CN105677043B - The two stages adaptive training method of Mental imagery brain-computer interface - Google Patents

Abstract

The present invention relates to a kind of two stages adaptive training methods of Mental imagery brain-computer interface, including the single trusted phase and reentrant mutual trusted phase first undergone.Single trust refers to that system trust data updates classifier with data.At this stage, system first carries out preliminary training according to multiple trial that user carries out, and obtains a preliminary feasible classifier, then constantly update classifier using the method for incremental learning.Mutually trust and refer to, system while trust data and classifier allow the two to be mutually adapted.At this stage, system is first identified using the classifier that list trusted phase obtains, after user carries out a certain amount of trial, according to feedback result, cooperation is sought support the method preference data of vector with SVM, classifier is constantly updated with the method for incremental learning, trial later is identified and fed back with new classifier, this process is until training terminates repeatedly.Method provided by the invention can enhance being mutually adapted for classifier and user, and time-consuming short, and accuracy rate is high.

Description

The two stages adaptive training method of Mental imagery brain-computer interface

Technical field

It is mutually adapted problem the present invention relates to the man-machine training process of brain-computer interface, is connect for Mental imagery type brain machine A kind of adaptive training method of mouth.

Background technique

There is be mutually adapted between the user and brain machine interface system of brain-computer interface.In man-machine training process In, the characteristics of brain machine interface system constantly collects data and adapts to user by the method for machine learning, and user passes through observation The feedback of brain machine interface system adjusts the activity in brain actively also to adapt to the working method of brain-computer interface.Brain-computer interface user Being mutually adapted between brain machine interface system is a dynamic process.User feedback is not considered when collecting training data, only Carry out machine learning on a static training set, it is not consistent with this characteristic of brain-computer interface, it is unfavorable for improving brain machine The performance of interface.

Summary of the invention

In view of this, the purpose of the present invention is the brain-computer interface for Mental imagery type provides, one kind is man-machine to be mutually adapted Training method.The man-machine training process of Mental imagery brain-computer interface is divided into two stages by the present invention, and previous stage is single letter Appoint the stage, the latter half is mutual trusted phase.In single trusted phase, brain machine interface system trust data, using incremental learning Method constantly updates classifier with new data.In mutual trusted phase, brain machine interface system trust data and classifier simultaneously allow two Person is mutually adapted.

The present invention is realized using under type: a kind of two stages adaptive training method of Mental imagery brain-computer interface, including Following steps:

Step S1: this step is in single trusted phase, and Mental imagery brain machine interface system trust data is updated with data and divided Class device；When initial, user carries out the Mental imagery of multiple trial, and system online acquisition sample obtains one using LDA/QR algorithm A preliminary transfer matrix G, and classification center vector set C is calculated, form preliminary classification device；User carries on Mental imagery, System obtains new samples with the Mental imagery of classifier online recognition user and to user feedback；Whenever completion one Trial, system updates transfer matrix G using ILDA/QR algorithm, and calculates classification center vector set C, forms new classifier simultaneously It is used for the identification and feedback of next trial, is terminated until the stage；

Step S2: this step is in mutual trusted phase, Mental imagery brain machine interface system while trust data and classifier, The two is allowed to be mutually adapted；When initial, system uses the Mental imagery of the finally obtained classifier online recognition user of step S1 simultaneously To user feedback；After user carries out a certain number of trial, system is used using optimum seeking method screening new samples are mutually trusted LDA/QR algorithm or ILDA/QR algorithm update transfer matrix G, and calculate classification center vector set C, form new classifier and incite somebody to action For it is next identification and feedback, until man-machine training terminates.

Further, the step S1 specifically includes the following steps:

Step S11: user carries out the Mental imagery of multiple trial, system online acquisition signal, every a time interval A segment signal is intercepted, m dimensional feature vector is converted into through feature extraction, is denoted as x；

Step S12: all feature vectors obtained in the step S11 construct data matrix A, and according to classification number K structural matrix E；

Step S13: LDA/QR algorithm is executed, obtains optimal transfer matrix G, and class center vector collection C, shape is calculated At preliminary classification device；

Step S14: user carries out the Mental imagery of a trial；System online acquisition EEG signals, every a time Interval one segment signal of interception is converted to feature vector x through feature extraction, identifies x with classifier, controlled according to recognition result movement Object is to user feedback；

Step S15: executing ILDA/QR algorithm, updates transfer matrix G, then updates data matrix A, and calculate class center Vector set C forms new classifier；

Step S16: this stage terminates；Otherwise, new classifier is used for the identification and feedback of next trial, returns to step Rapid S14.

