CN104244166A - System time configuration method and device of wearable device - Google Patents

Abstract

The invention discloses a system time configuration method and device of a wearable device. The system time configuration method of the wearable device comprises the specific steps of pairing at least two communication terminals, determining target time in the system time of at least two communication terminals, and configuring the target time to be the system time of the wearable device. Through the system time configuration method and device of the wearable device, automatic configuration of the system time of the wearable device is achieved, and configuration efficiency of the system time is improved.

Description

The system time collocation method of Wearable and device

Technical field

The application relates to field of computer technology, is specifically related to field of terminal technology, particularly relates to screen unlock method and device.

Background technology

Wearable, also can be called wearable intelligent equipment, is the general name of the daily necessities of daily wearing being carried out to the wearable items after intelligentized design and exploitation.Wearable can be matched with other intelligent terminals (as smart mobile phone), just can be used the partial function of intelligent terminal after successful matching by Wearable.Because present most Wearable does not have network communicating function, therefore in order to ensure the normal use of Wearable, user needs the system time manually arranging Wearable.

Summary of the invention

This application provides a kind of system time collocation method and device of Wearable.

On the one hand, this application provides a kind of system time collocation method of Wearable, described method comprises:

Match with at least two communication terminals;

The object time is determined in the system time of described at least two communication terminals;

Is configured to the system time of Wearable the described object time.

In some embodiments, the system time of described communication terminal is network time or autonomous setup times.

In some embodiments, describedly in the system time of described at least two communication terminals, determine that the object time comprises:

Described network time is defined as the object time.

In some embodiments, describedly in the system time of described at least two communication terminals, determine that the object time comprises:

The object time is determined in the autonomous setup times of described at least two communication terminals.

In some embodiments, describedly in the system time of described at least two communication terminals, determine that the object time comprises:

The system time of communication terminal the highest for priority is defined as the described object time.

In some embodiments, using the system time of communication terminal the highest for priority as before the described object time, described method also comprises:

The priority of described communication terminal is set according to user instruction;

Or according to the pairing set of time of described communication terminal the priority of communication terminal;

Or the priority of described communication terminal is set according to the service condition of described communication terminal.

In some embodiments, when arranging the priority of described communication terminal according to the service time of described communication terminal, the described system time by communication terminal the highest for priority determines that the described object time comprises:

The system time of the described communication terminal of first successful matching is defined as the described object time.

In some embodiments, when arranging the priority of described communication terminal according to the service condition of described communication terminal, the described system time by communication terminal the highest for priority is defined as the described object time and comprises:

The system time of used for the last time described communication terminal is defined as the described object time.

Second aspect, this application provides a kind of system time inking device of Wearable, described device comprises:

Matching module, for matching with at least two communication terminals;

Determination module, for determining the object time in the system time of described at least two communication terminals;

Configuration module, for being configured to the system time of Wearable by the described object time.

In some embodiments, the system time of described communication terminal is network time or autonomous setup times.

In some embodiments, described determination module comprises:

Network element, for being defined as the object time by described network time.

In some embodiments, described determination module comprises:

Independent unit, for determining the object time in the autonomous setup times of described at least two communication terminals.

In some embodiments, described determination module comprises:

Prioritization unit, for being defined as the described object time by the system time of communication terminal the highest for priority.

In some embodiments, described device also comprises:

Instruction module, for arranging the priority of described communication terminal according to user instruction;

Time module, for the priority of communication terminal according to the pairing set of time of described communication terminal;

Use module, for arranging the priority of described communication terminal according to the service condition of described communication terminal.

In some embodiments, when arranging the priority of described communication terminal according to the service time of described communication terminal, described prioritization unit comprises:

Time priority subelement, the system time for the described communication terminal by first successful matching is defined as the described object time.

In some embodiments, when arranging the priority of described communication terminal according to the service condition of described communication terminal, described prioritization unit comprises:

Use preferential subelement, for the system time of used for the last time described communication terminal is defined as the described object time.

