CN105629783B - Wearable device, portable device and corresponding control methods - Google Patents
Wearable device, portable device and corresponding control methods Download PDFInfo
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- CN105629783B CN105629783B CN201510820793.6A CN201510820793A CN105629783B CN 105629783 B CN105629783 B CN 105629783B CN 201510820793 A CN201510820793 A CN 201510820793A CN 105629783 B CN105629783 B CN 105629783B
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Abstract
The present invention discloses the control method and portable device of a kind of wearable device, portable device.Wearable device includes:Multiple sensors;Wireless communication unit, for being communicated with the electronic equipment with multiple sensors;And control unit, for receiving at least one sensing data from the electronic equipment by the wireless communication unit, the sensing data that at least one of at least one sensing data of the electronic equipment and described sensor of the wearable device generate is compared, to generate comparison result, and determine whether the electronic equipment is in sensing state according to the comparison result.Whether wearable device disclosed in this invention can more accurately determine electronic equipment under the control in user by comparing the sensing data of wearable device and electronic equipment.
Description
Technical field
The present invention is controlled about a kind of wearable device in particular to a kind of application sensing data accordingly
The wearable device of system.
Background technology
In order to confirm that electronic equipment (such as mobile phone) is that under the control of the user, the prior art uses a single electronics
The sensor of equipment, to determine electronic equipment whether under the control in user.For example, a kind of based on closely
(proximity-based) or the control method based on position (location-based) can such as global positioning system (GPS)
For judging electronic equipment whether far from user.However, distance does not always imply that electronic equipment is not at the control of user
Under system;If electronic equipment is just leaving user's (such as electronic equipment is to drop to ground), an accelerometer can be used.Example
Such as, when user jumps to lower horizontal plane from higher horizontal plane, electronic equipment may will produce false alarm.Therefore, how
Whether accurate judgement electronic equipment, which belongs to user, is an important issue.
Invention content
In view of this, the present invention provides the control method and portable device of a kind of wearable device, portable device.
An embodiment according to the present invention provides a kind of wearable device, including:Multiple sensors;Wireless communication unit,
For being communicated with the electronic equipment with multiple sensors;And control unit, for passing through the wireless communication unit
Receive at least one sensing data from the electronic equipment, by least one sensing data of the electronic equipment with
The sensing data that at least one of described sensor of the wearable device generates is compared, to generate comparison result,
And determine whether the electronic equipment is in the sensing state of the wearable device according to the comparison result.
Another embodiment according to the present invention provides a kind of control method of portable device, including:From described portable
At least one sensor of equipment obtains sensing data;At least one data are received from electronic equipment;By the electronic equipment
At least one data are compared with the sensing data of the portable device, to generate comparison result;And root
Determine whether the electronic equipment is in the sensing state of the portable device according to the comparison result.
Another embodiment according to the present invention provides a kind of portable device, including:Multiple sensors;Wireless communication is single
Member, for being communicated with the electronic equipment with multiple sensors;Control unit is used at least the one of the electronic equipment
A sensing data is compared with sensing data caused by least one sensor of the portable device, and is generated
Signal is controlled, the control signal indicates at least one sensing data of the electronic equipment and the portable device
The sensing data is either synchronously or asynchronously caused by least one sensor.
Another embodiment according to the present invention, provides a kind of electronic equipment, which is characterized in that including:Multiple sensors;Nothing
Line communication unit, for being communicated with the portable device with multiple sensors;Control unit, being used for will be described portable
At least one sensing data of equipment is carried out with sensing data caused by least one sensor of the electronic equipment
Compare, and generate control signal, the control signal indicates at least one sensing data and the institute of the portable device
It is either synchronously or asynchronously to state the sensing data caused by least one sensor of electronic equipment.
The control method and portable device of wearable device provided by the present invention, portable device, by comparing may be used
The sensing data of wearable device (or portable device) and electronic equipment, can more accurately determine whether electronic equipment is in user
Control under.
For having read subsequently by those skilled in the art of the better embodiment shown by each attached drawing and content
For, each purpose of the invention is apparent.
Description of the drawings
Fig. 1 is the schematic diagram according to the wearable device of one embodiment of the invention.
