CN106097659A - Drowning monitoring method based on wearable device and wearable device - Google Patents

Abstract

The embodiment of the invention relates to the technical field of wearable equipment, and discloses a drowning monitoring method based on wearable equipment and the wearable equipment, wherein the drowning monitoring method comprises the following steps: the method comprises the steps that a micro control module of the wearable device obtains a detection result of a soaking detection module in the wearable device, when the detection result indicates that the environment where the wearable device is located is a water environment, sensing data recorded by a sensor module in the wearable device is obtained, whether the sensing data are matched with preset conditions stored in a first storage module or not is judged, if yes, the micro control module determines that a user of the wearable device is in a drowning state and controls a communication module in the wearable device to send an alarm signal aiming at the drowning state to at least one alarm platform. The embodiment of the invention can complete drowning monitoring and alarm without other auxiliary devices and is not limited by the distance between the wearable equipment and the alarm platform, thereby improving the universal applicability of the drowning monitoring technology.

Description

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

Technical field

The present invention relates to wearable device technical field, be specifically related to a kind of drowned monitoring method based on wearable device And wearable device.

Background technology

The annual event that all can occur child's drowning summer vacation, along with gradually popularizing of intelligence wearable device, people The most increasingly want to monitor drowning incident by intelligence wearable device or other correlation technique, in order to send report in advance Alert signal and then the injures and deaths of minimizing personnel.

Currently, the country such as the U.S. and Switzerland is all proposed the drowned monitoring product relevant to monitoring technology of drowning, as The preventing child of iSwimband is drowned wearable real-time watch device and BlueFox swimming pool monitoring system etc., its ultimate principle For: the wearable device (such as bracelet, headring etc.) that user is worn is ceaselessly to receiving device transmission signal, when user occurs After drowned loss of consciousness, its health can sink automatically, when the environmental condition residing for user meets pre-conditioned, as when using The degree of depth that person's health sinks exceedes the pressure around predetermined depth H or user and exceedes default pressure P, and the continuing of current state When time exceedes preset time T, drowned by receiving device according to the signal determining user received and send alarm signal.Can Seeing, current drowned monitoring technology by auxiliary device, need to it reduce the general applicability of drowned monitoring technology.

Summary of the invention

The embodiment of the invention discloses a kind of drowned monitoring method based on wearable device and wearable device, it is possible to carry The general applicability of high drowned monitoring technology.

Embodiment of the present invention first aspect 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, described power management module is described micro-control module, described soaked detection module, described sensor assembly, institute Stating the first memory module and described communication module is powered, described method includes:

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

When the environment residing for described testing result indicates described wearable device is water environment, described micro-control module obtains Take the sensing data of described sensor assembly record, and judge whether described sensing data stores in described first memory module Pre-conditioned match；

When described sensing data with described pre-conditioned match time, described micro-control module determines described wearable device User be in drowned state, and control described communication module and send for described at least one alarm platform pre-set The alarm signal of drowned state.

As the optional embodiment of one, in embodiment of the present invention first aspect, described wearable device also includes Second memory module, described method also includes:

Described micro-control module obtains the described communication module transmission state for described alarm signal；

When described transmission state indicates described alarm signal to send unsuccessfully, described micro-control module is by described sensing data It is stored in described second memory module.

As the optional embodiment of one, in embodiment of the present invention first aspect, described wearable device also includes Locating module and output module；

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

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

When judged result is for being, described micro-control module controls described output module and exports the first information, described It is drowning incident spot that first information is used for pointing out described primary importance, when detecting at the described first prompting letter of output When described wearable device is still in the described water environment of described primary importance after preset time period after breath, triggers and perform institute State the operation of the sensing data obtaining described sensor assembly record.

As the optional embodiment of one, in embodiment of the present invention first aspect, when described testing result indicates institute Stating the environment residing for wearable device when being described water environment, described micro-control module obtains the biography of described sensor assembly record Before sense data, described method also includes:

Described micro-control module obtains the described wearable device second position in described water environment and the direction of motion, When the distance of any position in the described second position with the second predeterminated position is less than or equal to predeterminable range and the described direction of motion During towards described any position, trigger the operation of the sensing data performing described acquisition described sensor assembly record.

