CN107634774A - A kind of communication means and wearable device based on built-in aerial - Google Patents
A kind of communication means and wearable device based on built-in aerial Download PDFInfo
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- CN107634774A CN107634774A CN201710861122.3A CN201710861122A CN107634774A CN 107634774 A CN107634774 A CN 107634774A CN 201710861122 A CN201710861122 A CN 201710861122A CN 107634774 A CN107634774 A CN 107634774A
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Abstract
A kind of communication means and wearable device based on built-in aerial, including:Wearable device detects centered on the present position of wearable device, using distance to a declared goal as the trusted device in the region of radius and the available frequency band that is pre-configured with from wearable device in obtain the available frequency used in region that each trusted device is configured as the provisional communication frequency of the built-in aerial of wearable device, for sending distress signals.Implement the embodiment of the present invention, can be when the personal safety of user be threatened by whether natural cause or human factor, wearable device sends the current location of user to trusted device, so as to the current location for the user that the user of trusted device can be provided by wearable device, corresponding measure is taken to succour user in time, farthest the personal safety for user provides reliable guarantee, and substantially increases wearable device in the reliability of aspect that ensures safety.
Description
Technical field
The present invention relates to antenna technical field, and in particular to a kind of communication means based on built-in aerial and wearable sets
It is standby.
Background technology
With the fast development of modern society, people, which have, just starts to pursue that " upper strata is built after certain " economic base "
Build ", wherein, mountain climbing expedition is as a kind of activity that can take exercises, improve constitution, already as the industry of increasing people
Remaining hobby.So somebody's spare time can have on wearable device and carry out mountain climbing expedition, wearable device ensure that people logical
Cross and be unlikely to get lost in the wild while mountain climbing expedition is taken exercises, still, during mountain climbing expedition, wearable device is only
The function only with guide direction is that deficiency thinks that the personal safety of user provides safeguard, and reduces wearable device and exist
The reliability for the aspect that ensures safety.
The content of the invention
The embodiment of the invention discloses a kind of communication means and wearable device based on built-in aerial, it is possible to increase can wear
Equipment is worn in the reliability of aspect that ensures safety.
First aspect of the embodiment of the present invention discloses a kind of communication means based on built-in aerial, and methods described includes:
Wearable device detects the region centered on the present position of the wearable device, using distance to a declared goal as radius
In whether there is at least one trusted device;If it does, the wearable device is pre-configured with from the wearable device
Available frequency band in obtain the available frequency used in the region that each described trusted device is configured as institute
State the provisional communication frequency of the built-in aerial of wearable device;
The wearable device obtains user's physiological parameter of the wearing user of the wearable device;
The wearable device judges whether the health of the wearing user occurs according to user's physiological parameter
Abnormal, in the event of exception, the wearable device controls the built-in aerial to be sent out on each described provisional communication frequency
Distress signals are sent, the distress signals include the present position of the wearable device.
As an alternative embodiment, in first aspect of the embodiment of the present invention, the wearable device detection with
Centered on the present position of the wearable device, using distance to a declared goal as the region of radius in whether there is at least one trusted
Equipment, including:
The wearable device is scanned centered on the present position of the wearable device, with specified by built-in aerial
Distance is that whether there is at least one external equipment in the region of radius;
If there is at least one external equipment, detect and whether there is at least one at least one external equipment
Individual target device;Wherein, at least one target device is stored with the default database of the wearable device to be configured
The available frequency used in the region, what what each described target device was configured used in the region is available
Frequency is respectively positioned in the available frequency band that the wearable device is pre-configured with;And the default database of wearable device
In be also stored with association between the device identification of at least one target device and the device identification of the wearable device
Device map relation;
If there is at least one target device, it is at least one trusted to determine at least one target device
Equipment.
As an alternative embodiment, in first aspect of the embodiment of the present invention, the wearable device controls institute
State built-in aerial and send distress signals on each described provisional communication frequency, including:
All provisional communication frequencies are ranked up by the wearable device, obtain provisional communication frequency sequence;
Wherein, provisional communication frequency pair of the sequence closer to the provisional communication frequency sequence front end in the provisional communication frequency sequence
The trusted device answered and the distance between the wearable device are nearer;
The wearable device controls the built-in aerial every successively since the provisional communication frequency sequence front end
Distress signals are sent on one provisional communication frequency.
As an alternative embodiment, in first aspect of the embodiment of the present invention, the wearable device obtains institute
User's physiological parameter of the wearing user of wearable device is stated, including:
The wearable device is detected described in the wearing user of the wearable device by bio-electrical impedance sensor
User's physiological parameter, user's physiological parameter include heart rate, respiratory rate and CGR index, and the bio-electrical impedance passes
Sensor is located at the outside of the wearable device contact side for wearing user's skin.
As an alternative embodiment, in first aspect of the embodiment of the present invention, the wearable device is according to institute
State user's physiological parameter and judge whether the health of the wearing user occurs exception, including:
The wearable device judges whether the heart rate reaches HR min threshold value, whether the respiratory rate reaches minimum
Whether respiratory rate threshold value and the CGR index reach minimum CGR index threshold;
If the heart rate is not up to the HR min threshold value, or the respiratory rate is not up to the minimum respiratory rate
Threshold value, or the CGR index are not up to the minimum CGR index threshold, then the wearable device determines
The health for wearing user occurs abnormal.