The system time collocation method of the Wearable that the application provides, first match with at least two communication terminals, then in the system time of described at least two communication terminals, the object time is determined, finally is configured to the system time of Wearable the described object time, by determining the object time in the system time from multiple paired device, achieve the automatic configuration of the system time of Wearable, no longer need user manually to arrange, thus improve the efficiency of the system time of configuration Wearable.

Accompanying drawing explanation

By reading the detailed description done non-limiting example done with reference to the following drawings, the other features, objects and advantages of the application will become more obvious:

Fig. 1 is the flow chart of an embodiment of the system time collocation method method of the application's Wearable;

Fig. 2 is the flow chart of another embodiment of the system time collocation method of the application's Wearable;

Fig. 3 is the flow chart of another embodiment of the system time collocation method of the application's Wearable;

Fig. 4 is the flow chart of another embodiment of the system time collocation method of the application's Wearable;

Fig. 5 is the flow chart of another embodiment of the system time collocation method of the application's Wearable;

Fig. 6 is the structural representation of an embodiment of the system time inking device of the application's Wearable;

Fig. 7 is the structural representation of another embodiment of the system time inking device of the application's Wearable;

Fig. 8 is the structural representation of another embodiment of the system time inking device of the application's Wearable;

Fig. 9 is the structural representation of another embodiment of the system time inking device of the application's Wearable;

Figure 10 is the structural representation of another embodiment of the system time inking device of the application's Wearable.

Embodiment

Below in conjunction with drawings and Examples, the application is described in further detail.Be understandable that, specific embodiment described herein is only for explaining related invention, but not the restriction to this invention.It also should be noted that, for convenience of description, in accompanying drawing, illustrate only the part relevant to Invention.

It should be noted that, when not conflicting, the embodiment in the application and the feature in embodiment can combine mutually.Below with reference to the accompanying drawings and describe the application in detail in conjunction with the embodiments.

Please refer to Fig. 1, it illustrates the flow chart of an embodiment of the system time collocation method of Wearable.The Wearable related in the present embodiment can comprise intelligent watch, intelligent glasses, Intelligent glove, Intelligent spire lamella, intelligent dress ornament and intelligent shoe etc.The system time collocation method of described Wearable, comprises the following steps:

Step 101, to match with at least two communication terminals.

In the present embodiment, above-mentioned Wearable can be matched with at least two communication terminals simultaneously, wherein, described matching method can comprise other matching methods that can realize in Bluetooth pairing, wireless pairing, near-field communication (Near Field Communication, NFC) pairing or prior art.Described communication terminal refers to each Terminal Type with communication function, and this terminal can comprise smart mobile phone, panel computer, pocket computer on knee, desktop computer etc.After described Wearable and described communication terminal successfully match, described Wearable directly can use the partial function on described communication terminal, and described communication terminal also can control the correlation function of described Wearable.

Step 102, in the system time of described at least two communication terminals, determine the object time.

In the present embodiment, described system time refers to the system time of the operational system of described communication terminal.After above-mentioned Wearable and at least two communication terminals successfully match, described Wearable just can obtain the essential information of described communication terminal, comprises the information such as the terminal type of communication terminal, system configuration, access network type and system time.That is, described Wearable can obtain at least two system times, then rule can be determined according to predetermined time, an object time is determined from described at least two system times, such as, the object time can be determined according to the terminal type of described communication terminal: when the terminal type of the communication terminal matched with described Wearable comprises smart mobile phone and panel computer, can preferentially using the system time of described smart mobile phone as the object time.

Step 103, is configured to the system time of Wearable the described object time.

In the present embodiment, can be configured to the system time of above-mentioned Wearable the object time obtained in above-mentioned steps 102, namely using the time value of the time value of object time as the system time of Wearable, to guarantee that the system time of Wearable is a correct time, avoid the operation failure problem that described Wearable causes due to system time mistake.

