CN110489602A - Knowledge point ability value predictor method, system, equipment and medium - Google Patents

Abstract

The invention discloses knowledge point ability value predictor method, system, equipment and media, and the method includes the ability value vector of source knowledge point is extracted from initialized data base；Calculate the transmission factor between object knowledge point and source knowledge point；Calculate the new ability value vector of object knowledge point；Update the ability value vector of object knowledge point in initialized data base；Ability value vector according to updated object knowledge point obtains object knowledge point and estimates ability value；The ability value vector of next source knowledge point is extracted from initialized data base.Its context by utilizing in knowledge mapping between knowledge point of the invention, the ability value of its postposition knowledge point is estimated out by the ability value vector of known knowledge point, can the ability value quickly to the knowledge point in knowledge mapping estimate, and the ability value accuracy estimated on the knowledge point not learnt is high.

Description

Knowledge point ability value predictor method, system, equipment and medium

Technical field

The invention belongs to field of computer technology more particularly to a kind of knowledge point ability value predictor method, system, equipment and Medium.

Background technique

With the development of technology, online education have become it is a kind of instantly and its important educational mode, and in major enterprise In the online education software of industry exploitation, the overwhelming majority needs to acquire the ability value number of user each knowledge point on the map of knowledge point According to, then according to ability Value Data come arrange study plan, push away topic test etc. operation, the ability value that user is reflected on knowledge point Item response theory is based primarily upon to obtain.

Item response theory is a series of general name of psychology statistical models, and target determines potential feature and survey Whether the interactive relationship (Grasping level of user can regard potential feature as) between examination question and testee can pass through survey Examination question reflects.

Item response theory assumes that testee has a kind of " latent trait ", and latent trait is to test to react in observation analysis On the basis of a kind of statistics conception for proposing, in test, latent trait generally refers to potential ability, and through common test total score Estimation as this potentiality.Item response theory thinks that reaction and achievement of the testee on test item are latent with theirs There is special relationship in speciality.Has the characteristics that permanent property by the item argument that item response theory is established, it is meant that different The score of measurement can be unified.

The common model expression of item response theory are as follows:

It is also referred to as item characteristic curve according to the curve that above-mentioned model formation is drawn, its significance lies in that description " is successfully answered Relationship between the probability of a certain fc-specific test FC project " and " testee's ability " (i.e. θ in formula).

The parameter for including in above-mentioned formula is explained as follows:

C indicates " conjecture parameter ", and intuitive meaning is, when the ability value of a testee is very low (such as close to 0), But still it can correctly do probability to the project；

B indicate item difficulty parameter, according to the mobility of function it is found that change b will lead to image move left and right without Change shape；

A indicates the discrimination of project, i.e. can a project distinguish the ability level of different testees, a well Value it is more high have discrimination.

It is recognised that item response theory is only to generate to the same project in the above-mentioned introduction to item response theory Response, that is to say, that when user is when learning some project, current project can generate feedback, and sundry item is not Have any change.

But it is all mutually related between education sector, knowledge point.Such as certain user is learning " equation Definition " is after knowledge point, and user also just has the rudimentary knowledge of correlated knowledge point " solution of linear equation with one unknown ", and " unitary The solution of linear function " is no longer completely new for a user.

In existing technology, needing to carry out each knowledge point test in advance just rough can know user at this Ability value on a knowledge point, and the quantity of knowledge point be often it is huge, take this test method be it is inefficient, it is cumbersome 's.If the knowledge point of test is that user did not learnt, user when testing, can lack initiative, be difficult standard True obtains ability Value Data of the user on non-learning knowledge point.

Summary of the invention

In view of the above-mentioned deficiencies in the prior art, the technical problem to be solved by the present invention is that providing knowledge point ability value Predictor method, system, equipment and medium, by being known by known using the context between knowledge point in knowledge mapping The ability value vector for knowing point estimates out the ability value of its postposition knowledge point, energy that can quickly to the knowledge point in knowledge mapping Force value is estimated, and the ability value accuracy estimated on the knowledge point not learnt is high.