As the optional embodiment of one, in embodiment of the present invention first aspect, described wearable device also includes Taking module, described method also includes:

When described sensing data with described pre-conditioned do not match that time, described micro-control module start described shooting mould Block, and control the execution shooting operation of described taking module, obtain video；

Described micro-control module extracts the characteristic information in described video, and judge described characteristic information whether with default spy Levy information match, when described characteristic information and described default characteristic information match, control described output module output the Two informations, described second information is used for pointing out in described water environment and there is drowning incident.

As the optional embodiment of one, in embodiment of the present invention first aspect, described alarm signal includes described Primary importance and described sensing data, described sensing data include the user for described wearable device heart rate data, At least one in temperature data, exercise data and pressure data.

Embodiment of the present invention second aspect discloses a kind of wearable device, and described wearable device includes micro-control molding Block, soaked detection module, sensor assembly, the first memory module, communication module and power management module, wherein, described electricity Source control module be described micro-control module, described soaked detection module, described sensor assembly, described first memory module with And described communication module powers, wherein:

Described soaked detection module, is used for detecting whether described wearable device is in water environment, obtains testing result；

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

Described micro-control module, for indicating the environment residing for described wearable device to be described water when described testing result During environment, obtain described sensing data, and judge described sensing data whether with the presetting of storage in described first memory module Matching criteria, when judged result is for being, determines that the user of described wearable device is in drowned state, and controls described logical Letter module sends the alarm signal for described drowned state at least one alarm platform pre-set；

Described communication module, for sending described alarm signal at least one alarm platform described.

As the optional embodiment of one, in embodiment of the present invention second aspect, described wearable device also includes Second memory module；

Described micro-control module, is additionally operable to the transmission state obtaining described communication module for described alarm signal, and works as When described transmission state indicates described alarm signal to send unsuccessfully, described sensing data is stored in described second memory module In；

Described second memory module, is used for storing described sensing data.

As the optional embodiment of one, in embodiment of the present invention second aspect, described wearable device also includes Locating module and output module；

Described locating module, for indicating the environment residing for described wearable device to be described water ring when described testing result During border, position the primary importance residing for described water environment；

Described micro-control module, is additionally operable to judge whether described primary importance is one of them in the first predeterminated position, When judged result is for being, controlling described output module and export the first information, described first information is used for pointing out institute Stating primary importance is drowning incident spot, and after the preset time period after exporting described first information being detected When described wearable device is still in the described water environment of described primary importance, triggers and perform the described sensing data of described acquisition Operation.

As the optional embodiment of one, in embodiment of the present invention second aspect, described micro-control module, it is additionally operable to When the environment residing for described testing result indicates described wearable device is described water environment, obtains described wearable device and exist The second position in described water environment and the direction of motion, and when any position in the described second position with the second predeterminated position Distance less than or equal to predeterminable range and the described direction of motion towards described any position time, trigger and perform the described biography of described acquisition The operation of sense data.

As the optional embodiment of one, in embodiment of the present invention second aspect, described wearable device also includes Taking module；

Described micro-control module, be additionally operable to when described sensing data with described pre-conditioned do not match that time, start described Taking module, and control the execution shooting operation of described taking module, obtain video；

Described micro-control module, is additionally operable to extract the characteristic information in described video, and whether judges described characteristic information Match with default characteristic information, when judged result is for being, controls described output module and export the second information, described Two informations are used for pointing out in described water environment and there is drowning incident.

As the optional embodiment of one, in embodiment of the present invention second aspect, described alarm signal includes described Primary importance and described sensing data, described sensing data include the user for described wearable device heart rate data, At least one in 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 Survey result, when the environment residing for testing result instruction wearable device is water environment, obtain sensor die in wearable device The sensing data of block record also judges whether sensing data matches, if so, with the pre-conditioned of storage in the first memory module Then micro-control module determine the user of wearable device be in drowned state and control in wearable device communication module to extremely A few alarm platform sends the alarm signal for drowned state.Visible, implementing the embodiment of the present invention can be by wearable Micro-control module in equipment carries out drowned monitoring to the user of wearable device, and when the user monitoring wearable device drowns During water, the communication module that micro-control module directly controls in wearable device sends alarm signal to alarm platform, it is not necessary to by Other auxiliary device can complete drowned monitoring and reports to the police and do not limited by the spacing of wearable device with alarm platform, carries The high general applicability of drowned monitoring technology.

Accompanying drawing explanation

For the technical scheme being illustrated more clearly that in the embodiment of the present invention, below by use required in embodiment Accompanying drawing is briefly described, it should be apparent that, the accompanying drawing in describing below is only some embodiments of the present invention, for ability From the point of view of the those of ordinary skill of territory, on the premise of not paying creative work, it is also possible to obtain the attached of other according to these accompanying drawings Figure.

