CN1949139A

CN1949139A - Brain-machine interface mouse controlling device

Info

Publication number: CN1949139A
Application number: CNA2006101292549A
Authority: CN
Inventors: 万柏坤; 程龙龙; 明东
Original assignee: Tianjin University
Current assignee: Tianjin University
Priority date: 2006-11-08
Filing date: 2006-11-08
Publication date: 2007-04-18
Anticipated expiration: 2026-11-08
Also published as: CN1949139B

Abstract

The invention relates to two devices used EEG to control mouse. One of them includes screen cursor cycle control display panel, scalp lead electrode, pre-amplification low pass filter circuit, analog digital conversion circuit, and computer. The screen cursor cycle control display panel is respectively set indicator light on each azimuth which is controlled by cycle program, used to indicate current controlled mouse moving direction for user. The scalp lead electrode collects user EEG, and transmits it to the pre-amplification low pass filter circuit. The processed analog signal is converted into digital signal and output to computer by which the digital signal is processed to generate brain-computer interface control signal. The mouse control program is transferred by judging the brain-computer interface control signal and indicator light cycle lighted control signal to control the mouse cursor moving. Another one replaces the screen cursor cycle control display panel with screen display control. The invention supplies two simple and practicable computer mouse cursor control devices for paralysis patient, has distinct social and economic benefits.

Description

Brain-machine interface mouse controlling device

Technical field

The present invention relates to utilize EEG signals to realize the device of mouse control, belong to biomedical engineering and field of computer technology.

Background technology

Brain-machine interface (Brain-Computer Interface, BCI) being to set up a kind of direct information that does not rely on conventional brain output channel (peripheral nerve and musculature) to exchange and control channel between human brain and computing machine or other electronic equipments, is a kind of brand-new man-machine interaction system.

The principle of basic BCI system is as follows: the EEG signals that contains operation control intention obtains from scalp or encephalic by electrode, extract the EEG signals feature of reflection user intention through signal Processing, and it is converted into the operational order (as press remote control keys, knock typewriter keyboard, move screen and go up cursor etc.) of control external unit.The main application target of BCI research at present is to help the disabled person of the serious paralysis of limbs to handle and use peripheral daily life instrument, to realize information interchange and device control to external world.

Brain-machine interface is as a kind of brand-new message exchange and control technology, to be the paralytic, particularly those have lost basic extremity motor function but the patient that has a normal thinking, and a kind of and extraneous new way of carrying out information interchange and control is provided, and just are being subjected to increasing attention.

Summary of the invention

Purport of the present invention provides the control device of computer screen mouse cursor movement, to realize the no limb action remote control of computer mouse control.This invention can allow the general severe paralyse but the normally functioning disabled person of brains realizes the straighforward operation to the computer screen mouse cursor movement voluntarily.

Propose two kinds of technical schemes with identical innovative idea, first kind of technical scheme is as follows:

A kind of brain-machine interface mouse controlling device comprises screen cursor cycle control display panel, scalp crosslinking electrode, pre-amplification low pass circuit, analog to digital conversion circuit, computing machine.On each orientation of screen cursor cycle control display panel pilot lamp is set respectively,, is used for pointing out the current mouse moving direction that can control to the mouse action person by loop program control indicator light cycle lighting; The electric signal of the scalp crosslinking electrode is used for gathering mouse action person's brain electricity α ripple, and be sent to the pre-amplification low pass circuit and amplify, Filtering Processing, amplify, simulating signal after the Filtering Processing converts digital signal to through analog to digital conversion circuit and exports computing machine to, above-mentioned digital signal is carried out the calculation process of signal Processing and feature extraction by computing machine, generate brain-machine interface control signal, and make judgement according to brain-machine interface control signal with to the control signal of indicator light cycle lighting, call the mouse control program, the moving of the cursor of mouse on the control computer screen.

Second kind of technical scheme is similar to first kind of scheme, different is, no longer adopt special screen cursor cycle control display panel, but utilize a screen display control, on each orientation of this control, direction signs are set respectively, show bright or variable color by the circulation of loop program control direction signs, be used for pointing out the current mouse moving direction that can control to the mouse action person.

