitor that the user of wearable device drowns During water, the communication module that micro-control module is directly controlled in wearable device sends alarm signal to alarm platform, without Drowned monitoring and alarm can be completed for other auxiliary devices and distance is not limited between by wearable device and alarm platform, carry The high general applicability of drowned monitoring technology.

Description of the drawings

It to describe the technical solutions in the embodiments of the present invention more clearly, below will be to needed in the embodiment Attached drawing is briefly described, it should be apparent that, the accompanying drawings in the following description is only some embodiments of the present invention, for ability For the those of ordinary skill of domain, without creative efforts, it can also be obtained according to these attached drawings other attached Figure.

Fig. 1 is a kind of flow diagram of drowned monitoring method based on wearable device disclosed by the embodiments of the present invention；

Fig. 2 is the flow signal of another drowned monitoring method based on wearable device disclosed by the embodiments of the present invention Figure；

Fig. 3 is a kind of structure diagram of wearable device disclosed by the embodiments of the present invention；

Fig. 4 is the structure diagram of another wearable device disclosed by the embodiments of the present invention；

Fig. 5 is the structure diagram of another wearable device disclosed by the embodiments of the present invention.

Specific embodiment

Below in conjunction with the attached drawing in the embodiment of the present invention, the technical solution in the embodiment of the present invention is carried out clear, complete Site preparation describes, it is clear that described embodiment is only part of the embodiment of the present invention, instead of all the embodiments.Based on this Embodiment in invention, the every other reality that those of ordinary skill in the art are obtained without making creative work Example is applied, shall fall within the protection scope of the present invention.

The embodiment of the invention discloses a kind of drowned monitoring method and wearable device based on wearable device, without borrowing Help that drowned monitoring and alarm can be completed in other auxiliary devices and distance is not limited between by wearable device and alarm platform, Improve the general applicability of drowned monitoring technology.

Embodiment one

Referring to Fig. 1, Fig. 1 is a kind of stream of drowned monitoring method based on wearable device disclosed by the embodiments of the present invention Journey schematic diagram.Wherein, the present embodiments relate to wearable device can be smartwatch, Intelligent bracelet, watch phone, intelligence Any one wearable device, the embodiment of the present invention such as energy foot ring, intelligence ring, intelligent necklace, intelligent earphone are not construed as limiting, and The present embodiments relate to wearable device include at least micro-control module, soaked detection module, sensor assembly, first deposit Module, communication module and power management module are stored up, wherein, power management module is micro-control module, soaked detection module, biography Sensor module, the first memory module and communication module power supply.It as shown in Figure 1, should the drowned monitoring side based on wearable device Method may comprise steps of：

101st, micro-control module obtains the testing result of soaked detection module.

In the embodiment of the present invention, which is used to indicate wearable device whether in water environment, when the detection As a result when instruction wearable device is in water environment, triggering performs step 102；When the testing result indicates wearable device not When in water environment, step 101 can be continued to execute, wherein, water environment refers to swimming pool, river, lake and sea Environment etc. that can swim or there are a large amount of liquid waters.

In the embodiment of the present invention, when the unlatching input by user for drowned monitoring function for receiving wearable device refers to After order, wearable device opens drowned monitoring function, you can the module in wearable device is started to work；Alternatively, when detecting When the air humidity of wearable device local environment is more than default humidity threshold, it is attached that wearable device determines that it is in water environment Closely, then the open command for drowned monitoring function is automatically generated, and drowned monitoring function is opened according to the open command, you can Module in wearable device is started to work.

102nd, when the environment residing for above-mentioned testing result instruction wearable device is water environment, micro-control module, which obtains, to be passed The sensing data of sensor module record.

In the embodiment of the present invention, when the environment residing for wearable device be water environment when, sensor assembly record in real time or Every preset time period recording needle to the sensing data of the user of wearable device, wherein, which can include heart rate Data (i.e. beats), be used to indicate wearable device user movement tendency exercise data (such as direction of motion, movement Acceleration etc.), temperature data (i.e. user's body temperature) and pressure data (i.e. user's pressure suffered in current water environment) etc. One or more combinations, the embodiment of the present invention do not limit.

103rd, micro-control module judge above-mentioned sensing data whether with the preset condition phase that is stored in the first memory module Match.

In the embodiment of the present invention, when micro-control module judges above-mentioned sensing data and preset condition phase in step 103 Timing, triggering perform step 104；When micro-control module judges above-mentioned sensing data and preset condition not phase in step 103 Timing can trigger and perform step 102.