The system time collocation method of the Wearable that above-described embodiment of the application provides, first match with at least two communication terminals, then in the system time of described at least two communication terminals, the object time is determined, finally is configured to the system time of Wearable the described object time, by determining the object time in the system time from multiple paired device, achieve the automatic configuration of the system time of Wearable, no longer need user manually to arrange, thus improve the efficiency of the system time of configuration Wearable.

In an optional implementation of the present embodiment, the system time of described communication terminal is network time or autonomous setup times.In the present embodiment, as described communication terminal access global system for mobile communications Global System for Mobile communication, or code division multiple access (Code Division Multiple Access GSM), CDMA), during network, the system time of described communication terminal can be the network time of GSM network or cdma network; When described communication terminal accessing Internet, the system time of described communication terminal can be the network time of the Internet obtained from time server; The system time of described communication terminal can also be the system time setting function by described communication terminal, the autonomous setup times manually arranged by user.

With further reference to Fig. 2, it illustrates the flow chart of another embodiment of the system time collocation method of Wearable.The system time collocation method of this Wearable, comprises the following steps:

Step 201, to match with at least two communication terminals.

In the present embodiment, above-mentioned Wearable can be matched with at least two communication terminals simultaneously, and wherein, described matching method can comprise other matching methods that can realize in Bluetooth pairing, wireless pairing, NFC pairing or prior art.Described communication terminal refers to each Terminal Type with communication function, after described Wearable and described communication terminal successfully match, described Wearable directly can use the partial function on described communication terminal, and described communication terminal also can control the correlation function of described Wearable.

Step 202, when the system time of described communication terminal is network time, described network time is defined as the object time.

In the present embodiment, when the system time of described communication terminal is network time, described network time can be the GSM network time, also can the cdma network time, can also be the network time of the Internet, under normal conditions, the time value of aforementioned three kinds of network times should be the same, even if there is difference, this difference also should be very trickle, therefore negligible, so still can think that the time value of each network time is on all four.When the network time of described at least two communication terminals is defined as the object time, because the network time of each communication terminal is completely the same, therefore can directly using this unique network time as the object time.

It should be noted that, when some is very special, if when there is bigger difference between above-mentioned three kinds of network times, a network time can be selected voluntarily as the object time by user according to actual conditions.

Step 203, is configured to the system time of Wearable the described object time.

In the present embodiment, can be configured to the system time of above-mentioned Wearable the object time obtained in above-mentioned steps 202, namely using the time value of the time value of object time as the system time of Wearable.

As can be seen from Figure 2, the embodiment corresponding with Fig. 1 unlike, the system time collocation method of the Wearable in the present embodiment, will be defined as the object time when determining the object time network time.Because network time is usually more accurate, therefore improve the accuracy of the system time of Wearable.

With further reference to Fig. 3, it illustrates the flow chart of another embodiment of the system time collocation method of Wearable.The system time collocation method of this Wearable, comprises the following steps:

Step 301, to match with at least two communication terminals.

In the present embodiment, above-mentioned Wearable can be matched with at least two communication terminals simultaneously, and wherein, described matching method can comprise other matching methods that can realize in Bluetooth pairing, wireless pairing, NFC pairing or prior art.Described communication terminal refers to each Terminal Type with communication function, after described Wearable and described communication terminal successfully match, described Wearable directly can use the partial function on described communication terminal, and described communication terminal also can control the correlation function of described Wearable.

Step 302, when the system time of described communication terminal is autonomous setup times, in the autonomous setup times of described at least two communication terminals, determine the object time.

