CN110444296A - A kind of solid color lump obstacles testing system, storage medium, device and implementation method - Google Patents
A kind of solid color lump obstacles testing system, storage medium, device and implementation method Download PDFInfo
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- CN110444296A CN110444296A CN201910596718.4A CN201910596718A CN110444296A CN 110444296 A CN110444296 A CN 110444296A CN 201910596718 A CN201910596718 A CN 201910596718A CN 110444296 A CN110444296 A CN 110444296A
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- A—HUMAN NECESSITIES
- A61—MEDICAL OR VETERINARY SCIENCE; HYGIENE
- A61B—DIAGNOSIS; SURGERY; IDENTIFICATION
- A61B5/00—Measuring for diagnostic purposes; Identification of persons
- A61B5/103—Detecting, measuring or recording devices for testing the shape, pattern, colour, size or movement of the body or parts thereof, for diagnostic purposes
- A61B5/11—Measuring movement of the entire body or parts thereof, e.g. head or hand tremor, mobility of a limb
- A61B5/1118—Determining activity level
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- A—HUMAN NECESSITIES
- A61—MEDICAL OR VETERINARY SCIENCE; HYGIENE
- A61B—DIAGNOSIS; SURGERY; IDENTIFICATION
- A61B5/00—Measuring for diagnostic purposes; Identification of persons
- A61B5/40—Detecting, measuring or recording for evaluating the nervous system
- A61B5/4076—Diagnosing or monitoring particular conditions of the nervous system
- A61B5/4088—Diagnosing of monitoring cognitive diseases, e.g. Alzheimer, prion diseases or dementia
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- G—PHYSICS
- G16—INFORMATION AND COMMUNICATION TECHNOLOGY [ICT] SPECIALLY ADAPTED FOR SPECIFIC APPLICATION FIELDS
- G16H—HEALTHCARE INFORMATICS, i.e. INFORMATION AND COMMUNICATION TECHNOLOGY [ICT] SPECIALLY ADAPTED FOR THE HANDLING OR PROCESSING OF MEDICAL OR HEALTHCARE DATA
- G16H40/00—ICT specially adapted for the management or administration of healthcare resources or facilities; ICT specially adapted for the management or operation of medical equipment or devices
- G16H40/60—ICT specially adapted for the management or administration of healthcare resources or facilities; ICT specially adapted for the management or operation of medical equipment or devices for the operation of medical equipment or devices
- G16H40/63—ICT specially adapted for the management or administration of healthcare resources or facilities; ICT specially adapted for the management or operation of medical equipment or devices for the operation of medical equipment or devices for local operation
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- G—PHYSICS
- G16—INFORMATION AND COMMUNICATION TECHNOLOGY [ICT] SPECIALLY ADAPTED FOR SPECIFIC APPLICATION FIELDS
- G16H—HEALTHCARE INFORMATICS, i.e. INFORMATION AND COMMUNICATION TECHNOLOGY [ICT] SPECIALLY ADAPTED FOR THE HANDLING OR PROCESSING OF MEDICAL OR HEALTHCARE DATA
- G16H50/00—ICT specially adapted for medical diagnosis, medical simulation or medical data mining; ICT specially adapted for detecting, monitoring or modelling epidemics or pandemics
- G16H50/30—ICT specially adapted for medical diagnosis, medical simulation or medical data mining; ICT specially adapted for detecting, monitoring or modelling epidemics or pandemics for calculating health indices; for individual health risk assessment
Abstract
The invention proposes a kind of three-dimensional color lump obstacles testing system, storage medium, device and implementation methods, wherein three-dimensional color lump obstacles testing system, comprising: data input unit, for recording the information of test object;Test cell, including mirror image test module and task test module, practice and test for the test object to test assignment;Data analysis unit is used for reception and analysis task test data, obtains test result;File storage unit for receiving and storing the information, test data and test result of the test object, and test result is exported.The device and implementation method can provide easier, accurately unilateral finger dexterity testing method for the diagnosis, treatment and rehabilitation of the diseases such as mild cognition impairment, senile dementia.
Description
Technical field
The present invention relates to signal processing, human-computer interaction and general fit calculation field, in particular to a kind of solid of electronization
Color lump obstacles testing system.
Background technique
Three-dimensional color lump obstacle test (Box-and-Block Test, BBT) is a kind of unilateral side quickly, simple, inexpensive
Finger dexterity test, can assess finger degree of flexibility, and structure chart is as shown in Figure 1, wherein three-dimensional color lump refers to each appearance
Face is the three-dimensional square of same color, similar building block box.Jean Hyres, Patricia Buhler et al. are mentioned in nineteen fifty-seven
Gone out the initial version of BBT: the perfect BBT of E.Fuchs, P.Buhler et al. makes version used today;
Mathiowetz, Volland, Kashman and Weber established the normative testing data of BBT in 1985.
