CN105007104A - Method and system for pairing connection of terminal equipment - Google Patents

Abstract

The present invention is suitable for the technical field of communication, and provides a method and a system for pairing connection of terminal equipment. The method comprises the steps as follows: first bluetooth equipment receives broadcast data packets broadcasted by a plurality of second bluetooth equipment, and acquires RSSI data associated with the broadcast data packets; the first bluetooth equipment establishes a plurality of first RSSI changing curves according to the RSSI data; the first bluetooth equipment acquires data acquired by a built-in motion sensor, and establishes a first motion curve according to the data; the first bluetooth equipment searches for object second bluetooth equipment with the first RSSI changing curve matched with the first motion curve; and the first bluetooth equipment initiates a connection request to the object second bluetooth equipment after finding the object second bluetooth equipment with the first RSSI changing curve matched with the first motion curve, so as to establish a connection. The method and the system of the present invention improve efficiency and safety of pairing connection, and improve user experience.

Description

The method and system that terminal equipment pairing connects

Technical field

The invention belongs to communication technical field, particularly relate to the method and system that the pairing of a kind of terminal equipment connects.

Background technology

In the prior art, terminal equipment (as the first bluetooth equipment and the second bluetooth equipment) matches the flow process be connected and generally comprises following steps:

Step 1, the first bluetooth equipment scans the second bluetooth equipment;

Step 2, user is select target second bluetooth equipment from the second bluetooth equipment scanned;

Step 3, if the first bluetooth equipment and target second bluetooth equipment matched, then directly set up bluetooth and connected;

Step 4, if the first bluetooth equipment and target second bluetooth equipment did not match, then triggered pairing flow process.If target second bluetooth equipment is Justwork pairing mode, then process of matching does not need user to participate in, but this pairing mode fail safe is lower; If target second bluetooth equipment uses the pairing mode of input pairing code, then the process need user that matches inputs the pairing code of 4 to 6; If target second bluetooth equipment uses the pairing mode of digital comparison, then user whether need to compare the first bluetooth equipment the same with 6 comparison numerals that the second bluetooth equipment separately screen show, if the same, both sides complete pairing by clicking acknowledgement key;

Step 5, after having matched, the first bluetooth equipment is set up bluetooth with target second bluetooth equipment and is connected.

As from the foregoing, if need to ensure higher fail safe, existing first bluetooth equipment is connected with the pairing of the second bluetooth equipment needs user to participate in selecting, input, confirmation etc., and complicated operation, the joint efficiency that matches is lower, affects Consumer's Experience.

Summary of the invention

Given this, the method and system that the embodiment of the present invention provides a kind of terminal equipment to match connection, under being intended to the prerequisite of guarantee higher-security, reduce manual operation, improve the efficiency of terminal equipment pairing connection.

First aspect, the invention provides the method that the pairing of a kind of terminal equipment connects, described method comprises:

First bluetooth equipment receives the broadcast data packet of multiple second bluetooth equipment broadcast, and obtains the RSSI data associated with described broadcast data packet;

First bluetooth equipment sets up a multiple RSSI change curve according to described RSSI data, wherein the corresponding RSSI change curve of each second bluetooth equipment;

First bluetooth equipment obtains the data that its motion sensor carried collects, and sets up the first curve movement according to described data;

First bluetooth equipment searches target second bluetooth equipment that a described RSSI change curve and described first curve movement match;

First bluetooth equipment, after finding target second bluetooth equipment that a described RSSI change curve and described first curve movement match, initiates connection request, to connect to described target second bluetooth equipment.

Second aspect, the invention provides the method that the pairing of a kind of terminal equipment connects, described method comprises:

First bluetooth equipment, after connecting with target second bluetooth equipment, obtains the RSSI data of the Bluetooth signal of described target second bluetooth equipment according to prefixed time interval;

First bluetooth equipment sets up a RSSI change curve according to described RSSI data;

First bluetooth equipment obtains the data that its motion sensor carried collects, and sets up the first curve movement according to described data;

First bluetooth equipment judges whether a described RSSI change curve and described first curve movement match;

If not, then the connection with described target second bluetooth equipment is disconnected.

The third aspect, the invention provides the system that the pairing of a kind of terminal equipment connects, described system comprises:

First data capture unit, for receiving the broadcast data packet of multiple second bluetooth equipment broadcast, and obtains the RSSI data associated with described broadcast data packet;

First curve sets up unit, for setting up a multiple RSSI change curve according to described RSSI data, and the wherein corresponding RSSI change curve of each second bluetooth equipment;

Second curve sets up unit, the data that the motion sensor carried for obtaining it collects, and sets up the first curve movement according to described data;

Matching unit, for searching target second bluetooth equipment that a described RSSI change curve and described first curve movement match;

Linkage unit, for after finding target second bluetooth equipment that a described RSSI change curve and described first curve movement match, initiates connection request, to connect to described target second bluetooth equipment.

Fourth aspect, the invention provides the system that the pairing of a kind of terminal equipment connects, described system comprises:

5th data capture unit, for after connecting with target second bluetooth equipment, obtains the RSSI data of the Bluetooth signal of described target second bluetooth equipment according to prefixed time interval;

5th curve sets up unit, for setting up a RSSI change curve according to described RSSI data;

6th curve sets up unit, the data that the motion sensor carried for obtaining it collects, and sets up the first curve movement according to described data;

4th judging unit, for judging whether a described RSSI change curve and described first curve movement match;

Fourth processing unit, for when described 4th judging unit judged result is no, disconnects the connection with described target second bluetooth equipment.