In order to solve the above technical problems, first aspect present invention provides knowledge point ability value predictor method, including following Step:

Step 1: extracting the ability value vector V of source knowledge point from initialized data base_S, V_S=[(P_s1, θ_s1)、(P_s2, θ_s2)、(P_s3, θ_s3)、...(P_sN, θ_sN)]；

Step 2: calculating the transmission factor δ between object knowledge point and source knowledge point, the object knowledge point is in knowledge point With the postposition knowledge point of source Knowledge Relation in map, transmission factor δ calculating process includes:

Step 201 acquires the shortest path S between object knowledge point and source knowledge point according to knowledge point map；According to knowledge The node in-degree λ of point map acquisition object knowledge point；

Step 202, from initialized data base extraction source knowledge point difficulty value d, 0 < d < 1；

Step 203, foundationCalculate transmission factor δ；

Step 3: calculating the new ability value vector V of object knowledge point_new, V_new=V_S×δ；After the completion of calculating, V is extracted_new In P, obtain (P_new1、P_new2、P_new3、...P_newN)；

Step 4: extracting the current ability value vector V of object knowledge point from initialized data base_now, extract V_nowIn P, Obtain (P_now1、P_now2、P_now3、...P_nowN),

Calculate (P_new1×P_now1、P_new2×P_now2、P_new3×P_now3、...P_newN×P_nowN),

New (P is obtained by calculated result_now1、P_now2、P_now3、...P_nowN)；

By new (P_now1、P_now2、P_now3、...P_nowN) return to ability value vector V_now, obtain updated V_now；It will more V after new_nowBack in initialized data base；

Step 5: finding out updated V_nowIn (P_now1、P_now2、P_now3、...P_nowN) in the maximum P of numerical value, and foundation The P finds out corresponding θ, which estimates ability value for current goal knowledge point；

Step 6: extracting the ability value vector V of next source knowledge point from initialized data base_S, then execute step 2 To step 5.

Further, the current ability value vector V of object knowledge point is extracted from initialized data base in step 4_nowWhen, if in advance It sets and is not stored with ability value vector V in database_nowWhen, with V in step 3_newAs updated V_now, and by V_nowIt returns Into initialized data base.

Further, when the quantity of the maximum P of the numerical value found out in step 5 is greater than one, take multiple P corresponding more The mean value of a θ estimates ability value as current goal knowledge point.

Second aspect of the present invention provides knowledge point ability value Prediction System, comprising:

Data extracting unit, the ability value vector V for the extraction source knowledge point from initialized data base_S, V_S=[(P_s1, θ_s1)、(P_s2, θ_s2)、(P_s3, θ_s3)、...(P_sN, θ_sN)]；For extracting the new ability value vector V of object knowledge point_newIn P, obtain Obtain (P_new1、P_new2、P_new3、...P_newN), the object knowledge point is the postposition in the map of knowledge point with source Knowledge Relation Knowledge point；For extracting the current ability value vector V of object knowledge point from initialized data base_now, and extract V_nowIn P, obtain Obtain (P_now1、P_now2、P_now3、...P_nowN)；Difficulty value d, 0 < d < 1 for the extraction source knowledge point from initialized data base；

Data acquisition unit, for according to the shortest path S between knowledge point map acquisition object knowledge point and source knowledge point； Node in-degree λ according to knowledge point map acquisition object knowledge point；

Data processing unit, for calculating the transmission factor δ between object knowledge point and source knowledge point,Based on Calculate the new ability value vector V of object knowledge point_new, V_new=V_S×δ；For calculating (P_new1×P_now1、P_new2×P_now2、P_new3× P_now3、...P_newN×P_nowN), obtain new (P_now1、P_now2、P_now3、...P_nowN)；For by new (P_now1、P_now2、 P_now3、...P_nowN) return to ability value vector V_now, to V_nowIt is updated, and by updated V_nowBack to initialized data base In；For finding out updated V_nowIn (P_now1、P_now2、P_now3、...P_nowN) in the maximum P of numerical value, and found out according to the P Corresponding θ, the θ estimate ability value for current goal knowledge point.

Further, data extracting unit extracts the current ability value vector V of object knowledge point from initialized data base_nowWhen, If not being stored with ability value vector V in initialized data base_nowWhen, object knowledge point is calculated with it in data processing unit New ability value vector V_newAs updated V_now, and by updated V_nowBack in initialized data base.