Fig. 2 is that when electronic equipment is forgotten on car, wearable device and electronics are set according to one embodiment of the invention
The schematic diagram of standby operation.
Fig. 3 is the schematic diagram of the operation of wearable device and electronic equipment when electronic equipment is forgotten on a bus.
Fig. 4 is the schematic diagram of the operation of wearable device and electronic equipment when electronic equipment is fallen on ground.
Fig. 5 is the signal of the operation of wearable device and electronic equipment when wearable device and electronic equipment are stayed at home
Figure.
Fig. 6 is the schematic diagram of the operation of wearable device and electronic equipment when in device search process.
Fig. 7 is the control method flow chart according to the portable device of one embodiment of the invention.
Fig. 8 is the control method flow chart according to the portable device of another embodiment of the present invention.
Specific implementation mode
Some vocabulary has been used in the description to censure specific component.One of skill in the art Ying Keli
Solution, hardware manufacturer may call same component with different nouns.This specification is not made with the difference of title
To distinguish the mode of component, but it is used as the criterion of differentiation with the difference of component functionally.Mentioned by the description "
Including " it is open term, therefore should be construed to " include but is not limited to ".In addition, " coupling " word includes any straight herein
It connects and indirect electrical connection.Therefore, if it is described herein that first device is coupled to second device, then first dress is represented
The second device can be directly electrically connected to by setting, or be electrically connected to second dress indirectly by other devices or connection means
It sets.
Referring to Fig. 1, for according to the schematic diagram of the wearable device 100 of one embodiment of the invention.As shown in Figure 1, can
Wearable device 100 includes that (such as accelerometer 103, noise sense for control unit 101, wireless communication unit 102 and multiple sensors
Device 104, Proximity Sensor (proximity sensor) 105, ambient light sensor 106, barometer 107 and pedometer
108).In the present embodiment, wearable device 100 can be movable tracker (activity tracker), smartwatch, intelligence
It can glasses or other wearable devices.In addition, the sensor mentioned in Fig. 1 is for illustration purposes only, in the another of the present invention
In embodiment, other sensors are possibly added to the part in wearable device 100 or in sensor 103-108 can be from
It is removed in wearable device 100.In addition, control unit 101 can be a processor or any (special) circuit, wireless communication
Unit 102 may include antenna and associated interface circuit.
Wearable device 100 is used for determining whether electronic equipment 110 is in the sensing state (aware of wearable device
Status in), wherein sensing state can be defined as user and can perceive and control electronics 110.For example, when user is in
Middle wearing wearable device 100 because as long as wearable device 100 be at home as long as user should be able to control electronics 110,
Sensing state may be the sensing region in entire house at this time;When user outdoors when, sensing state may be that user is attached
Close sensing region.As shown in Figure 1, electronic equipment 110 includes control unit 111, wireless communication unit 112 and multiple sensors
(such as accelerometer 113, noise transducer 114, Proximity Sensor 115, ambient light sensor 116, barometer 117 and meter step
Device 118.In the present embodiment, electronic equipment 110 can be mobile phone, tablet computer or any other portable electronic device, with
And at least part of sensor is identical as the sensor of wearable device 100 in electronic equipment 110.
At least one sensing data sensed in sensor 113-118 periodically can be passed through nothing by electronic equipment 110
Line communication unit 112 and wireless communication unit 102 are sent to wearable device 100, and control unit 101 can be by electronic equipment 110
Sensing data in sensor 103-108 at least part generate sensing data be compared, it is at least one to generate
Result of the comparison and control unit 101 may determine that whether electronic equipment 110 is in the sensing state of wearable device 100.