Human finger degree of flexibility and cognitive function are closely related, and therefore, BBT is widely used in mild cognitive function barrier
Hinder, diagnosis, treatment and the rehabilitation of the diseases such as senile dementia, cerebral apoplexy, cerebral palsy, parkinson's syndrome.For cerebral apoplexy
The result of study that patient carries out shows the prediction effect of BBT better than classical nine hole cylinders test plate (Nine Hole Peg
Test), Frenchay Arm Test, Grip Strength and STREAM test.Correlative study also explores being accompanied with for BBT
Validity, and find no matter pretherapy and post-treatment, BBT test result and Action Research Arm Test, nine hole cylinders test plate
(Nine Hole Peg Test) test result is highly relevant.
In clinical diagnosis, doctor assesses the test result of BBT, analytic process by modes such as recorded video, field observations
Doctor's plenty of time and energy need to be expended, and it is low to analyze result shortage objective standard, reliability.It in recent years, is building digitlization
BBT test macro, researchers use mostly depth camera monitor subject's test process, and by depth data analysis
Realize automation upper limb flexibility ratio assessment.Such system realizes the automatic counting of square in BBT system by image segmentation, but general
All over the challenge for facing test wooden unit serious shielding, image segmentation difficulty, it is difficult to realize that precision data is analyzed.In addition, being based on depth
That there is also equipment costs is high for the test macro of camera, ease of use is insufficient and the problem of invading subject's privacy, thus
It is difficult to realize clinic, community, family are widely used.
In summary, the prior art is in actual use, it is clear that there are inconveniences and defect, and it is therefore necessary to be changed
Into.
Summary of the invention
For above-mentioned defect, the purpose of the present invention is to provide a kind of electronic bulky colors towards intelligent touch terminal
Block obstacle tests (e-Box-and-Block Test, eBBT) system, is the diseases such as mild cognition impairment, senile dementia
Diagnosis, treatment and rehabilitation provide easier, accurately unilateral finger dexterity testing method.
Specifically, being set to intelligent touch end the invention discloses a kind of three-dimensional color lump obstacles testing system of electronization
End, which is characterized in that the three-dimensional color lump obstacles testing system of electronization, comprising:
Data input unit, for recording the information of test object;
Test cell, including mirror image test module and task test module, for the test object to test assignment
Practice and test;
Data analysis unit, the test data sent for receiving the task test module, and the test data is analyzed,
Obtain test result;
File storage unit, for receiving and storing the information, test data and test result of the test object.
The three-dimensional color lump obstacles testing system of above-mentioned electronization, which is characterized in that the mirror image test module provides mirror image
Test function is arranged and plays mirror image test video to test object.
The three-dimensional color lump obstacles testing system of above-mentioned electronization, which is characterized in that the task test module includes single
Test module of being engaged in and/or double task test modules provide single task test function and/or double task test functions respectively.
The three-dimensional color lump obstacles testing system of above-mentioned electronization, which is characterized in that the task test module is also set up
Have:
The three-dimensional color lump of a variety of different colours, for realizing visual space stimulation;
Multiple blocker units, specification and training for being acted to test object;
Multiple target areas, the limitation for being operated to test object;
Recording and speech analysis function input and analyze for identification the double task performances of test object;
Right-hand man's selection function selects left hand or the right hand to be tested for test object;
State instruction region, for showing practice or the testing time of test object current residual, and it is current
The quantity of moving three-dimensional color lump;
Many attitude controls test assignment, practice and test for test object;And/or
A variety of recognition tests tasks, for practice and test of the test object in double task tests.
The three-dimensional color lump obstacles testing system of above-mentioned electronization, which is characterized in that one appearance of the single task test execution
State controls test assignment.
The three-dimensional color lump obstacles testing system of above-mentioned electronization, which is characterized in that double task tests are performed simultaneously one
A gesture stability test assignment and a recognition tests task.
The three-dimensional color lump obstacles testing system of above-mentioned electronization, which is characterized in that right-hand man's selection function, setting
Are as follows:
Under right hand state, the three-dimensional color lump need to be moved to the right target area by the intelligent touch terminal screen left side
Domain;It, need to be by the three-dimensional color lump by moving to left side target area on the right of the intelligent touch terminal screen under left hand state.