Fig. 1 is the schematic flow sheet of a kind of drowned monitoring method based on wearable device disclosed in the embodiment of the present invention；

Fig. 2 is the flow process signal of another kind of drowned monitoring method based on wearable device disclosed in the embodiment of the present invention Figure；

Fig. 3 is the structural representation of a kind of wearable device disclosed in the embodiment of the present invention；

Fig. 4 is the structural representation of another kind of wearable device disclosed in the embodiment of the present invention；

Fig. 5 is the structural representation of the embodiment of the present invention another wearable device disclosed.

Detailed description of the invention

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 Describe, it is clear that described embodiment is only a part of embodiment of the present invention rather than whole embodiments wholely.Based on this Embodiment in invention, the every other reality that those of ordinary skill in the art are obtained under not making creative work premise Execute example, broadly fall into the scope of protection of the invention.

The embodiment of the invention discloses a kind of drowned monitoring method based on wearable device and wearable device, it is not necessary to borrow Help other auxiliary device can complete drowned monitoring and report to the police and do not limited by the spacing of wearable device with alarm platform, Improve the general applicability of drowned monitoring technology.

Embodiment one

Referring to Fig. 1, Fig. 1 is the stream of a kind of drowned monitoring method based on wearable device disclosed in the embodiment of the present invention Journey schematic diagram.Wherein, the wearable device that the present embodiments relate to can be intelligent watch, Intelligent bracelet, watch phone, intelligence Energy foot ring, intelligence earrings, intelligence any one wearable device such as necklace, intelligent earphone, the embodiment of the present invention is not construed as limiting, and The wearable device that the present embodiments relate at least includes micro-control module, soaked detection module, sensor assembly, first deposits Storage module, communication module and power management module, wherein, power management module is micro-control module, soaked detection module, biography Sensor module, the first memory module and communication module are powered.As it is shown in figure 1, should drowned monitoring side based on wearable device Method may comprise steps of:

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

In the embodiment of the present invention, this testing result is used for indicating whether wearable device is in water environment, when this detection When result instruction wearable device is in water environment, triggers and perform step 102；When this testing result indicates wearable device not When being in water environment, can continue executing with step 101, wherein, water environment refers to swimming pool, river, lake and sea Etc. the environment that can swim or exist a large amount of aqueous water.

In the embodiment of the present invention, the unlatching for drowned monitoring function inputted as the user receiving wearable device refers to After order, the module that wearable device is opened in drowned monitoring function, i.e. wearable device is started working；Or, when detecting When the air humidity of wearable device local environment exceedes default humidity threshold, it is attached that wearable device determines that it is in water environment Closely, then automatically generate the open command for drowned monitoring function, and open drowned monitoring function according to this open command, Module in wearable device is started working.

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

In the embodiment of the present invention, when the environment residing for wearable device is water environment, sensor assembly real time record or Every the preset time period recording needle sensing data to the user of wearable device, wherein, this sensing data can include heart rate Data (i.e. beats), for indicating the exercise data of movement tendency of the user of wearable device (such as the direction of motion, motion Acceleration etc.), temperature data (i.e. user's body temperature) and pressure data (pressure that i.e. user is suffered in current water environment) etc. The combination of one or more, the embodiment of the present invention does not limits.

103, micro-control module judge above-mentioned sensing data whether with the pre-conditioned phase of storage in the first memory module Join.

In the embodiment of the present invention, when in step 103, micro-control module judges above-mentioned sensing data and pre-conditioned phase Timing, triggers and performs step 104；When in step 103 micro-control module judge above-mentioned sensing data with pre-conditioned mutually Timing, can trigger execution step 102.

In the embodiment of the present invention, in the first memory module, the pre-conditioned of storage can be that all ages and classes layer user is corresponding Pre-conditioned, pre-conditioned and old user corresponding to user pre-conditioned, middle aged as corresponding in teenager user is corresponding Pre-conditioned etc., it is also possible to being corresponding pre-conditioned of the user of the different sexes of all ages and classes layer, the embodiment of the present invention is not done Limit.

As the optional embodiment of one, micro-control module judge above-mentioned sensing data whether with in the first memory module Storage pre-conditioned match may include that

Micro-control module judges in predetermined number the data of above-mentioned sensing data, whether each data are in these data pair In the preset range answered, if, it is determined that above-mentioned sensing data matches with pre-conditioned, if not, it is determined that above-mentioned sensing number Do not match that according to pre-conditioned.

