CN103268392A - Cognitive function training system for scene interaction and application method thereof - Google Patents

Abstract

The invention discloses a cognitive function training system for scene interaction and an application method thereof. The cognitive function training system for scene interaction comprises display equipment and a pair of 3D (three-dimensional) glasses, wherein the display equipment comprises a touch display screen, and a storage and a man-machine interaction device arranged in the display equipment; a scene interaction scene content is prestored in the storage; the touch display screen and the storage are respectively connected with the man-machine interaction device; and a user interacts with the man-machine interaction device in the display equipment through the touch display screen by wearing the 3D glasses. The cognitive function training system is adopted, so that a virtual scene interaction scene can be provided to vividly simulate a relevant real life scene, a user can feel to be personally on the scene, and the training initiative of the user can be improved. Cognitive training of the user can be blended in different life scenes, damaged and comprehensive cognitive competences of the user can be trained specifically, cognitive competence of the user in actual life can be improved, and the user can be helped to return to society as soon as possible.

Description

A kind of training of cognitive function system and using method thereof of sight interaction

Technical field

The present invention relates to the training of cognitive function system, relate in particular to a kind of training of cognitive function system and using method thereof of sight interaction.

Background technology

Cognition is human knowledge and the mental process of understanding things, comprises notice, memory, orientation, thinking and language ability etc.The ability of the above-mentioned aspect that cognitive disorder general reference a variety of causes causes is impaired, as attention disorders, memory disorder etc.Wherein various obstacles can segment according to its characteristics again again, keep obstacle as notice, and notice is selected obstacle, short-term memory obstacle etc.Can be divided into the mild cognitive functional lesion again according to its degree, middle severe cognition dysfunction (dementia).

Cognition dysfunction is clinical common obstacle, is more common in various brain damages and Alzheimer disease diseases such as (senile dementias).After the patient suffers from cognition dysfunction, influence its quality of life and self care ability, bring serious burden for family and society.

To resuming training of cognition dysfunction artificial training or the CAT patterns of adopting, carry out rehabilitation training at its impaired ability at present more.As manually carrying out picture memory question and answer, area of computer aided is carried out computing power examination etc.The final purpose of rehabilitation training is to recover patients cognitive, can enough regain self care ability even return society.Simple artificial and CAT has confirmed to truly have curative effect, but still exists not enough.

Obtain self care ability even recurrence society because the final purpose to patient's training is to make it, that just must be through the adaptation again of daily life and real social environment.Carry out artificial or computer aid training merely, though can improve the ability of its cognitive certain part, the patient still can feel inconvenience when returning family or society.Be example with the supermarket shopping, the needs of patients short term memory capacity is remembered the article of required purchase, by noticing that selective power selects corresponding article, needs computing power to train during checkout simultaneously.This is a coefficient process of cognitive integration capability.Therefore, the patient is better recovered, must carry out the training of actual life ability to the patient, this also is that rehabilitation training is advocated.But because cognitive training has necessarily professionally, family members and patient individual can't train fully, and are limited to condition restriction, and the doctor also can't accompany the patient and train in actual life.

Virtual reality (Virtual Reality is called for short VR, again translations spirit border, unreal true) is the new and high technology that occurs in recent years, also claims clever border technology or artificial environment.Virtual reality is to utilize computer simulation to produce a three-dimensional virtual world, and the user is provided the simulation about sense organs such as vision, the sense of hearing, senses of touch, allows the user as being personally on the scene, and can observe the things in the three-dimensional space in time, ad lib.

Reality environment can make the people be immersed in the three-dimensional environment of computer real-time generation, and can with multiple stimulation under virtual environment carry out alternately, this just makes environment that the doctor can provide a kind of controllable stimuli for the patient carrying out the rehabilitation of cognitive disorder, and in therapeutic process multiple important indicator is measured and monitored.For the patient, whole treatment is carried out in the environment of the safety of being familiar with, and therapeutic process can be designed novel interesting simultaneously, improves the enthusiasm that the patient participates in, and can eliminate the weakness of traditional therapy simultaneously.

Also do not have at present virtual reality technology is applied in the training of cognitive disorder recovery.

Summary of the invention

In order to overcome the deficiencies in the prior art, the object of the present invention is to provide a kind of technology that adopts virtual reality, improve training of cognitive function system and the using method thereof of the sight interaction of user's cognitive ability fast by the mode of human-computer interaction.