Second aspect of the embodiment of the present invention discloses a kind of wearable device, and the wearable device includes:
Detection unit, for detecting centered on the present position of the wearable device, using distance to a declared goal as radius
It whether there is at least one trusted device in region;
First acquisition unit, for detecting the present position using the wearable device in the detection unit
The heart, using distance to a declared goal as the region of radius at least one trusted device be present after, match somebody with somebody in advance from the wearable device
The available frequency conduct used in the region that each described trusted device is configured is obtained in the available frequency band put
The provisional communication frequency of the built-in aerial of the wearable device;
Second acquisition unit, user's physiological parameter of the wearing user for obtaining the wearable device;
Judging unit, it is different whether the health for judging the wearing user according to user's physiological parameter occurs
Often;
Control unit, after exception occurs for the health for judging the wearing user in the judging unit,
The built-in aerial is controlled to send distress signals on each described provisional communication frequency, the distress signals can including described in
The present position of wearable device.
As an alternative embodiment, in second aspect of the embodiment of the present invention, the detection unit, including:
Subelement is scanned, for being scanned by built-in aerial centered on the present position of the wearable device, with finger
Set a distance is that whether there is at least one external equipment in the region of radius;
Detection sub-unit, for it is described scanning subelement scanning centered on the present position of the wearable device,
After at least one external equipment being present in using distance to a declared goal as the region of radius, detecting at least one external equipment is
It is no at least one target device to be present;Wherein, it is stored with least one mesh in the default database of the wearable device
The available frequency used in the region that marking device is configured, each described target device be configured in the region
The available frequency inside used is respectively positioned in the available frequency band that the wearable device is pre-configured with;And the wearable device
The device identification of at least one target device and the equipment mark of the wearable device are also stored with default database
Associate device mapping relations between knowledge;
First determination subelement, for existing extremely in detecting at least one external equipment in the detection sub-unit
After a few target device, it is at least one trusted device to determine at least one target device.
As an alternative embodiment, in second aspect of the embodiment of the present invention, described control unit, including:
Sort subelement, for all provisional communication frequencies to be ranked up, obtains provisional communication frequency sequence;
Wherein, provisional communication frequency pair of the sequence closer to the provisional communication frequency sequence front end in the provisional communication frequency sequence
The trusted device answered and the distance between the wearable device are nearer;
Subelement is controlled, for since the provisional communication frequency sequence front end, controlling the built-in aerial to exist successively
Distress signals are sent on each described provisional communication frequency.
As an alternative embodiment, in second aspect of the embodiment of the present invention, the second acquisition unit, specifically
For the user's physiological parameter for the wearing user that the wearable device is detected by bio-electrical impedance sensor, the use
Family physiological parameter includes heart rate, respiratory rate and CGR index, and the bio-electrical impedance sensor is positioned at described wearable
The outside of the equipment contact side for wearing user's skin.
As an alternative embodiment, in second aspect of the embodiment of the present invention, the judging unit, including:
Judgment sub-unit, for judging whether the heart rate reaches HR min threshold value, whether the respiratory rate reaches most
Whether low respiratory rate threshold value and the CGR index reach minimum CGR index threshold;
Second determination subelement, for judging that the heart rate is not up to the HR min threshold in the judgment sub-unit
Value, either the respiratory rate be not up to the minimum respiratory rate threshold value or the CGR index be not up to it is described minimum
After CGR index threshold, determine that exception occurs for the health of the wearing user.
Compared with prior art, the embodiment of the present invention has the advantages that:
In the embodiment of the present invention, (heart rate, respiratory rate and skin electricity are anti-by detecting the physiological parameter of user for wearable device
Answer index) vital sign of user is monitored in real time, when physiological parameter (heart rate, respiratory rate and the CGR of user
Index) at least one parameter when being less than lowest threshold, you can the vital sign of wearable device default user is too low, then can wear
Wear equipment by currently available all frequency ranges according to being used in the region of being configured of the trusted device
Distress signals can be sent to trusted device by the use of frequency as the provisional communication frequency of the built-in aerial of the wearable device,
The trusted device can be the same clique companion of travelling.That is, when the personal safety of user is by whether natural cause
Or during the threat of human factor, wearable device sends same clique companion of the current location to travelling of user, so that will pass through can
The current location for the user that wearable device provides, takes corresponding measure to succour user in time.It can be seen that implement the present invention
Embodiment, can be when the personal safety of user be threatened by whether natural cause or human factor, wearable device
The current location of user is sent to trusted device, can be provided so as to the user of trusted device by wearable device
The current location of user, takes corresponding measure to succour user in time, is farthest carried for the personal safety of user
Reliable guarantee has been supplied, and has substantially increased wearable device in the reliability of aspect that ensures safety.
Brief description of the drawings
Technical scheme in order to illustrate the embodiments of the present invention more clearly, it will use below required in embodiment
Accompanying drawing is briefly described, it should be apparent that, drawings in the following description are only some embodiments of the present invention, for ability
For the those of ordinary skill of domain, on the premise of not paying creative work, it can also be obtained according to these accompanying drawings other attached
Figure.
Fig. 1 is a kind of schematic flow sheet of the communication means based on built-in aerial disclosed in the embodiment of the present invention;
Fig. 2 is the schematic flow sheet of communication means of the another kind disclosed in the embodiment of the present invention based on built-in aerial;
Fig. 3 is a kind of structural representation of wearable device disclosed in the embodiment of the present invention;
Fig. 4 is the structural representation of another wearable device disclosed in the embodiment of the present invention;
Fig. 5 is the structural representation of another wearable device disclosed in the embodiment of the present invention;
Fig. 6 is the structural representation of another wearable device disclosed in the embodiment of the present invention.