Specifically, electronic equipment 110 can be periodically by accelerometer 113, noise transducer 114, Proximity Sensor 115, ring
The sensing data of border optical sensor 116, barometer 117 and pedometer 118 is sent to wearable device 100, and control unit 101 will
The sensing data of accelerometer 113 is compared with the sensing data of accelerometer 103 to generate the first comparison result, by noise
The sensing data of sensor 114 is compared with the sensing data of noise transducer 104 to generate the second comparison result, by low coverage
Sensing data from sensor 115 is tied compared with being compared with the sensing data of Proximity Sensor 105 to generate third
The each comparison result of fruit ... shows the sensing data and electronic equipment 110 that the sensor of wearable device 100 is sensed
Whether the sensing data that sensor is sensed is synchronous or asynchronous (synchronous or asynchronous).So
Afterwards, control unit 101 determines whether electronic equipment 110 is in the sensing of wearable device 110 according at least one comparison result
In state.When determining that electronic equipment 110 is not in sensing state, wearable device 110 can pass through vibration, audible alarm or sudden strain of a muscle
The modes such as light notify user.In addition, when determining that electronic equipment 110 is not in sensing state, wearable device 110 can be with
A control signal is sent to electronic equipment 110, to trigger electronic equipment 110 by vibration, audible alarm or flash of light to logical
Know user.In this way, user can easily find electronic equipment 110.
Since wearable device 100, electronic equipment 110 are located near identical user, the sensor of electronic equipment 110
The sensing data of 113-118 and the sensing data of the sensor 103-108 of wearable device 100 should be that synchronous (i.e. electronics is set
The grade of standby 110 sensing data or the sensing data of variation (a degree or a variation) and wearable device 100
It is similar).Therefore, by using the above method, when electronic equipment 110 is not at sensing state, wearable device 100 can
To notify immediately and accurately user.
It is worth noting that, the sensor shown in wearable device 100 and electronic equipment 110 is given for example only, and
It is not intended to limit the present invention.Sensor in wearable device 100 can be different from the sensor in electronic equipment 110,
Sensing state can be determined by reuse algorithm (scenario algorithms).For example, the whole world of electronic equipment 110 is fixed
Position system determines that user is located at torrid areas in warm weather, but the temperature sensor of wearable device 100 sense it is colder
Temperature.Therefore, the sensor of the sensor of wearable device 100 senses sensing data and electronic equipment 110 senses
Sensing data be it is asynchronous, then user can learn wearable device 100 or electronic equipment 110 not user at one's side.
In addition, the reuse algorithm can be realized not only by sensor.For example, if the calendar event of electronic equipment 110
User is shown in library, but the noise transducer 114 of wearable device 100 determines user in a noisy environment, it therefore, can
Data (such as calendar event) in sensing data and electronic equipment 110 that the sensor of wearable device 100 senses can be determined
To be asynchronous, alarm can be sent out at this time, with the equipment for notifying user to find loss.
Referring to Fig. 2, Fig. 2 is that can be worn according to one embodiment of the invention when electronic equipment 110 is forgotten on car
Wear the schematic diagram of the operation of equipment 100 and electronic equipment 110.With reference to figure 2, when user closes car door but the something lost of electronic equipment 110
When forgetting in vehicle, at least part of sensing data and wearable device in 110 sensor 113-118 of electronic equipment
At least part of sensing data in 100 sensor 103-108 may be asynchronous.For example, adding in electronic equipment 110
Speedometer 113, noise transducer 114, ambient light sensor 116 and barometer 117 sensing data and wearable device 100 in
Accelerometer 103, noise transducer 104, ambient light sensor 106 and barometer 107 sensing data may be asynchronous.
In this embodiment, only show the sensing number of the sensing data and electronic equipment of wearable device when at least two comparison results
According to being asynchronous, wearable device 100 just determines that the electronic equipment 110 is not at the sensing state of wearable device 100, and
Wearable device 100 notifies user and/or wearable device 100 that can also send control signal by vibration or audible alarm
To electronic equipment 110, informed the user that by vibration, audible alarm or flash of light with triggering electronic equipment 110.
Referring to Fig. 3, Fig. 3 is can when electronic equipment 110 is forgotten on a bus according to one embodiment of the invention
The schematic diagram of the operation of wearable device 100 and electronic equipment 110.With reference to figure 3, when user leaves automobile but the something lost of electronic equipment 110
Forget when on bus, at least part of sensing data in 110 sensor 113-118 of electronic equipment is set with wearable
At least part of sensing data in standby 100 sensor 103-108 may be asynchronous.For example, the ring of electronic equipment 110
The ambient light sensor 106 and pedometer 108 of the sensing data of border optical sensor 116 and pedometer 118 and wearable device 100
Sensing data may be asynchronous.In this embodiment, only when comparison result shows that the ambient light of wearable device 100 passes
110 ambient light sensors 116 of the sensing data and electronic equipment of sensor 106 and pedometer 108 and the sensing number of pedometer 118
According to being asynchronous, wearable device 100 just determines that the electronic equipment 110 is not at the sensing state of wearable device 100, and
Wearable device 100 notifies user and/or wearable device 110 that can also send control signal by vibration or audible alarm
To electronic equipment 110, informed the user that by vibration, audible alarm or flash of light with triggering electronic equipment 110.