Technical scheme of the present invention is: a kind of training of cognitive function system of sight interaction, it comprises display device and 3D glasses, display device comprises touch display screen, and be located at storer and human-computer interaction device in the display device, prestore in the storer by the interactive scene content of the sight of virtual reality technology design, touch display screen is connected with the human-computer interaction device respectively with storer, and the user wears the 3D glasses, by the human-computer interaction device interactive in touch display screen and the display device.

Adopt above training of cognitive function system, display device is according to touch display screen and interior storer and human-computer interaction device thereof, can provide a kind of virtual sight very true to nature interactive scene to the user, the user is provided the simulation about sense organs such as vision, the sense of hearing, senses of touch, allows the user as on the spot in person.Simultaneously, the interactive scene of same virtual sight can be reused, and the user can carry out interaction with the interactive scene of virtual sight easily, can improve or recover user's cognitive function effectively.

Described human-computer interaction device comprises MIM message input module, the information identification module, the information analysis module, information storage module, the information feedback module, message output module and virtual scene analog module, the input end of MIM message input module is connected with touch display screen and receives the information of importing on the touch-screen, the output terminal of MIM message input module is connected with the input end of information identification module, the output terminal of information identification module is connected with the input end of information analysis module, information analysis module one output terminal is connected with the input end of information storage module, another output terminal of information analysis module is connected with the input end of information feedback module, the output terminal of information feedback module is connected with virtual scene analog module one input end, the input end of message output module is connected with storer, the input end of message output module is connected with another input end of virtual scene analog module, and the output terminal of virtual scene analog module is connected with touch display screen.

By the human-computer interaction device, the user can see the interactive scene of virtual sight at the demonstration touch-screen, excites user's interest and enthusiasm, sets up user's information database, the convenient cognitive ability that improves the user.

Prestore training of cognitive function scheme feedback system in the described information feedback module.

The present invention also provides a kind of using method of training of cognitive function system of sight interaction, and described using method may further comprise the steps:

1) opens display device, message output module is transferred the interactive scene information of the sight by the virtual reality technology design that prestores in the storer, and the interactive scene information of the sight transferred sent to the virtual scene analog module, the virtual scene analog module shows the interactive scene of three-dimensional virtual sight by touch display screen;

2) after the defective user of cognitive function wears the 3D glasses, watch the interactive scene of three-dimensional virtual sight, and according to the prompting in the interactive scene of virtual sight, carry out touch operation;

3) after MIM message input module receives user's touch information, user's touch information is sent to the information identification module, the information identification module is identified the information that receives, and recognition result is sent to the information analysis module;

4) information analysis module is analyzed the recognition result of information identification module, judges whether user's touch information is correct, and the grade of difficulty of training is set to the user according to judged result; The information analysis module sends to analysis result information storage module again and preserves, and also analysis result is sent to the information feedback module simultaneously;

5) information feedback module receiving and analyzing result, and according to the training of cognitive function scheme feedback system that prestores, produce feedback accordingly, for example whether feedback enters the interactive scene training of next sight or repeats the interactive scene of this sight; Then feedack is sent to the virtual scene analog module;

6) the virtual scene analog module is shown to feedack on the touch display screen.

In a word, adopt training of cognitive function of the present invention system, provide the virtual interactive scene of sight extremely vivo simulate relevant real life scenarios, allow the user that sensation on the spot in person is arranged, the enthusiasm that the raising user trains.Simultaneously, the interactive scene of this virtual sight has abundant vision, acoustic stimuli, and form is lively, active, can improve the comfort of patient when training.To incorporate user's cognitive training in the different life scenes, targetedly the comprehensive cognitive ability of being undermined of user be trained, can improve the cognitive ability of user in real life, return society as soon as possible.

Description of drawings

The present invention is further detailed explanation below in conjunction with the drawings and specific embodiments:

Fig. 1 is the structural representation of the training of cognitive function system of sight interaction of the present invention.

Embodiment

The present invention is further detailed explanation below in conjunction with embodiment.

The invention provides a kind of training of cognitive function system of sight interaction, it comprises display device 1 and 3D glasses 2, display device 1 comprises touch display screen 11, and be located at storer 12 and human-computer interaction device 13 in the display device 1, prestore in the storer 12 by the interactive scene content of the sight of virtual reality technology design, touch display screen 11 is connected with human-computer interaction device 13 respectively with storer 12, the user wears 3D glasses 2, by human-computer interaction device 13 interactions in touch display screen 11 and the display device 1.