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

As the optional embodiment of another kind, the first memory module can also store pre-set for wearing Wearing the drowned algorithm of age level belonging to the user of equipment, wherein, this drowned algorithm can be should to count by alarm platform Pertinent sensor data when age level user occurs drowned carries out learning and obtaining, and now, micro-control module judges above-mentioned biography Whether sense data match with storage pre-conditioned in the first memory module and may include that

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

In the range of micro-control module judges whether this output valve is in default output valve, if, it is determined that sensing data with Pre-conditioned match, if not, it is determined that sensing data does not matches that with pre-conditioned.So by drowning that study in advance obtains Water algorithm carries out the mode of drowned monitoring to the user of wearable device can improve the drowned accuracy monitored.

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

In the embodiment of the present invention, this alarm signal is for pointing out the monitoring personnel of alarm platform to there is drowning incident, optional , this alarm signal can include above-mentioned sensing data, in order to the monitoring personnel of alarm platform analyze according to above-mentioned sensing data The condition of wearable device user, and then take to rescue accordingly measure, further alternative, this alarm signal is all right Position including above-mentioned water environment, in order to the monitoring personnel of alarm platform get the spot of drowning incident intuitively, and then Accelerate rescue speed.

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

As the optional embodiment of one, wearable device can also include the second memory module, power management module It is similarly the second memory module to power, and drowned monitoring method based on wearable device should can also include following operation:

Micro-control module obtains the above-mentioned communication module transmission state for above-mentioned alarm signal, wherein, this transmission state For indicating whether above-mentioned communication module is successfully transmitted above-mentioned alarm signal.

When this transmission state instruction above-mentioned communication module above-mentioned alarm signal of unsuccessful transmission or above-mentioned alarm signal send During failure, the sensing data of the sensor module record is stored in the second memory module by micro-control module.

In this optional embodiment, micro-control module control communication module at least one alarm platform or to can After the mobile device of wearable device binding sends alarm signal, if communication module receives any one alarm platform or any One mobile device return for the answer signal of above-mentioned alarm signal time, micro-control module determines that above-mentioned alarm signal sends Success；If communication module does not receives the answer signal of any alarm platform and the return of any mobile device, micro-control molding Block determines that above-mentioned alarm signal sends unsuccessfully, and the sensing data of the sensor module record is stored second by micro-control module In memory module, form the black box of wearable device, in order to follow-up drown user according to the data analysis of record in black box State during drowning incident occurs, and during for improving drowned monitoring technology or improving generation drowning incident, the self-saving ability of user carries Supply theoretical foundation.

Visible, implementing the method described by Fig. 1 can be by the micro-control module in wearable device to wearable device User carry out drowned monitoring, and when the user monitoring wearable device drowns, micro-control module directly controls wearable Communication module in equipment sends alarm signal to alarm platform, it is not necessary to by other auxiliary device can complete drowned monitoring and Report to the police and do not limited by the spacing of wearable device with 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 kind of drowned monitoring method based on wearable device disclosed in the embodiment of the present invention Schematic flow sheet.Wherein, the wearable device that the present embodiments relate to can be intelligent watch, Intelligent bracelet, watch phone, Intelligent foot ring, intelligence earrings, intelligence any one wearable device such as necklace, intelligent earphone, the embodiment of the present invention is not construed as limiting, And the wearable device that the present embodiments relate at least include 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, its In, power management module be micro-control module, soaked detection module, sensor assembly, the first memory module, communication module, Two memory modules, locating module, output module and taking module are powered.As in figure 2 it is shown, should be based on wearable device drowned Monitoring method may comprise steps of:

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

In the embodiment of the present invention, this testing result is used for indicating whether wearable device is in water environment, when this detection When result instruction wearable device is in water environment, triggers and perform step 202；When this testing result indicates wearable device not When being in water environment, can continue executing with step 201, wherein, water environment refers to swimming pool, river, lake and sea Etc. the environment that can swim or exist a large amount of aqueous water.

202, micro-control module obtains the primary importance residing for 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 judged result of step 202 is for being, micro-control module determines the use of wearable device Water environment residing for family be drowning incident multiplely, and trigger execution step 203；When the judged result of step 202 is no, can To terminate this flow process, it is also possible to trigger and perform step 207.

In the embodiment of the present invention, the first memory module can be previously stored with the concrete position of multiple drowning incident spot Put.