In the present embodiment, described autonomous setup times can be the system time setting function that user utilizes described communication terminal, the time of manually input.When determining the object time in the autonomous setup times at described at least two communication terminals, one or more autonomous setup times can be obtained from described at least two communication terminals: when getting an autonomous setup times, can directly using this autonomous setup times as the described object time, when getting the autonomous setup times of two or more, first can judge that whether the time value of these autonomous setup times is the same, if the same, then will wherein any one autonomous setup times as the described object time, if different, an autonomous setup times can be selected from the autonomous setup times of described two or more as the described object time according to actual conditions, such as, when above-mentioned Wearable simultaneously with mobile phone A and computer B successful matching after, the system time Y of the system time X and computer B that get mobile phone A is autonomous setup times, and system time X and system time Y is different, when determining the object time from system time X and system time Y, the major function that can realize according to the needs of described Wearable determines the object time, such as, when above-mentioned Wearable needs realization to call function, just can using the system time X of mobile phone A as the described object time.

Step 303, is configured to the system time of Wearable the described object time.

In the present embodiment, can be configured to the system time of above-mentioned Wearable the object time obtained in above-mentioned steps 302, namely using the time value of the time value of object time as the system time of Wearable.

As can be seen from Figure 3, the embodiment corresponding with Fig. 1 unlike, the system time collocation method of the Wearable in the present embodiment, can determine the object time when determining the object time in the autonomous setup times of described at least two communication terminals.Using the system time of autonomous for user setting-up time as Wearable, achieve the personal settings of the system time of Wearable.

With further reference to Fig. 4, it illustrates the flow chart of another embodiment of the system time collocation method of Wearable.The system time collocation method of this Wearable, comprises the following steps:

Step 401, to match with at least two communication terminals.

In the present embodiment, above-mentioned Wearable can be matched with at least two communication terminals simultaneously, and wherein, described matching method can comprise other matching methods that can realize in Bluetooth pairing, wireless pairing, NFC pairing or prior art.Described communication terminal refers to each Terminal Type with communication function, after described Wearable and described communication terminal successfully match, described Wearable directly can use the partial function on described communication terminal, and described communication terminal also can control the correlation function of described Wearable.

Step 402, the system time of communication terminal the highest for priority is defined as the described object time.

In the present embodiment, after above-mentioned Wearable and at least two communication terminals successfully match, the priority of each communication equipment at least two communication equipments described in can first judging, wherein, described priority can be used for representing a kind of sequencing, usual priority is formerly high, and priority low rear.In the present embodiment, the priority of described communication terminal can be used as the foundation determining the object time, that is, and can using the system time of communication terminal the highest for priority as the described object time when determining the above-mentioned object time.

Step 403, is configured to the system time of Wearable the described object time.

In the present embodiment, can be configured to the system time of above-mentioned Wearable the object time obtained in above-mentioned steps 402, namely using the time value of the time value of object time as the system time of Wearable.

As can be seen from Figure 4, the embodiment corresponding with Fig. 1 unlike, the system time collocation method of the Wearable in the present embodiment, the system time of communication terminal the highest for priority can be defined as the described object time when determining the object time, achieve the intelligentized control of the system time of Wearable.

With further reference to Fig. 5, it illustrates the flow chart of another embodiment of the system time collocation method of Wearable.The system time collocation method of this Wearable, comprises the following steps:

Step 501, to match with at least two communication terminals.

In the present embodiment, above-mentioned Wearable can be matched with at least two communication terminals simultaneously, and wherein, described matching method can comprise other matching methods that can realize in Bluetooth pairing, wireless pairing, NFC pairing or prior art.Described communication terminal refers to each Terminal Type with communication function, after described Wearable and described communication terminal successfully match, described Wearable directly can use the partial function on described communication terminal, and described communication terminal also can control the correlation function of described Wearable.

Step 502a, the priority of described communication terminal is set according to user instruction.

In the present embodiment, the priority of described communication terminal can be set according to user instruction, that is, user can be that each communication terminal in above-mentioned at least two communication terminals arranges a priority parameters according to actual conditions, according to the particular content of described priority parameters, the prioritization situation of each communication terminal just can be determined.

The step 502b arranged side by side with step 502a, according to the pairing set of time of described communication terminal the priority of communication terminal.