In above-mentioned two kinds of brain-machine interface mouse controlling devices, the calculation process that computing machine all can adopt the Labview platform that the digital signal of input is carried out signal Processing and feature extraction.

The present invention utilizes brain-machine interface control signal, be the paralytic, particularly those have lost basic extremity motor function but the patient that has a normal thinking, and a kind of control device that is simple and easy to the computer mouse cursor of usefulness is provided, and have remarkable social benefit and economic benefit.

Description of drawings

Fig. 1 system architecture synoptic diagram of the present invention;

Fig. 2 screen cursor cycle control display panel and indicator light cycle lighting synoptic diagram, (a): the cursor control that moves up; (b): cursor moves down control; (c): cursor is moved to the left control;

The process flow diagram that on the Labview platform, carries out signal Processing of Fig. 3 embodiment of the invention.

Embodiment

The present invention selects for use alpha in the brain electricity (α) ripple as the feature control signal.The α ripple is one of principal ingredient of spontaneous brain electricity, and corresponding with the unused rhythm and pace of moving things of visual cortex, frequency is 8～13Hz, is the composition of tool obvious characteristic in the rhythmicity brain wave.The normal person clear-headed when closing order the α ripple strengthen, open eyes, ponder a problem, or when being subjected to other and stimulating, the α ripple weakens or the electrophysiological phenomena that disappears is called the blocking-up of α ripple; After this if order is closed in experimenter's peace and quiet once again, then the α ripple occurs again.The α wave amplitude all can obviously strengthen this pervasive feature during the hindbrain electricity closed one's eyes according to 90% above cranial nerve function normal person in the short time, the present invention as control signal, realizes the control to the computer screen mouse cursor movement by the variation characteristic that extracts the experimenter and open eeg amplitude when closing one's eyes.Place Ag-AgCl scalp crosslinking electrode at operator's back of head O1-T5 place of leading and detect the variation of eeg amplitude, and set suitable control threshold value according to experimenter α wave amplitude size.When the α wave amplitude of closing one's eyes surpasses threshold value, then open the control corresponding switch.Because system operation is simple, generally need not training just can control computer screen mouse cursor movement.

Fig. 1 is a system architecture synoptic diagram of the present invention.This system is based on virtual instrument Labview platform, utilize the switch control action of the disconnected phenomenon of normal brain electricity α wave resistance to design corresponding screen cursor cycle control display panel, scalp crosslinking electrode, Labview data acquisition card, Labview signal processing platform, realize control the computer screen mouse cursor movement.The operator selects to produce the EEG signals that contains with the cursor of mouse control information according to cursor on computer screen cycle control indication; This signal carries out A/D conversion back input computing machine by the Lavview data acquisition card again by the induction of scalp crosslinking electrode, through the pre-amplification low pass circuit; In computing machine, finish on the Labview platform then denoising, root mean square (RMS) level and smooth-average, with threshold voltage relatively, produce a series of signal work of treatment such as gating pulse; At last by calling the mouse_event (MOUSEEVENTF_MOVE in the Windows api function storehouse, 10,0,0,0) function makes the computer screen mouse cursor move the proper number pixel to finish the control function to mouse to respective direction on the basis of current location.

The present invention has designed screen cursor cycle control display panel, to realize the selection (as shown in Figure 2) to four moving direction control function of cursor.Four control moving directions such as upper and lower, left and right are represented in four arrow indications shown in (a)～(c) respectively among Fig. 2, are shown by corresponding loop program Control Circulation.(a) and (b), (c) three width of cloth figure have demonstrated successively that cursor moves up, cursor moves down and cursor is moved to the left three function state of a controls (corresponding pilot lamp is lighted) among the figure.

The present invention can also adopt the screen display control, on the four direction up and down of control direction signs is set respectively, shows bright or variable color by the circulation of loop program control direction signs, and the function state of a control is to shown in Figure 2 similar.

The present invention utilizes brain electric control cursor of mouse flow process as follows:

(1) by the labview capture card by being placed in the scalp crosslinking electrode on the scalp, gather EEG signals.

