CN105302297A - Cell-phone interacting method via brain wave Bluetooth earphone - Google Patents

Abstract

The invention discloses a cell-phone interacting method via a brain wave Bluetooth earphone. The method comprises the following steps of conducting a cooperation connection between the brain wave Bluetooth earphone and a cell-phone and starting brain wave interaction control, collecting a brain wave signal via a brain wave sensor, conducting smoothing optimization to the received brain wave signal via a brain wave processing unit, comparing the brain wave signal and a brain wave database, searching whether a character corresponding to the brain wave signal exists in the brain wave data, comparing and matching the received character signal and a control order database via a brain wave controlling unit by a cell-phone terminal to determine whether an event corresponding to the character signal exists in the control order database, and sending an event executing order to an event executing module when the event exists. The event executing module receives an event executing order and finishes corresponding control actions based on the order. By the use of the cell-phone interacting method, a user can directly control a cell-phone to conduct interaction via the brain wave; and convenient operation control can be achieved.

Description

A kind of mobile phone interaction method by brain wave bluetooth earphone

Technical field

The present invention relates to bluetooth earphone and the mobile phone interaction communications field, particularly relate to a kind of mobile phone interaction method by brain wave bluetooth earphone.

Background technology

Along with the development of brain wave detection technique is more and more perfect, brain wave detection technique can be applied in the mutual field of mobile phone terminal by we, responds to earphone, be directly transferred on mobile phone terminal by the idea of user by brain wave, mobile phone terminal directly accepts, and carries out the operation of user's idea.

The interaction control method of current mobile phone terminal, as Voice command mode, when user is in noisy place, the neighbourhood noise of periphery is large, reduces the validity of voice collecting greatly, causes Voice command failure; In addition, some user also due to individual, may be reluctant to carry out Voice command in the place that people is many, which also limits the application that mobile phone speech is mutual.Therefore, the present invention proposes a kind of mobile phone interaction method by brain wave bluetooth earphone, is completed the control operation of mobile phone by brain wave.

Summary of the invention

The object of the invention is to overcome the deficiencies in the prior art, provide a kind of mobile phone interaction method by brain wave bluetooth earphone, make user directly can control mobile phone terminal by brain wave and complete the actions such as audio configuration, manipulation is convenient.

The object of the invention is to be achieved through the following technical solutions: a kind of mobile phone interaction method by brain wave bluetooth earphone, it comprises following multiple step:

One or more brain wave sensors on brain wave bluetooth earphone are located at the corresponding brain wave induction zone of human brain by S1: user puts on brain wave bluetooth earphone:

S2: brain wave bluetooth earphone mates with mobile phone and is connected, starts brain wave interactive controlling;

S3: brain wave sensor gathers the eeg signal of user, and described eeg signal is sent to brain wave processing unit;

S4: brain wave processing unit carries out filtering optimization process to the described eeg signal received, then the eeg signal after optimization and brain wave data storehouse are compared, in brain wave data storehouse, retrieve the character whether existed corresponding to this eeg signal;

If S401 exists, then described brain wave processing unit extracts the character corresponding to this eeg signal, and is character signal by respective sequence by the character combination of extracting, then by bluetooth communication, described character signal is sent to mobile phone terminal:

If S402 is within the certain predetermined time, described brain wave processing unit does not retrieve and the character corresponding to eeg signal in brain wave data storehouse, then described brain wave processing unit is pointed out by alarm unit;

S5: after mobile phone terminal receives described character signal, the character signal received by brain wave control module and steering order database are carried out contrast and mate, judge the event whether had in steering order database corresponding to this character signal, if exist, then this event fill order is sent to event execution module;

S6: described event execution module for receiving event fill order, and completes corresponding control action according to this order at mobile phone terminal.

Preferably, in step s 4 which, described brain wave processing unit is when retrieving the character whether having it to receive corresponding to eeg signal in brain wave data storehouse, if during the corresponding default eeg signal intensity that the eeg signal intensity corresponding to certain character is more than or equal to that brain wave data storehouse stores, this character is set to key word by brain wave processing unit.