The beneficial effect that the embodiment of the present invention compared with prior art exists is: the embodiment of the present invention searches target second bluetooth equipment by being carried out mating with the curve movement of the first bluetooth equipment by the RSSI change curve of the second bluetooth equipment, make pairing connection procedure safely, simply, fast, user is not needed to participate in the operations such as selection, input, confirmation, effectively improve Consumer's Experience, there is stronger ease for use and practicality.

Accompanying drawing explanation

In order to be illustrated more clearly in the technical scheme in the embodiment of the present invention, be briefly described to the accompanying drawing used required in embodiment or description of the prior art below, apparently, accompanying drawing in the following describes is only some embodiments of the present invention, for those of ordinary skill in the art, under the prerequisite not paying creative work, other accompanying drawing can also be obtained according to these accompanying drawings.

Fig. 1 is the application scenarios figure of the terminal equipment pairing method of attachment that the embodiment of the present invention provides;

Fig. 2 is the realization flow schematic diagram of the terminal equipment pairing method of attachment that the embodiment of the present invention provides;

Fig. 3 is the realization flow schematic diagram of the terminal equipment pairing method of attachment that another embodiment of the present invention provides;

Fig. 4 is the realization flow schematic diagram of the terminal equipment pairing method of attachment that another embodiment of the present invention provides;

Fig. 5 is the composition structural representation of the terminal equipment pairing connected system that the embodiment of the present invention provides.

Embodiment

In below describing, in order to illustrate instead of in order to limit, propose the detail of such as particular system structure, technology and so on, understand the embodiment of the present invention thoroughly to cut.But, it will be clear to one skilled in the art that and also can realize the present invention in other embodiment not having these details.In other situation, omit the detailed description to well-known system, device, circuit and method, in order to avoid unnecessary details hinders description of the invention.

In order to technical solutions according to the invention are described, be described below by specific embodiment.

Fig. 1 shows the application scenarios of the terminal equipment pairing method of attachment that the embodiment of the present invention provides, and for convenience of explanation, illustrate only the part relevant to the embodiment of the present invention.

As shown in Figure 1, described application scenarios comprises first bluetooth equipment 010 and multiple second bluetooth equipment 020;

Wherein, described first bluetooth equipment 010 and the second bluetooth equipment 020 (preferably have bluetooth low energy consumption (the Bluetooth Low Energy of bluetooth 4.0 agreement for having Bluetooth function, BLE) function) terminal equipment, such as smart mobile phone, panel computer etc.

In this application scenarios, described multiple second bluetooth equipment 020 under BLE pattern, by the broadcast data packet of the time interval broadcast setting towards periphery of setting.Such as, interval time can be 20ms ~ 10.24s.

Described first bluetooth equipment 010 is before pairing connects, open bluetooth, receive the broadcast data packet that described multiple second bluetooth equipment 020 is broadcasted, and obtain strength indicator value (Received Signal Strength Indication, the RSSI) data of the Received signal strength associated with described broadcast data packet.

It should be noted that, described first bluetooth equipment 010, after receiving a broadcast data packet, can calculate a corresponding RSSI value, upgrades 1 time behind at least each connection interval of this RSSI value.This RSSI value becomes positive correlation with the transmitting power of the second bluetooth equipment 020, the receiving sensitivity of the first bluetooth equipment 010, becomes inverse correlation (general signal intensity roughly exponentially decays along with distance increases) with the first bluetooth equipment 010 with the distance of the second bluetooth equipment 020.

Described first bluetooth equipment 010, after the described RSSI data of acquisition, sets up a multiple RSSI change curve according to described RSSI data, wherein the corresponding RSSI change curve of each second bluetooth equipment 020.Particularly, according to multiple broadcast data packet that each second bluetooth equipment 020 sends, obtain multiple RSSI value of association, set up a RSSI change curve corresponding with this second bluetooth equipment 020 according to described multiple RSSI value.

Further, described first bluetooth equipment 010 is while the described broadcast data packet of reception, the motion sensor carried by it (such as, gyroscope, gravity sensor, acceleration transducer etc.) gather the exercise data of the first bluetooth equipment 010, and set up the first curve movement according to described exercise data.

As an alternate exemplary of the present invention, described first bluetooth equipment 010 can receive described broadcast data packet in motion process (described motion can make the distance between the first bluetooth equipment 010 and the second bluetooth equipment 020 change), obtain the RSSI data of described broadcast data packet association, the motion sensor simultaneously carried by it gathers the exercise data of the first bluetooth equipment 010.

Described first bluetooth equipment 010 is according to described first curve movement, the RSSI change curve matched with described first curve movement is searched from a described multiple RSSI change curve, and initiate connection request, to connect to the second bluetooth equipment (i.e. target second bluetooth equipment) that the described RSSI change curve matched is corresponding.

It should be noted that, the change of what the motion sensor of described first bluetooth equipment 010 generally detected is three-dimensional acceleration, the change of the first bluetooth equipment position in space after two multiple integrals are carried out to described acceleration, can be obtained.

Equally, RSSI change curve has reacted the change of the first bluetooth equipment 010 and the second bluetooth equipment 020 relative distance, if one of them equipment is motionless, the movement velocity that first differential can obtain another equipment is carried out to RSSI change curve, the acceleration that second-order differential can obtain another equipment is carried out to RSSI change curve.Therefore, by above-mentioned conversion, described curve movement and RSSI change curve can be reduced to the curve of distance (ordinate)-time (abscissa).But it will be understood by those skilled in the art that; described curve is not limited to the form of distance (ordinate)-time (abscissa) curve, and the curve forms such as speed (ordinate)-time (abscissa), acceleration (ordinate)-time (abscissa) are all within scope.