In the embodiment of the present invention, the preset condition stored in the first memory module can be that all ages and classes layer user is corresponding Preset condition, as the corresponding preset condition of teenager user, the corresponding preset condition of middle aged user and old user are corresponding The corresponding preset condition of user of the different sexes of preset condition etc. or all ages and classes layer, the embodiment of the present invention are not done It limits.

As an alternative embodiment, micro-control module judge above-mentioned sensing data whether in the first memory module The preset condition of storage, which matches, to be included：

Micro-control module judges that whether each data are in the data pair in the preset quantity data of above-mentioned sensing data In the preset range answered, if so, determining that above-mentioned sensing data matches with preset condition, if not, it is determined that above-mentioned sensing number It is not matched that according to preset condition.

For example, when the user of wearable device is teenager user and above-mentioned sensing data includes heart rate data, Under normal circumstances, teen-age heart rate data is 60-100 beats/min, can for the preset condition of the heart rate data of teenager user Think whether be more than 130 beats/min, if the heart rate data of sensor assembly record is 135 beats/min, micro-control module determines to pass Sense data match with preset condition.

As another optional embodiment, pre-set be directed to can also be stored in the first memory module to wear The drowned algorithm of the affiliated age level of user for wearing equipment, wherein, which can be should to what is counted by alarm platform Obtained from pertinent sensor data when age level user occurs drowned is learnt, at this point, micro-control module judges above-mentioned biography Whether sense data match with the preset condition stored in the first memory module and can include：

When the sensing data for getting sensor assembly record, micro-control module is by the sensing data according to certain suitable Sequence is organized into vector, obtains sensing data vector, and obtain one using the sensing data vector as the input of the algorithm of drowning Output valve；

Micro-control module judges the output valve whether in the range of default output valve, if so, determine sensing data with Preset condition matches, if not, it is determined that sensing data is not matched that with preset condition.It is drowned in this way by what is learnt in advance The mode that water algorithm carries out the user of wearable device drowned monitoring can improve the drowned accuracy monitored.

104th, micro-control module determines that the user of wearable device is in drowned state, and controls communication module to setting in advance At least one alarm platform put sends the alarm signal for drowned state.

In the embodiment of the present invention, the alarm signal is optional for prompting the monitoring personnel of alarm platform that there are drowning incidents , which can include above-mentioned sensing data, be analyzed so as to the monitoring personnel of alarm platform according to above-mentioned sensing data The physical condition of wearable device user, and then take corresponding rescue measure, further alternative, which can be with Include the position of above-mentioned water environment, so that the monitoring personnel of alarm platform intuitively gets the spot of drowning incident, and then Accelerate rescue speed.

In the embodiment of the present invention, at least one alarm platform can include 110 alarm platforms, 120 emergency platforms and At least one of 119 fire control platforms, micro-control module can obtain in advance to be less than or equal to the distance of water environment present position All alarm platforms of pre-determined distance threshold value, when drowning incident occurs for the user for determining wearable device, directly to determining At least one of alarm platform alarm platform send alarm signal.It should be noted that micro-control module can not only be controlled Communication module processed sends alarm signal at least one alarm platform, can also control communication module to advance and wearable device The mobile equipment (such as mobile phone) of binding sends alarm signal, i.e. can also be stored with mobile equipment in the first memory module Mark, such as telephone number or name of contact person, at this point, micro-control module is first by above-mentioned sensing data and/or above-mentioned water The position of environment is organized into the information (such as short message, pictorial information or voice messaging) of preset format, and controls communication module The information of the preset format is sent to the mobile equipment bound in advance with wearable device or directly control communication module to Call request is initiated with the mobile equipment of wearable device binding.

As an alternative embodiment, wearable device can also include the second memory module, power management module The power supply of the second memory module is similarly, and be somebody's turn to do the drowned monitoring method based on wearable device to include following operation：

Micro-control module obtains the transmission state that above-mentioned communication module is directed to above-mentioned alarm signal, wherein, the transmission state It is used to indicate whether above-mentioned communication module is successfully transmitted above-mentioned alarm signal.

When the above-mentioned communication module of transmission state instruction sends above-mentioned alarm signal or the transmission of above-mentioned alarm signal not successfully During failure, the sensing data that the sensor module records is stored in the second memory module by micro-control module.