In the present embodiment, after above-mentioned Wearable and at least two communication terminals successfully match, the pairing time in that moment that each communication terminal and described Wearable are successfully matched at least two communication terminals described in can obtaining, and then the priority of each described communication terminal was set according to the described pairing time.When arranging described priority, the priority of described communication terminal can be set according to the sequencing of described pairing time, also described priority can be set according to the distance of described certain particular point in time of pairing time gap, such as, above-mentioned Wearable and three communication terminals successfully match, the pairing time is respectively 10 points, 13 and 17 points, when arranging priority with 12 for particular point in time, 13 distances 12 recently and 17 distances 12 farthest, therefore, the priority of the communication terminal of 13 successful matchings is the highest, the priority of the communication terminal of 10 successful matchings is taken second place, the priority of the communication terminal of 17 successful matchings is minimum.

The step 502c arranged side by side with step 502a and step 502b, the priority of described communication terminal is set according to the service condition of described communication terminal.

In the present embodiment, after above-mentioned Wearable and at least two communication terminals successfully match, the service condition of described Wearable to each communication terminal in described at least two communication terminals can be recorded, and then the priority of each described communication terminal is set according to described service condition.When arranging described priority, the priority of described communication terminal can be set according to the length of service time, such as, can the priority of the communication terminal the longest continuous service time be set to the highest.Also can described priority be set according to the frequency of utilization in certain hour section, such as, can the priority of communication terminal the highest for frequency of utilization be set to the highest.

Step 503, the system time of communication terminal the highest for priority is defined as the described object time.

In the present embodiment, after above-mentioned Wearable and at least two communication terminals successfully match, the priority of each communication equipment at least two communication equipments described in can first judging, then using the system time of communication terminal the highest for priority as the described object time.

In an optional implementation of the present embodiment, when arranging the priority of described communication terminal according to the service time of described communication terminal, the described system time by communication terminal the highest for priority determines that the described object time comprises: the system time of the described communication terminal of first successful matching is defined as the described object time.In the present embodiment, because described priority is according to pairing set of time, therefore, when the system time of communication terminal the highest for priority is determined the described object time, the pairing time of each communication terminal can be obtained, then by the described communication terminal of first successful matching, namely the system time of pairing time communication terminal is the earliest defined as the described object time.

In an optional implementation of the present embodiment, when arranging the priority of described communication terminal according to the service condition of described communication terminal, the described system time by communication terminal the highest for priority is defined as the described object time and comprises: the system time of used for the last time described communication terminal is defined as the described object time.In the present embodiment, because described priority is arranged according to service condition, therefore, when the system time of communication terminal the highest for priority is determined the described object time, the moment that above-mentioned Wearable uses communication terminal at every turn can be obtained, then the system time of used for the last time described communication terminal is defined as the described object time.

Step 504, is configured to the system time of Wearable the described object time.

In the present embodiment, can be configured to the system time of above-mentioned Wearable the object time obtained in above-mentioned steps 503, namely using the time value of the time value of object time as the system time of Wearable.

As can be seen from Figure 5, the embodiment corresponding with Fig. 1 unlike, the system time collocation method of the Wearable in the present embodiment, can adopt various ways that the priority of communication terminal is set, then the system time of communication terminal the highest for priority is defined as the described object time, extends the scope of application of the system time configuration of Wearable.

With further reference to Fig. 6, it illustrates the structural representation of an embodiment of the system time inking device of Wearable.As shown in Figure 6, the system time inking device of the Wearable described in the present embodiment comprises matching module 610, determination module 620 and configuration module 630.

Matching module 610, for matching with at least two communication terminals.

Determination module 620, for determining the object time in the system time of at least two communication terminals of described matching module 610 pairing.

Configuration module 630, the object time for being determined by described determination module 620 is configured to the system time of Wearable.