Further, the step S2 specifically includes the following steps:

Step S21: setting mark flag is 0, and construction container is for storing k type games imagination sample；

Step S22: user carries out the Mental imagery of a trial；System online acquisition EEG signals, every a time Interval one segment signal of interception is converted to feature vector x through feature extraction, identifies x with classifier, controlled according to recognition result movement Object is to user feedback；

Step S23: at the end of current trial, if controll plant hits the mark, all samples of the trial is stored in and are held Device, and record the trial and hit the mark the spent time；

Step S24: if trial number is not up to adaptive updates condition, return step S22；Otherwise, system uses mutual trust Optimum seeking method is appointed to screen new samples；

Step S25: if flag is equal to 0, constructing data matrix A, according to classification number k structural matrix E, executes LDA/QR and calculates Method obtains new transfer matrix G, and setting flag is 1；Otherwise, it executes ILDA/QR algorithm and updates transfer matrix G, and more new data Matrix A；

Step S26: being calculated new class center vector collection C according to transfer matrix G and data matrix A, forms new point Class device, and empty container；

Step S27: man-machine training terminates；Otherwise, return step S22.

Further, mutual trust optimum seeking method described in step S24 comprises the steps of:

Step S41: according to hitting the mark, the spent time screens trial；With the corresponding consuming of trial all in container Time one preliminary set of composition, finds out the minimum consuming time, other consuming times exist using the minimum consuming time as symmetry axis Its symmetric position generates a virtual time, and all virtual times are added to preliminary set and form reference set, calculates reference set The standard deviation of conjunction is chosen and expends the time less than the minimum trial for expending the sum of time and standard deviation；

Step S42: with the method Screening Samples of supporting vector；All sample standard deviations corresponding to the trial that step S41 chooses Candidate samples collection is added, the training on candidate samples collection, chooses those samples for being confirmed as supporting vector with SVM；

Wherein, the trial indicates an experimental considerations unit in the man-machine training process of Mental imagery brain-computer interface；trial When beginning, brain machine interface system gives a target at random；User's imagination of launching a campaign is tried hard to the mobile controll plant of target, brain Machine interface system determines the direction of practical movement controll plant by identifying the type of Mental imagery；When controll plant hits mesh Mark or time-out, trial terminate.

Further, the method for construction described in step S12 and S25 or update data matrix A are as follows:

Data matrix A=[x₁,x₂,…,x_n]=[A₁,…,A_k]∈R^m×n, x_i∈R^m×1I=1 ..., n indicates a m dimension Sample point, n sample point is shared in A；M is determined by feature extracting method, is fixed and invariable in system operation；n It is that dynamic increases in system operation；Each sample block matrixWhat is indicated is the i-th class The set of all sample points shares k classification, n_iI=1 ..., k indicate the number of samples of the i-th class,

Further, according to classification number k structural matrix E's described in step S12 and S25 method particularly includes:

MatrixWherein

Further, the input of the LDA/QR algorithm is data matrix A ∈ R^m×nWith E ∈ R^n×k, export as transfer matrix G∈R^m×k；

Specifically includes the following steps:

Step S31: the economic QR for calculating A is decomposed, A=QR, Q ∈ R^m×n, R ∈ R^n×n, wherein Q is to arrange orthogonal, R right and wrong Unusual；

Step S32: one lower triangular linear system R of solution^TH=E, solution obtain H；

Step S33: G, G=QH is calculated.

Further, the input of the ILDA/QR algorithm is column orthogonal matrix Q, optimal transfer matrix G and new sample Eigen vector x and its classification l export column orthogonal matrix Q and transfer matrix G for update；

Specifically includes the following steps:

Step S41: r=Q is calculated^TX,Q=[Q (x-Qr)/α]；

Step S42: r=-G is calculated^TX, r (l)=r (l)+1, r=r/ α, G=G+Q (:, n+1) r^T。

Further, the calculation method of the classification center vector set C are as follows: the data matrix A of existing known class and Transfer matrix G calculates P=A^TG,Wherein p_j∈R^1×kJ=1 ..., n indicates every in data matrix A The corresponding projection result of one sample point, P_i∈R^1×kI=1 ..., that k is indicated is all p for belonging to the i-th class_jSet；It calculates The center C of each class_i∈R^1×k,Obtaining class center vector collection is

Further, the specific classification method of the classifier are as follows: sample to be determined is characterized vector x, calculates d_i=| | x^TG-C_i||₂I=1 ..., k select the smallest d_i, feature vector x is determined as corresponding classification.