203, micro-control module control output module exports the first information.

In the embodiment of the present invention, this first information is for pointing out the water of the above-mentioned primary importance of user of wearable device Environment is drowning incident spot, in order to the user of wearable device decides whether to select to continue above-mentioned the according to practical situation The water environment of one position carries out the activities such as swimming.

204, after micro-control module judges the preset time period after output module exports above-mentioned first information In moment wearable device whether water environment still in above-mentioned primary importance.

In the embodiment of the present invention, when the judged result of step 204 is for being, micro-control module determines the use of wearable device It is movable that family is continued in the water environment of above-mentioned primary importance, and triggers execution step 205；When the judged result of step 204 is no Time, micro-control module determines the water environment of the already out above-mentioned primary importance of the user of wearable device, can terminate this flow process.

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

In the embodiment of the present invention, the first memory module can be previously stored with the three-dimensional of the water environment of above-mentioned primary importance Space coordinates scope and the reference position of the datum mark as this three dimensional space coordinate scope, micro-control module get Two positions can specifically one three-dimensional coordinate being in the range of this three dimensional space coordinate, the embodiment of the present invention does not limits.

206, micro-control module judges that said second position is the least with the distance of any position in the second predeterminated position In equal to predeterminable range and the above-mentioned direction of motion whether towards this any position.

In the embodiment of the present invention, the first memory module can also be previously stored with in the water environment of above-mentioned primary importance easily There is the three-dimensional coordinate of multiple particular locations of drowning incident, position as deep in water or the water-bed long position having a lot of weeds Put.When the judged result of step 206 is for being, i.e. when wearable device second in the water environment of above-mentioned primary importance Rest against the nearly particular location of easily generation drowning incident and the direction of motion of wearable device towards the concrete of drowning incident easily occurs During position, trigger and perform step 207；When the judged result of step 206 is no, micro-control module determines the use of wearable device Safety zone in the water environment of above-mentioned primary importance, the family carries out activity, can continue to trigger performing step 205.

207, 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 is water environment, sensor assembly real time record or Every the preset time period recording needle sensing data to the user of wearable device, wherein, this sensing data can include heart rate Data (i.e. beats), for indicating the exercise data of movement tendency of the user of wearable device (such as the direction of motion, motion Acceleration etc.), temperature data (i.e. user's body temperature) and pressure data (pressure that i.e. user is suffered in current water environment) etc. The combination of one or more, the embodiment of the present invention does not limits.

208, micro-control module judge above-mentioned sensing data whether with the pre-conditioned phase of storage in the first memory module Join.

In the embodiment of the present invention, when the judged result of step 208 is for being, triggers and perform step 209；When step 208 When judged result is no, triggers and perform step 212.

As the optional embodiment of one, micro-control module judge above-mentioned sensing data whether with in the first memory module Storage pre-conditioned match may include that

Micro-control module judges in predetermined number the data of above-mentioned sensing data, whether each data are in these data pair In the preset range answered, if, it is determined that above-mentioned sensing data matches with pre-conditioned, if not, it is determined that above-mentioned sensing number Do not match that according to pre-conditioned.

As the optional embodiment of another kind, the first memory module can also store pre-set for wearing Wearing the drowned algorithm of age level belonging to the user of equipment, wherein, this drowned algorithm can be should to count by alarm platform Pertinent sensor data when age level user occurs drowned carries out learning and obtaining, and now, micro-control module judges above-mentioned biography Whether sense data match with storage pre-conditioned in the first memory module and may include that

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

In the range of micro-control module judges whether this output valve is in default output valve, if, it is determined that sensing data with Pre-conditioned match, if not, it is determined that sensing data does not matches that with pre-conditioned.So by drowning that study in advance obtains Water algorithm carries out the mode of drowned monitoring to the user of wearable device can improve the drowned accuracy monitored.

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

In the embodiment of the present invention, this alarm signal is for pointing out the monitoring personnel of alarm platform to there is drowning incident, optional , this alarm signal can include at least one in above-mentioned sensing data, above-mentioned primary importance and said second position, with Just the monitoring personnel of alarm platform get the spot of drowning incident intuitively and the particular location of drowning incident occur, and enter And accelerate to rescue speed.

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

210, micro-control module obtains the communication module transmission state for above-mentioned alarm signal.

In the embodiment of the present invention, this transmission state is used for indicating whether above-mentioned communication module is successfully transmitted above-mentioned alarm signal Number.