Further, when the quantity for the maximum P of numerical value that data processing unit is found out is greater than one, take multiple P corresponding The mean value of multiple θ estimate ability value as current goal knowledge point.

Third aspect present invention also provides knowledge point ability value and estimates equipment, including memory, processor and is stored in In the memory and the computer program that can run on the processor, when the processor executes the computer program The step of realizing aforementioned first aspect or first aspect any implementation the method.

Fourth aspect present invention also provides a kind of computer readable storage medium, the computer-readable recording medium storage There is computer program, aforementioned first aspect or first aspect any realization side are realized when the computer program is executed by processor The step of formula the method.

Fifth aspect present invention also provides knowledge point ability value predictor method, comprising the following steps:

Step 1: extracting the ability value vector V of source knowledge point from initialized data base_S, V_S=[(P_s1, θ_s1)、(P_s2, θ_s2)、(P_s3, θ_s3)、...(P_sN, θ_sN)]；

Step 2: calculating the transmission factor δ between object knowledge point and source knowledge point, the object knowledge point is in knowledge point With the postposition knowledge point of source Knowledge Relation in map, transmission factor δ calculating process includes:

Step 201 acquires the shortest path S between object knowledge point and source knowledge point according to knowledge point map；According to knowledge The node in-degree λ of point map acquisition object knowledge point；

Step 202, from initialized data base extraction source knowledge point difficulty value d, 0 < d < 1；

Step 203, foundationCalculate transmission factor δ；

Step 3: calculating the new ability value vector V of object knowledge point_new, V_new=V_S×δ；After the completion of calculating, V is extracted_new In P, obtain (P_new1、P_new2、P_new3、...P_newN)；

Step 4: finding out (P_new1、P_new2、P_new3、...P_newN) in the maximum P of numerical value, and find out according to the P corresponding θ, which is that ability value is estimated in current goal knowledge point.

Further, when the quantity of the maximum P of the numerical value found out in step 4 is greater than one, take multiple P corresponding more The mean value of a θ estimates ability value as current goal knowledge point.

Compared with the prior art, the present invention has the following advantages:

1, the present invention can estimate out the source Knowledge Relation by the ability value vector of the knowledge point knowledge point map Zhong Yuan Postposition knowledge point ability value, acquisition is buried by data to each knowledge point in the map of knowledge point compared to the prior art Mode acquisition capacity value one by one, the present invention can greatly save each knowledge point ability value acquisition in the map of knowledge point when Between.

2, the present invention can estimate out its ability by the ability value vector of its preposition knowledge point to the knowledge point not learnt Value is compared to the prior art calculated the ability value for the knowledge point not learnt using item response theory, and the present invention reduces Energy consumption needed for computer calculates, especially in entire knowledge point map thus the ability value of knowledge point when calculating, The present invention can significantly shorten calculating and spend the time.

3, the present invention states the degree of association between source knowledge point and object knowledge point, the variable of transmission factor δ with transmission factor δ Using the shortest path S and object knowledge point intermediate node between the difficulty value d of source knowledge point, source knowledge point and object knowledge point In-degree λ；The higher position for illustrating source knowledge point in the map of knowledge point the difficulty value d of source knowledge point more rearward, further illustrates The high probability of relevance is bigger between object knowledge point and source knowledge point；Shortest path S between source knowledge point and object knowledge point is got over It is small, illustrate that relevance is higher between object knowledge point and source knowledge point；Object knowledge point intermediate node in-degree λ is smaller, illustrates the target The preposition knowledge point quantity of knowledge point is less, further illustrates that the relevance between source knowledge point and object knowledge point is higher；So Transmission factorThe degree of association between source knowledge point and object knowledge point can be measured.Finally transmission factor δ substitution source is known Know the ability value vector V of point_S, one for capable of obtaining object knowledge point estimates ability value vector V_new, and with V_newIn probability Data P ability value vector V original to object knowledge point_nowProbability data P be adjusted, if an object knowledge point is more than One preposition source knowledge point, ability value vector V_nowProbability data P by repeatedly adjustment, can tend to one more it is accurate really Probability data P, the ability value θ then found out according to probability data P is better able to accurately reflect user on object knowledge point Ability.