The user of brain-computer interface both needs to allow before using brain machine interface system phase by a personal-machine training process Coadaptation.The state of user is not static constant in this process, feedback procedure of the user in observation brain machine interface system In adjust the state of itself constantly to adapt to the working method of brain-computer interface.The matter of the collected data set of brain machine interface system Amount is the variation with User Status and changes.System is allowed to be capable of the data of preferred high quality automatically in man-machine training process It is very important.Therefore, compared with prior art, the invention has the following advantages that

1. the present invention can allow brain machine interface system automatic preferred sample in man-machine training process, so that brain-computer interface is used The kilter at family can highlight in new samples set.

2. present invention employs the methods of incremental learning.When there are new samples, it is not necessarily to re -training, brain machine interface system The information that new samples are contained can quickly be absorbed.

3. present invention employs be concisely and efficiently algorithm.Brain machine interface system can in man-machine training process it is online self It updates, so that brain machine interface system and being mutually adapted for user can be dynamically completed in man-machine training process.

To sum up, method provided by the invention can enhance brain machine interface system and the mutual of user in man-machine training process and fit It should be able to power.

Detailed description of the invention

Fig. 1 is main-process stream schematic diagram of the invention.

Fig. 2 is the flow diagram of step S1 of the invention.

Fig. 3 is the flow diagram of step S2 of the invention.

Fig. 4 is the schematic diagram of a trial of Mental imagery of the present invention.

Specific embodiment

The present invention will be further described with reference to the accompanying drawings and embodiments.

This implementation provides a kind of two stages adaptive training method of Mental imagery brain-computer interface, as shown in Figure 1, include with Lower step:

Step S1: this step is in single trusted phase, and Mental imagery brain machine interface system trust data is updated with data and divided Class device；When initial, user carries out the Mental imagery of multiple trial, and system online acquisition sample obtains one using LDA/QR algorithm A preliminary transfer matrix G, and classification center vector set C is calculated, form preliminary classification device；User carries on Mental imagery, System obtains new samples with the Mental imagery of classifier online recognition user and to user feedback；Whenever completion one Trial, system updates transfer matrix G using ILDA/QR algorithm, and calculates classification center vector set C, forms new classifier simultaneously It is used for the identification and feedback of next trial, is terminated until the stage；

Step S2: this step is in mutual trusted phase, Mental imagery brain machine interface system while trust data and classifier, The two is allowed to be mutually adapted；When initial, system uses the Mental imagery of the finally obtained classifier online recognition user of step S1 simultaneously To user feedback；After user carries out a certain number of trial, system is used using optimum seeking method screening new samples are mutually trusted LDA/QR algorithm or ILDA/QR algorithm update transfer matrix G, and calculate classification center vector set C, form new classifier and incite somebody to action For it is next identification and feedback, until man-machine training terminates.

In the present embodiment, as shown in Fig. 2, the step S1 specifically includes the following steps:

Step S11: user carries out the Mental imagery of multiple trial, system online acquisition signal, every a time interval A segment signal is intercepted, m dimensional feature vector is converted into through feature extraction, is denoted as x；

Step S12: all feature vectors obtained in the step S11 construct data matrix A, and according to classification number K structural matrix E；

Step S13: LDA/QR algorithm is executed, obtains optimal transfer matrix G, and class center vector collection C, shape is calculated At preliminary classification device；

Step S14: user carries out the Mental imagery of a trial；System online acquisition EEG signals, every a time Interval one segment signal of interception is converted to feature vector x through feature extraction, identifies x with classifier, controlled according to recognition result movement Object is to user feedback；

Step S15: executing ILDA/QR algorithm, updates transfer matrix G, then updates data matrix A, and calculate class center Vector set C forms new classifier；

Step S16: this stage terminates；Otherwise, new classifier is used for the identification and feedback of next trial, returns to step Rapid S14.