If during the corresponding default eeg signal intensity that the eeg signal intensity corresponding to certain character is less than that brain wave data storehouse stores, this character is abandoned by brain wave processing unit.

Preferably, in step s 5, described brain wave control module, when judging the event whether having it to receive corresponding to character signal in steering order database, if there is keyword character in this character signal, then extracts the event signal corresponding to this keyword character.

Preferably, event execution module described in step S6 comprises phone and plays module, software startup control module, music control module and homepage and return module, and described event fill order comprises telephone receiving order, telephone call order, software startup order, volume adjustment command, Audio conversion order, playing progress rate control command, playback switch control command and homepage return command.

Accordingly, described character and eeg signal comprise control to telephone receiving, telephone call, software startup, volume adjusting, Audio conversion, playing progress rate, playback switch controls and homepage returns relevant character and eeg signal.

Preferably, the present invention also comprises brain wave Schistosomiasis control step S7: by the study module for adapting to the individual difference that its eeg signal exists between different user, event to be learned is mated with the eeg signal collected through multiple authentication, keyword character signal is arranged to the eeg signal of the intensity collected in certain threshold range, and by the corresponding relation of the eeg signal character information corresponding with it of coupling stored in brain wave data storehouse, by the corresponding relation of this character information and this study event stored in steering order database.

Preferably, in step sl, described brain wave sensor comprise brain wave sensor A for gathering eegαwave signal, for gather brain electricity β ripple signal brain wave sensor B, for gather brain electricity δ ripple signal brain wave sensor C and for gather brain electricity θ ripple signal brain wave sensor D in one or more combination, brain wave sensor A is located at brain occipital region, brain wave sensor B is located at brain frontal region, brain wave sensor C is located at brain temporo district, and brain wave sensor D is located at brain top district.

The invention has the beneficial effects as follows:

1) the present invention sets up brain wave inductor, brain wave processing unit, brain wave data storehouse, brain wave control module, steering order database, event execution module and study module in headset body and mobile phone terminal, directly can control mobile phone terminal by brain wave and complete corresponding action, realize the operation that phone plays, software startup, music control and homepage returns more fast and easily.

2) headset body of the present invention by bluetooth directly and mobile phone terminal carry out real-time, interactive, make user when inconvenience directly manipulates mobile phone terminal, corresponding action can be completed by idea order mobile phone terminal.

3) the present invention determines corresponding to eeg signal by key word event command, the accuracy that effective raising event performs.

4) the present invention can arrange four kinds of brain wave induction pick-ups, and signals collecting is more accurate.

Accompanying drawing explanation

Fig. 1 is the schematic flow sheet of mobile phone interaction method in the present invention;

Fig. 2 is the structured flowchart of mobile phone interaction system in the present invention;

Fig. 3 is the structured flowchart of brain wave bluetooth earphone in the present invention;

Fig. 4 is the structured flowchart of filter and amplification unit in the present invention.

Embodiment

Below in conjunction with accompanying drawing, technical scheme of the present invention is described in further detail, but protection scope of the present invention is not limited to the following stated.

As depicted in figs. 1 and 2, a kind of mobile phone interaction method by brain wave bluetooth earphone, it comprises following multiple step.

One or more brain wave sensors on brain wave bluetooth earphone are located at the corresponding brain wave induction zone of human brain by step S1: user puts on brain wave bluetooth earphone.

In step sl, described brain wave sensor comprise brain wave sensor A for gathering eegαwave signal, for gather brain electricity β ripple signal brain wave sensor B, for gather brain electricity δ ripple signal brain wave sensor C and for gather brain electricity θ ripple signal brain wave sensor D in one or more combination, brain wave sensor A is located at brain occipital region, brain wave sensor B is located at brain frontal region, brain wave sensor C is located at brain temporo district, and brain wave sensor D is located at brain top district.

In the present invention, according to the active regions of brain, above-mentioned multiple brain wave sensor is arranged on headset body or additional structure, brain wave sensor expands to corresponding brain region from headset body by additional structure, makes brain wave inductor can receive eeg signal more accurately.