Above-mentioned three-dimensional color lump building block box obstacles testing system, which is characterized in that the list of the data analysis unit analysis
Task test data includes: the routing information of moving three-dimensional color lump, the bulky color number of blocks that correctly moves, it is correct mobile four kinds not
Duration, correct moving three-dimensional color lump are averaged most with the quantity of colour solid color lump, continuous correct number, correct moving three-dimensional color lump
The mobile bulky color number of blocks of big duration, correct moving three-dimensional color lump minimum duration, mistake, the mobile four kinds of different colours of mistake are vertical
The quantity of body colour block, continuous errors number, mistake moving three-dimensional color lump are averaged duration, mistake moving three-dimensional color lump maximum time
And/or wrong moving three-dimensional color lump minimum duration.
The three-dimensional color lump obstacles testing system of above-mentioned electronization, which is characterized in that pair of the data analysis unit analysis
Task test data includes: the routing information and/or voice messaging of the mobile three-dimensional color lump.
The three-dimensional color lump obstacles testing system of above-mentioned electronization, which is characterized in that the routing information includes timestamp, hand
Refer to contact abscissa, finger contact ordinate and/or by selection bulky color block id information.
The three-dimensional color lump obstacles testing system of above-mentioned electronization, which is characterized in that the voice messaging includes the company of voice
Degree of passing through and/or correctness.
In order to realize another goal of the invention of the invention, the present invention also provides a kind of upper limbs based on intelligent touch terminal
Flexibility ratio testing apparatus can make full use of above-mentioned electronics including the above-mentioned three-dimensional color lump obstacles testing system of electronization
Change three-dimensional color lump obstacles testing system in the diagnosis, treatment and rehabilitation etc. of the diseases such as mild cognition impairment, senile dementia
The advantage of aspect.
In order to realize another goal of the invention of the invention, the present invention also provides a kind of upper limbs based on intelligent touch terminal
The implementation method of flexibility ratio testing apparatus is mild cognition impairment, senile dementia etc. by realizing electric touch screen operation
Disease provides quick, simple, convenient and fast diagnosis, treatment and method of rehabilitation.
To achieve the goals above, the present invention provides a kind of upper limb flexibility ratio testing apparatus based on intelligent touch terminal
Implementation method, wherein include:
The step of setting information typing unit, for recording the information of test object;
The step of test cell is arranged, practice and test for the test object to test assignment, including mirror image are surveyed
Die trial block and task test module;
Be arranged data analysis unit the step of, for task test module described in reception and analysis send test data,
Obtain Measurement results;
The step of file storage unit is set, for receiving and storing information, the task test data of the test object
And Measurement results;
The three-dimensional color lump obstacles testing system of above-mentioned electronization, which is characterized in that the mirror image test module provides mirror image
Test function is arranged and plays mirror image test video to test object.
The three-dimensional color lump obstacles testing system of above-mentioned electronization, which is characterized in that the task test module includes single
Test module of being engaged in and/or double task test modules provide single task test function and/or double task test functions respectively.
The three-dimensional color lump obstacles testing system of above-mentioned electronization, which is characterized in that the task test module is also set up
Have:
The three-dimensional color lump of a variety of different colours, for realizing visual space stimulation;
Multiple blocker units, specification and training for being acted to test object;
Multiple target areas, the limitation for being operated to test object;
Recording and speech analysis function input and analyze for identification the double task performances of test object;
Right-hand man's selection function selects left hand or the right hand to be tested for test object;
State instruction region, for showing practice or the testing time of test object current residual, and it is current
The quantity of moving three-dimensional color lump;
Many attitude controls test assignment, practice and test for test object;And/or
A variety of recognition tests tasks, for practice and test of the test object in double task tests.
The three-dimensional color lump obstacles testing system of above-mentioned electronization, which is characterized in that one appearance of the single task test execution
State controls test assignment.
The three-dimensional color lump obstacles testing system of above-mentioned electronization, which is characterized in that double task tests are performed simultaneously one
A gesture stability test assignment and a recognition tests task.
The three-dimensional color lump obstacles testing system of above-mentioned electronization, which is characterized in that right-hand man's selection function, setting
Are as follows:
Under right hand state, the three-dimensional color lump need to be moved to the right target area by the intelligent touch terminal screen left side
Domain;It, need to be by the three-dimensional color lump by moving to left side target area on the right of the intelligent touch terminal screen under left hand state.
The three-dimensional color lump obstacles testing system of above-mentioned electronization, which is characterized in that the list of the data analysis unit analysis
Task test data includes: the routing information of moving three-dimensional color lump, the bulky color number of blocks that correctly moves, it is correct mobile four kinds not
Duration, correct moving three-dimensional color lump are averaged most with the quantity of colour solid color lump, continuous correct number, correct moving three-dimensional color lump
The mobile bulky color number of blocks of big duration, correct moving three-dimensional color lump minimum duration, mistake, the mobile four kinds of different colours of mistake are vertical
The quantity of body colour block, continuous errors number, mistake moving three-dimensional color lump are averaged duration, mistake moving three-dimensional color lump maximum time
And/or wrong moving three-dimensional color lump minimum duration.