Referring to Fig. 4, Fig. 4 is wearable device 100 and electronic equipment 110 when electronic equipment 110 is fallen on ground
Operation schematic diagram.With reference to figure 4, electronic equipment 110 is just being fallen on earthward, at this point, the accelerometer of electronic equipment 110
The sensing data of 113 sensing data and the accelerometer 103 of wearable device 100 may be asynchronous.In this embodiment,
When comparison result shows the 113 of 110 accelerometer of sensing data and electronic equipment of the accelerometer 103 of wearable device 100
Sensing data be asynchronous, wearable device 100 determines that the electronic equipment 110 is not at the sensing shape of wearable device 100
State, wearable device 100 notify user to give electronic equipment 110 for change in time.
Referring to Fig. 5, Fig. 5 is the behaviour of wearable device and electronic equipment when wearable device and electronic equipment are stayed at home
The schematic diagram of work.When user at home, although the biography of the sensing data and wearable device 110 of the sensor of electronic equipment 110
The sensing data of sensor may be partial asynchronous, and electronic equipment 110 should be considered in sensing state.Therefore, in the implementation
Example in, control unit 101 can according in comparison result a determining wearable device 100 and electronic equipment 110 whether all exist
In family;When control unit 101 determines wearable device 100 and electronic equipment 110 all at home, no matter other comparison result tables
Whether bright wearable device 110 and the sensing data of electronic equipment 100 are synchronous, and wearable device 100 determines at electronic equipment 110
In sensing state.
In the embodiment shown in fig. 5, control unit 101 can by comparing wearable device 100 WiFi information with
The WiFi information of electronic equipment 110, to determine whether wearable device 100 and electronic equipment 110 all stay at home.Specifically,
Electronic equipment 110 can get the WiFi information such as the access point or beacon that sense, and (substantially, beacon technique can provide phase
The location information of pass), above-mentioned WiFi information can the antenna of unit 112 by radio communication sense, electronic equipment 110 is sent
WiFi information to wearable device 100, with the antenna sense with wireless communication unit 102 to access point or beacon compared
Compared with to generate specific comparison result.When specific comparison result shows that the WiFi information of wearable device and electronic equipment is
Synchronous (for example, wearable device 100 and electronic equipment 110 all sense specific access point or beacon), no matter other compare
Compared with the result shows that whether wearable device 110 and the sensing data of electronic equipment 100 are synchronous, wearable device 100 determines the electricity
Sub- equipment 110 is in sensing state.
Referring to Fig. 6, Fig. 6 be according to one embodiment of the invention when in device search process wearable device
100 and electronic equipment 110 operation schematic diagram.As shown in fig. 6, in device search process, the transmission of wearable device 100 is asked
It asks signal to electronic equipment 110, asks the available sensors in electronic equipment 110;Then electronic equipment 110 is periodically sent out
Send the sensing datas of available sensors to wearable device 100;Wearable device 100 analyzes the sensing data received, with true
It is fixed whether to notify user.In addition, when wearable device 100 determines that sensing data is that asynchronous (i.e. electronic equipment 110 is not at sense
In survey state), wearable device 100 can generate alarm and/or wearable device 100 sends control signal to trigger electronic equipment
To generate alarm.
Referring to Fig. 7, Fig. 7 is according to the portable device of one embodiment of the invention (for example, wearable device, mobile phone, flat
Panel device etc.) control method flow chart.It please refers to Fig.1 and Fig. 7, details are as follows for flow.
Step 700:Sensing data is obtained from least one of portable device sensor.
Step 702:At least one sensing data is received from electronic equipment.