(2) determine to wish cursor moving direction (upwards, downwards, left, to the right).

(3) supposition anticipation direction is upwards, when the pilot lamp that control lamp to be recycled makes progress is lighted, carries out the α ripple and recovers.

(4) EEG signals that collects is carried out filtering, near the variation of the power spectrum signal we the major concern 10Hz is so adopt the bandpass filter of 8～13Hz.

(5) it is level and smooth the later EEG signals of filtering to be carried out RMS, sets appropriate thresholds.The value of the RMS that records does not surpass threshold value output " 0 " if surpass threshold value output " 1 ".

(6) control signal of output " 0 " " 1 " signal and cycle control lamp is done and computing.If with operation result be 1, then call mouse_event (MOUSEEVENTF_MOVE, 0 ,-10,0,0) function in the WindowsAPI function library and make mouse ten pixels (number as number is adjustable) that on the basis of current location, move up

(7) in like manner, can finish downwards, left, task to the right.

Also can replace the cycle control lamp with imagination action potential, the selection idiographic flow of travel direction is as follows:

1) calculate C3 and the C4 alpha wave band energy spectrum of EEG signals that leads, and read its intermediate frequency 10Hz place energy value, calculating C3 subtracts the energy difference that C4 leads.

2) according to the energy difference that subtracts each other come decision operation person to be intended that to want cursor left (or on) move still to the right (or down) and move: if the two result who subtracts each other moves threshold value V greater than cursor _RmCan conclude then that the operator has makes cursor (or down) intention of moving to the right, if the two result who subtracts each other is less than-V _Rm, can conclude then that the operator has to make cursor (or on) intention of moving left; If the two result who subtracts each other is at (V _Rm, V _Rm) between, thinking that then the energy difference that C3 and C4 lead is in normal range, the operator does not have the intention of moving cursor temporarily; Cursor action threshold value V _RmValue determine by the described method of following 5.2 joints.

3) can conclude that the operator has and make cursor (or down) intention of moving to the right if subtract energy difference that C4 leads according to C3, then call mouse_event (MOUSEEVENTF_MOVE in the Windows api function storehouse, 10,0,0,0) function make cursor by current location to the right (or down) move ten pixels; Otherwise, if subtracting energy difference that C4 leads according to C3 can conclude that the operator has and make cursor (or on) intention of moving left, then call mouse_event (MOUSEEVENTF_MOVE in the Windows api function storehouse,-10,0,0,0) function make cursor by current location left (or on) move ten pixels.

4) repeating step 1) 2) 3) can make cursor of mouse move to the screen position that the operator is concerned about.

Signal Processing of the present invention can be finished on the Labview platform.Signal processing flow is as shown in Figure 3: pick up original EEG signals after the Labview capture card is input to computing machine by scalp electrode, the bandpass filtering through 8～13Hz keeps wherein α wave component again; This signal is through being divided into two paths of signals behind root mean square (RMS) smoothing algorithm of 10ms: become the main control channel signal after one tunnel the average treatment through 400～500ms, be used for output control; Another road becomes the auxiliary control channel signal through after average treatment of 50ms, is used for judging that main channel signal is by the close one's eyes true α ripple amplification signal that produces or other disturbs caused noise signal of experimenter.Its determination methods is that main channel signal and threshold voltage are compared, if surmount threshold voltage, compares to judge whether true α ripple amplification signal with the auxiliary control channel signal again.Signal processing flow is exported to interface circuit with actual α ripple amplification signal as control signal at last and is produced prompt tone and gives the operator.

For total system of the present invention, need to determine four critical technical parameters: first cursor action threshold value, it two is a switching threshold voltage, it three is constants actuation time, continue the time of flicker before switching corresponding to pilot lamp on the control panel, it four is the caused maximum ground unrest voltages of various interference.Above-mentioned first parameter mirror operation person is in the difference of α wave amplitude between (or up and down) motion state of closing one's eyes about imagination cursor; Second parameter mirror operation person open, the difference of α wave amplitude between the closed-eye state; The 3rd parameter mirror operation person closes one's eyes back α wave amplitude above the threshold voltage required time; The 4th parameter is to judging that the main control channel signal is a true α wave control signal or interference noise has important value.Below these four parameters customized are really introduced.