In addition, a RSSI change curve described in the embodiment of the present invention and described first curve movement match and refer to, the amplitude of variation of a described RSSI change curve and described first curve movement, period of change, form (i.e. change trend, the rate of change of different time points) are in preset range.

It should be noted that, the described application scenarios that the present embodiment provides is a kind of example, only for explaining the present invention, does not limit protection scope of the present invention.

Refer to Fig. 2, be the realization flow of the terminal equipment pairing method of attachment that the embodiment of the present invention provides, it mainly comprises the following steps:

Step S201, the first bluetooth equipment receives the broadcast data packet of multiple second bluetooth equipment broadcast, and obtains the RSSI data associated with described broadcast data packet.

In embodiments of the present invention, described multiple second bluetooth equipment can under BLE pattern, by the broadcast data packet of the time interval broadcast setting towards periphery of setting.Described first bluetooth equipment while the broadcast data packet receiving described multiple second bluetooth equipment broadcast, can obtain the RSSI data associated with described broadcast data packet.Wherein, described interval time can be 20ms ~ 10.24s.

As a preferable examples of the present invention, in order to reduce the quantity of candidate second bluetooth equipment, improve the fail safe that the first bluetooth equipment pairing connects, the embodiment of the present invention also comprises:

Described broadcast data packet carries manufacturer's custom field;

After the first bluetooth equipment receives the broadcast data packet of multiple second bluetooth equipment broadcast, described first bluetooth equipment filters out the second bluetooth equipment of this manufacturer distribution according to manufacturer's custom field that described broadcast data packet is carried.Namely described first bluetooth equipment only needs the second bluetooth equipment paying close attention to the distribution of this manufacturer, and the manufacturer's custom field carried by broadcast data packet gets rid of the second bluetooth equipment of this manufacturer non-distribution.

In step S202, the first bluetooth equipment sets up a multiple RSSI change curve according to described RSSI data, wherein the corresponding RSSI change curve of each second bluetooth equipment.

In embodiments of the present invention, a described RSSI change curve can be the curve forms such as the distance form of (ordinate)-time (abscissa) curve, the form of speed (ordinate)-time (abscissa) curve, acceleration (ordinate)-time (abscissa) or RSSI value (ordinate)-distance (abscissa).

The wherein corresponding RSSI change curve of each second bluetooth equipment.Particularly, according to multiple broadcast data packet that each second bluetooth equipment sends, obtain multiple RSSI value of association, set up a RSSI change curve corresponding with this second bluetooth equipment according to described multiple RSSI value.

In step S203, the first bluetooth equipment obtains the data that its motion sensor carried collects, and sets up the first curve movement according to described data.

In embodiments of the present invention, described first bluetooth equipment can while the described broadcast data packet of reception, and the motion sensor carried by it gathers the exercise data of the first bluetooth equipment, and sets up the first curve movement according to described exercise data.Described first curve movement can be the curve forms such as the distance form of (ordinate)-time (abscissa) curve, the form of speed (ordinate)-time (abscissa) curve or acceleration (ordinate)-time (abscissa).

Optionally, described first bluetooth equipment can receive described broadcast data packet in motion process (described motion can make the distance between the first bluetooth equipment and the second bluetooth equipment change), obtain the RSSI data of described broadcast data packet association, the motion sensor simultaneously carried by it gathers the exercise data of the first bluetooth equipment.

Such as, user opens motion sensor by the app of the first bluetooth equipment, and near the second bluetooth equipment (as in 1 meter) along the second bluetooth equipment <-> first bluetooth equipment longitudinally rock the first bluetooth equipment (namely keep the second bluetooth equipment and the first bluetooth equipment space direction constant, only change distance, distance change in 1 meter between the second bluetooth equipment and the first bluetooth equipment can cause the significant change of RSSI value), first bluetooth equipment gathers the exercise data of the first bluetooth equipment by described motion sensor, and receive the broadcast data packet of the second bluetooth equipment broadcast simultaneously, record the RSSI data of described broadcast data packet association.

In step S204, the first bluetooth equipment searches target second bluetooth equipment that a described RSSI change curve and described first curve movement match.

Particularly, described first bluetooth equipment is according to described first curve movement, the RSSI change curve matched with described first curve movement is searched from a described multiple RSSI change curve, and using the second corresponding for the RSSI change curve that matches described in finding bluetooth equipment as described target second bluetooth equipment.

It should be noted that, a RSSI change curve described in the embodiment of the present invention and described first curve movement match and might not need that both are completely the same, and the amplitude of variation of a described RSSI change curve and described first curve movement, period of change, form (i.e. change trend, the rate of change of different time points) are in preset range.

In step S205, the first bluetooth equipment, after finding target second bluetooth equipment that a described RSSI change curve and described first curve movement match, initiates connection request, to connect to described target second bluetooth equipment.

In embodiments of the present invention, described in the mode that connects can be by after user's select target second bluetooth equipment, connected by justwork mode, also can be connected by existing matching method, not limit at this.

Further, in order to strengthen Consumer's Experience, be convenient to user and get more information about pairing connection procedure, the embodiment of the present invention also comprises:

Show the first bluetooth equipment and the second bluetooth equipment in patterned mode and match the process be connected.Exemplary, in the motion state of the display screen of the first bluetooth equipment and/or display screen display the other side of the second bluetooth equipment, such as at the display screen display one motion bead of the second bluetooth equipment, reflected motion conditions or the RSSI value situation of change of the first bluetooth equipment by described motion bead.