211, when above-mentioned transmission state indicates above-mentioned alarm signal to send unsuccessfully, sensor assembly is remembered by micro-control module The sensing data of record is stored in the second memory module.

In the embodiment of the present invention, the sensing data of the sensor module record is stored the second storage by micro-control module In module, formed wearable device black box, in order to follow-up according in black box record data analysis drown user occur State after drowning incident, during for improving drowned monitoring technology or improving generation drowning incident, the self-saving ability of user provides Theoretical foundation.

212, micro-control module starts taking module, and controls taking module execution shooting operation, obtains video.

213, 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 judged result of step 213 is for being, micro-control module determines in current water environment deposits At the drowning incident of other users, and trigger execution step 213；When the judged result of step 213 is no, can continue to trigger Perform step 205.

Concrete, micro-control module can extract the image feature information of each two field picture of above-mentioned video, and judges to carry The image feature information got whether with the figure being in drowned state for characterizing user that prestores in the first memory module As characteristic information matches, the most then micro-control module determines that current water environment exists the drowning incident of other users.

214, micro-control module control output module exports the second information.

In the embodiment of the present invention, this second information is in its residing water environment of user pointing out wearable device Storage is in other users of drowned state, in order to other users being in drowned state are implemented to rescue by the user of wearable device Help operation or operation of reporting to the police.

As the optional embodiment of one, before performing step 209, should drowned monitoring side based on wearable device Method can also include following operation:

Micro-control module controls output module output the 3rd information, and wherein, the 3rd information can for prompting Whether the user of wearable device sends alarm signal at least one alarm platform；

When receiving the confirmation for the 3rd information or being not received in certain period of time When the confirmation message of three informations or refuse information, trigger and perform step 209.

This optional embodiment can either prevent drowned monitoring by mistake, can be in dusk the user that drowning incident occurs again Automatically send alarm signal during fan's state, reduce the risk that drowning accident occurs.

Visible, implementing the method described by Fig. 2 can be by the micro-control module in wearable device to wearable device User carry out drowned monitoring, and when the user monitoring wearable device drowns, micro-control module directly controls wearable Communication module in equipment sends the particular location alarm signal including sensing data with drowning incident occurring, energy to alarm platform Enough accelerate drowning rescue efficiency, it is not necessary to drowned monitoring can be completed by other auxiliary device and report to the police and not by wearable device With the restriction of the spacing of alarm platform, improve drowning rescue efficiency and the general applicability of drowned monitoring technology, and energy Enough prevent drowned monitoring by mistake.

Embodiment three

Referring to Fig. 3, Fig. 3 is the structural representation of a kind of wearable device disclosed in the embodiment of the present invention.Wherein, Fig. 3 Shown wearable device 300 can be intelligent watch, Intelligent bracelet, watch phone, Intelligent foot ring, intelligence earrings, intelligence item Any one wearable device such as chain, intelligent earphone, the embodiment of the present invention is not construed as limiting.As it is shown on figure 3, this wearable device 300 can include micro-control module 301, soaked detection module 302, sensor assembly the 303, 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 the 303, first storage Module 304 and communication module 305 are powered.

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

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

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 of sensor assembly 303 record, and judge the sensing data that gets whether with in the first memory module 304 The pre-conditioned of storage matches, and when judged result is for being, determines that the user of wearable device 300 is in drowned state, and Control communication module 305 and send the alarm signal for this drowned state at least one alarm platform pre-set.

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

Visible, implementing the wearable device 300 described by Fig. 3 can be by 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 monitoring wearable device 300 drowns, micro-control The communication module 305 that molding block 301 directly controls in wearable device 300 sends alarm signal to alarm platform, it is not necessary to by Other auxiliary device can complete drowned monitoring and reports to the police and do not limited by the spacing of wearable device 300 with alarm platform System, improves drowning rescue efficiency and the general applicability of drowned monitoring technology

As the optional embodiment of one, wearable device 300 can also include the second memory module 307, now, and can The structure of wearable device 300 can as shown in Figure 4, and Fig. 4 is the structure of another kind of wearable device disclosed in the embodiment of the present invention Schematic diagram.Wherein:

Micro-control module 301 can be also used for the transmission state obtaining communication module 305 for above-mentioned alarm signal, and works as When this transmission state indicates above-mentioned alarm signal to send unsuccessfully, the sensing data that the sensor assembly 303 got records is deposited Storage is in the second memory module 307, and the i.e. second memory module 307 is for storage sensor under the control of micro-control module 301 The sensing data of module 303 record.