Cursor action threshold value:

α wave amplitude mean value was designated as V when the operator was closed one's eyes (or the on) motion left of imagination cursor _Left, α wave amplitude mean value is designated as V during (or the down) motion to the right of the imagination of closing one's eyes cursor _Right, its difference is designated as V _m, operator's switching threshold voltage reference value V then _RmCan calculate by following experimental formula:

V _rm＝V _right+0.8V _m (1)

0.8 is the adjustment coefficient of α wave amplitude difference under two kinds of imaginations of operator operating state in the formula.

Switching threshold voltage:

α wave amplitude mean value was designated as V when the operator was opened eyes _Open, α wave amplitude mean value is designated as V when closing one's eyes _Close, its difference is designated as V _d, operator's switching threshold voltage reference value V then _RefCan calculate by following experimental formula:

V _ref＝V _open+0.8V _d (2)

0.8 be that the operator opens in the formula, the gain coefficient of α wave amplitude difference under the closed-eye state.The present invention adopts identical threshold voltage to the different operating person, can choose corresponding switching threshold voltage setting scheme according to different controlled target and task.

Actuation time constant:

As described above, the α wave amplitude surpassed the threshold voltage required time after actuation time, constant reflected the operator, the present invention adopts the identical gain coefficient value, determines each operator's switch control threshold voltage as stated above, and with being worth this system testing operator's actuation time.In order to obtain more reliable and more stable data, require each operator's repetitive operation test 25 times, consider system hardware collection, signal Processing required time and individual difference, the present invention chooses maximal value in data recording actuation time as constant actuation time of BCI system.

Maximum ground unrest voltage:

A lot of disturbing factors (comprising that eye electricity, electromyographic signal and ambient noise disturb) can appear in the operating process.The action mean values can be followed the variation of the generation of action or environment and corresponding change occur when above-mentioned interference occurs, and it is a lot of to exceed normal range.For the situation that occurs is disturbed in caution significantly, the present invention is setting an interference warning value in addition (above threshold voltage on subaisle outside the main channel, within the interference range significantly that may occur), if surpass this warning value just think the control signal of main channel may be by interference cause but not the control increase of α wave amplitude down consciously, thereby suppress the output of main channel control signal.

16 experimenters use computer screen mouse cursor movement control system of the present invention to carry out the basic controlling characteristic test.This experiment purpose is by experimenter's data analysis being investigated controlling schemes feasibility and the ease for operation and the control rate of system.The experimenter is young student (men and women half and half, and the mean age is 25.2 years old).Experiment comprises four-stage, and each stage requires the experimenter to carry out 20 Continuous Selection control.The experimenter all not through training in advance, selects the order of control task to provide at random in experiment.Pick up counting from sending the control task order,, pilot lamp selected to the controlled target direction lighted (control task is finished in expression), and then timing stops, and carries out successively 20 times; If the pilot lamp of being lighted is not the direction that the control task order will be chosen, then be designated as a mistake.The experimental period record is strict to be responsible for carrying out by same experimenter under same experimental conditions.

Each experimenter correct select time (containing maximal value, minimum value, intermediate value and mean value) and wrong choice number of times in continuous 20 target selection process of four-stage have been write down.From experimental data as can be seen each experimenter continuous experimentation, correct select time shortens, selects errors number obviously to gradually reduce gradually, and generally be near or below mean value from the correct select time of subordinate phase experiment beginning, after showing that the experimenter is through the phase one experiment, all can be familiar with the also control operation of adaptive system soon.It only is 10% that two experimenters error rate in experiment is first wherein arranged, three experimenters are from subordinate phase, error rate is dropped to 15%, 10% and 5% respectively, show that most experimenters have been familiar with system's control when subordinate phase is tested, thereby reduced error level rapidly.Above-mentioned basic controlling experimental result has shown that this BCI system has the characteristics of easy to understand and operation.