In the optional embodiment, communication module is controlled at least one alarm platform or Xiang Yuke in micro-control module After the mobile equipment of wearable device binding sends alarm signal, if communication module receives any one alarm platform or arbitrary During the answer signal for being directed to above-mentioned alarm signal that one mobile equipment returns, micro-control module determines above-mentioned alarm signal transmission Success；During the answer signal that if communication module does not receive any alarm platform and any mobile equipment returns, micro-control molding Block determines that above-mentioned alarm signal sends failure, the sensing data storage that micro-control module records the sensor module to second In memory module, the black box of wearable device is formed, subsequently to drown user according to the data analysis recorded in black box State during drowning incident occurs, the self-saving ability of user carries when drowning monitoring technology to improve or improve generation drowning incident Theoretical foundation is supplied.

It can be by the micro-control module in wearable device to wearable device as it can be seen that implementing the described methods of Fig. 1 User carry out drowned monitoring, and when the user for monitoring wearable device is drowned, micro-control module directly controls wearable Communication module in equipment sends alarm signal to alarm platform, without other auxiliary devices can be completed drowned monitoring and It alarms and distance is not limited between by wearable device and alarm platform, improve drowning rescue efficiency and drowned monitoring skill The general applicability of art.

Embodiment two

Referring to Fig. 2, Fig. 2 is another drowned monitoring method based on wearable device disclosed by the embodiments of the present invention Flow diagram.Wherein, the present embodiments relate to wearable device can be smartwatch, Intelligent bracelet, watch phone, Any one wearable device such as Intelligent foot ring, intelligence ring, intelligent necklace, intelligent earphone, the embodiment of the present invention are not construed as limiting, And the present embodiments relate to wearable device include at least micro-control module, soaked detection module, sensor assembly, first Memory module, communication module, the second memory module, locating module, output module, taking module and power management module, In, power management module is micro-control module, soaked detection module, sensor assembly, the first memory module, communication module, the Two memory modules, locating module, output module and taking module power supply.It as shown in Fig. 2, should be based on the drowned of wearable device Monitoring method may comprise steps of：

201st, micro-control module obtains the testing result of soaked detection module.

In the embodiment of the present invention, which is used to indicate wearable device whether in water environment, when the detection As a result when instruction wearable device is in water environment, triggering performs step 202；When the testing result indicates wearable device not When in water environment, step 201 can be continued to execute, wherein, water environment refers to swimming pool, river, lake and sea Environment etc. that can swim or there are a large amount of liquid waters.

202nd, micro-control module obtains the first position residing for the water environment that locating module navigates to, and judges this first Whether put is one of them in the first predeterminated position.

In the embodiment of the present invention, when the judging result of step 202 is when being, micro-control module determines the use of wearable device Water environment residing for family multiplely, and trigger for drowning incident and performs step 203；It, can when the judging result of step 202 is no To terminate this flow, it can also trigger and perform step 207.

The specific position of multiple drowning incident spots can be previously stored in the embodiment of the present invention, in the first memory module It puts.

203rd, micro-control module control output module exports the first prompt message.

In the embodiment of the present invention, which is used to prompt the water of the above-mentioned first position of user of wearable device Environment is drowning incident spot, decides whether that selection continues above-mentioned the according to actual conditions so as to the user of wearable device The activity of swimming etc. is carried out in the water environment of one position.

204th, micro-control module is judged after the preset time period after output module exports above-mentioned first prompt message Whether moment wearable device is still in the water environment of above-mentioned first position.

In the embodiment of the present invention, when the judging result of step 204 is when being, micro-control module determines the use of wearable device It is movable in the water environment of above-mentioned first position that family is continued, and triggers and perform step 205；When the judging result of step 204 is no When, micro-control module determines that the user of wearable device has left the water environment of above-mentioned first position, can terminate this flow.

205th, micro-control module obtains the second position and the direction of motion of the wearable device in above-mentioned water environment.

In the embodiment of the present invention, the three-dimensional of the water environment of above-mentioned first position can be previously stored in the first memory module The reference position of space coordinate range and datum mark as the three dimensional space coordinate range, micro-control module get Two positions can be specifically a three-dimensional coordinate in the range of the three dimensional space coordinate, and the embodiment of the present invention does not limit.

206th, micro-control module judges whether the distance of said second position and any position in the second predeterminated position is small In equal to pre-determined distance and the above-mentioned direction of motion whether towards any position.