The three-dimensional color lump obstacles testing system of above-mentioned electronization, which is characterized in that pair of the data analysis unit analysis
Task test data includes: the routing information and/or voice messaging of the mobile three-dimensional color lump.
The three-dimensional color lump obstacles testing system of above-mentioned electronization, which is characterized in that the routing information includes timestamp, hand
Refer to contact abscissa, finger contact ordinate and/or by selection bulky color block id information.
The three-dimensional color lump obstacles testing system of above-mentioned electronization, which is characterized in that the voice messaging includes the company of voice
Degree of passing through and/or correctness.
In order to realize another goal of the invention of the invention, the present invention also provides a kind of storage mediums, execute for storing
The computer program of the above method.
To allow features described above and effect of the invention that can illustrate more clearly understandable, special embodiment below, and cooperate
Bright book attached drawing is described in detail below.
Detailed description of the invention
Fig. 1 is version BBT structure chart in kind
Fig. 2 is electronization BBT test macro basic framework figure
Fig. 3 is mirror image task test job flow chart
Fig. 4 is that material object version BBT and electronization BBT tests corresponding relationship
Fig. 5 a is the correspondence target area that electronization BBT tests sub- test assignment 1
Fig. 5 b is the correspondence target area that electronization BBT tests sub- test assignment 2
Fig. 5 c is the correspondence target area that electronization BBT tests sub- test assignment 3
Fig. 6 is that electronization BBT tests single task test job flow chart
Fig. 7 a is that electronization BBT tests 1 work flow diagram of single task test subtask
Fig. 7 b is that electronization BBT tests 2 work flow diagram of single task test subtask
Fig. 7 c is that electronization BBT tests 3 work flow diagram of single task test subtask
Fig. 8 is that electronization BBT tests double task test job flow charts
Fig. 9 is Huawei's tablet computer M5 youth version interface
Figure 10 is electronization BBT test macro desktop icons
Figure 11 is that electronization BBT test macro starts interface
Figure 12 is electronization BBT test macro user basic information input interface
Figure 13 is electronization BBT test system and test unit interface
Figure 14 is electronization BBT test macro task interface
Figure 15 is electronization BBT test macro right-hand man's operation interface
Figure 16 is electronization BBT test macro mirror image task test interface
Specific embodiment
In order to make the objectives, technical solutions, and advantages of the present invention clearer, below in conjunction with attached drawing, the present invention is mentioned
Three-dimensional color lump obstacle test (e-Box-and-Block Test) system of electronization out is further described.It should be appreciated that
Specific implementation method described herein is only used to explain the present invention, is not intended to limit the present invention.
In one embodiment of the invention, the present invention is test towards finger dexterity, proposes a kind of standing for electronization
Body colour block obstacle tests (e-Box-and-Block Test) system, general frame such as Fig. 2, which is recorded by user basic information
Enter the module compositions such as 1, test cell 2, data analysis unit 3, file system 4, is tested by mirror image task test 21, single task
221, the core functions such as double task tests 222, realize that quick, simple, inexpensive, objective and intelligent unilateral finger dexterity is surveyed
It tests.
The three-dimensional color lump obstacle of the electronization that it is an object of that present invention to provide a kind of towards intelligent touch terminal tests (e-Box-
And-Block Test) test macro, it is named as eBBT.EBBT is analyzed by user basic information typing 1, test cell 2, data
The module compositions such as unit 3, file system 4.User basic information recording module 1 can collect the bases such as address name, gender, age
This information;Data analysis unit 3 provide successfully move the single tasks correlations such as number 31, mobile efficiency 32, movement routine analysis with
And double task relevant test data analytic functions such as double task voices 33;File system 4 provides test master data and preliminary point
Analyse the functions such as result storage;Test cell 2 is the core of eBBT system, provide mirror image task test 21, single task test 221,
The functions such as double task tests 222.
Mirror image task test 21 is according to mirror neuron Theoretical Design.Mirror neuron refers to user by observing other people
Movement, so as to cause the feedback system for the Cerebral cortex neuronal activation for oneself executing the movement, i.e. movement observation-execution matching system
System.In test process, the test of mirror image task watches the mirror image test video recorded by doctor by guidance user, induces its brain skin
The activation of matter hand exercise related Neurons.The workflow of mirror image task test is as shown in figure 3, specifically include that
S11, the input of the essential informations such as address name, gender, age;
S12 clicks to enter mirror image test cell;
S13 guides user to watch mirror image test video, introduces mirror image test assignment for it, and guide user
Imagine corresponding actions;
S14, one time mirror image test assignment terminates;
Terminate mirror image test assignment, close mirror image test cell, returns to BBT test assignment.