Step 704:At least one sensing data of electronic equipment is compared with the sensing data of mancarried device, with
Generate comparison result.
Step 706:Determine whether electronic equipment is in sensing state according to comparison result.
In another embodiment, electronic equipment 110 is further to determine the biography of wearable device 100 and electronic equipment 110
Whether either synchronously or asynchronously to feel data, i.e., electronic equipment 110 is provided to determine that electronic equipment 110 is to be in wearable device 100
Sensing state in.Specifically, wearable device 100 and electronic equipment 110 can be exchanged through sensor 103-108 and biography
The sensing data of sensor 113-118 sensings, wearable device 100 and electronic equipment 110 can separately determine wearable set
Standby 100 and electronic equipment 110 sensing data whether either synchronously or asynchronously.When wearable device 100 and electronic equipment 110 wherein it
One determines that the sensing data of wearable device 100 and electronic equipment 110 is asynchronous, wearable device 100 and electronic equipment 110
One of them sends out alarm, and sends control signal and generated with triggering wearable device 100 and 110 other in which of electronic equipment
It alarms to notify user.In addition, if all determining sensing data of wearable device 100 and electronic equipment 110 is nonsynchronous, it
Can all generate alarm to notify user.
It is worth noting that, the control unit 111 in electronic equipment 110 is than the control unit 101 in wearable device 100
It is more powerful, therefore electronic equipment 110 can carry out complicated calculating, more accurately to determine the asynchronism of data.
Referring to Fig. 8, Fig. 8 is (such as wearable device, is put down at mobile phone according to the portable device of another embodiment of the present invention
Panel device etc.) control method flow chart.It please refers to Fig.1 and Fig. 8, details are as follows for flow.
Step 800:Sensing data is obtained from least one sensor of portable device.
Step 802:At least one sensing data is received from electronic equipment.
Step 804:One or two of portable device and electronic equipment are determined according to comparison result or control signal
Whether electronic equipment is in sensing state, and wherein comparison result is at least one sensing for comparing electronic equipment by control unit
Sensing data caused by least one of sensor of data and portable device and generate, control signal indicate electronics set
Sensing data caused by least one of standby at least one sensing data and sensor of portable device be it is synchronous or
Asynchronous.
It is briefly summarized, in the wearable device and relevant control method of the present invention, wearable device by comparing may be used
The sensing data of wearable device and electronic equipment come determine electronic equipment whether in user control under.Therefore, with it is existing
Being compared based on short distance or location-based control method in technology, determination method of the invention is more acurrate.
The foregoing is merely the better embodiment of the present invention, all equivalent changes done according to the present invention and modification should all
Belong to the covering scope of the present invention.
Claims (22)
1. a kind of wearable device, which is characterized in that including:
Multiple sensors;
Wireless communication unit, for being communicated with the electronic equipment with multiple sensors;And
Control unit, for receiving at least one sensing data from the electronic equipment by the wireless communication unit,
By at least one of the sensor of at least one sensing data of the electronic equipment and the wearable device
The sensing data of generation is compared, and to generate comparison result, and whether determines the electronic equipment according to the comparison result
Sensing state in the wearable device.
2. wearable device as described in claim 1, which is characterized in that described control unit passes through the wireless communication unit
Receive at least two sensors from the electronic equipment multiple sensing datas and described control unit by the electronics
Multiple sensings that the multiple sensing data of equipment is generated at least two in the sensor of the wearable device
Data are compared, and to generate multiple comparison results, described control unit determines the electronics according to the multiple comparison result
Whether equipment is in the sensing state of the wearable device.
3. wearable device as described in claim 1, which is characterized in that in device search process, the wearable device
Send a request signal to the electronic equipment, with ask in the electronic equipment the available sensor and it is described can
Wearable device starts periodically to receive at least one sensing data from the electronic equipment.
4. wearable device as described in claim 1, which is characterized in that the wearable device and the electronic equipment all wrap
Include at least two in barometer, accelerometer, noise transducer and ambient light sensor and described control unit pass through institute
State wireless communication unit receive the barometer from the electronic equipment, the accelerometer, the noise transducer and
At least two sensing datas generated in the ambient light sensor, described control unit is by the biography of the electronic equipment
Sense data are compared with the sensing data that the sensor of the wearable device generates, to generate at least two ratios
Compared with as a result, and if only if at least two comparison result shows that the sensing data of the wearable device and the electronics are set
The standby sensing data is asynchronous, and the wearable device determines that the electronic equipment is not at the wearable device
The sensing state.