Embodiment
Below in conjunction with the accompanying drawing in the embodiment of the present invention, the technical scheme in the embodiment of the present invention is carried out clear, complete
Site preparation describes, it is clear that described embodiment is only part of the embodiment of the present invention, rather than whole embodiments.Based on this
Embodiment in invention, the every other reality that those of ordinary skill in the art are obtained under the premise of creative work is not made
Example is applied, belongs to the scope of protection of the invention.
It should be noted that term " comprising " and " having " and their any changes in the embodiment of the present invention and accompanying drawing
Shape, it is intended that cover non-exclusive include.Such as contain the process of series of steps or unit, method, system, product or
The step of equipment is not limited to list or unit, but alternatively also include the step of not listing or unit, or it is optional
Ground is also included for the intrinsic other steps of these processes, method, product or equipment or unit.
The embodiment of the invention discloses a kind of communication means and wearable device based on built-in aerial, it is possible to increase can wear
Equipment is worn in the reliability of aspect that ensures safety.It is described in detail individually below.
Embodiment one
Referring to Fig. 1, Fig. 1 is a kind of flow signal of communication means based on built-in aerial disclosed in the embodiment of the present invention
Figure.It may comprise steps of as shown in figure 1, being somebody's turn to do the communication means based on built-in aerial:
101st, wearable device detects the region centered on the present position of wearable device, using distance to a declared goal as radius
In whether there is at least one trusted device, if it is, perform step 102, if it is not, then perform step 101.
In the embodiment of the present invention, the wearable device can control the trusted in built-in aerial detection preset range to set
Standby, the preset range is centered on the current position of wearable device and distance to a declared goal is whether there is in the region of radius
At least one trusted device.For example, during trip, the user of wearable device can rely on the wearable device
The user using distance to a declared goal as at least one trusted device of radius centered on the present position of user is same trip
The equipment of partner in row group, when being caused danger to prevent user, it can inform that the people of colleague avoids that accident occurs in time.If can
Wearable device equipment detects any one trusted device, you can triggering performs step 102, if wearable device does not detect
To any one trusted device, step 101 is still performed.
In the embodiment of the present invention, the built-in aerial of wearable device can be by the high frequency electric in the circuit of wearable device
Or the guided wave (Electromagnetic wave guide line) on feeding transmission line is converted into certain polarized electromagnetic wave
(polarization of electromagnetic wave), to receive the electromagnetic wave on assigned direction
(Electromagnetic wave), and radiate the electromagnetic wave energy concentrated in the direction indicated.Wherein, guided wave
(Electromagnetic wave guide line) is that whole or most electromagnetic energies are constrained in limited cross section
Along the electromagnetic wave for determining direction transmission;Polarized electromagnetic wave (polarization of electromagnetic wave) can solve
It is interpreted as, the orientation of electromagnetic wave electric-field intensity and the property of amplitude time to time change, is referred to as polarizing in optics, if this change
Change with the rule determined, then electromagnetic wave is referred to as polarized electromagnetic wave (abbreviation polarized wave);Electromagnetic wave (Electromagnetic
Wave), it is by deriving the concussion particle ripple launched in space with magnetic field with phase and mutually perpendicular electric field, is the shape with fluctuation
The electromagnetic field that formula is propagated, has duality principle, and electromagnetic wave is in space by in-phase oscillation and mutually perpendicular electric field and magnetic field
In moved in the form of ripple, perpendicular to electric field kind electromagnetic wave, speed is fixed in a vacuum for its direction of propagation, and speed is the light velocity, electromagnetism
The adjoint direction of an electric field of ripple, magnetic direction, direction of propagation three is orthogonal, therefore electromagnetic wave is shear wave.
102nd, each trusted device quilt is obtained in the available frequency band that wearable device is pre-configured with from wearable device
Provisional communication frequency of the available frequency used in region of configuration as the built-in aerial of wearable device.
In the embodiment of the present invention, when wearable device is detected centered on the present position of wearable device, with specified
After is at least one trusted device being present in the region of radius in distance, wearable device can by get it is all can
The available frequency that what trusted devices were configured use in region, and wearable set using all available frequencies got as this
The provisional communication frequency of standby built-in aerial, then trigger and perform step 103.For example, the user of wearable device is in certain region
During tourism, the wearable device is by least one trusted device of different squads in the travel party got in this region
Provisional communication frequency of the available frequency used as the wearable device, causes danger for the user in wearable device
When, the user of notice trusted device that can be accurately and timely.
103rd, wearable device obtains user's physiological parameter of the wearing user of wearable device.
In the embodiment of the present invention, the wearable device can wear the outer of the side of user's skin by the wearable contact
The bio-electrical impedance sensor in portion detects current user's physiological parameter (heart rate, respiratory rate and CGR index).Institute
So that performing step 103 can realize that user's physiological parameter (heart rate, respiratory rate and the CGR of user are worn in monitoring in real time
Index) function.
104th, whether the health that wearable device judges to wear user according to user's physiological parameter occurs exception, if
It is then to perform step 105, if it is not, then performing step 103.