As the optional embodiment of another kind, wearable device 300 can also include locating module 308, output module 309 and taking module 310, now, the structure of wearable device 300 can as it is shown in figure 5, Fig. 5 to be the embodiment of the present invention public The structural representation of another wearable device opened.Wherein:

Locating module 308 indicates the environment residing for wearable device 300 for the testing result when soaked detection module 302 During for water environment, under the control of micro-control module 301, position the primary importance residing for this water environment.

Micro-control module 301 can be also used for judging that whether above-mentioned primary importance is wherein in the first predeterminated position Individual, when judged result is for being, controls output module 309 and export the first information, this first information is for prompting the One position is drowning incident spot, and in when detecting after the preset time period after exporting this first information When wearable device 300 is still in the water environment of primary importance, can directly trigger the above-mentioned acquisition sensor assembly 303 of execution and remember The operation of the sensing data of record, or obtain the wearable device 300 second position in water environment and the direction of motion, and work as This second position is less than or equal to predeterminable range and the direction of motion towards this with the distance of any position in the second predeterminated position During one position, trigger the operation of the sensing data performing above-mentioned acquisition sensor assembly 303 record.

Micro-control module 301 can be also used for when the sensing data got with above-mentioned pre-conditioned do not match that time, open Dynamic taking module 310, and control taking module 310 and perform shooting operation and obtain video, extract the characteristic information in this video also Judge whether this feature information matches with the default characteristic information in the first memory module 304, when judged result is for being, control Output module 309 processed exports the second information, and this second information is for pointing out the user of wearable device 300 residing for it Water environment in there is the drowning incident of other users.

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

Heart rate sensor module 3031 is for recording the heart rate data of the user of wearable device 300.

Body temperature trans module 3032 is for recording the temperature data of the user of wearable device 300.

Pressure sensor module 3033 is for recording the pressure suffered by user of wearable device 300.

Action sensor module 3034 is used for recording acceleration and the direction of motion of the user of wearable device 300, its In, this acceleration and the direction of motion are for indicating the movement tendency of the user of wearable device 300.

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

As the optional embodiment of one, control communication module 305 to pre-setting at least in micro-control module 301 Before one alarm platform sends the alarm signal for this drowned state, micro-control module 301 can be also used for controlling output Module 305 exports the 3rd information, wherein, the 3rd information for point out the user of wearable device 300 whether to At least one alarm platform sends warning message, and disappears when wearable device 300 receives the confirmation for the 3rd information When ceasing or be not received in certain period of time the refuse information of the 3rd information or confirm message, trigger execution above-mentioned Control communication module 305 and send the behaviour of the alarm signal for this drowned state at least one alarm platform pre-set Make.

This optional embodiment can either prevent drowned monitoring by mistake, can be in dusk the user that drowning incident occurs again Automatically send alarm signal during fan's state, reduce the risk that drowning accident occurs.

It should be noted that in actual 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)/GPRS (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 Completing instructing relevant hardware by program, this program can be stored in a computer-readable recording 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), read-only optical disc (Compact Disc Read-Only Memory, CD-ROM) or other disk storages, disk memory, magnetic tape storage or can For carrying or store any other medium computer-readable of data.

Above to drowned monitoring method based on wearable device a kind of disclosed in the embodiment of the present invention and wearable device Being described in detail, principle and the embodiment of the present invention are set forth by specific case used herein, above reality The explanation executing example is only intended to help to understand method and the core concept thereof of the present invention；General technology simultaneously for this area Personnel, according to the thought of the present invention, the most all will change, in sum, and this theory Bright book content should not be construed as limitation of the present invention.

Claims (12)

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

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

When the environment residing for described testing result indicates described wearable device is water environment, described micro-control module obtains institute State the sensing data of sensor assembly record, and judge described sensing data whether with storage pre-in described first memory module If matching criteria；

When described sensing data with described pre-conditioned match time, described micro-control module determines the use of described wearable device Family is in drowned state, and controls described communication module at least one alarm platform transmission pre-set for described drowned The alarm signal of state.

Method the most according to claim 1, it is characterised in that described wearable device also includes the second memory module, institute Method of stating also includes:

Described micro-control module obtains the described communication module transmission state for described alarm signal；

When described transmission state indicates described alarm signal to send unsuccessfully, described sensing data is stored by described micro-control module In described second memory module.