Optionally, for strengthening ease for use and practicality further, the embodiment of the present invention also comprises:

The function confirming that pairing connects and cancellation pairing connects is increased at the first bluetooth equipment and/or the second bluetooth equipment.Concrete can be, the button or default operating gesture that confirm that pairing connection and cancellation pairing connect is increased at the first bluetooth equipment and/or the second bluetooth equipment, to make user when triggering described button or described operating gesture, first bluetooth equipment or the second bluetooth equipment perform the corresponding function that confirmation pairing connects or cancellation pairing connects, such as on the touch-screen of the first bluetooth equipment or the second bluetooth equipment, slid clockwise performs and confirms pairing linkage function, the touch-screen of the first bluetooth equipment or the second bluetooth equipment slides counterclockwise perform and cancel pairing linkage function.

By this embodiment, make the pairing connection procedure of the first bluetooth equipment and the second bluetooth equipment simpler, more convenient and safer, improve Consumer's Experience greatly.

In addition, as a preferred embodiment of the present invention, the present invention can also, using some step above-mentioned as the confirmation after connection, can be specifically:

First bluetooth equipment, after connecting with target second bluetooth equipment, obtains the RSSI data of the Bluetooth signal of described target second bluetooth equipment according to prefixed time interval;

First bluetooth equipment sets up a RSSI change curve according to described RSSI data;

First bluetooth equipment obtains the data that its motion sensor carried collects, and sets up the first curve movement according to described data;

First bluetooth equipment judges whether a described RSSI change curve and described first curve movement match;

If not, then the connection with described target second bluetooth equipment is disconnected.

It should be noted that, before the first bluetooth equipment and target second bluetooth equipment connect, both sides carry out data interaction in a broadcast manner; Upon establishment of a connection, both sides carry out data interaction by the Bluetooth link of foundation.

Refer to Fig. 3, be the realization flow of the terminal equipment pairing method of attachment that another embodiment of the present invention provides, it mainly comprises the following steps:

Step S301, the first bluetooth equipment receives the broadcast data packet of multiple second bluetooth equipment broadcast, and obtains the RSSI data associated with described broadcast data packet;

Step S302, the first bluetooth equipment sets up a multiple RSSI change curve according to described RSSI data, wherein the corresponding RSSI change curve of each second bluetooth equipment;

Step S303, the first bluetooth equipment obtains the data that its motion sensor carried collects, and sets up the first curve movement according to described data;

Step S304, the first bluetooth equipment searches target second bluetooth equipment that a described RSSI change curve and described first curve movement match;

Step S305, the first bluetooth equipment, after finding target second bluetooth equipment that a described RSSI change curve and described first curve movement match, initiates connection request, to connect to described target second bluetooth equipment.

The specific implementation process of embodiment of the present invention step S301 ~ step S305 with reference to the step S201 ~ step 205 in the corresponding embodiment of figure 2, can not repeat them here.

Step S306, the first bluetooth equipment obtains following at least two group data according to prefixed time interval: the data that the RSSI data of the Bluetooth signal of described first bluetooth equipment that the data that the motion sensor that the RSSI data of the Bluetooth signal of described target second bluetooth equipment, described first bluetooth equipment carry collects, described target second bluetooth equipment monitor according to described prefixed time interval and described target second bluetooth equipment are collected according to the motion sensor carried by described target second bluetooth equipment between described Preset Time.

Exemplary, after described first bluetooth equipment and described target second bluetooth equipment connect, every certain time interval (such as 7.5ms ~ 4s, preferred 20ms), described target second bluetooth equipment needs to send to described first bluetooth equipment the heartbeat packet maintaining and connect, and described first bluetooth equipment then needs response.

Because described first bluetooth equipment and described target second bluetooth equipment can receive and dispatch described heartbeat packet in each described time interval, therefore can upgrade once after described RSSI data each time interval.Based on this, the first bluetooth equipment described in the embodiment of the present invention and described target second bluetooth equipment are by monitoring the RSSI data of the Bluetooth signal of the other side, and the RSSI data obtaining the Bluetooth signal of self that the other side monitors confirm the fail safe of connection.

Another example, described first bluetooth equipment and described target second bluetooth equipment all carry motion sensor (such as, gyroscope, gravity sensor, acceleration transducer etc.), the motion sensor that described first bluetooth equipment and the second bluetooth equipment can carry respectively by it gathers the exercise data of self, and confirms the fail safe of connection by obtaining the exercise data collected.

Step S307, the first bluetooth equipment sets up corresponding curve according to the described data obtained.

Exemplary, first bluetooth equipment according to described in the RSSI data of the Bluetooth signal of target second bluetooth equipment that monitor set up the 2nd RSSI change curve, set up the 3rd RSSI change curve according to the RSSI data of the Bluetooth signal of the first bluetooth equipment of described acquisition;

Further, can also comprise:

First bluetooth equipment obtains according to described prefixed time interval the data that its motion sensor collects, and sets up the second curve movement according to these data.

Another example, the data that first bluetooth equipment collects according to the motion sensor that carries of described first bluetooth equipment obtained set up the 3rd curve movement, and the data that the motion sensor carried according to described second bluetooth equipment obtained collects set up the 4th curve movement.

It should be noted that, curve described in the embodiment of the present invention can be the curve forms such as the distance form of (ordinate)-time (abscissa) curve, the form of speed (ordinate)-time (abscissa) curve or acceleration (ordinate)-time (abscissa).

Step S308, the first bluetooth equipment judges whether the described curve set up all matches, if judged result is "Yes", then performs step S309; If judged result is "No", then perform step S310.