EBBT system according to material object version BBT test design, for version BBT in kind test in the structures such as building blocks, baffle, box
There is it to correspond at element, in eBBT system to realize, as shown in Figure 4.The building blocks a of four kinds of colors is devised in version BBT in kind,
Also the three-dimensional color lump A of red, green, blue, Huang Si kind color is devised in eBBT system, correspondingly to realize effective visual space thorn
Swash;Baffle b in version BBT in kind is used for specification user upper limks movements, is allowed to obtain large-scale training, in eBBT system
Also blocker unit B is devised, correspondingly to realize specification and training to user action;Box c in version BBT in kind is for containing
It puts the building blocks after moving and specification building blocks launches region, target area C is also accordingly devised in eBBT system, to realize to user
The limitation of operation.
According to target area difference, eBBT system single task is generally made of three sub- test assignments, respectively task 1,
Task 2 and task 3.Each sub- test assignment target area is as shown in figure 5, task 1 (Fig. 5 a) requires nothing more than user moves three-dimensional color lump A
It moves to respective objects region C;Task 2 (Fig. 5 b) requires user that the three-dimensional color lump A of different colours is moved to corresponding color target area
Domain C1, C2, C3, C4, such as red three-dimensional color lump are moved to red objects region, and blue solid color lump is moved to blue target area
Domain;Task 3 (Fig. 5 c) require user by three-dimensional color lump be successively moved in the C of target area 1,2,3,4 ..., 12 corresponding areas
Domain can put three-dimensional color lump to N+1 block target area, after nth block target area is capped three-dimensional color lump if 12 pieces of targets
Three-dimensional color lump is all placed in region, then is repeated above operation since the 1st piece of target area.
EBBT system single task test job flow chart is as shown in fig. 6, specifically include that
S21, which kind of single test assignment selection carries out, such as task 1, task 2, task 3;
S22, selection carry out single task test using left hand or the right hand;
S23, single task test specification;
S24 carries out the test practice of 15s single task;
S25 carries out the test of 1min single task;
S26, single task test terminate;
S27, single task test result are shown;
Single task test terminates.
EBBT system single task tests each subtask work flow diagram as shown in fig. 7, specifically including that
Start the test of eBBT single task;
(1) if selection eBBT test assignment 1 (such as Fig. 7 a);
S31 carries out task 1 using the right hand or left hand according to test request selection and tests;
S3211 selects left hand to be tested;
S3212, to 1 left hand test specification of going out on missions;
S3213 carries out the test practice of 15s left hand;
S3214 carries out the test of 1min left hand;
S3215, left hand test terminate;
S3221 selects the right hand to be tested;
S3222, to 1 right hand test specification of going out on missions;
S3223 carries out the test practice of the 15s right hand;
S3224 carries out the test of the 1min right hand;
S3225, right hand test terminate
1 right hand of S33, eBBT task or left hand test result are shown;
1 left hand of task (right hand) test terminates, and repeats 1 left hand of task (right hand) test according to demand or continues
1 right hand of task (left hand) test;
(2) if selection eBBT test assignment 2 (such as Fig. 7 b);
S41 carries out task 2 using the right hand or left hand according to test request selection and tests;
S4211 starts left hand test;
S4212, to 2 left hand test specifications of going out on missions;
S4213 carries out the test practice of 15s left hand;
S4214 carries out the test of 1min left hand;
S4215, left hand test terminate;
S4221 starts right hand test;
S4222, to 2 right hand test specifications of going out on missions;
S4223 carries out the test practice of the 15s right hand;
S4224 carries out the test of the 1min right hand;
S4225, right hand test terminate;
2 right hand of S43, eBBT task or left hand test result are shown;
2 left hand of task (right hand) test terminates, and repeats 2 left hand of task (right hand) test according to demand or continues
2 right hand of task (left hand) test;
(3) if selection eBBT test assignment 3 (such as Fig. 7 c)
S51 carries out task 3 using the right hand or left hand according to test request selection and tests;
S5211 starts left hand test;
S5212, to 3 left hand test specifications of going out on missions;
S5213 carries out the test practice of 15s left hand;
S5214 carries out the test of 1min left hand;
S5215, left hand test terminate;
S5221 starts right hand test;
S5222, to 3 right hand test specifications of going out on missions;
S5223 carries out the test practice of the 15s right hand;
S5224 carries out the test of the 1min right hand;
S5225, right hand test terminate;
3 right hand of S53, eBBT task or left hand test result are shown;
3 left hand of task (right hand) test terminates, and repeats 3 left hand of task (right hand) test according to demand or continues
3 right hand of task (left hand) test;
The test of eBBT single task terminates.