In the present embodiment, as shown in figure 3, the step S2 specifically includes the following steps:

Step S21: setting mark flag is 0, and construction container is for storing k type games imagination sample；

Step S22: user carries out the Mental imagery of a trial；System online acquisition EEG signals, every a time Interval one segment signal of interception is converted to feature vector x through feature extraction, identifies x with classifier, controlled according to recognition result movement Object is to user feedback；

Step S23: at the end of current trial, if controll plant hits the mark, all samples of the trial is stored in and are held Device, and record the trial and hit the mark the spent time；

Step S24: if trial number is not up to adaptive updates condition, return step S22；Otherwise, system uses mutual trust Optimum seeking method is appointed to screen new samples；

Step S25: if flag is equal to 0, constructing data matrix A, according to classification number k structural matrix E, executes LDA/QR and calculates Method obtains new transfer matrix G, and setting flag is 1；Otherwise, it executes ILDA/QR algorithm and updates transfer matrix G, and more new data Matrix A；

Step S26: being calculated new class center vector collection C according to transfer matrix G and data matrix A, forms new point Class device, and empty container；

Step S27: man-machine training terminates；Otherwise, return step S22.

In the present embodiment, mutual trust optimum seeking method described in step S24 comprises the steps of:

Step S41: according to hitting the mark, the spent time screens trial；With the corresponding consuming of trial all in container Time one preliminary set of composition, finds out the minimum consuming time, other consuming times exist using the minimum consuming time as symmetry axis Its symmetric position generates a virtual time, and all virtual times are added to preliminary set and form reference set, calculates reference set The standard deviation of conjunction is chosen and expends the time less than the minimum trial for expending the sum of time and standard deviation；

Step S42: with the method Screening Samples of supporting vector；All sample standard deviations corresponding to the trial that step S41 chooses Candidate samples collection is added, the training on candidate samples collection, chooses those samples for being confirmed as supporting vector with SVM；

Wherein, the trial indicates an experimental considerations unit in the man-machine training process of Mental imagery brain-computer interface；trial When beginning, brain machine interface system gives a target at random；User's imagination of launching a campaign is tried hard to the mobile controll plant of target, brain Machine interface system determines the direction of practical movement controll plant by identifying the type of Mental imagery；When controll plant hits mesh Mark or time-out, trial terminate.

In the present embodiment, the method for construction described in step S12 and S25 or update data matrix A are as follows:

Data matrix A=[x₁,x₂,…,x_n]=[A₁,…,A_k]∈R^m×n, x_i∈R^m×1I=1 ..., n indicates a m dimension Sample point, n sample point is shared in A；M is determined by feature extracting method, is fixed and invariable in system operation；n It is that dynamic increases in system operation；Each sample block matrixWhat is indicated is the i-th class The set of all sample points shares k classification, n_iI=1 ..., k indicate the number of samples of the i-th class,

In the present embodiment, according to classification number k structural matrix E's described in step S12 and S25 method particularly includes:

MatrixWherein

In the present embodiment, the input of the LDA/QR algorithm is data matrix A ∈ R^m×nWith E ∈ R^n×k, export as transfer Matrix G ∈ R^m×k；

Specifically includes the following steps:

Step S31: the economic QR for calculating A is decomposed, A=QR, Q ∈ R^m×n, R ∈ R^n×n, wherein Q is to arrange orthogonal, R right and wrong Unusual；

Step S32: one lower triangular linear system R of solution^TH=E, solution obtain H；

Step S33: G, G=QH is calculated.

In the present embodiment, the input of the ILDA/QR algorithm is column orthogonal matrix Q, optimal transfer matrix G and newly arrives Sampling feature vectors x and its classification l, export the column orthogonal matrix Q and transfer matrix G for update；

Specifically includes the following steps:

Step S41: r=Q is calculated^TX,Q=[Q (x-Qr)/α]；

Step S42: r=-G is calculated^TX, r (l)=r (l)+1, r=r/ α, G=G+Q (:, n+1) r^T。

In the present embodiment, the calculation method of the classification center vector set C are as follows: the data matrix of existing known class A and transfer matrix G calculates P=A^TG,Wherein p_j∈R^1×kJ=1 ..., n indicates data matrix A In the corresponding projection result of each sample point, P_i∈R^1×kI=1 ..., that k is indicated is all p for belonging to the i-th class_jSet； Calculate the center C of each class_i∈R^1×k,Obtaining class center vector collection is

In the present embodiment, the specific classification method of the classifier are as follows: sample to be determined is characterized vector x, calculates d_i =| | x^TG-C_i||₂I=1 ..., k select the smallest d_i, feature vector x is determined as corresponding classification.