Exemplary, first bluetooth equipment judges whether the described curve set up all matches and can comprise: the first bluetooth equipment judges whether described 2nd RSSI change curve and described 3rd RSSI change curve match, and whether described 2nd RSSI change curve and described second curve movement match.

It should be noted that, curve described in the embodiment of the present invention matches and might not need that both are completely the same, and the amplitude of variation of described curve, period of change, form (i.e. change trend, the rate of change of different time points) are in preset range.

Step S309, confirms to connect.

Exemplary, the first bluetooth equipment can match at described 2nd RSSI change curve and described 3rd RSSI change curve, and when described 2nd RSSI change curve and described second curve movement match, confirms to connect.

Step S310, disconnects the connection with described target second bluetooth equipment.

Exemplary, first bluetooth equipment does not match at described 2nd RSSI change curve and described 3rd RSSI change curve, and/or described 2nd RSSI change curve and described second curve movement be not when matching, disconnect the connection with described target second bluetooth equipment, pairing connects and stops.

It should be noted that, described first bluetooth equipment and described second bluetooth equipment, after each pairing connection completes, all can preserve pairing link information.If described first bluetooth equipment and described second bluetooth equipment are in the pairing connection procedure of next time, the pairing link information of having preserved described in detecting, then without the need to performing step S306 ~ 310.

In addition, the above-mentioned example of the present embodiment, only for explaining the present invention, does not limit protection scope of the present invention.

First bluetooth equipment described in the embodiment of the present invention is after connecting with described target second bluetooth equipment, described first bluetooth equipment and described target second bluetooth equipment are by monitoring the data of the other side, and the data of self that acquisition the other side monitors, and set up corresponding curve (such as RSSI change curve, curve movement) according to the described data (such as RSSI data, exercise data) obtained, the fail safe connected is confirmed further by more described curve.

Refer to Fig. 4, be the realization flow of the terminal equipment pairing method of attachment that another embodiment of the present invention provides, it mainly comprises the following steps:

Step S401, the first bluetooth equipment receives the broadcast data packet of multiple second bluetooth equipment broadcast, and obtains the RSSI data associated with described broadcast data packet;

Step S402, the first bluetooth equipment sets up a multiple RSSI change curve according to described RSSI data, wherein the corresponding RSSI change curve of each second bluetooth equipment;

Step S403, the first bluetooth equipment obtains the data that its motion sensor carried collects, and sets up the first curve movement according to described data;

Step S404, the first bluetooth equipment searches target second bluetooth equipment that a described RSSI change curve and described first curve movement match;

Step S405, the first bluetooth equipment, after finding target second bluetooth equipment that a described RSSI change curve and described first curve movement match, initiates connection request, to connect to described target second bluetooth equipment.

The specific implementation process of embodiment of the present invention step S401 ~ step S405 with reference to the step S201 ~ step 205 in the corresponding embodiment of figure 2, can not repeat them here.

Step S406, the first bluetooth equipment obtains following at least one group of data according to prefixed time interval: the data that the RSSI data of the Bluetooth signal of described first bluetooth equipment that the data that the motion sensor that the RSSI data of the Bluetooth signal of described target second bluetooth equipment, described first bluetooth equipment carry collects, described target second bluetooth equipment monitor according to described prefixed time interval and described target second bluetooth equipment are collected according to the motion sensor carried by described target second bluetooth equipment between described Preset Time.

Step S407, the first bluetooth equipment sets up corresponding curve according to the described data obtained.

Step S408, the first bluetooth equipment judges whether the described curve set up all meets preassigned pattern, if judged result is "Yes", then performs step S409; If judged result is "No", then perform step S410.

In embodiments of the present invention, the curve meeting preassigned pattern described in can be the amplitude of variation of curve in preset range and/or the period of change of curve meet ad hoc rules etc.

Step S409, confirms to connect.

Step S410, disconnects the connection with described target second bluetooth equipment.

In addition, it should be noted that, described first bluetooth equipment and described second bluetooth equipment, after each pairing connection completes, all can preserve pairing link information.If described first bluetooth equipment and described second bluetooth equipment are in the pairing connection procedure of next time, the pairing link information of having preserved described in detecting, then without the need to performing step S406 ~ 410.

First bluetooth equipment described in the embodiment of the present invention is after connecting with described target second bluetooth equipment, described first bluetooth equipment and described target second bluetooth equipment are by monitoring the data of the other side, and the data of self that acquisition the other side monitors, and at least one group of data are selected from the described data (such as RSSI data, exercise data) obtained, described data according to selecting set up corresponding curve, by judging whether the described curve set up meets the fail safe that preassigned pattern confirms connection further.

As another preferable examples of the present invention, after described first bluetooth equipment and described target second bluetooth equipment connect, the present invention can also comprise:

First bluetooth equipment obtains the RSSI data of the Bluetooth signal of described target second bluetooth equipment and/or obtains the RSSI data of Bluetooth signal of described first bluetooth equipment that described target second bluetooth equipment monitors according to described prefixed time interval according to prefixed time interval;

First bluetooth equipment judges that the change of the described RSSI data obtained is whether in preset range;

If not, then the connection with described target second bluetooth equipment is disconnected.

This example can be applicable to following scene: the first bluetooth equipment does same movement together with described target second bluetooth equipment, such as the first bluetooth equipment takes, target second bluetooth equipment band is in wrist, because the first bluetooth equipment and described target second bluetooth equipment distance do not change, the change of described RSSI data is close to zero.