In the embodiment of the present invention, user's physiological parameter (heart of the wearing user of wearable device is got in step 103
Rate, respiratory rate and CGR index) after, the wearable device can according to user's physiological parameter (heart rate, respiratory rate with
And CGR index) judge whether the health of wearing user occurs exception.For example, the wearable device can be sentenced
Whether disconnected heart rate reaches whether HR min threshold value, respiratory rate reach minimum respiratory rate threshold value and whether CGR index reaches
To minimum CGR index threshold, if heart rate has reached HR min threshold value, respiratory rate and has also reached minimum respiratory rate threshold
Value and CGR index have also reached minimum CGR index threshold, i.e. three has reached threshold corresponding to the three
Value, then, the wearable device then determines to wear the health no exceptions of user, that is, performs step 103;If heart rate
Not up to HR min threshold value or respiratory rate is not up to minimum respiratory rate threshold value, or CGR index is not up to minimum
CGR index threshold, as long as meeting at least one condition in above three condition, the wearable device then determines to wear
Exception occurs for the health for wearing user, that is, performs step 105.Wear user's so performing step 104 and can monitor in real time
Current physical condition, and corresponding operation is performed according to the current physical condition for wearing user, it ensure that the person for wearing user
Safety, wearable device is improved in the reliability of aspect that ensures safety.
105th, wearable device control built-in aerial sends distress signals, distress signals on each provisional communication frequency
Present position including wearable device.
In the embodiment of the present invention, judge that the health for wearing user is sent out according to user's physiological parameter in wearable device
After raw exception, wearable device can control built-in aerial by all provisional communication frequencies for getting to the institute detected
There is trusted device to send distress signals.Wherein, distress signals can include wearing the current location of user, wear working as user
Preceding user's physiological parameter and the emergency content (such as SOS) editted in advance.So performing step 105 can use wearing
When the personal safety at family is threatened by whether natural cause or human factor, that is, the vital sign of user is worn less than just
Ordinary water usually, sends distress signals in time, improves wearable device in the reliability of aspect that ensures safety.
It can be seen that implementing the method described by Fig. 1, the wearable device can be from the available frequency that wearable device is pre-configured with
The built-in day of the available frequency used in region that each trusted device is configured as wearable device is obtained in section
The provisional communication frequency of line, for when the user of wearable device causes danger, notice trusted that can be accurately and timely is set
Standby user;The wearable device can also obtain user's physiological parameter (heart rate, the respiratory rate of the wearing user of wearable device
And CGR index) so that user's physiological parameter that the wearable device can monitor wearing user in real time (heart rate, is exhaled
Suction rate and CGR index);The wearable device can also be according to user's physiological parameter (heart rate, respiratory rate and skin electricity
Index of Response) judge whether the health for wearing user occurs exception, and performed according to the current physical condition for wearing user
Corresponding operation, ensure that the personal safety for wearing user;The wearable device can also user current physical condition it is different
Chang Shi, control built-in aerial send distress signals to default mobile terminal according to optimal interim frequency range and (such as wear the family of user
The mobile terminal of category), wearable device is improved in the reliability of aspect that ensures safety.
Embodiment two
Referring to Fig. 2, the flow that Fig. 2 is communication means of the another kind disclosed in the embodiment of the present invention based on built-in aerial is shown
It is intended to.It may comprise steps of as shown in Fig. 2 being somebody's turn to do the communication means based on built-in aerial:
201st, wearable device detects the region centered on the present position of wearable device, using distance to a declared goal as radius
In whether there is at least one trusted device, if it is, perform step 202, if it is not, then perform step 201.
As an alternative embodiment, wearable device detection centered on the present position of wearable device, with
Distance to a declared goal may comprise steps of to whether there is at least one trusted device in the region of radius:
Wearable device is scanned centered on the present position of wearable device, using distance to a declared goal as half by built-in aerial
It whether there is at least one external equipment in the region in footpath;
If there is at least one external equipment, detect at least one external equipment and set with the presence or absence of at least one target
It is standby;Wherein, be stored with that at least one target device is configured in the default database of wearable device uses in region
Frequency can be used, the available frequency that what each target device was configured use in region is respectively positioned on wearable device and is pre-configured with
Available frequency band in;And the device identification of at least one target device is also stored with the default database of wearable device
Associate device mapping relations between the device identification of wearable device;
If there is at least one target device, it is at least one trusted device to determine at least one target device.
It can be seen that the optional embodiment can be by determining trusted device, accurately in the target device scanned
Trusted device quickly is identified, the safety of the user for the wearable device protected to a certain extent.
202nd, each trusted device quilt is obtained in the available frequency band that wearable device is pre-configured with from wearable device
Provisional communication frequency of the available frequency used in region of configuration as the built-in aerial of wearable device.
In the embodiment of the present invention, each is obtained in the available frequency band that wearable device is pre-configured with from wearable device
Provisional communication frequency of the available frequency that what trusted device was configured use in region as the built-in aerial of wearable device
After point, triggering performs step 203.
203rd, wearable device detects user's physiology of the wearing user of wearable device by bio-electrical impedance sensor
Parameter, user's physiological parameter include heart rate, respiratory rate and CGR index, and bio-electrical impedance sensor is set positioned at wearable
The outside of the side of user's skin is worn in standby contact.
In the embodiment of the present invention, the wearable device can detect the pendant of wearable device by bio-electrical impedance sensor
User's physiological parameter of user is worn, user's physiological parameter includes heart rate, respiratory rate and CGR index.So perform step
Rapid 203 can monitor heart rate, respiratory rate and the CGR index for wearing user in real time.