Described human-computer interaction device 13 comprises MIM message input module 131, information identification module 132, information analysis module 133, information storage module 134, information feedback module 135, message output module 136 and virtual scene analog module 137, the input end of MIM message input module 131 is connected and receives the information of input on the touch-screen 11 with touch display screen 11, the output terminal of MIM message input module 131 is connected with the input end of information identification module 132, the output terminal of information identification module 132 is connected with the input end of information analysis module 133, information analysis module 133 1 output terminals are connected with the input end of information storage module 134, information analysis module 133 another output terminals are connected with the input end of information feedback module 135, the output terminal of information feedback module 135 is connected with virtual scene analog module 137 1 input ends, the input end of message output module 136 is connected with storer 12, the input end of message output module 136 is connected with virtual scene analog module 137 another input ends, and the output terminal of virtual scene analog module 137 is connected with touch display screen 11.

Prestore training of cognitive function scheme feedback system in the described information feedback module 135.

The using method of the training of cognitive function system of sight interaction of the present invention, it may further comprise the steps:

1) opens display device 1, message output module 136 is transferred the interactive scene information of the sight by the virtual reality technology design that prestores in the storer 12, and the interactive scene information of the sight transferred sent to virtual scene analog module 137, virtual scene analog module 137 is presented at the user at the moment with the interactive scene of sight that message output module sends by touch display screen 11, allow the user place oneself in the midst of among the three-dimensional virtual scene, make user's brain sensory cortex obtain stronger excitement levels;

2) after the defective user of cognitive function wears 3D glasses 2, watch the interactive scene of three-dimensional virtual sight, and according to the prompting in the interactive scene of virtual sight, carry out touch operation;

3) after MIM message input module 131 receives users' touch information, user's touch information is sent to information identification module 132, the information of 132 pairs of receptions of information identification module is identified, and recognition result is sent to information analysis module 133;

The recognition result of 133 pairs of information identification modules 132 of 4) information analysis module is analyzed, and judges whether user's touch information is correct, and the grade of difficulty of training is set to the user according to judged result; Information analysis module 133 sends to analysis result information storage module 134 again and preserves, and also analysis result is sent to information feedback module 135 simultaneously;

5) information feedback module 135 receiving and analyzing results, and according to the training of cognitive function scheme feedback system that prestores, produce feedback accordingly, for example whether feedback enters the interactive scene training of next sight or repeats the interactive scene of this sight; Then feedack is sent to virtual scene analog module 137;

6) virtual scene analog module 137 is shown to feedack on the touch display screen 11.

Embodiment 1

The interactive scene of the sight that selection takes bus.

1) opens display device 1, message output module 136 is transferred the interactive scene information of the sight that takes bus three-dimensional in the storer 12, and the interactive scene information of the sight transferred sent to virtual scene analog module 137, virtual scene analog module 137 shows the interactive scene of three-dimensional virtual sight by touch display screen 11;

2) after the defective user of cognitive function wears 3D glasses 2, watch the interactive scene of the three-dimensional sight that takes bus;

At this moment, showing that touch-screen 11 shows:

A: leading question: following you will carry out is the situational analogue training that takes bus.You need finish taking bus to the destination of task according to system requirements in the training.

B: mission statement: take bus from public transport A station and to get off to public transport B station.

C: beginning scene: public transport A station;

D: training content:

A: station board is selected:

Sight requires: selection schemer.

Continue to show virtual bus station station board scene on the touch display screen 11.Show and the similar multichannel public bus network of real public transport stop board on the station board.The user checks public transport stop board, finds the bus routes of respective lines.Audio-video virtual by the surrounding vehicles pedestrian, enhancing information is to corticocerebral stimulation, and abundant stimulation helps the recovery of user's brain disorder.

Operation requires: the user selects correct public bus network option by touch display screen 11.

3) after MIM message input module 131 receives user's public bus network option touch information, user's touch information is sent to information identification module 132, the information of 132 pairs of receptions of information identification module is identified, and recognition result is sent to information analysis module 133;

The recognition result of 133 pairs of information identification modules 132 of 4) information analysis module is analyzed, and judges whether user's public bus network option is correct, and the grade of difficulty of training is set to the user according to judged result;

For example, according to user's situation, increase or reduce corresponding circuit.Because cognition dysfunction can be divided into three kinds of mild cognitive impairments, moderate cognitive disorder, severe cognitive disorder according to Cognitive Assessment.The corresponding different cognition dysfunction of the interactive scene of each sight can arrange different grades.Interactive scene kind of this sight for example, difficulty can arrange ten secondarys, and corresponding each grade of difficulty has corresponding circuit.When being 2 grades as grade of difficulty, selectable route is 2.When grade of difficulty was 12 grades, selectable route was 12.The mild cognitive impairment person can arrange 7 grades-12 grades of difficulty, and moderate cognitive disorder person can arrange difficulty 3-7 level.Severe cognitive disorder person can arrange difficulty 1-3 level.Setting was demoted automatically as if 3 mistakes in carrying out before difficulty was arranged on training, auto-update when correct person practises next time.