In addition, also it should be noted that, in the corresponding embodiment of above-mentioned Fig. 3 and Fig. 4, judge whether curve movement meets preassigned pattern, can be applicable to a bluetooth equipment and to move or two bluetooth equipments do the scene of same movement; Judge whether RSSI change curve meets preassigned pattern, can be applicable to the scene that a bluetooth equipment motion or two bluetooth equipments do same movement; Judge whether RSSI change curve mates with curve movement, can be applicable to the scene of a bluetooth equipment motion; Judge whether two curve movements mate, can be applicable to the scene that two bluetooth equipments do same movement; Judge whether two RSSI change curves mate, can be applicable to the scene that the motion of bluetooth equipment or two bluetooth equipments do same movement.

Need to further illustrate, when relating to broadcast capability, corresponding bluetooth equipment needs bluetooth low energy consumption (Bluetooth Low Energy, the BLE) function with bluetooth 4.0 agreement.

In addition, should understand, in the corresponding embodiment of Fig. 2, Fig. 3 and Fig. 4 the sequence number of each step size and do not mean that the priority of execution sequence, the execution sequence of each process should be determined with its function and internal logic, and should not form any restriction to the implementation process of the embodiment of the present invention.

Referring to Fig. 5, is the composition structural representation of the terminal equipment pairing connected system that the embodiment of the present invention provides.For convenience of explanation, illustrate only the part relevant to the embodiment of the present invention.

Described terminal equipment pairing connected system can be the unit of software unit, hardware cell or the software and hardware combining be built in the first bluetooth equipment.

Described terminal equipment pairing connected system comprises: the first data capture unit 51, first curve is set up unit 52, second curve and set up unit 53, matching unit 54 and linkage unit 55, and each unit concrete function is as follows:

First data capture unit 51, for receiving the broadcast data packet of multiple second bluetooth equipment broadcast, and obtains the RSSI data associated with described broadcast data packet;

First curve sets up unit 52, for setting up a multiple RSSI change curve according to described RSSI data, and the wherein corresponding RSSI change curve of each second bluetooth equipment;

Second curve sets up unit 53, the data that the motion sensor carried for obtaining it collects, and sets up the first curve movement according to described data;

Matching unit 54, for searching target second bluetooth equipment that a described RSSI change curve and described first curve movement match;

Linkage unit 55, for after finding target second bluetooth equipment that a described RSSI change curve and described first curve movement match, initiates connection request, to connect to described target second bluetooth equipment.

Further, described system also comprises:

Second data capture unit 56, for after connecting with target second bluetooth equipment, following at least two group data are obtained: the RSSI data of the Bluetooth signal of described target second bluetooth equipment according to prefixed time interval, the data that the motion sensor that described first bluetooth equipment carries collects, the data that the RSSI data of the Bluetooth signal of described first bluetooth equipment that described target second bluetooth equipment monitors according to described prefixed time interval and described target second bluetooth equipment are collected according to the motion sensor carried by described target second bluetooth equipment between described Preset Time,

3rd curve sets up unit 57, for setting up corresponding curve according to the described data obtained;

First judging unit 58, for judging whether the described curve set up all matches;

First processing unit 59, for when described first judging unit 58 judged result is no, disconnects the connection with described target second bluetooth equipment.

Further, described system also comprises:

3rd data capture unit 510, for after connecting with target second bluetooth equipment, following at least one group of data are obtained: the RSSI data of the Bluetooth signal of described target second bluetooth equipment according to prefixed time interval, the data that the motion sensor that described first bluetooth equipment carries collects, the data that the RSSI data of the Bluetooth signal of described first bluetooth equipment that described target second bluetooth equipment monitors according to described prefixed time interval and described target second bluetooth equipment are collected according to the motion sensor carried by described target second bluetooth equipment between described Preset Time,

4th curve sets up unit 511, for setting up corresponding curve according to the described data obtained;

Second judging unit 512, for judging whether the described curve set up all meets preassigned pattern;

Second processing unit 513, for when described second judging unit 512 judged result is no, disconnects the connection with described target second bluetooth equipment.

Further, described system also comprises:

4th data capture unit 514, for after connecting with target second bluetooth equipment, the RSSI data of the RSSI data obtaining the Bluetooth signal of described target second bluetooth equipment according to prefixed time interval and/or the Bluetooth signal obtaining described first bluetooth equipment that described target second bluetooth equipment monitors according to described prefixed time interval;

3rd judging unit 515, for judging that the change of the described RSSI data obtained is whether in preset range;

3rd processing unit 516, for when described 3rd judging unit 515 judged result is no, disconnects the connection with described target second bluetooth equipment.

Further, described broadcast data packet carries manufacturer's custom field;

Described system also comprises:

Filter element, for receive multiple second bluetooth equipment broadcast at the first bluetooth equipment broadcast data packet after, the manufacturer's custom field carried according to described broadcast data packet filters out the second bluetooth equipment of this manufacturer distribution.

Further, described system also comprises:

Display unit, matches for showing the first bluetooth equipment and the second bluetooth equipment in patterned mode the process be connected.

As another preferred embodiments of the present invention, the system that the present invention also provides a kind of terminal equipment to match connection, this system can be used for the further confirmation after connecting, and described system comprises:

5th data capture unit, for after connecting with target second bluetooth equipment, obtains the RSSI data of the Bluetooth signal of described target second bluetooth equipment according to prefixed time interval;

5th curve sets up unit, for setting up a RSSI change curve according to described RSSI data;

6th curve sets up unit, the data that the motion sensor carried for obtaining it collects, and sets up the first curve movement according to described data;

4th judging unit, for judging whether a described RSSI change curve and described first curve movement match;

Fourth processing unit, for when described 4th judging unit judged result is no, disconnects the connection with described target second bluetooth equipment.