In the present embodiment, the Mental imagery experiment of user is to be made of multiple run, and each run is by multiple Trial composition, each trial is made of the Windowslength of multiple regular lengths for having overlapping.Such as Fig. 4 institute Show, trial indicates an experimental considerations unit in the man-machine training process of Mental imagery brain-computer interface, and the unit is from any given Target start, hit the mark to controll plant or time-out.Specifically: occur Target Board generation first in 0s, on screen Table wishes the target that user hits, and user can start to imagine corresponding movement at this time.The controll plant indicated after 2s with bead The centre for appearing in screen, between 2s-10s later, bead differentiates that the imagination result of user carries out accordingly according to classifier Movement.If bead hits the mark plate earlier than 10s, the trial is terminated in advance, into the rest period.When 10s without Whether hit the mark plate by bead, bead stop motions, trial terminates and enters the rest period.In rest period bead and Target Board disappears, duration 2s, starts a new trial again later.In the present embodiment, as shown in figure 4, Using the data segment of 2s as the length of a fixed length Windows length, take a Windows length's long every 0.1s Data are input in system using each collected Windows length as online signal data section x.

The foregoing is merely presently preferred embodiments of the present invention, all equivalent changes done according to scope of the present invention patent with Modification, is all covered by the present invention.

Claims (8)

1. a kind of two stages adaptive training method of Mental imagery brain-computer interface, which comprises the following steps:

Step S1: this step is in single trusted phase, and Mental imagery brain machine interface system trust data is updated with data and classified Device；When initial, user carries out the Mental imagery of multiple trial, and system online acquisition sample obtains one using LDA/QR algorithm Preliminary transfer matrix G, and class center vector collection C is calculated, form preliminary classification device；User carries on Mental imagery, system With the Mental imagery of preliminary classification device online recognition user and to user feedback, while obtaining new samples；Whenever completion one Trial, system updates transfer matrix G using ILDA/QR algorithm, and calculates class center vector collection C, forms new classifier and incites somebody to action The identification and feedback for next trial, terminate until the stage；

Step S2: this step is in mutual trusted phase, Mental imagery brain machine interface system trust data and classifier simultaneously, allows two Person is mutually adapted；When initial, system using the finally obtained classifier online recognition user of step S1 Mental imagery and to Family feedback；After user carries out a certain number of trial, system is using optimum seeking method screening new samples are mutually trusted, using LDA/ QR algorithm or ILDA/QR algorithm update transfer matrix G, and calculate class center vector collection C, form new classifier and are used for it Next identification and feedback, until man-machine training terminates；

The step S2 specifically includes the following steps:

Step S21: setting mark flag is 0, and construction container is for storing k type games imagination sample；

Step S22: user carries out the Mental imagery of a trial；System online acquisition EEG signals, every a time interval It intercepts a segment signal and is converted to feature vector x through feature extraction, identify x with classifier, according to the mobile controll plant of recognition result To user feedback；

Step S23: at the end of current trial, if controll plant hits the mark, being stored in container for all samples of the trial, and The trial is recorded to hit the mark the spent time；

Step S24: if trial number is not up to adaptive updates condition, return step S22；Otherwise, system is excellent using mutually trusting Method is selected to screen new samples；

Step S25: if flag is equal to 0, constructing data matrix A, according to classification number k structural matrix E, executes LDA/QR algorithm and obtains To new transfer matrix G, it is 1 that flag, which is arranged,；Otherwise, it executes ILDA/QR algorithm and updates transfer matrix G, and update data matrix A；

Step S26: being calculated new class center vector collection C according to transfer matrix G and data matrix A, form new classifier, And empty container；

Step S27: man-machine training terminates；Otherwise, return step S22；

Mutual trust optimum seeking method described in step S24 comprises the steps of:

Step S241: according to hitting the mark, the spent time screens trial；When consuming corresponding with trial all in container Between constitute a preliminary set, find out it is minimum expend the time, other expend times, and to expend the time using minimum be symmetry axis at it Symmetric position generates a virtual time, and all virtual times are added to preliminary set and form reference set, calculates reference set Standard deviation, choose and expend the time and be less than the minimum trial for expending the sum of time and standard deviation；

Step S242: with the method Screening Samples of supporting vector；All sample standard deviations corresponding to the trial that step S241 chooses add Enter candidate samples collection, the training on candidate samples collection, chooses those samples for being confirmed as supporting vector with SVM；

Wherein, the trial indicates an experimental considerations unit in the man-machine training process of Mental imagery brain-computer interface；Trial starts When, brain machine interface system gives a target at random；User's imagination of launching a campaign is tried hard to the mobile controll plant of target, and brain machine connects Port system determines the direction of practical movement controll plant by identifying the type of Mental imagery；Hit the mark when controll plant or Time-out, trial terminate.