Double task test assignments are according to double task study normal form designs, it is desirable that user is performed simultaneously gesture stability task and recognizes
Know task.The problem that influences each other of double task test concern cognitions and neuromuscular behaviour control, and can effectively simulate reality
Multitask scene in life.Be typically designed three groups of double tasks tests in eBBT system, respectively 100 reciprocal, animal namings and
100 subtract 7.While 100 inverses require user to complete the test of right-hand man's single task, the Arabic numerals reciprocal since 100, such as
100,99,98,……;While the double mission requirements users of animal naming complete right-hand men only task is tested, say as far as possible
More animal names, as monkey, doggie, kitten, rabbit ...;100 subtract 7, and couple mission requirements user singly appoints in completion right-hand man
While business test, next Arabic numerals after subtracting 7 are successively said since 100, such as 100,100-7=93,93-7=
86,86-7=79 ....In double task test process, eBBT system provides recorder speech analysis function, and identification user is double to be appointed
Business performance.Double task test job flow charts are as shown in figure 8, specifically include that
Which kind of double tasks test S61, selection carry out, such as unparalleled task, 100 double tasks reciprocal, the double tasks of animal naming,
The 100 pair tasks that subtract 7;
S62, which kind of single task test selection carries out, such as task 1, task 2, task 3;
S63, selection carry out double tasks using left hand or the right hand and test;
S64, double task test specifications;
S65 carries out the bis- task test practices of 15s;
S66 carries out the bis- task tests of 1min;
S67, double task tests terminate;
S68, double task test results are shown;
Double task tests terminate.
It further include a kind of intelligent terminal for the test of upper limb flexibility ratio, which can in another embodiment of the present invention
Think a kind of computer system application terminal, or a kind of intelligent terminal for being in the layout of server, it is of course also possible to be meter
Calculation machine system interacts a kind of intelligent test device realized with server end.
In another embodiment of the present invention, a kind of three-dimensional color lump obstacle survey of the electronization based on intelligent touch terminal is disclosed
The implementation method of (e-Box-and-Block Test) system of examination.
1, equipment and device
The present invention uses but is not limited to Android development language and Huawei's tablet computer M5 youth version, as shown in Figure 9.M5
Youth version tablet computer screen size is 10.1, and screen resolution is 1920 × 1200.EBBT desktop icons are as shown in Figure 10, open
Beginning interface is as shown in figure 11.
2, user basic information typing
The basic recording module of user requires user to input its name, age and gender information, as shown in figure 12.
3, test cell
Test cell is the core of eBBT system, provides the function such as the test of mirror image task, single task test, the test of double tasks
Can, interface is as shown in figure 13.Each function introduction is as follows:
(1) test exercise function selection
" practice ", " test " two drop down buttons are provided, under practice state, user can pass through the skilled eBBT of practice of 15s
Operation does not provide data storage and analytic function;Under test mode, user starts 1 minute official testing process, which mentions
For data storage and analytic function.
(2) task choosing
" task 1 ", " task 2 ", " task 3 " three drop down buttons are provided, under three kinds of task statuses, target area rule is set
Set difference.Task 1 (Figure 14 (a)), which is required nothing more than, is moved to target area across partition for building blocks;Task 2 (Figure 14 (b)) is not only wanted
It asks and building blocks is moved to target area across partition, also require building blocks being placed in corresponding color region, such as red building blocks are placed
Blue target area is placed in red objects region, blue building blocks;Task 2 (Figure 14 (c)) require by building blocks according to serial number according to
It is secondary be placed in 1,2,3 ..., 12 target areas, only after building blocks have been placed in nth block target area, N+1 block target area
Domain can just place building blocks.
(3) double task choosings
"None", " 100 is reciprocal ", " animal naming ", " 100 subtract 7 " four drop down buttons are provided.Under unparalleled task status, use
Family need to only complete single task test;Under 100 double tasks reciprocal, user is while completing single task test, it is also necessary to open from 100
Begin Arabic numerals reciprocal, such as 100,99,98 ..., 60 ..., which provides sound-recording function, and for analyzing, user is double to be appointed
Business performance;Under the double tasks of animal naming, user also needs as much as possible to say animal while completing single task test
Name, as monkey, doggie, kitten, piggy ..., which provides sound-recording function, completes feelings for analyzing the double tasks of user
Condition;Under the 100 pair tasks that subtract 7, user while completing single task test, also need successively to say 100 subtract 7 after number, such as
100,100-7=93,93-7=86 ..., which provides sound-recording function, for analyzing the double task performances of user.
(4) right-hand man selects
" right hand ", " left hand " two drop down buttons are provided.Under the right hand (Figure 15 (a)) state, it is desirable that user is by building blocks by shielding
The curtain left side moves to the right target area;Under left hand (Figure 15 (b)) state, it is desirable that user is by building blocks by moving to left side target on the right of screen
Area.