Below by drawings and examples, technical scheme of the present invention will be described in further detail.

Detailed description of the invention

Fig. 1 is the schematic diagram of a knowledge point map.

Fig. 2 is method flow schematic diagram of the invention.

Specific embodiment

Embodiment 1

Knowledge point ability value predictor method, as shown in Figure 2, comprising the following steps:

Step 1: extracting the ability value vector V of source knowledge point from initialized data base_S, ability value vector V_SFor N-dimensional Vector, V_S=[(P_s1, θ_s1)、(P_s2, θ_s2)、(P_s3, θ_s3)、...(P_sN, θ_sN)]；It is assumed herein that the ability value of some source knowledge point Vector

V_S=[(0.2,0.1), (0.4,0.2), (0.1,0.3), (0.2,0.4) (0.3,0.5)]；

Wherein P_s1=0.2, θ_s1When=0.1, representing user's ability value on the source knowledge point as 0.1 probability is 0.2；

Step 2: calculating the transmission factor δ between object knowledge point and source knowledge point, the object knowledge point is in knowledge point With the postposition knowledge point of source Knowledge Relation in map, Fig. 1 is the schematic diagram of a knowledge point map, transmission factor δ calculating process Include:

Step 201 acquires the shortest path S between object knowledge point and source knowledge point according to knowledge point map；Such as Fig. 1 institute Show, the shortest path S=1 between object knowledge point 3 and source knowledge point, the shortest path S=between object knowledge point 2 and source knowledge point 2；Node in-degree λ according to knowledge point map acquisition object knowledge point；Node in-degree λ refers to that how many paths is directed toward this and knows Know point, as shown in fig. 1, node in-degree λ=2 of object knowledge point 3,2 node in-degree λ=1 of object knowledge point；It needs to illustrate That the value of shortest path S is smaller, illustrate between object knowledge point and source knowledge point be associated with it is closer；The value of node in-degree λ is got over It is small, illustrate that the preposition knowledge point quantity of object knowledge point is fewer, further, illustrates object knowledge point and being associated between the knowledge point of source It is closer；

Step 202, from initialized data base extraction source knowledge point difficulty value d, 0 < d < 1；It should be noted that one The difficulty of knowledge point is higher, illustrates position of the knowledge point in the map of knowledge point more rearward, for example, knowledge point " addition " with know Know point " calculus ", can determine that the difficulty of knowledge point " calculus " is significantly larger than knowledge point " addition ", knowledge point " addition " Quantity of the quantity of postposition knowledge point far more than the postposition knowledge point of knowledge point " calculus "；The difficulty of source knowledge point is higher, The quantity of its postposition knowledge point is fewer, i.e., fewer with the object knowledge of source Knowledge Relation point quantity, further, illustrates target Knowledge point and being associated with for source knowledge point are closer；

Step 203, foundationCalculate transmission factor δ；Transmission factor δ is reflection object knowledge point and source knowledge point Between correlation degree parameter；

Step 3: calculating the new ability value vector V of object knowledge point_new, V_new=V_S×δ；After the completion of calculating, V is extracted_new In P, obtain (P_new1、P_new2、P_new3、...P_newN)；

Step 4: extracting the current ability value vector V of object knowledge point from initialized data base_now, extract V_nowIn P, Obtain (P_now1、P_now2、P_now3、...P_nowN),

Calculate (P_new1×P_now1、P_new2×P_now2、P_new3×P_now3、...P_newN×P_nowN), it is obtained newly by calculated result (P_now1、P_now2、P_now3、...P_nowN)；

By new (P_now1、P_now2、P_now3、...P_nowN) return to ability value vector V_now, obtain updated V_now；It will more V after new_nowBack in initialized data base；

Step 5: finding out updated V_nowIn (P_now1、P_now2、P_now3、...P_nowN) in the maximum P of numerical value, and foundation The P finds out corresponding θ, which estimates ability value for current goal knowledge point；

Step 6: extracting the ability value vector V of next source knowledge point from initialized data base_S, then execute step 2 To step 5.

It should be noted that the value vector V that has the ability in the map of knowledge point_SKnowledge point can be used as source knowledge point； I.e. for some knowledge point, source knowledge point, In are used as in the method and step implementation procedure of a step 2 to step 5 Another secondary step 2 knowledge point into the method and step implementation procedure of step 5 can become object knowledge point again.