Method the most according to claim 1 and 2, it is characterised in that described wearable device also include locating module and Output module；

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

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

When judged result is for being, described micro-control module controls described output module and exports the first information, and described first It is drowning incident spot that information is used for pointing out described primary importance, when detecting after exporting described first information Preset time period after described wearable device still in the described water environment of described primary importance time, trigger and obtain described in performing Take the operation of the sensing data of described sensor assembly record.

Method the most according to claim 1 and 2, it is characterised in that when described testing result indicates described wearable device When residing environment is described water environment, before described micro-control module obtains the sensing data of described sensor assembly record, Described method also includes:

Described micro-control module obtains the described wearable device second position in described water environment and the direction of motion, works as institute State the distance of any position in the second position and the second predeterminated position less than or equal to predeterminable range and the described direction of motion towards During described any position, trigger the operation of the sensing data performing described acquisition described sensor assembly record.

Method the most according to claim 3, it is characterised in that described wearable device also includes taking module, described side Method also includes:

When described sensing data with described pre-conditioned do not match that time, described micro-control module start described taking module, and Control described taking module and perform shooting operation, obtain video；

Described micro-control module extracts the characteristic information in described video, and judges whether described characteristic information is believed with default feature Manner of breathing mates, and when described characteristic information matches with described default characteristic information, controls described output module output second and carries Show that information, described second information are used for pointing out in described water environment and there is drowning incident.

Method the most according to claim 3, it is characterised in that described alarm signal includes described primary importance and described Sensing data, described sensing data includes the heart rate data of the user for described wearable device, temperature data, exercise data And at least one in pressure data.

7. a wearable device, described wearable device include micro-control module, soaked detection module, sensor assembly, One memory module, communication module and power management module, wherein, described power management module is described micro-control module, institute Stating soaked detection module, described sensor assembly, described first memory module and described communication module to power, its feature exists In,

Described soaked detection module, is used for detecting whether described wearable device is in water environment, obtains testing result；

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

Described micro-control module, for indicating the environment residing for described wearable device to be described water environment when described testing result Time, obtain described sensing data, and judge described sensing data whether with storage pre-conditioned in described first memory module Match, when judged result is for being, determines that the user of described wearable device is in drowned state, and control described communication mould Block sends the alarm signal for described drowned state at least one alarm platform pre-set；

Described communication module, for sending described alarm signal at least one alarm platform described.

Wearable device the most according to claim 7, it is characterised in that described wearable device also includes the second storage mould Block；

Described micro-control module, is additionally operable to the transmission state obtaining described communication module for described alarm signal, and when described When transmission state indicates described alarm signal to send unsuccessfully, described sensing data is stored in described second memory module；

Described second memory module, is used for storing described sensing data.

9. according to the wearable device described in claim 7 or 8, it is characterised in that described wearable device also includes positioning mould Block and output module；

Described locating module, for indicating the environment residing for described wearable device to be described water environment when described testing result Time, position the primary importance residing for described water environment；

Described micro-control module, is additionally operable to judge whether described primary importance is one of them in the first predeterminated position, when sentencing When disconnected result is for being, controlling described output module and export the first information, described first information is used for pointing out described the One position is drowning incident spot, and described after the preset time period after exporting described first information being detected When wearable device is still in the described water environment of described primary importance, trigger the behaviour performing the described sensing data of described acquisition Make.

10., according to the wearable device described in claim 7 or 8, it is characterised in that described micro-control module, it is additionally operable to work as institute State testing result instruction environment residing for described wearable device when being described water environment, obtain described wearable device described The second position in water environment and the direction of motion, and when any position in the described second position and the second predeterminated position away from From during less than or equal to predeterminable range and the described direction of motion towards described any position, trigger and perform described acquisition described sensing number According to operation.

11. wearable devices according to claim 9, it is characterised in that described wearable device also includes taking module；

Described micro-control module, be additionally operable to when described sensing data with described pre-conditioned do not match that time, start described shooting Module, and control the execution shooting operation of described taking module, obtain video；

Described micro-control module, is additionally operable to extract the characteristic information in described video, and judge described characteristic information whether with in advance If characteristic information matches, when judged result is for being, controlling described output module and export the second information, described second carries Show that information exists drowning incident for pointing out in described water environment.

12. wearable devices according to claim 9, it is characterised in that described alarm signal includes described primary importance And described sensing data, described sensing data include the heart rate data of the user for described wearable device, temperature data, At least one in exercise data and pressure data.