(5) start button
After click, eBBT system initially enters practice or test program.
(6) state instruction column
Indicate user remaining practice or testing time, and the quantity of the current building blocks moved at present.
(7) mirror image test cell
The video of material object version BBT test is carried out by playing doctor, guidance user imagines corresponding actions.
4, data analysis unit
Data analysis unit analyzes the test of user's single task and double task test results according to user's test data.Single
Routing information of the test result of being engaged according to the mobile building blocks of user, the red product analyzing the building blocks quantity correctly moved, correctly moving
The wooden quantity, the blue building blocks quantity correctly moved, the green building blocks quantity correctly moved, the yellow building blocks quantity correctly moved,
Continuous correct number, correct mobile building blocks be averaged duration, correct mobile building blocks maximum time, correct movement building blocks minimum duration,
The mobile blue building blocks quantity of red building blocks quantity, the mistake of building blocks quantity, mistake movement that mistake moves, mistake move green
The mobile building blocks of the mobile yellow building blocks quantity of color building blocks quantity, mistake, continuous errors number, mistake be averaged duration, mistake move
The mobile building blocks minimum duration of building blocks maximum time, mistake.Double task test results according to the routing informations of the mobile building blocks of user and
Voice messaging analysis test performance, routing information is identical as the routing information in single task test, voice messaging analytic language
The coherent degree and correctness of message breath.
5, file system
File system provides the path information storage and voice messaging store function during storage user's completion task, road
Diameter information by logging timestamp, finger contact abscissa, finger contact ordinate, by selection building blocks id information complete replication use
The routing information of family test provides data for subsequent analysis and supports;Voice messaging is by recording the language in the double tasks completions of user
Message breath provides data for subsequent analysis and supports.
Further comprise a kind of storage medium in another embodiment of the present invention, executes above-mentioned test method for storing
Computer processing.
In a specific embodiment of the present invention, the computer program being related to includes being suitable for when computer program is in computer
The computer program code means of all steps according to the method for the present invention are executed when upper operation.Preferably, computer can
It reads to embody computer program on medium.
The beneficial effects of the present invention are: by designing a kind of three-dimensional color lump obstacle test based on electronic touch intelligence
(e-Box-and-Block Test) system is mild cognition impairment, senile dementia, cerebral apoplexy, cerebral palsy, pa gold
Diagnosis, treatment and the rehabilitation of the diseases such as gloomy syndrome provide easier, quick, inexpensive and objective unilateral finger dexterity
Testing apparatus and method.
Certainly, the present invention can also have other various embodiments, without deviating from the spirit and substance of the present invention, ripe
It knows those skilled in the art and makes various corresponding changes and modifications, but these corresponding changes and change in accordance with the present invention
Shape all should fall within the scope of protection of the appended claims of the present invention.
Claims (14)
1. a kind of three-dimensional color lump obstacles testing system of electronization, which is characterized in that electronization three-dimensional color lump obstacle test system
System, comprising:
Data input unit, for recording the information of test object;
Test cell, including mirror image test module and task test module, the practice for the test object to test assignment
And test;
Data analysis unit is used for reception and analysis task test data, obtains test result;
File storage unit, for receiving and storing the information, test data and test result of the test object, and will test
As a result it exports.
2. the three-dimensional color lump obstacles testing system of electronization according to claim 1, which is characterized in that the mirror image tests mould
Block provides mirror image test function, is arranged and plays mirror image test video to test object.
3. the three-dimensional color lump obstacles testing system of electronization according to claim 1, which is characterized in that the task tests mould
Block includes single task test module and/or double task test modules, provides single task test function and/or the test of double tasks respectively
Function.
4. the three-dimensional color lump obstacles testing system of electronization according to claim 1, which is characterized in that the task tests mould
Block is additionally provided with:
The three-dimensional color lump of a variety of different colours, for realizing visual space stimulation;
Multiple blocker units, specification and training for being acted to test object;
Multiple target areas, the limitation for being operated to test object;
Recording and speech analysis function input and analyze for identification the double task performances of test object;
Right-hand man's selection function selects left hand or the right hand to be tested for test object;
State instruction region has been moved for showing practice or the testing time of test object current residual, and currently
The quantity of three-dimensional color lump;
Many attitude controls test assignment, practice and test for test object;And/or
A variety of recognition tests tasks, for practice and test of the test object in double task tests.
5. the three-dimensional color lump obstacles testing system of electronization according to claim 3, which is characterized in that the single task test
Execute a gesture stability test assignment.
6. the three-dimensional color lump obstacles testing system of electronization according to claim 3, which is characterized in that double task tests
It is performed simultaneously a gesture stability test assignment and a recognition tests task.