In sum, the embodiment of the present invention searches target second bluetooth equipment by being carried out mating with the curve movement of the first bluetooth equipment by the RSSI change curve of the second bluetooth equipment, make pairing connection procedure safely, simply, fast, do not need user to participate in the operations such as selection, input, confirmation, effectively improve Consumer's Experience.And the embodiment of the present invention, after described first bluetooth equipment and described target second bluetooth equipment connect, can also confirm the fail safe connected in several ways further, have stronger ease for use and practicality.

Those skilled in the art can be well understood to, for convenience of description and succinctly, only be illustrated with the division of above-mentioned each functional unit, in practical application, can distribute as required and by above-mentioned functions and be completed by different functional units, module, internal structure by described system is divided into different functional units or module, to complete all or part of function described above.Each functional unit in embodiment can be integrated in a processing unit, also can be that the independent physics of unit exists, also can two or more unit in a unit integrated, above-mentioned integrated unit both can adopt the form of hardware to realize, and the form of SFU software functional unit also can be adopted to realize.In addition, the concrete title of each functional unit, also just for the ease of mutual differentiation, is not limited to the protection range of the application.The specific works process of unit in said system, with reference to the corresponding process in preceding method embodiment, can not repeat them here.

Those of ordinary skill in the art can recognize, in conjunction with unit and the algorithm steps of each example of embodiment disclosed herein description, can realize with the combination of electronic hardware or computer software and electronic hardware.These functions perform with hardware or software mode actually, depend on application-specific and the design constraint of technical scheme.Professional and technical personnel can use distinct methods to realize described function to each specifically should being used for, but this realization should not thought and exceeds scope of the present invention.

In embodiment provided by the present invention, should be understood that disclosed system and method can realize by another way.Such as, system embodiment described above is only schematic, such as, the division of described unit, be only a kind of logic function to divide, actual can have other dividing mode when realizing, such as multiple unit or assembly can in conjunction with or another system can be integrated into, or some features can be ignored, or do not perform.Another point, it can be by some interfaces that shown or discussed coupling each other or direct-coupling or communication connect, and the indirect coupling of device or unit or communication connect, and can be electrical, machinery or other form.

The described unit illustrated as separating component or can may not be and physically separates, and the parts as unit display can be or may not be physical location, namely can be positioned at a place, or also can be distributed in multiple network element.Some or all of unit wherein can be selected according to the actual needs to realize the object of the present embodiment scheme.

In addition, each functional unit in each embodiment of the present invention can be integrated in a processing unit, also can be that the independent physics of unit exists, also can two or more unit in a unit integrated.Above-mentioned integrated unit both can adopt the form of hardware to realize, and the form of SFU software functional unit also can be adopted to realize.

If described integrated unit using the form of SFU software functional unit realize and as independently production marketing or use time, can be stored in a computer read/write memory medium.Based on such understanding, the part that the technical scheme of the embodiment of the present invention contributes to prior art in essence in other words or all or part of of this technical scheme can embody with the form of software product, this computer software product is stored in a storage medium, comprising some instructions in order to make a computer equipment (can be personal computer, server, or the network equipment etc.) or processor (processor) perform all or part of step of method described in each embodiment of the embodiment of the present invention.And aforesaid storage medium comprises: USB flash disk, portable hard drive, read-only memory (ROM, Read-Only Memory), random access memory (RAM, Random AccessMemory), magnetic disc or CD etc. various can be program code stored medium.

The above embodiment only in order to technical scheme of the present invention to be described, is not intended to limit; Although with reference to previous embodiment to invention has been detailed description, those of ordinary skill in the art is to be understood that: it still can be modified to the technical scheme described in foregoing embodiments, or carries out equivalent replacement to wherein portion of techniques feature; And these amendments or replacement, do not make the essence of appropriate technical solution depart from the spirit and scope of each embodiment technical scheme of the embodiment of the present invention.

Claims (10)

1. a method for terminal equipment pairing connection, it is characterized in that, described method comprises:

First bluetooth equipment receives the broadcast data packet of multiple second bluetooth equipment broadcast, and obtains the RSSI data associated with described broadcast data packet;

First bluetooth equipment sets up a multiple RSSI change curve according to described RSSI data, wherein the corresponding RSSI change curve of each second bluetooth equipment;

First bluetooth equipment obtains the data that its motion sensor carried collects, and sets up the first curve movement according to described data;

First bluetooth equipment searches target second bluetooth equipment that a described RSSI change curve and described first curve movement match;

First bluetooth equipment, after finding target second bluetooth equipment that a described RSSI change curve and described first curve movement match, initiates connection request, to connect to described target second bluetooth equipment.

2. the method for claim 1, is characterized in that, after described first bluetooth equipment and described target second bluetooth equipment connect, described method also comprises:

First bluetooth equipment obtains following at least two group data according to prefixed time interval: the RSSI data of the Bluetooth signal of described target second bluetooth equipment, the data that the motion sensor that described first bluetooth equipment carries collects, the data that the RSSI data of the Bluetooth signal of described first bluetooth equipment that described target second bluetooth equipment monitors according to described prefixed time interval and described target second bluetooth equipment are collected according to the motion sensor carried by described target second bluetooth equipment between described Preset Time,

First bluetooth equipment sets up corresponding curve according to the described data obtained;

First bluetooth equipment judges whether the described curve set up all matches;

If not, then the connection with described target second bluetooth equipment is disconnected.