5 subject data statistics of table 1

The experimenter	Two class mistakes	For the first time	For the second time	For the third time	The 4th time
The experimenter	Two class mistakes	For the first time	For the second time	For the third time	The 4th time	A B C D E amounts to	Loop error CEP error loop error CEP error loop error CEP error loop error CEP error loop error CEP error loop error CEP error	1 4 1 3 0 2 0 6 0 2 2 17	0 3 0 1 1 0 0 2 1 0 2 6	0 1 1 1 0 1 0 1 0 2 1 6	1 0 0 1 0 2 0 2 1 0 2 5

Table 1 is that two classes that are easier to occur in wherein 5 experimenters experiment are selected error statistics, and first what is called " loop error " refers to that the experimenter misses this circulation because of failing in time to make a choice, and can only wait until next circulation time select target direction again.It two is " it is wrong to face choosing ", refer to the experimenter because of control has too much of a good thing the wrong adjacent direction target of having selected.Summation is analyzed as can be seen from table, and loop error occurs fewer, and its main cause is an accidentalia.And in selecting wrong number, face and select mistake to occupy larger proportion, be easier to take place.In essence, face and select mistake mainly to result from psychological factor, but can overcome through training.Can see in the table and face the choosing mistake, reduce 64.7%, reduce 70.6%, further prove the ease for operation and the unfailing performance of this BCI system to the 4th part in the second portion error rate progressively obviously reducing in the experimentation.

16 experimenter's experimental results illustrate that this BCI system has does not need complicated study or biofeedback training process, the accuracy height, easy characteristics such as grasps may be for having a normal thinking but the patient of motor function incompleteness provides a kind of new information interchange control mode and help the disabled rehabilitation and life aid.

Claims

1. a brain-machine interface mouse controlling device comprises screen cursor cycle control display panel, scalp crosslinking electrode, pre-amplification low pass circuit, analog to digital conversion circuit, computing machine, wherein;

On each orientation of screen cursor cycle control display panel pilot lamp is set respectively,, is used for pointing out the current mouse moving direction that can control to the mouse action person by loop program control indicator light cycle lighting; The electric signal of the scalp crosslinking electrode is used for gathering mouse action person's brain electricity α ripple, and be sent to the pre-amplification low pass circuit and amplify, Filtering Processing, amplify, simulating signal after the Filtering Processing converts digital signal to through analog to digital conversion circuit and exports computing machine to, above-mentioned digital signal is carried out the calculation process of signal Processing and feature extraction by computing machine, generate brain-machine interface control signal, and make judgement according to brain-machine interface control signal with to the control signal of indicator light cycle lighting, call the mouse control program, the moving of the cursor of mouse on the control computer screen.

2. brain-machine interface mouse controlling device according to claim 1 is characterized in that, the calculation process that computing machine adopts the Labview platform that the digital signal of input is carried out signal Processing and feature extraction.

3. a brain-machine interface mouse controlling device comprises screen display control, scalp crosslinking electrode, pre-amplification low pass circuit, analog to digital conversion circuit, computing machine, wherein:

On each orientation of screen display control direction signs are set respectively, show bright or variable color, be used for pointing out the current mouse moving direction that can control to the mouse action person by the circulation of loop program control direction signs; The electric signal of the scalp crosslinking electrode is used for gathering mouse action person's brain electricity α ripple, and be sent to the pre-amplification low pass circuit and amplify, Filtering Processing, amplify, simulating signal after the Filtering Processing converts digital signal to through analog to digital conversion circuit and exports computing machine to, above-mentioned digital signal is carried out the calculation process of signal Processing and feature extraction by computing machine, generate brain-machine interface control signal, and make judgement according to brain-machine interface control signal with to the control signal of screen display control, call the mouse control program, the moving of the cursor of mouse on the control computer screen.

4. brain-machine interface mouse controlling device according to claim 3 is characterized in that, the calculation process that computing machine adopts the Labview platform that the digital signal of input is carried out signal Processing and feature extraction.