The system time inking device of the Wearable that above-described embodiment of the application provides, first matching module matches with at least two communication terminals, then determination module determines the object time in the system time of described at least two communication terminals, the described object time is configured to the system time of Wearable by last configuration module, by determining the object time in the system time from multiple paired device, achieve the automatic configuration of the system time of Wearable, user is no longer needed manually to arrange, thus improve the efficiency of the system time of configuration Wearable.

In an optional implementation of the present embodiment, the system time of described communication terminal is network time or autonomous setup times.

In an optional implementation of the present embodiment, as shown in Figure 7, described determination module 620 comprises:

Network element 621, for being defined as the object time by described network time.

As can be seen from Figure 7, the embodiment corresponding with Fig. 6 unlike, the system time inking device of the Wearable in the present embodiment, when determining the object time, network element will be defined as the object time network time.Because network time is usually more accurate, therefore improve the accuracy of the system time of Wearable.

In an optional implementation of the present embodiment, as shown in Figure 8, described determination module 620 comprises:

Independent unit 622, for determining the object time in the autonomous setup times of described at least two communication terminals.

As can be seen from Figure 8, the embodiment corresponding with Fig. 6 unlike, the system time inking device of the Wearable in the present embodiment, when determining the object time, independent unit can determine the object time in the autonomous setup times of described at least two communication terminals.Using the system time of autonomous for user setting-up time as Wearable, achieve the personal settings of the system time of Wearable.

In an optional implementation of the present embodiment, as shown in Figure 9, described determination module 620 comprises:

Prioritization unit 623, for being defined as the described object time by the system time of communication terminal the highest for priority.

As can be seen from Figure 9, the embodiment corresponding with Fig. 6 unlike, the system time inking device of the Wearable in the present embodiment, when determining the object time, the system time of communication terminal the highest for priority can be defined as the described object time by prioritization unit, achieves the intelligentized control of the system time of Wearable.

In an optional implementation of the present embodiment, as shown in Figure 10, the system time inking device of described Wearable also comprises: instruction module 640, time module 650 and use module 660.

Instruction module 640, for arranging the priority of described communication terminal according to user instruction.

Time module 650, for the priority of communication terminal according to the pairing set of time of described communication terminal.

Use module 660, for arranging the priority of described communication terminal according to the service condition of described communication terminal.

In an optional implementation of the present embodiment, when arranging the priority of described communication terminal according to the service time of described communication terminal, described prioritization unit 623 comprises:

Time priority subelement 623A, the system time for the described communication terminal by first successful matching is defined as the described object time.

In an optional implementation of the present embodiment, when arranging the priority of described communication terminal according to the service condition of described communication terminal, described prioritization unit 623 comprises:

Use preferential subelement 623B, for the system time of used for the last time described communication terminal is defined as the described object time.

As can be seen from Figure 10, the embodiment corresponding with Fig. 6 unlike, in the system time inking device of the Wearable in the present embodiment, instruction module, time module and use module can arrange the priority of communication terminal in different ways, then the system time of communication terminal the highest for priority is defined as the described object time by prioritization unit, extends the scope of application of the system time configuration of Wearable.

Be described in module involved in the embodiment of the present application to be realized by the mode of software, also can be realized by the mode of hardware.Described module also can be arranged within a processor, such as, can be described as: a kind of processor comprises matching module, determination module and configuration module.Wherein, the title of these modules does not form the restriction to this module itself under certain conditions, and such as, matching module can also be described to " for carrying out the module of matching with at least two communication terminals ".

As another aspect, present invention also provides a kind of computer-readable recording medium, this computer-readable recording medium can be the computer-readable recording medium comprised in device described in above-described embodiment; Also can be individualism, be unkitted the computer-readable recording medium allocated in terminal.Described computer-readable recording medium stores more than one or one program, and described program is used for performance description in the screen unlock method of the application by one or more than one processor.