2. a kind of two stages adaptive training method of Mental imagery brain-computer interface according to claim 1, feature exist In, the step S1 specifically includes the following steps:

Step S11: user carries out the Mental imagery of multiple trial, and system online acquisition signal is intercepted every a time interval One segment signal is converted into m dimensional feature vector through feature extraction, is denoted as x；

Step S12: all feature vectors obtained in the step S11 construct data matrix A, and according to classification number k structure Make matrix E；

Step S13: executing LDA/QR algorithm, obtain optimal transfer matrix G, and class center vector collection C is calculated, and is formed just Beginning classifier；

Step S14: user carries out the Mental imagery of a trial；System online acquisition EEG signals, every a time interval It intercepts a segment signal and is converted to feature vector x through feature extraction, identify x with classifier, according to the mobile controll plant of recognition result To user feedback；

Step S15: executing ILDA/QR algorithm, updates transfer matrix G, then updates data matrix A, and calculate class center vector Collect C, forms new classifier；

Step S16: this stage terminates；Otherwise, new classifier is used for the identification and feedback of next trial, return step S14。

3. a kind of two stages adaptive training method of Mental imagery brain-computer interface according to claim 1 or 2, feature It is, the method for the construction or update data matrix A are as follows:

Data matrix A=[x₁,x₂,…,x_n]=[A₁,…,A_k]∈R^m×n, x_iIndicate the sample point of m dimension, x_i∈R^m×1(i= 1 ..., n), n sample point is shared in A；M is determined by feature extracting method, is fixed and invariable in system operation；N exists It is that dynamic increases in system operation；Each sample block matrix A_iWhat is indicated is the set of all sample points of the i-th class, K classification is shared,n_iIndicate the number of samples of the i-th class, i=1 ..., k,

4. a kind of two stages adaptive training method of Mental imagery brain-computer interface according to claim 1 or 2, feature It is, it is described according to classification number k structural matrix E's method particularly includes:

MatrixWhereinN indicates data matrix A In sample point number, n_iIndicate the number of samples of the i-th class.

5. a kind of two stages adaptive training method of Mental imagery brain-computer interface according to claim 1 or 2, feature It is, the input of the LDA/QR algorithm is data matrix A ∈ R^m×nWith E ∈ R^n×k, export as transfer matrix G ∈ R^m×k, m expression The dimension of feature vector x, n indicate the sample point number in data matrix A；

Specifically includes the following steps:

(1) QR for calculating A is decomposed, A=QR, Q ∈ R^m×n, R ∈ R^n×n, wherein Q is that column are orthogonal, and R is nonsingular；

(2) a lower triangular linear system R is solved^TH=E, solution obtain H；

(3) G, G=QH is calculated.

6. a kind of two stages adaptive training method of Mental imagery brain-computer interface according to claim 1 or 2, feature It is, the input of the ILDA/QR algorithm is the feature vector x of column orthogonal matrix Q, optimal transfer matrix G and sample of newly arriving And its classification l, export the column orthogonal matrix Q and transfer matrix G for update；

Specifically includes the following steps:

(1) r=Q is calculated^TX,Q=[Q (x-Qr)/α]；

(2) r=-G is calculated^TX, r (l)=r (l)+1, r=r/ α, G=G+Q (:, n+1) r^T。

7. a kind of two stages adaptive training method of Mental imagery brain-computer interface according to claim 1 or 2, feature It is,

The calculation method of the class center vector collection C are as follows: the data matrix A and transfer matrix G of existing known class calculate P =A^TG,Wherein p_jIndicate the corresponding projection result of each sample point in data matrix A, p_j∈ R^1×k(j=1 ..., n)；P_iThat indicate is all p for belonging to the i-th class_jSet,It calculates each The center C of class_i∈R^1×k,Obtaining class center vector collection isN indicates the sample in data matrix A Point number, n_iIndicate the number of samples of the i-th class.

8. a kind of two stages adaptive training method of Mental imagery brain-computer interface according to claim 7, feature exist In the specific classification method of the classifier are as follows: sample to be determined is characterized vector x, calculates d_i=| | x^TG-C_i||₂, i= 1 ..., k select the smallest d_i, feature vector x is determined as corresponding classification.