It can also be previously stored in the embodiment of the present invention, in the first memory module in the water environment of above-mentioned first position easily The three-dimensional coordinate of multiple specific locations of drowning incident occurs, such as the deep position of water or the water-bed position with many weeds It puts.When the judging result of step 206 is to be, i.e., when the second in water environment of the wearable device in above-mentioned first position The specific of drowning incident easily occurs for the direction of motion direction for resting against the nearly specific location that drowning incident easily occurs and wearable device During position, triggering performs step 207；When the judging result of step 206 is no, micro-control module determines the use of wearable device Safety zone carry out activity of the family in the water environment of above-mentioned first position can continue triggering and perform step 205.

207th, micro-control module obtains the sensing data of sensor assembly record.

In the embodiment of the present invention, when the environment residing for wearable device be water environment when, sensor assembly record in real time or Every preset time period recording needle to the sensing data of the user of wearable device, wherein, which can include heart rate Data (i.e. beats), be used to indicate wearable device user movement tendency exercise data (such as direction of motion, movement Acceleration etc.), temperature data (i.e. user's body temperature) and pressure data (i.e. user's pressure suffered in current water environment) etc. One or more combinations, the embodiment of the present invention do not limit.

208th, micro-control module judge above-mentioned sensing data whether with the preset condition phase that is stored in the first memory module Match.

In the embodiment of the present invention, when the judging result of step 208 is when being, triggering performs step 209；When step 208 When judging result is no, triggering performs step 212.

As an alternative embodiment, micro-control module judge above-mentioned sensing data whether in the first memory module The preset condition of storage, which matches, to be included：

Micro-control module judges that whether each data are in the data pair in the preset quantity data of above-mentioned sensing data In the preset range answered, if so, determining that above-mentioned sensing data matches with preset condition, if not, it is determined that above-mentioned sensing number It is not matched that according to preset condition.

As another optional embodiment, pre-set be directed to can also be stored in the first memory module to wear The drowned algorithm of the affiliated age level of user for wearing equipment, wherein, which can be should to what is counted by alarm platform Obtained from pertinent sensor data when age level user occurs drowned is learnt, at this point, micro-control module judges above-mentioned biography Whether sense data match with the preset condition stored in the first memory module and can include：

When the sensing data for getting sensor assembly record, micro-control module is by the sensing data according to certain suitable Sequence is organized into vector, obtains sensing data vector, and obtain one using the sensing data vector as the input of the algorithm of drowning Output valve；

Micro-control module judges the output valve whether in the range of default output valve, if so, determine sensing data with Preset condition matches, if not, it is determined that sensing data is not matched that with preset condition.It is drowned in this way by what is learnt in advance The mode that water algorithm carries out the user of wearable device drowned monitoring can improve the drowned accuracy monitored.

209th, micro-control module determines that the user of wearable device is in drowned state, and controls communication module to setting in advance At least one alarm platform put sends the alarm signal for drowned state.

In the embodiment of the present invention, the alarm signal is optional for prompting the monitoring personnel of alarm platform that there are drowning incidents , which can include at least one of above-mentioned sensing data, above-mentioned first position and said second position, with Just the monitoring personnel of alarm platform intuitively gets the spot of drowning incident and the specific location of drowning incident occurs, into And accelerate rescue speed.

In the embodiment of the present invention, at least one alarm platform can include 110 alarm platforms, 120 emergency platforms and At least one of 119 fire control platforms.It should be noted that micro-control module can not only control communication module at least one Alarm platform sends alarm signal, can also control communication module to the mobile equipment bound in advance with wearable device (as moved Mobile phone) etc. send alarm signal, i.e. the mark of mobile equipment can also be stored in the first memory module, such as telephone number or Name of contact person etc., at this point, micro-control module is first by above-mentioned sensing data and/or above-mentioned first position and/or above-mentioned second Position forms the information (such as short message, pictorial information or voice messaging) of preset format, and communication module is controlled to preset this The information of form be sent to the mobile equipment bound in advance with wearable device or directly control communication module to it is wearable The mobile equipment of apparatus bound initiates call request.

210th, micro-control module obtains the transmission state that communication module is directed to above-mentioned alarm signal.

In the embodiment of the present invention, which is used to indicate whether above-mentioned communication module is successfully transmitted above-mentioned alarm signal Number.

211st, when the above-mentioned alarm signal of above-mentioned transmission state instruction sends failure, micro-control module remembers sensor assembly The sensing data of record is stored in the second memory module.