5. wearable device as described in claim 1, which is characterized in that the wearable device and the electronic equipment all wrap
Include pedometer and ambient light sensor, unit receives the meter step of the electronic equipment to described control unit by radio communication
The sensing data that device and the ambient light sensor generate, described control unit by the sensing data of the electronic equipment with
The sensing data of the pedometer of the wearable device and ambient light sensor sensing is compared, to generate two
Comparison result, only when described two comparison results all show that the sensing data of the electronic equipment wearable is set with described
The standby sensing data is asynchronous, and the wearable device determines that the electronic equipment is not at the wearable device
The sensing state.
6. wearable device as described in claim 1, which is characterized in that the wearable device and the electronic equipment all wrap
Accelerometer is included, the accelerometer that described control unit receives the electronic equipment by the wireless communication unit generates
Sensing data, described control unit is by the acceleration of the sensing data of the electronic equipment and the wearable device
The sensing data of degree meter sensing is compared, to generate comparison result, when the comparison result shows the wearable device
The sensing data of the sensing data and the electronic equipment is asynchronous, and the wearable device determines that the electronics is set
The standby sensing state for being not at the wearable device.
7. wearable device as described in claim 1, which is characterized in that described control unit passes through the wireless communication unit
Multiple sensing datas caused by least two sensors of the electronic equipment are received, described control unit sets the electronics
The standby sensing data is compared with the sensing data that at least two sensors of the wearable device generate, with respectively
Multiple comparison results are generated, wherein each comparison result shows the sensing that a sensor of the wearable device is sensed
The sensing data that one sensor of data and the electronic equipment is sensed is either synchronously or asynchronously;It is relatively tied when the multiple
A specific comparison result in fruit shows that the wearable device with the sensing data of the electronic equipment is synchronous, nothing
Show that the sensing data of the wearable device and the electronic equipment is either synchronously or asynchronously institute by other comparison results
It states wearable device and determines that the electronic equipment is in the sensing state of the wearable device.
8. wearable device as claimed in claim 7, which is characterized in that described control unit passes through the wireless communication unit
Receive the WiFi information of the electronic equipment, described control unit is by the WiFi information of reception and the wearable device
WiFi information is compared to generate the specific comparison result.
9. wearable device as claimed in claim 8, which is characterized in that the WiFi information of the electronic equipment includes logical
It includes logical to cross WiFi information described in the access point or beacon and the wearable device that the antenna sense of the electronic equipment arrives
Cross access point or beacon that the antenna sense of the wearable device arrives.
10. wearable device as described in claim 1, which is characterized in that when described control unit determines the electronic equipment
Be not at the sensing state of the wearable device, the wearable device send a control signal to the electronic equipment with
Trigger the operation of the electronic equipment.
11. a kind of control method of portable device, which is characterized in that including:
Sensing data is obtained from least one sensor of the portable device;
At least one data are received from electronic equipment;
At least one data of the electronic equipment are compared with the sensing data of the portable device, with
Generate comparison result;And
Determine whether the electronic equipment is in the sensing state of the portable device according to the comparison result.
12. the control method of portable device as claimed in claim 11, which is characterized in that described the step of comparing is to pass through
For reuse algorithm come what is realized, the reuse algorithm can be by the sensing data of the portable device and the electronic equipment
The data be compared.
13. the control method of portable device as claimed in claim 11, which is characterized in that it is described from electronic equipment receive to
The step of data include less:
Calendar event is received from the electronic equipment.
14. the control method of portable device as claimed in claim 11, which is characterized in that the obtaining step described connects
Step, the comparison step and the determining step is received to respectively include:
Multiple sensing datas are obtained from multiple sensors of the portable device;
Receive multiple sensing datas caused by multiple sensors of the electronic equipment;
The multiple sensing data of the electronic equipment is compared with multiple sensing datas of the portable device, with
Generate multiple comparison results;And
Determine whether the electronic equipment is in the sensing state of the portable device according to the multiple comparison result.