3. the method for claim 1, is characterized in that, after described first bluetooth equipment and described target second bluetooth equipment connect, described method also comprises:

First bluetooth equipment obtains following at least one group of data according to prefixed time interval: the RSSI data of the Bluetooth signal of described target second bluetooth equipment, the data that the motion sensor that described first bluetooth equipment carries collects, the data that the RSSI data of the Bluetooth signal of described first bluetooth equipment that described target second bluetooth equipment monitors according to described prefixed time interval and described target second bluetooth equipment are collected according to the motion sensor carried by described target second bluetooth equipment between described Preset Time,

First bluetooth equipment sets up corresponding curve according to the described data obtained;

First bluetooth equipment judges whether the described curve set up all meets preassigned pattern;

If not, then the connection with described target second bluetooth equipment is disconnected.

4. the method for claim 1, is characterized in that, after described first bluetooth equipment and described target second bluetooth equipment connect, described method also comprises:

First bluetooth equipment obtains the RSSI data of the Bluetooth signal of described target second bluetooth equipment and/or obtains the RSSI data of Bluetooth signal of described first bluetooth equipment that described target second bluetooth equipment monitors according to described prefixed time interval according to prefixed time interval;

First bluetooth equipment judges that the change of the described RSSI data obtained is whether in preset range;

If not, then the connection with described target second bluetooth equipment is disconnected.

5. a method for terminal equipment pairing connection, it is characterized in that, described method comprises:

First bluetooth equipment, after connecting with target second bluetooth equipment, obtains the RSSI data of the Bluetooth signal of described target second bluetooth equipment according to prefixed time interval;

First bluetooth equipment sets up a RSSI change curve according to described RSSI data;

First bluetooth equipment obtains the data that its motion sensor carried collects, and sets up the first curve movement according to described data;

First bluetooth equipment judges whether a described RSSI change curve and described first curve movement match;

If not, then the connection with described target second bluetooth equipment is disconnected.

6. a system for terminal equipment pairing connection, it is characterized in that, described system comprises:

First data capture unit, for receiving the broadcast data packet of multiple second bluetooth equipment broadcast, and obtains the RSSI data associated with described broadcast data packet;

First curve sets up unit, for setting up a multiple RSSI change curve according to described RSSI data, and the wherein corresponding RSSI change curve of each second bluetooth equipment;

Second curve sets up unit, the data that the motion sensor carried for obtaining it collects, and sets up the first curve movement according to described data;

Matching unit, for searching target second bluetooth equipment that a described RSSI change curve and described first curve movement match;

Linkage unit, for after finding target second bluetooth equipment that a described RSSI change curve and described first curve movement match, initiates connection request, to connect to described target second bluetooth equipment.

7. system as claimed in claim 6, it is characterized in that, described system also comprises:

Second data capture unit, for after connecting with target second bluetooth equipment, following at least two group data are obtained: the RSSI data of the Bluetooth signal of described target second bluetooth equipment according to prefixed time interval, the data that the motion sensor that described first bluetooth equipment carries collects, the data that the RSSI data of the Bluetooth signal of described first bluetooth equipment that described target second bluetooth equipment monitors according to described prefixed time interval and described target second bluetooth equipment are collected according to the motion sensor carried by described target second bluetooth equipment between described Preset Time,

3rd curve sets up unit, for setting up corresponding curve according to the described data obtained;

First judging unit, for judging whether the described curve set up all matches;

First processing unit, for when described first judging unit judged result is no, disconnects the connection with described target second bluetooth equipment.

8. system as claimed in claim 6, it is characterized in that, described system also comprises:

3rd data capture unit, for after connecting with target second bluetooth equipment, following at least one group of data are obtained: the RSSI data of the Bluetooth signal of described target second bluetooth equipment according to prefixed time interval, the data that the motion sensor that described first bluetooth equipment carries collects, the data that the RSSI data of the Bluetooth signal of described first bluetooth equipment that described target second bluetooth equipment monitors according to described prefixed time interval and described target second bluetooth equipment are collected according to the motion sensor carried by described target second bluetooth equipment between described Preset Time,

4th curve sets up unit, for setting up corresponding curve according to the described data obtained;

Second judging unit, for judging whether the described curve set up all meets preassigned pattern;

Second processing unit, for when described second judging unit judged result is no, disconnects the connection with described target second bluetooth equipment.

9. system as claimed in claim 6, it is characterized in that, described system also comprises:

4th data capture unit, for after connecting with target second bluetooth equipment, the RSSI data of the RSSI data obtaining the Bluetooth signal of described target second bluetooth equipment according to prefixed time interval and/or the Bluetooth signal obtaining described first bluetooth equipment that described target second bluetooth equipment monitors according to described prefixed time interval;

3rd judging unit, for judging that the change of the described RSSI data obtained is whether in preset range;

3rd processing unit, for when described 3rd judging unit judged result is no, disconnects the connection with described target second bluetooth equipment.

10. a system for terminal equipment pairing connection, it is characterized in that, described system comprises:

5th data capture unit, for after connecting with target second bluetooth equipment, obtains the RSSI data of the Bluetooth signal of described target second bluetooth equipment according to prefixed time interval;

5th curve sets up unit, for setting up a RSSI change curve according to described RSSI data;

6th curve sets up unit, the data that the motion sensor carried for obtaining it collects, and sets up the first curve movement according to described data;

4th judging unit, for judging whether a described RSSI change curve and described first curve movement match;

Fourth processing unit, for when described 4th judging unit judged result is no, disconnects the connection with described target second bluetooth equipment.