In the embodiment of the present invention, the sensing data storage that micro-control module records the sensor module is stored to second In module, the black box of wearable device is formed, subsequently to drown user according to the data analysis recorded in black box State after drowning incident, the self-saving ability of user provides when drowning monitoring technology to improve or improve generation drowning incident Theoretical foundation.

212nd, micro-control module starts taking module, and taking module is controlled to perform shooting operation, obtains video.

213rd, micro-control module extracts the characteristic information in above-mentioned video, and judge this feature information whether with default feature Information match.

In the embodiment of the present invention, when the judging result of step 213 is when being, micro-control module determines to deposit in current water environment In the drowning incident of other users, and trigger and perform step 213；When the judging result of step 213 is no, can continue to trigger Perform step 205.

Specifically, micro-control module can extract the image feature information of each frame image of above-mentioned video, and judge to carry Whether the image feature information got is used to characterize figure of the user in drowned state with pre-stored in the first memory module As characteristic information matches, if so, micro-control module determines drowning incident of the current water environment there are other users.

214th, micro-control module control output module exports the second prompt message.

In the embodiment of the present invention, which is used to prompt in water environment of the user of wearable device residing for it Other users of the storage in drowned state are implemented to rescue so as to the user of wearable device to the other users for being in drowned state Help operation or alarm operation.

As an alternative embodiment, before step 209 is performed, it should the drowned monitoring side based on wearable device Method can also include following operation：

Micro-control module control output module output third prompt message, wherein, which can for prompting The user of wearable device whether at least one alarm platform send alarm signal；

When receive for the third prompt message confirmation message or do not receive in certain period of time for the When the confirmation message or refuse information of three prompt messages, triggering performs step 209.

The optional embodiment can either prevent drowned accidentally monitor, and can be in dusk in the user that drowning incident occurs Alarm signal is sent out automatically during fan's state, reduces the risk that drowning accident occurs.

It can be by the micro-control module in wearable device to wearable device as it can be seen that implementing the described methods of Fig. 2 User carry out drowned monitoring, and when the user for monitoring wearable device is drowned, micro-control module directly controls wearable Communication module in equipment includes sensing data with the specific location alarm signal of drowning incident, energy occurs to alarm platform transmission Enough accelerate drowning rescue efficiency, drowned monitoring and alarm can be completed and not by wearable device without other auxiliary devices The limitation of distance between alarm platform improves the general applicability of drowning rescue efficiency and drowned monitoring technology, and energy Enough prevent drowned accidentally monitoring.

Embodiment three

Referring to Fig. 3, Fig. 3 is a kind of structure diagram of wearable device disclosed by the embodiments of the present invention.Wherein, Fig. 3 Shown wearable device 300 can be smartwatch, Intelligent bracelet, watch phone, Intelligent foot ring, intelligence ring, intelligent item Any one wearable device such as chain, intelligent earphone, the embodiment of the present invention are not construed as limiting.As shown in figure 3, the wearable device 300 can include micro-control module 301, soaked detection module 302, sensor assembly 303, the first memory module 304, communication mould Block 305 and power management module 306, wherein：

Power management module 306 is micro-control module 301, soaked detection module 302, sensor assembly 303, first store Module 304 and communication module 305 are powered.

Soaked detection module 302 is used to detect wearable device 300 whether in water environment, obtains testing result, and The testing result is sent to micro-control module 301.

Sensor assembly 303 is used for when wearable device 300 is in water environment, and recording needle is to wearable device 300 User sensing data.

Micro-control module 301 is used for when the environment residing for above-mentioned testing result instruction wearable device 300 is water environment, Obtain the sensing data that sensor assembly 303 records, and judge the sensing data that gets whether in the first memory module 304 The preset condition of storage matches, and when judging result is to be, determines that the user of wearable device 300 is in drowned state, and Communication module 305 is controlled to send the alarm signal for the drowned state to pre-set at least one alarm platform.

Communication module 305 is used under the control of micro-control module 301 send to above-mentioned at least one alarm platform above-mentioned Alarm signal.