More than describe and be only the preferred embodiment of the application and the explanation to institute's application technology principle.Those skilled in the art are to be understood that, invention scope involved in the application, be not limited to the technical scheme of the particular combination of above-mentioned technical characteristic, also should be encompassed in when not departing from described inventive concept, other technical scheme of being carried out combination in any by above-mentioned technical characteristic or its equivalent feature and being formed simultaneously.The technical characteristic that such as, disclosed in above-mentioned feature and the application (but being not limited to) has similar functions is replaced mutually and the technical scheme formed.

Claims (16)

1. a system time collocation method for Wearable, is characterized in that, described method comprises:

Match with at least two communication terminals;

The object time is determined in the system time of described at least two communication terminals;

Is configured to the system time of Wearable the described object time.

2. the system time collocation method of Wearable according to claim 1, is characterized in that, the system time of described communication terminal is network time or autonomous setup times.

3. the system time collocation method of Wearable according to claim 2, is characterized in that, describedly in the system time of described at least two communication terminals, determines that the object time comprises:

Described network time is defined as the object time.

4. the system time collocation method of Wearable according to claim 2, is characterized in that, describedly in the system time of described at least two communication terminals, determines that the object time comprises:

The object time is determined in the autonomous setup times of described at least two communication terminals.

5. the system time collocation method of Wearable according to claim 1, is characterized in that, describedly in the system time of described at least two communication terminals, determines that the object time comprises:

The system time of communication terminal the highest for priority is defined as the described object time.

6. the system time collocation method of Wearable according to claim 5, is characterized in that, using the system time of communication terminal the highest for priority as before the described object time, described method also comprises:

The priority of described communication terminal is set according to user instruction;

Or according to the pairing set of time of described communication terminal the priority of communication terminal;

Or the priority of described communication terminal is set according to the service condition of described communication terminal.

7. the system time collocation method of Wearable according to claim 6, it is characterized in that, when arranging the priority of described communication terminal according to the service time of described communication terminal, the described system time by communication terminal the highest for priority determines that the described object time comprises:

The system time of the described communication terminal of first successful matching is defined as the described object time.

8. the system time collocation method of Wearable according to claim 6, it is characterized in that, when arranging the priority of described communication terminal according to the service condition of described communication terminal, the described system time by communication terminal the highest for priority is defined as the described object time and comprises:

The system time of used for the last time described communication terminal is defined as the described object time.

9. a system time inking device for Wearable, is characterized in that, described device comprises:

Matching module, for matching with at least two communication terminals;

Determination module, for determining the object time in the system time of described at least two communication terminals;

Configuration module, for being configured to the system time of Wearable by the described object time.

10. the system time inking device of Wearable according to claim 9, is characterized in that, the system time of described communication terminal is network time or autonomous setup times.

The system time inking device of 11. Wearable according to claim 10, is characterized in that, described determination module comprises:

Network element, for being defined as the object time by described network time.

The system time inking device of 12. Wearable according to claim 10, is characterized in that, described determination module comprises:

Independent unit, for determining the object time in the autonomous setup times of described at least two communication terminals.

The system time inking device of 13. Wearable according to claim 9, is characterized in that, described determination module comprises:

Prioritization unit, for being defined as the described object time by the system time of communication terminal the highest for priority.

The system time inking device of 14. Wearable according to claim 13, is characterized in that, described device also comprises:

Instruction module, for arranging the priority of described communication terminal according to user instruction;

Time module, for the priority of communication terminal according to the pairing set of time of described communication terminal;

Use module, for arranging the priority of described communication terminal according to the service condition of described communication terminal.

The system time inking device of 15. Wearable according to claim 14, is characterized in that, when arranging the priority of described communication terminal according to the service time of described communication terminal, described prioritization unit comprises:

Time priority subelement, the system time for the described communication terminal by first successful matching is defined as the described object time.

The system time inking device of 16. Wearable according to claim 14, is characterized in that, when arranging the priority of described communication terminal according to the service condition of described communication terminal, described prioritization unit comprises:

Use preferential subelement, for the system time of used for the last time described communication terminal is defined as the described object time.