7. the three-dimensional color lump obstacles testing system of electronization according to claim 4, which is characterized in that right-hand man's selection
Function, setting are as follows:
Under right hand state, the three-dimensional color lump need to be moved to the right target area by the intelligent touch terminal screen left side;It is left
It, need to be by the three-dimensional color lump by moving to left side target area on the right of the intelligent touch terminal screen under hand state.
8. the three-dimensional color lump obstacles testing system of electronization according to claim 1, which is characterized in that the data analysis is single
The single task test data of meta analysis includes: the routing information of moving three-dimensional color lump, the bulky color number of blocks that correctly moves, correct
The quantity of mobile four kinds of different colours solid color lumps, continuous correct number, correct moving three-dimensional color lump be averaged duration, correct movement
The mobile bulky color number of blocks of three-dimensional color lump maximum time, correct moving three-dimensional color lump minimum duration, mistake, mistake are four kinds mobile
The quantity of different colours solid color lump, continuous errors number, mistake moving three-dimensional color lump are averaged duration, mistake moving three-dimensional color lump
Maximum time and/or wrong moving three-dimensional color lump minimum duration.
9. the three-dimensional color lump obstacles testing system of electronization according to claim 1, which is characterized in that the data analysis is single
Double task test datas of meta analysis include: the routing information and/or voice messaging of the mobile three-dimensional color lump.
10. according to claim 8 or the three-dimensional color lump obstacles testing system of electronization as claimed in claim 9, which is characterized in that institute
Stating routing information includes timestamp, finger contact abscissa, finger contact ordinate and/or by selection bulky color block id information.
11. the three-dimensional color lump obstacles testing system of electronization according to claim 10, which is characterized in that the voice messaging
Coherent degree and/or correctness including voice.
12. a kind of test device based on intelligent touch terminal, the electronization including claim 1 to 11 described in any one is vertical
Body colour block obstacles testing system.
13. a kind of implementation method for any one test device described in claim 12.
14. a kind of storage medium requires the computer program of 13 any one implementation method for storing perform claim.
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Cited By (1)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
US10991190B1 (en) | 2020-07-20 | 2021-04-27 | Abbott Laboratories | Digital pass verification systems and methods |
Citations (4)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
TW200951897A (en) * | 2008-06-13 | 2009-12-16 | Univ Ishou | Cognitive ability interactive digital learning system |
CN106327049A (en) * | 2015-07-08 | 2017-01-11 | 广州市第人民医院 | Cognitive assessment system and application thereof |
CN107123067A (en) * | 2017-04-21 | 2017-09-01 | 北京种月亮科技股份有限公司 | A kind of general cognitive method and system based on the building blocks with color and numeral |
US20190130726A1 (en) * | 2017-10-23 | 2019-05-02 | Thomas Gustin | Doorway entry sentry auto caller |
-
2019
- 2019-07-02 CN CN201910596718.4A patent/CN110444296B/en active Active
Patent Citations (4)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
TW200951897A (en) * | 2008-06-13 | 2009-12-16 | Univ Ishou | Cognitive ability interactive digital learning system |
CN106327049A (en) * | 2015-07-08 | 2017-01-11 | 广州市第人民医院 | Cognitive assessment system and application thereof |
CN107123067A (en) * | 2017-04-21 | 2017-09-01 | 北京种月亮科技股份有限公司 | A kind of general cognitive method and system based on the building blocks with color and numeral |
US20190130726A1 (en) * | 2017-10-23 | 2019-05-02 | Thomas Gustin | Doorway entry sentry auto caller |
Non-Patent Citations (2)
Title |
---|
CHIH-PIN HSIAO 等: "The Digital Box and Block Test Automating Traditional Post-Stroke Rehabilitation Assessment", 《INTERNATIONAL CONFERENCE ON PERVASIVE COMPUTING AND COMMUNICATIONS》 * |
T.K.M.LEE 等: "Indications of Neural Disorder through Automated Assessment of the Box and Block Test", 《INTERNATIONAL CONFERENCE ON DIGITAL SIGNAL PROCESSING》 * |
Cited By (5)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
US10991190B1 (en) | 2020-07-20 | 2021-04-27 | Abbott Laboratories | Digital pass verification systems and methods |
US10991185B1 (en) | 2020-07-20 | 2021-04-27 | Abbott Laboratories | Digital pass verification systems and methods |
US11514737B2 (en) | 2020-07-20 | 2022-11-29 | Abbott Laboratories | Digital pass verification systems and methods |
US11514738B2 (en) | 2020-07-20 | 2022-11-29 | Abbott Laboratories | Digital pass verification systems and methods |
US11574514B2 (en) | 2020-07-20 | 2023-02-07 | Abbott Laboratories | Digital pass verification systems and methods |
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