Step S2: brain wave bluetooth earphone mates with mobile phone and is connected, starts brain wave interactive controlling.

Step S3: brain wave sensor gathers the eeg signal of user, and described eeg signal is sent to brain wave processing unit.

Step S4: brain wave processing unit carries out filtering optimization process to the described eeg signal received, again the eeg signal after optimization and brain wave data storehouse are compared, in brain wave data storehouse, retrieve the character whether existed corresponding to this eeg signal.

Step S4 also comprises following multiple sub-step.

If S401 exists, then described brain wave processing unit extracts the character corresponding to this eeg signal, and is character signal by respective sequence by the character combination of extracting, then by bluetooth communication, described character signal is sent to mobile phone terminal.

If S402 is within the certain predetermined time, described brain wave processing unit does not retrieve and the character corresponding to eeg signal in brain wave data storehouse, then described brain wave processing unit is pointed out by alarm unit.

In step s 4 which, described brain wave processing unit is when retrieving the character whether having it to receive corresponding to eeg signal in brain wave data storehouse, if during the corresponding default eeg signal intensity that the eeg signal intensity corresponding to certain character is more than or equal to that brain wave data storehouse stores, this character is set to key word by brain wave processing unit.

If during the corresponding default eeg signal intensity that the eeg signal intensity corresponding to certain character is less than that brain wave data storehouse stores, this character is abandoned by brain wave processing unit.

Step S5: after mobile phone terminal receives described character signal, the character signal received by brain wave control module and steering order database are carried out contrast and mate, judge the event whether had in steering order database corresponding to this character signal, if exist, then this event fill order is sent to event execution module.

In step s 5, described brain wave control module, when judging the event whether having it to receive corresponding to character signal in steering order database, if there is keyword character in this character signal, then extracts the event signal corresponding to this keyword character.

Step S6: described event execution module for receiving event fill order, and completes corresponding control action according to this order at mobile phone terminal.

In the present invention, described event execution module comprises phone and plays module, software startup control module, music control module and homepage and return module, and described event fill order comprises telephone receiving order, telephone call order, software startup order, volume adjustment command, Audio conversion order, playing progress rate control command, playback switch control command and homepage return command.

Accordingly, described character and eeg signal comprise control to telephone receiving, telephone call, software startup, volume adjusting, Audio conversion, playing progress rate, playback switch controls and homepage returns relevant character and eeg signal.

Step S7: brain wave Schistosomiasis control step, by the study module for adapting to the individual difference that its eeg signal exists between different user, event to be learned is mated with the eeg signal collected through multiple authentication, keyword character signal is arranged to the eeg signal of the intensity collected in certain threshold range, and by the corresponding relation of the eeg signal character information corresponding with it of coupling stored in brain wave data storehouse, by the corresponding relation of this character information and this study event stored in steering order database.

As shown in Figure 3, in the present invention, described brain wave processing unit comprises many group filter and amplification unit, multidiameter option switch, analog to digital converter and brain wave processor, described first sensor A, described second sensor B, described 3rd sensor C are connected with multidiameter option switch by filter and amplification unit respectively with described four-sensor D, and multidiameter option switch is connected with brain wave processor by analog to digital converter again.

As shown in Figure 4, wherein, filter and amplification unit comprises the first amplifier, 50Hz trapper, low-pass filter and the second amplifier that connect successively.Described brain wave sensor detects induction eeg signal, and sent to by this eeg signal described first amplifier tentatively to amplify process, again through interference and the noise of described 50Hz trapper filtering 50Hz, carry out further filtering finally by described low-pass filter and described second amplifier and amplify process, exporting the eeg signal after optimizing.

Multichannel eeg signal is separated into the pulse signal of a road serial through described multidiameter option switch, then after analog to digital conversion, carries out data acquisition by brain wave processor.

Described brain wave amplifier is the high input impedance differential amplifier that can adopt OP-07 amplification chip.