Information analysis module 133 sends to information storage module 134 with analysis result and preserves, to be user-friendly for inquiry; Also analysis result is sent to information feedback module 135 simultaneously;

5) information feedback module 135 receives the analysis result of user's public bus network, and according to the training of cognitive function scheme feedback system that prestores, produces feedback accordingly, for example repeats current training, carries out content presentation etc.Then feedack is sent to virtual scene analog module 137;

6) virtual scene analog module 137 is shown to feedack on the touch display screen 11.

Exercise description: this scene can be trained user's following ability:

Memory: external information input, carry out immediate memory then, be embodied in can remember before mission requirements, take advantage of from A station to B and stand, rather than the forgeing and lose of information.

Notice: examination be that (1) has or not attention (2) to note the selection of whether concentrating (3) to note.Be embodied in the user and do not focus one's attention on and check each public bus network, and select correct circuit.

Executive capability: executive capability is the process that human thinking and functipnal capability combine, and needs to utilize the knowledge and experience that in the past obtained to handle problems, and is embodied in as requested, selects corresponding route by the proper operation of touch screen.

Listen to understand and the reading comprehension ability: by the understanding to literal and the voice content of mission requirements, correctly execute the task.

Orientation training: correctly judge the bus direction.

Claims (4)

1. the training of cognitive function system of a sight interaction, it is characterized in that: it comprises display device and 3D glasses, display device comprises touch display screen, and be located at storer and human-computer interaction device in the display device, prestore in the storer by the interactive scene content of the sight of virtual reality technology design, touch display screen is connected with the human-computer interaction device respectively with storer, and the user wears the 3D glasses, by the human-computer interaction device interactive in touch display screen and the display device.

2. the training of cognitive function system of sight interaction according to claim 1, it is characterized in that: described human-computer interaction device comprises MIM message input module, the information identification module, the information analysis module, information storage module, the information feedback module, message output module and virtual scene analog module, the input end of MIM message input module is connected with touch display screen and receives the information of importing on the touch-screen, the output terminal of MIM message input module is connected with the input end of information identification module, the output terminal of information identification module is connected with the input end of information analysis module, information analysis module one output terminal is connected with the input end of information storage module, another output terminal of information analysis module is connected with the input end of information feedback module, the output terminal of information feedback module is connected with virtual scene analog module one input end, the input end of message output module is connected with storer, the input end of message output module is connected with another input end of virtual scene analog module, and the output terminal of virtual scene analog module is connected with touch display screen.

3. the training of cognitive function system of sight interaction according to claim 2 is characterized in that: prestore training of cognitive function scheme feedback system in the described information feedback module.

4. the using method of the training of cognitive function system of a sight interaction as claimed in claim 3, it is characterized in that: described using method may further comprise the steps:

1) opens display device, message output module is transferred the interactive scene information of the sight by the virtual reality technology design that prestores in the storer, and the interactive scene information of the sight transferred sent to the virtual scene analog module, the virtual scene analog module shows the interactive scene of three-dimensional virtual sight by touch display screen;

2) after the defective user of cognitive function wears the 3D glasses, watch the interactive scene of three-dimensional virtual sight, and according to the prompting in the interactive scene of virtual sight, carry out touch operation;

3) after MIM message input module receives user's touch information, user's touch information is sent to the information identification module, the information identification module is identified the information that receives, and recognition result is sent to the information analysis module;

4) information analysis module is analyzed the recognition result of information identification module, judges whether user's touch information is correct, and the grade of difficulty of training is set to the user according to judged result; The information analysis module sends to analysis result information storage module again and preserves, and also analysis result is sent to the information feedback module simultaneously;

5) information feedback module receiving and analyzing result, and according to the training of cognitive function scheme feedback system that prestores, produce feedback accordingly, then feedack is sent to the virtual scene analog module;

6) the virtual scene analog module is shown to feedack on the touch display screen.

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