In the embodiment of the present invention, bio-electrical impedance sensor is related to bio-electrical impedance measuring (ElectricaI
BioimPedance Measurement), wherein, bio-electrical impedance measuring (ElectricaI BioimPedance
Measurement), or abbreviation resistance technique, it is a kind of to utilize the extraction of the electrical characteristics and its changing rule of biological tissue and organ
The detection technique of the biomedical information related to Human Physiology, pathological condition.It is generally by the electrode system for being placed in body surface
Unite and be sent into a small AC measurment curtage to detection object, detect corresponding electrical impedance and its change, then basis
Different application purposes, obtain the physiology and pathological information of correlation.
204th, wearable device judges whether heart rate reaches whether HR min threshold value, respiratory rate reach minimum respiratory rate threshold
Whether value and CGR index reach minimum CGR index threshold, if it is, step 203 is performed, if it is not, then
Perform step 205.
In the embodiment of the present invention, the wearable device may determine that whether heart rate reaches HR min threshold value, respiratory rate is
It is no to reach minimum respiratory rate threshold value and whether CGR index reaches minimum CGR index threshold.So perform step
Rapid 204 can implement to the health for assessing wearing user in concrete numerical value, be sentenced by the judgement operation of wearable device
Whether the health of disconnected wearing user is normal, and the personal safety for user to a certain extent provides guarantee.
205th, it is abnormal to determine that the health for wearing user occurs for wearable device.
In the embodiment of the present invention, heart rate is not up to HR min threshold value or respiratory rate is not up to minimum respiratory rate threshold value,
Or CGR index is not up to minimum CGR index threshold, as long as meeting at least one in above three condition
Condition, it is abnormal that the wearable device then determines that the health for wearing user occurs, and triggers and perform step 206.
206th, wearable device control built-in aerial sends distress signals, distress signals on each provisional communication frequency
Present position including wearable device.
As an alternative embodiment, wearable device control built-in aerial is sent out on each provisional communication frequency
Distress signals are sent, distress signals include the present position of wearable device, may comprise steps of:
All provisional communication frequencies are ranked up by wearable device, obtain provisional communication frequency sequence;Wherein, temporarily
In the frequency sequence that communicates trusted device corresponding to provisional communication frequency of the sequence closer to provisional communication frequency sequence front end with
The distance between wearable device is nearer;
Wearable device controls built-in aerial in each provisional communication successively since provisional communication frequency sequence front end
Distress signals are sent on frequency.
It can be seen that the optional embodiment wearable device wearable can be set according to corresponding to provisional communication frequency with this
Standby distance, it is first sent in provisional communication frequency sequence and sorts near the provisional communication of provisional communication frequency sequence leading portion
Trusted device corresponding to frequency, then by distress signals with provisional communication frequency sequence permutation by closely being sent to remote order to facing
Trusted device corresponding to Shi Tongxin frequencies, the embodiment can be when user cause danger, and quick send to trusted sets
It is standby, the position of the user of wearable device is informed, so as to timely rescue of the user to wearable device user of trusted device.
It can be seen that implementing the method described by Fig. 2, the wearable device can be from the available frequency that wearable device is pre-configured with
The built-in day of the available frequency used in region that each trusted device is configured as wearable device is obtained in section
The provisional communication frequency of line, for when the user of wearable device causes danger, notice trusted that can be accurately and timely is set
Standby user;The wearable device can also obtain heart rate, respiratory rate and the CGR of the wearing user of wearable device
Index so that the wearable device can monitor heart rate, respiratory rate and the CGR index for wearing user in real time;This can wear
Wear equipment can also be judged according to heart rate, respiratory rate and CGR index wear user health whether occur it is different
Often, and according to the current physical condition for wearing user corresponding operation is performed, ensure that the personal safety for wearing user;This can wear
Wearing equipment can also quickly and accurately identify that trusted is set by determining trusted device in the target device scanned
It is standby, the safety of the user for the wearable device protected to a certain extent;The wearable device can also be according to provisional communication frequency
The distance of wearable device and the wearable device corresponding to point, be first sent in provisional communication frequency sequence sequence near
Trusted device corresponding to the provisional communication frequency of provisional communication frequency sequence leading portion, then by distress signals with provisional communication frequency
For sequence permutation as closely being sent to remote order to trusted device corresponding to provisional communication frequency, the embodiment can be in user
It is quick to send the position for trusted device, informing the user of wearable device when causing danger, so as to the use of trusted device
Timely rescue of the family to wearable device user;The wearable device can also be controlled in the current physical condition exception of user
Built-in aerial processed sends distress signals to (such as the movement for the family members for wearing user of default mobile terminal according to optimal interim frequency range
Terminal), wearable device is improved in the reliability of aspect that ensures safety.
Embodiment three
Referring to Fig. 3, Fig. 3 is a kind of structural representation of wearable device disclosed in the embodiment of the present invention.Such as Fig. 3 institutes
Show, the wearable device can include:
Detection unit 301, for detecting the area centered on the present position of wearable device, using distance to a declared goal as radius
It whether there is at least one trusted device in domain.
First acquisition unit 302, for being detected in detection unit 301 centered on the present position of wearable device,
After at least one trusted device being present in using distance to a declared goal as the region of radius, it is pre-configured with from wearable device available
The available frequency used in region that each trusted device is configured is obtained in frequency range as built in wearable device
The provisional communication frequency of antenna.
Second acquisition unit 303, user's physiological parameter of the wearing user for obtaining wearable device.