Claims (6)

1., by a mobile phone interaction method for brain wave bluetooth earphone, it is characterized in that, it comprises following multiple step:

One or more brain wave sensors on brain wave bluetooth earphone are located at the corresponding brain wave induction zone of human brain by S1: user puts on brain wave bluetooth earphone;

S2: brain wave bluetooth earphone mates with mobile phone and is connected, starts brain wave interactive controlling;

S3: brain wave sensor gathers the eeg signal of user, and described eeg signal is sent to brain wave processing unit;

S4: brain wave processing unit carries out filtering optimization process to the described eeg signal received, then the eeg signal after optimization and brain wave data storehouse are compared, in brain wave data storehouse, retrieve the character whether existed corresponding to this eeg signal;

If S401 exists, then described brain wave processing unit extracts the character corresponding to this eeg signal, and is character signal by respective sequence by the character combination of extracting, then by bluetooth communication, described character signal is sent to mobile phone terminal;

If S402 is within the certain predetermined time, described brain wave processing unit does not retrieve and the character corresponding to eeg signal in brain wave data storehouse, then described brain wave processing unit is pointed out by alarm unit;

S5: after mobile phone terminal receives described character signal, the character signal received by brain wave control module and steering order database are carried out contrast and mate, judge the event whether had in steering order database corresponding to this character signal, if exist, then this event fill order is sent to event execution module;

S6: described event execution module for receiving event fill order, and completes corresponding control action according to this order at mobile phone terminal.

2. a kind of mobile phone interaction method by brain wave bluetooth earphone according to claim 1, it is characterized in that: in step s 4 which, described brain wave processing unit is when retrieving the character whether having it to receive corresponding to eeg signal in brain wave data storehouse, if during the corresponding default eeg signal intensity that the eeg signal intensity corresponding to certain character is more than or equal to that brain wave data storehouse stores, this character is set to key word by brain wave processing unit;

If during the corresponding default eeg signal intensity that the eeg signal intensity corresponding to certain character is less than that brain wave data storehouse stores, this character is abandoned by brain wave processing unit.

3. a kind of mobile phone interaction method by brain wave bluetooth earphone according to claim 2, it is characterized in that: in step s 5, described brain wave control module is when judging the event whether having it to receive corresponding to character signal in steering order database, if there is keyword character in this character signal, then extract the event signal corresponding to this keyword character.

4. a kind of mobile phone interaction method by brain wave bluetooth earphone according to claim 1, it is characterized in that: the event execution module described in step S6 comprises phone and plays module, software startup control module, music control module and homepage and return module, and described event fill order comprises telephone receiving order, telephone call order, software startup order, volume adjustment command, Audio conversion order, playing progress rate control command, playback switch control command and homepage return command;

Accordingly, described character and eeg signal comprise control to telephone receiving, telephone call, software startup, volume adjusting, Audio conversion, playing progress rate, playback switch controls and homepage returns relevant character and eeg signal.

5. a kind of mobile phone interaction method by brain wave bluetooth earphone according to claim 1, it is characterized in that, also comprise brain wave Schistosomiasis control step S7: by the study module for adapting to the individual difference that its eeg signal exists between different user, event to be learned is mated with the eeg signal collected through multiple authentication, keyword character signal is arranged to the eeg signal of the intensity collected in certain threshold range, and by the corresponding relation of character information corresponding with it for the eeg signal of coupling stored in brain wave data storehouse, by the corresponding relation of this character information and this study event stored in steering order database.

6. a kind of mobile phone interaction method by brain wave bluetooth earphone according to claim 1, it is characterized in that: in step sl, described brain wave sensor comprises the brain wave sensor A for gathering eegαwave signal, for gathering the brain wave sensor B of brain electricity β ripple signal, for gather brain electricity δ ripple signal brain wave sensor C and for gather brain electricity θ ripple signal brain wave sensor D in one or more combination, brain wave sensor A is located at brain occipital region, brain wave sensor B is located at brain frontal region, brain wave sensor C is located at brain temporo district, brain wave sensor D is located at brain top district.