15. the control method of portable device as claimed in claim 11, which is characterized in that the electronic equipment it is described extremely
Few data are at least one sensing datas of the electronic equipment, and the control method of the portable device further includes:
In device search process, request signal is sent to the electronic equipment, it is available in the electronic equipment to ask
Sensor;
Start periodically to receive at least one sensing data from the electronic equipment.
16. the control method of portable device as claimed in claim 11, which is characterized in that the portable device and described
Electronic equipment all includes pedometer and ambient light sensor, the obtaining step, the receiving step, the comparison step and institute
Determining step is stated to respectively include:
Obtain the sensing data of the pedometer and the ambient light sensor of the portable device;
Receive the sensing data of the pedometer and ambient light sensor generation of the electronic equipment;
The sensing data of the electronic equipment is compared with the sensing data of the portable device, to generate two comparisons
As a result;And
Only show the institute of the sensing data and the electronic equipment of the portable device when described two comparison results
It is asynchronous to state sensing data, determines that the electronic equipment is not at the sensing state of the portable device.
17. the control method of portable device as claimed in claim 11, which is characterized in that the portable device and described
Electronic equipment all includes accelerometer, the obtaining step, the receiving step, the comparison step and the determining step point
Do not include:
The sensing data is obtained from the accelerometer of the portable device;
Receive the sensing data that the accelerometer of the electronic equipment generates;
The sensing data of the electronic equipment is compared with the sensing data of the portable device, to generate the comparison
As a result;
Show the sensing number of the sensing data and the electronic equipment of the portable device when the comparison result
According to being asynchronous, determine that the electronic equipment is not at the sensing state of the portable device.
18. the control method of portable device as claimed in claim 11, which is characterized in that the obtaining step described connects
Step, the comparison step and the determining step is received to respectively include:
Multiple sensing datas are obtained from multiple sensors of the portable device;
Receive multiple sensing datas caused by multiple sensors of the electronic equipment;
By the multiple sensing data of the multiple sensing data of the electronic equipment and institute's book portable device respectively into
Row compares, to generate multiple comparison results;
Whether at home the portable device and the electronic equipment are determined according to one of the multiple comparison result;
When determining the portable device and the electronic equipment at home, no matter other comparison results show it is described
Whether the sensing data of portable device and the sensing data of the electronic equipment are synchronous, determine the electronic equipment
The sensing state in the portable device.
19. a kind of portable device, which is characterized in that including:
Multiple sensors;
Wireless communication unit, for being communicated with the electronic equipment with multiple sensors;
Control unit is used at least one institute of at least one sensing data of the electronic equipment and the portable device
It states sensing data caused by sensor to be compared, and generates control signal, the control signal indicates the electronic equipment
At least one sensing data and the portable device at least one sensor caused by the sensing number
According to being either synchronously or asynchronously.
20. portable device as claimed in claim 19, which is characterized in that when the portable device determines that the electronics is set
The sensing caused by least one sensor of the standby at least one sensing data with the portable device
Data are asynchronous, and the portable device sends out alarm.
21. a kind of electronic equipment, which is characterized in that including:
Multiple sensors;
Wireless communication unit, for being communicated with the portable device with multiple sensors;
Control unit is used at least one institute of at least one sensing data of the portable device and the electronic equipment
It states sensing data caused by sensor to be compared, and generates control signal, the control signal indicates described and portable sets
The sensing number caused by least one sensor of the standby at least one sensing data with the electronic equipment
According to being either synchronously or asynchronously.
22. portable device as claimed in claim 19, which is characterized in that when the electronic equipment determines described portable set
The sensing number caused by least one sensor of the standby at least one sensing data with the electronic equipment
According to being asynchronous, the electronic equipment sends out alarm.
Applications Claiming Priority (2)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
US14/552,490 US20160150398A1 (en) | 2014-11-25 | 2014-11-25 | Wearable device, portable device and associated control method |
US14/552,490 | 2014-11-25 |
Publications (2)
Publication Number | Publication Date |
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CN105629783A CN105629783A (en) | 2016-06-01 |
CN105629783B true CN105629783B (en) | 2018-08-31 |
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