Whether judging unit 304, the health for judging to wear user according to user's physiological parameter occur exception.
Control unit 305, for after judging unit 304 judges that exception occurs for the health for wearing user, controlling
Built-in aerial processed distress signals, distress signals on each provisional communication frequency include the present position of wearable device.
It can be seen that the wearable device described by implementing Fig. 3, first acquisition unit 302 can be matched somebody with somebody in advance from wearable device
The available frequency used in region that each trusted device is configured is obtained in the available frequency band put to set as wearable
The provisional communication frequency of standby built-in aerial, for when the user of wearable device causes danger, can be accurately and timely it is logical
Know the user of trusted device;Second acquisition unit 303 can also obtain user's physiology ginseng of the wearing user of wearable device
Number (heart rate, respiratory rate and CGR index) so that the wearable device can monitor the user's life for wearing user in real time
Manage parameter (heart rate, respiratory rate and CGR index);Judging unit 304 (heart rate, can also exhale according to user's physiological parameter
Suction rate and CGR index) judge whether the health for wearing user occurs exception, and according to the current of wearing user
Health performs corresponding operation, ensure that the personal safety for wearing user;Control unit 305 can also be in the current of user
During health exception, control built-in aerial sends distress signals to default mobile terminal according to optimal interim frequency range and (such as worn
Wear the mobile terminal of the family members of user), wearable device is improved in the reliability of aspect that ensures safety.
Example IV
Referring to Fig. 4, Fig. 4 is the structural representation of another wearable device disclosed in the embodiment of the present invention.Wherein, scheme
Wearable device shown in 4 is that wearable device as shown in Figure 3 optimizes what is obtained.With the wearable device shown in Fig. 3
Compare, in the wearable device shown in Fig. 4, detection unit 301 can include:
Subelement 3011 is scanned, for being scanned by built-in aerial centered on the present position of wearable device, with finger
Set a distance is that whether there is at least one external equipment in the region of radius.
Detection sub-unit 3012, for being scanned in scanning subelement 3011 centered on the present position of wearable device,
After at least one external equipment being present in using distance to a declared goal as the region of radius, detect at least one external equipment and whether deposit
In at least one target device, wherein, it is stored with least one target device in the default database of wearable device and is configured
The available frequency used in region, the available frequency that what each target device was configured use in region is respectively positioned on can
In the available frequency band that wearable device is pre-configured with, and, also it is stored with least one mesh in the default database of wearable device
Associate device mapping relations between the device identification of marking device and the device identification of wearable device.
First determination subelement 3013, for existing extremely in detecting at least one external equipment in detection sub-unit 3012
After a few target device, it is at least one trusted device to determine at least one target device.
Control unit 305 can include:
Sort subelement 3051, for all provisional communication frequencies to be ranked up, obtains provisional communication frequency sequence,
Wherein, it is credible corresponding to provisional communication frequency of the sequence closer to provisional communication frequency sequence front end in provisional communication frequency sequence
Appoint equipment and the distance between wearable device nearer.
Subelement 3052 is controlled, for since provisional communication frequency sequence front end, controlling built-in aerial successively each
Distress signals are sent on individual provisional communication frequency.
Second acquisition unit 303, the wearing user specifically for detecting wearable device by bio-electrical impedance sensor
User's physiological parameter, user's physiological parameter includes heart rate, respiratory rate and CGR index, bio-electrical impedance sensor position
The outside for the side for wearing user's skin is contacted in wearable device.
It can be seen that implementing the wearable device described by Fig. 4, first acquisition unit 302 can be matched somebody with somebody in advance from wearable device
The available frequency used in region that each trusted device is configured is obtained in the available frequency band put to set as wearable
The provisional communication frequency of standby built-in aerial, for when the user of wearable device causes danger, can be accurately and timely it is logical
Know the user of trusted device;Second acquisition unit 303 can also obtain user's physiology ginseng of the wearing user of wearable device
Number (heart rate, respiratory rate and CGR index) so that the wearable device can monitor the user's life for wearing user in real time
Manage parameter (heart rate, respiratory rate and CGR index);Judging unit 304 (heart rate, can also exhale according to user's physiological parameter
Suction rate and CGR index) judge whether the health for wearing user occurs exception, and according to the current of wearing user
Health performs corresponding operation, ensure that the personal safety for wearing user;Control unit 305 can also be in the current of user
During health exception, control built-in aerial sends distress signals to default mobile terminal according to optimal interim frequency range and (such as worn
Wear the mobile terminal of the family members of user), wearable device is improved in the reliability of aspect that ensures safety;Scan subelement
3011st, the determination subelement 3013 of detection sub-unit 3012 and first can be credible by being determined in the target device scanned
Appoint equipment, quickly and accurately identify trusted device, the safety of the user for the wearable device protected to a certain extent;Row
Sequence subelement 3051 and control subelement 3052 can the wearable device according to corresponding to provisional communication frequency it is wearable with this
The distance of equipment, it is first sent to sequence in provisional communication frequency sequence and leads near the interim of provisional communication frequency sequence leading portion
Believe frequency corresponding to trusted device, then by distress signals with provisional communication frequency sequence permutation by closely to remote order send to
Trusted device corresponding to provisional communication frequency, the embodiment can be quick to send to trusted when user causes danger
Equipment, inform the position of the user of wearable device, so as to trusted device user to the timely battalion of wearable device user
Rescue.