As it can be seen that the described wearable device 300 of implementing Fig. 3 can pass through the micro-control module in wearable device 300 The user of 301 pairs of wearable devices 300 carries out drowned monitoring, and when the user for monitoring wearable device 300 is drowned, micro-control The communication module 305 that molding block 301 is directly controlled in wearable device 300 sends alarm signal to alarm platform, without Drowned monitoring and alarm can be completed for other auxiliary devices and distance is not limited between by wearable device 300 and alarm platform System improves the general applicability of drowning rescue efficiency and drowned monitoring technology

As an alternative embodiment, wearable device 300 can also include the second memory module 307, at this point, can The structure of wearable device 300 can with as shown in figure 4, Fig. 4 be another wearable device disclosed by the embodiments of the present invention structure Schematic diagram.Wherein：

Micro-control module 301 can be also used for obtaining the transmission state that communication module 305 is directed to above-mentioned alarm signal, and work as When the above-mentioned alarm signal of the transmission state instruction sends failure, the sensing data that the sensor assembly 303 got records is deposited In the second memory module 307, i.e. the second memory module 307 is used for the storage sensor under the control of micro-control module 301 for storage The sensing data that module 303 records.

As another optional embodiment, wearable device 300 can also include locating module 308, output module 309 and taking module 310, at this point, the structure of wearable device 300 can be with as shown in figure 5, Fig. 5 be public affairs of the embodiment of the present invention The structure diagram for another wearable device opened.Wherein：

Locating module 308 is used for when the environment residing for the testing result instruction wearable device 300 of soaked detection module 302 During for water environment, the first position residing for the water environment is positioned under the control of micro-control module 301.

Micro-control module 301 can be also used for judging above-mentioned first position whether be in the first predeterminated position wherein one A, when judging result is when being, control output module 309 exports the first prompt message, and first prompt message is for prompting the One position is drowning incident spot, and at the time of detecting after preset time period after exporting first prompt message Wearable device 300 still in first position water environment when, can directly trigger performing above-mentioned acquisition sensor assembly 303 and remember The operation of the sensing data of record obtains the second position and the direction of motion of the wearable device 300 in water environment, and work as The distance of any position in the second position and the second predeterminated position be less than or equal to pre-determined distance and the direction of motion towards this During one position, triggering performs the operation for the sensing data that above-mentioned acquisition sensor assembly 303 records.

Micro-control module 301 can be also used for, when the sensing data got is not matched that with above-mentioned preset condition, opening Dynamic taking module 310, and taking module 310 is controlled to perform shooting operation and obtains video extracts characteristic information in the video simultaneously Judge whether this feature information matches with the default characteristic information in the first memory module 304, when judging result is when being, controls Output module 309 processed exports the second prompt message, which is used to prompting the user of wearable device 300 residing for it Water environment in there are other users drowning incident.

It is further alternative, as shown in figure 5, sensor assembly 303 can include heart rate sensor module 3031, body temperature passes Sensor module 3032, pressure sensor module 3033 and action sensor module 3034, wherein：

Heart rate sensor module 3031 is used to record the heart rate data of the user of wearable device 300.

Body temperature transducer module 3032 is used to record the temperature data of the user of wearable device 300.

Pressure sensor module 3033 is used to record the pressure suffered by the user of wearable device 300.

Action sensor module 3034 is used to record the acceleration and the direction of motion of the user of wearable device 300, In, the acceleration and the direction of motion are used to indicate the movement tendency of the user of wearable device 300.

Optionally, above-mentioned alarm signal can include above-mentioned first position, said second position and sensor assembly 303 At least one of the sensing data of record, wherein, which can include the heart rate of the user for wearable device 300 At least one of data, temperature data, exercise data and pressure data.

As an alternative embodiment, micro-control module 301 control communication module 305 to it is pre-set at least Before one alarm platform sends the alarm signal for the drowned state, micro-control module 301 can be also used for control output Module 305 export third prompt message, wherein, the third prompt message be used for prompt wearable device 300 user whether to At least one alarm platform sends warning message, and when the confirmation that wearable device 300 is received for third prompt message disappears When ceasing or not receiving the refuse information or confirmation message for third prompt message in certain period of time, triggering performs above-mentioned Control the behaviour of alarm signal that communication module 305 is sent to pre-set at least one alarm platform for the drowned state Make.

The optional embodiment can either prevent drowned accidentally monitor, and can be in dusk in the user that drowning incident occurs Alarm signal is sent out automatically during fan's state, reduces the risk that drowning accident occurs.

It should be noted that in practical applications, the micro-control module 301 mentioned in above-described embodiment can be microcontroller Unit (MCU, Micro Controller Unit), above-mentioned first memory module 304 can be random access memory (RAM, Random-Access Memory), above-mentioned second memory module 307 can be read-only memory (ROM, Read-Only Memory), above-mentioned locating module 308 can be global positioning system (GPS, Global Positioning System) module, Above-mentioned communication module 305 can be global system for mobile communications (GSM, Global System for Mobile Communication)/Universal Wireless Packet Service (GPRS, General Packet Radio Service) module.