Embodiment five
Referring to Fig. 5, Fig. 5 is the structural representation of another wearable device disclosed in the embodiment of the present invention.Wherein, scheme
Wearable device shown in 5 is that wearable device as shown in Figure 4 optimizes what is obtained.With the wearable device phase shown in 4
Compare, in the wearable device shown in Fig. 5, judging unit 304 can include:
Judgment sub-unit 3041, exhaled for judging whether heart rate reaches HR min threshold value, respiratory rate and whether reach minimum
Whether suction rate threshold value and CGR index reach minimum CGR index threshold.
Second determination subelement 3042, for judging that heart rate is not up to HR min threshold value in judgment sub-unit 3041,
Either respiratory rate be not up to minimum respiratory rate threshold value or CGR index be not up to minimum CGR index threshold it
Afterwards, it is determined that exception occurs for the health for wearing user.
It can be seen that implementing the wearable device described by Fig. 5, first acquisition unit 302 can be matched somebody with somebody in advance from wearable device
The available frequency used in region that each trusted device is configured is obtained in the available frequency band put to set as wearable
The provisional communication frequency of standby built-in aerial, for when the user of wearable device causes danger, can be accurately and timely it is logical
Know the user of trusted device;Second acquisition unit 303 can also obtain user's physiology ginseng of the wearing user of wearable device
Number (heart rate, respiratory rate and CGR index) so that the wearable device can monitor the user's life for wearing user in real time
Manage parameter (heart rate, respiratory rate and CGR index);Judging unit 304 (heart rate, can also exhale according to user's physiological parameter
Suction rate and CGR index) judge whether the health of wearing user occurs exception, wherein, the He of judgment sub-unit 3041
Determination subelement 3042 can perform corresponding operation according to the current physical condition for wearing user, ensure that the people for wearing user
Body safety;Control unit 305 can also control built-in aerial according to optimal interim frequency in the current physical condition exception of user
Section sends distress signals to default mobile terminal (such as wearing the mobile terminal of the family members of user), improves wearable device and exists
The reliability for the aspect that ensures safety;Scanning subelement 3011, the determination subelement 3013 of detection sub-unit 3012 and first can
By determining trusted device in the target device scanned, trusted device is quickly and accurately identified, to a certain degree
The safety of the user of the wearable device of upper protection;Sequence subelement 3051 and control subelement 3052 can be according to interim logical
Believe the distance of wearable device and the wearable device corresponding to frequency, be first sent in provisional communication frequency sequence and sort most
Trusted device corresponding to provisional communication frequency close to provisional communication frequency sequence leading portion, then by distress signals with provisional communication
For frequency sequence permutation as closely being sent to remote order to trusted device corresponding to provisional communication frequency, the embodiment can be
It is quick to send the position for trusted device, informing the user of wearable device when user causes danger, so as to trusted device
Timely rescue of the user to wearable device user.
Embodiment six
Referring to Fig. 6, Fig. 6 is the structural representation of another wearable device disclosed in the embodiment of the present invention.Such as Fig. 6 institutes
Show, the wearable device can include:
It is stored with the memory 601 of executable program code;
The processor 602 coupled with memory 601;
Wherein, processor 602 calls the executable program code stored in memory 601, and it is any one to perform Fig. 1 or Fig. 2
Communication means of the kind based on built-in aerial.
The embodiment of the present invention discloses a kind of computer-readable recording medium, and it stores computer program, wherein, the computer
Program causes computer to perform any one communication means based on built-in aerial of Fig. 1 or Fig. 2.
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
To instruct the hardware of correlation to complete by program, the program can be stored in a computer-readable recording medium, storage
Medium include read-only storage (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 storage (One-
Time Programmable Read-Only Memory, OTPROM), the electronics formula of erasing can make carbon copies read-only storage
(Electrically-Erasable Programmable Read-Only Memory, EEPROM), read-only optical disc (Compact
Disc Read-Only Memory, CD-ROM) or other disk storages, magnetic disk storage, magnetic tape storage or can
For carrying or any other computer-readable medium of data storage.
A kind of communication means and wearable device based on built-in aerial disclosed in the embodiment of the present invention are carried out above
It is discussed in detail, specific case used herein is set forth to the principle and embodiment of the present invention, above example
Illustrate to be only intended to help the method and its core concept for understanding the present invention;Meanwhile for those of ordinary skill in the art, according to
According to the thought of the present invention, there will be changes in specific embodiments and applications, in summary, this specification content
It should not be construed as limiting the invention.
Claims (10)
1. a kind of communication means based on built-in aerial, it is characterised in that methods described includes:
Wearable device detect centered on the present position of the wearable device, using distance to a declared goal as the region of radius in be
It is no at least one trusted device to be present;
If it does, obtained in the available frequency band that the wearable device is pre-configured with from the wearable device described in each
The available frequency used in the region the facing as the built-in aerial of the wearable device that trusted device is configured
Shi Tongxin frequencies;
The wearable device obtains user's physiological parameter of the wearing user of the wearable device;
The wearable device judges whether the health of the wearing user occurs exception according to user's physiological parameter,
In the event of exception, the wearable device controls the built-in aerial to send emergency on each described provisional communication frequency
Information, the distress signals include the present position of the wearable device.