One of ordinary skill in the art will appreciate that all or part of step in the various methods of above-described embodiment is can It is completed with instructing relevant hardware by program, which can be stored in a computer readable storage medium, storage Medium include read-only memory (Read-Only Memory, ROM), random access memory (Random Access Memory, RAM), programmable read only memory (Programmable Read-only Memory, PROM), erasable programmable is read-only deposits Reservoir (Erasable Programmable Read Only Memory, EPROM), disposable programmable read-only memory (One- Time Programmable Read-Only Memory, OTPROM), the electronics formula of erasing can make carbon copies read-only memory (Electrically-Erasable Programmable Read-Only Memory, EEPROM), CD-ROM (Compact Disc Read-Only Memory, CD-ROM) or other disk storages, magnetic disk storage, magnetic tape storage or can For carrying or storing any other computer-readable medium of data.

Above to a kind of drowned monitoring method and wearable device based on wearable device disclosed by the embodiments of the present invention Be described in detail, specific case used herein is expounded the principle of the present invention and embodiment, more than it is real The explanation for applying example is merely used to help understand the method and its core concept of the present invention；Meanwhile for the general technology of this field Personnel, thought according to the present invention, there will be changes in specific embodiments and applications, in conclusion this theory Bright book content should not be construed as limiting the invention.

Claims (12)

1. a kind of drowned monitoring method based on wearable device, the wearable device includes micro-control module, soaked detection Module, sensor assembly, the first memory module, communication module and power management module, wherein, the power management module is The micro-control module, the soaked detection module, the sensor assembly, first memory module and the communication mould Block is powered, which is characterized in that the method includes：

The micro-control module obtains the testing result of the soaked detection module；

When the environment residing for the testing result instruction wearable device is water environment, the micro-control module obtains institute The sensing data of sensor assembly record is stated, and judges the sensing data of sensor assembly record whether with described the The preset condition stored in one memory module matches, and the preset condition stored in first memory module is all ages and classes layer The corresponding preset condition of user or for all ages and classes layer different sexes the corresponding preset condition of user, described first deposits The drowned algorithm of the pre-set affiliated age level of user for the wearable device is also stored in storage module, it is described to drown Water algorithm is that pertinent sensor data when occurring drowned to the user of the age level counted by alarm platform learns Obtained from；

When the sensing data and the preset condition match, the micro-control module determines the use of the wearable device Family is in drowned state, and the communication module is controlled to be sent to pre-set at least one alarm platform for described drowned The alarm signal of state；

Wherein, the micro-control module judges whether the sensing data of the sensor assembly record stores with described first The preset condition stored in module matches, including：

The sensing data that the sensor assembly records is organized into vector by the micro-control module in a certain order, Sensing data vector is obtained, and an output valve is obtained using the sensing data vector as the input of the drowned algorithm；

The micro-control module judges the output valve whether in the range of default output valve, if so, determining the sensing The sensing data of device module record matches with preset condition.

2. according to the method described in claim 1, it is characterized in that, the wearable device further includes the second memory module, institute The method of stating further includes：

The micro-control module obtains the transmission state that the communication module is directed to the alarm signal；

When alarm signal described in the transmission state instruction sends failure, the micro-control module stores the sensing data In second memory module.

3. method according to claim 1 or 2, which is characterized in that the wearable device further include locating module and Output module；

When the environment residing for the testing result instruction wearable device is the water environment, the micro-control module obtains Before the sensing data for taking the sensor assembly record, the method further includes：

The micro-control module obtains the first position residing for the water environment that the locating module navigates to, and described in judgement Whether first position is one of them in the first predeterminated position；

When judging result is to be, the first prompt message of the micro-control module control output module output, described first Prompt message is for prompting the first position as drowning incident spot, when detecting after first prompt message is exported Preset time period after the wearable device still in the first position the water environment when, triggering perform described in obtain Take the operation of the sensing data of the sensor assembly record.

It is 4. according to the method described in claim 3, it is characterized in that, pre- after exporting first prompt message when detecting If after the period wearable device still in the first position the water environment when, the micro-control module obtains Before the sensing data of the sensor assembly record, the method further includes：

The micro-control module obtains the second position and the direction of motion of the wearable device in the water environment, works as institute It states the second position and the distance of any position in the second predeterminated position is less than or equal to pre-determined distance and the direction of motion direction During any position, triggering performs the operation of the sensing data for obtaining the sensor assembly record.

5. according to the method described in claim 3, it is characterized in that, the wearable device further includes taking module, the side Method further includes：

When the sensing data and the preset condition do not match that, the micro-control module starts the taking module, and The taking module is controlled to perform shooting operation, obtains video；

The micro-control module extracts the characteristic information in the video, and judges whether the characteristic information is believed with default feature Manner of breathing matches, and when the characteristic information matches with the default characteristic information, the output module output second is controlled to carry Show information, there are drowning incidents for prompting in the water environment for second prompt message.

6. according to the method described in claim 3, it is characterized in that, the alarm signal includes the first position and described Sensing data, the sensing data include heart rate data, temperature data, the exercise data of the user for the wearable device And at least one of pressure data.

7. a kind of wearable device, the wearable device includes micro-control module, soaked detection module, sensor assembly, the One memory module, communication module and power management module, wherein, the power management module is the micro-control module, institute Soaked detection module, the sensor assembly, first memory module and communication module power supply, feature is stated to exist In,

The soaked detection module for detecting the wearable device whether in water environment, obtains testing result；

The sensor assembly, for recording needle to the sensing data of the user of the wearable device；

The micro-control module indicates that the environment residing for the wearable device is the water environment for working as the testing result When, the sensing data is obtained, and judge whether the sensing data of the sensor assembly record stores with described first The preset condition stored in module matches, when judging result is when being, determines that the user of the wearable device is in drowned State, and the communication module is controlled to send the alarm for the drowned state to pre-set at least one alarm platform Signal, the preset condition stored in first memory module are the corresponding preset condition of all ages and classes layer user or for not The corresponding preset condition with the user of the different sexes of age level is also stored with pre-set needle in first memory module To the drowned algorithm of the affiliated age level of the user of the wearable device, the drowned algorithm is by alarm platform to counting Obtained from pertinent sensor data when the user of the age level occurs drowned is learnt；

The communication module, for sending the alarm signal at least one alarm platform；

Wherein, the micro-control module judges whether the sensing data of the sensor assembly record stores with described first The mode that the preset condition stored in module matches is specially：

The sensing data that the sensor assembly records is organized into vector by the micro-control module in a certain order, Sensing data vector is obtained, and an output valve is obtained using the sensing data vector as the input of the drowned algorithm；

The micro-control module judges the output valve whether in the range of default output valve, if so, determining the sensing The sensing data of device module record matches with preset condition.

8. wearable device according to claim 7, which is characterized in that the wearable device further includes the second storage mould Block；

The micro-control module is additionally operable to obtain the transmission state that the communication module is directed to the alarm signal, and when described When sending alarm signal transmission failure described in state instruction, the sensing data is stored in second memory module；

Second memory module, for storing the sensing data.

9. wearable device according to claim 7 or 8, which is characterized in that the wearable device further includes positioning mould Block and output module；

The locating module indicates that the environment residing for the wearable device is the water environment for working as the testing result When, position the first position residing for the water environment；

The micro-control module is additionally operable to judge whether the first position is one of them in the first predeterminated position, when sentencing Disconnected result is when being, controls the output module to export the first prompt message, and first prompt message is for prompting described the One position is drowning incident spot, and described after preset time period after exporting first prompt message is detected Wearable device still in the first position the water environment when, triggering performs the behaviour for obtaining the sensing data Make.

10. wearable device according to claim 9, which is characterized in that the micro-control module is additionally operable to detect The wearable device is still in described in the first position after exporting the preset time period after first prompt message During water environment, the second position and the direction of motion of the wearable device in the water environment are obtained, and when described second The distance of position and any position in the second predeterminated position is less than or equal to pre-determined distance and the direction of motion is appointed towards described During one position, triggering performs the operation for obtaining the sensing data.

11. wearable device according to claim 9, which is characterized in that the wearable device further includes taking module；

The micro-control module is additionally operable to, when the sensing data is not matched that with the preset condition, start the shooting Module, and the taking module is controlled to perform shooting operation, obtain video；

The micro-control module is additionally operable to extract the characteristic information in the video, and judge the characteristic information whether in advance If characteristic information matches, when judging result is when being, controls the output module to export the second prompt message, described second carries Showing information, there are drowning incidents for prompting in the water environment.

12. wearable device according to claim 9, which is characterized in that the alarm signal includes the first position And the sensing data, the sensing data include the heart rate data of user for the wearable device, temperature data, At least one of exercise data and pressure data.