2. according to the method for claim 1, it is characterised in that the wearable device detection is with the wearable device
Centered on present position, using distance to a declared goal as the region of radius in whether there is at least one trusted device, including:
The wearable device is scanned centered on the present position of the wearable device, with distance to a declared goal by built-in aerial
To whether there is at least one external equipment in the region of radius;
If there is at least one external equipment, detect at least one external equipment and whether there is at least one mesh
Marking device;Wherein, be stored with that at least one target device is configured in the default database of the wearable device
The available frequency used in the region, the available frequency used in the region that each described target device is configured
It is respectively positioned in the available frequency band that the wearable device is pre-configured with;And in the default database of wearable device also
The associate device being stored between the device identification of at least one target device and the device identification of the wearable device
Mapping relations;
If there is at least one target device, determine that at least one target device sets at least one trusted
It is standby.
3. according to the method for claim 2, it is characterised in that the wearable device controls the built-in aerial each
Distress signals are sent on the individual provisional communication frequency, including:
All provisional communication frequencies are ranked up by the wearable device, obtain provisional communication frequency sequence;Wherein,
In the provisional communication frequency sequence corresponding to provisional communication frequency of the sequence closer to the provisional communication frequency sequence front end
Trusted device and the distance between the wearable device are nearer;
The wearable device controls the built-in aerial at each successively since the provisional communication frequency sequence front end
Distress signals are sent on the provisional communication frequency.
4. according to the method described in any one of claims 1 to 3, it is characterised in that can be worn described in the wearable device acquisition
User's physiological parameter of the wearing user of equipment is worn, including:
The wearable device detects the user of the wearing user of the wearable device by bio-electrical impedance sensor
Physiological parameter, user's physiological parameter include heart rate, respiratory rate and CGR index, the bio-electrical impedance sensor
Positioned at the outside of the wearable device contact side for wearing user's skin.
5. according to the method for claim 4, it is characterised in that the wearable device is sentenced according to user's physiological parameter
Whether the disconnected health for wearing user occurs exception, including:
The wearable device judges whether the heart rate reaches HR min threshold value, whether the respiratory rate reaches minimum breathing
Whether rate threshold value and the CGR index reach minimum CGR index threshold;
If the heart rate is not up to the HR min threshold value, or the respiratory rate is not up to the minimum respiratory rate threshold
Value, or the CGR index are not up to the minimum CGR index threshold, then the wearable device determines institute
State the health generation exception for wearing user.
6. a kind of wearable device, it is characterised in that the wearable device includes:
Detection unit, for detecting the region centered on the present position of the wearable device, using distance to a declared goal as radius
In whether there is at least one trusted device;
First acquisition unit, for being detected in the detection unit centered on the present position of the wearable device, with
Distance to a declared goal for radius region at least one trusted device be present after, from the wearable device be pre-configured with can
Can described in by the use of the available frequency used in the region that each described trusted device is configured is obtained in frequency range
The provisional communication frequency of the built-in aerial of wearable device;
Second acquisition unit, user's physiological parameter of the wearing user for obtaining the wearable device;
Judging unit, for judging whether the health of the wearing user occurs exception according to user's physiological parameter;
Control unit, after exception occurs for the health for judging the wearing user in the judging unit, control
The built-in aerial sends distress signals on each described provisional communication frequency, and the distress signals include described wearable
The present position of equipment.
7. wearable device according to claim 6, it is characterised in that the detection unit, including:
Scan subelement, for being scanned by built-in aerial centered on the present position of the wearable device, with specify away from
From whether there is at least one external equipment in the region for radius;
Detection sub-unit, for being scanned in the scanning subelement centered on the present position of the wearable device, with finger
After set a distance is has at least one external equipment in the region of radius, detect and whether deposited at least one external equipment
In at least one target device;Wherein, at least one target is stored with the default database of the wearable device to set
The standby available frequency used in the region being configured, what each described target device was configured makes in the region
Available frequency is respectively positioned in the available frequency band that the wearable device is pre-configured with;And the wearable device is preset
Database in be also stored with least one target device device identification and the wearable device device identification it
Between associate device mapping relations;
First determination subelement, for having at least one in detecting at least one external equipment in the detection sub-unit
After individual target device, it is at least one trusted device to determine at least one target device.
8. wearable device according to claim 7, it is characterised in that described control unit, including:
Sort subelement, for all provisional communication frequencies to be ranked up, obtains provisional communication frequency sequence;Its
In, provisional communication frequency of the sequence closer to the provisional communication frequency sequence front end is corresponding in the provisional communication frequency sequence
Trusted device and the distance between the wearable device it is nearer;
Subelement is controlled, for since the provisional communication frequency sequence front end, controlling the built-in aerial successively each
Distress signals are sent on the individual provisional communication frequency.
9. according to the wearable device described in any one of claim 6~8, it is characterised in that the second acquisition unit, specifically
For the user's physiological parameter for the wearing user that the wearable device is detected by bio-electrical impedance sensor, the use
Family physiological parameter includes heart rate, respiratory rate and CGR index, and the bio-electrical impedance sensor is positioned at described wearable
The outside of the equipment contact side for wearing user's skin.
10. wearable device according to claim 9, it is characterised in that the judging unit, including:
Judgment sub-unit, for judging whether the heart rate reaches HR min threshold value, whether the respiratory rate reaches minimum exhales
Whether suction rate threshold value and the CGR index reach minimum CGR index threshold;
Second determination subelement, for judging that the heart rate is not up to the HR min threshold value in the judgment sub-unit,
Either the respiratory rate is not up to the minimum respiratory rate threshold value or the CGR index is not up to the minimum skin electricity
After index of Response threshold value, determine that exception occurs for the health of the wearing user.
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