In the present embodiment, the current ability value vector V of object knowledge point is extracted from initialized data base in step 4_nowWhen, if Ability value vector V is not stored in initialized data base_now, then with V in step 3_newAs updated V_now, and by V_nowIt returns It returns in initialized data base.

In the present embodiment, when the quantity of the maximum P of the numerical value found out in step 5 is greater than one, take multiple P corresponding The mean value of multiple θ estimates ability value as current goal knowledge point.

It should be noted that the method for the invention, in this method step implementation procedure, step 2 of every execution is extremely The ability value of step 5, the then all postposition knowledge points for the source knowledge point chosen in this implementation procedure will be updated once.

Embodiment 2

Knowledge point ability value Prediction System, comprising: data extracting unit, data acquisition unit and data processing unit.

Operational process is as follows when the Prediction System estimates knowledge point ability: this is sentenced to knowledge point shown in Fig. 1 For the ability value of object knowledge point 3 in map is estimated, it is illustrated；

The ability value vector V of data extracting unit extraction source knowledge point from initialized data base_S, ability value vector V_SFor N-dimensional Vector, V_S=[(P_s1, θ_s1)、(P_s2, θ_s2)、(P_s3, θ_s3)、...(P_sN, θ_sN)]；

Data acquisition unit is according to the shortest path S, such as Fig. 1 between knowledge point map acquisition object knowledge point and source knowledge point Shown, in the present embodiment between object knowledge point 3 and source knowledge point shortest path S=1；

Node in-degree λ of the data acquisition unit according to knowledge point map acquisition object knowledge point 3；Node in-degree λ is referred to How many paths is directed toward the knowledge point, as shown in fig. 1, node in-degree λ=2 of object knowledge point 3；

Data processing unit calculates the transmission factor δ between object knowledge point and source knowledge point,Herein, transmitting because Sub- δ is the parameter of the correlation degree reflected between object knowledge point 3 and source knowledge point；

The new ability value vector V of data processing unit calculating object knowledge point 3_new, V_new=V_S×δ；After the completion of calculating, number V is extracted according to extraction unit_newIn P, obtain (P_new1、P_new2、P_new3、...P_newN)；

Data extracting unit judges the current ability value vector V of object knowledge point 3 whether is stored in initialized data base_now, If so, extracting the current ability value vector V of object knowledge point from initialized data base_now, extract V_nowIn P, obtain (P_now1、P_now2、P_now3、...P_nowN)；

Data processing unit calculates (P_new1×P_now1、P_new2×P_now2、P_new3×P_now3、...P_newN×P_nowN), pass through meter It calculates result and obtains new (P_now1、P_now2、P_now3、...P_nowN)；

Data processing unit is by new (P_now1、P_now2、P_now3、...P_nowN) return to ability value vector V_now, updated V afterwards_now；By updated V_nowBack in initialized data base, the V originally stored in initialized data base is updated_now；

Data processing unit finds out updated V_nowIn (P_now1、P_now2、P_now3、...P_nowN) in the maximum P of numerical value, And corresponding θ is found out according to the P, which estimates ability value for current goal knowledge point 3；

Then data extracting unit extracts the ability value vector V of next source knowledge point from initialized data base_S, such as Fig. 1 Shown, can be used as next source knowledge point at this time is the object knowledge point 1 and object knowledge point 2 in Fig. 1, can be seen by Fig. 1 Object knowledge point 2 is the postposition knowledge point of object knowledge point 1 out, it is preferable that object knowledge is chosen in next source knowledge point Point 1.

In the present embodiment, data extracting unit judges the current energy of object knowledge point 3 whether is stored in initialized data base Force value vector V_nowWhen, if it is not, then data processing unit calculates the new ability value vector V of object knowledge point 3_newAs updated V_nowBack in initialized data base, and data processing unit finds out updated V_nowIn (P_now1、P_now2、P_now3、 ...P_nowN) in the maximum P of numerical value, and corresponding θ is found out according to the P, which is that ability is estimated in current goal knowledge point 3 Value.

In the present embodiment, when the quantity of the maximum P of the numerical value that data processing unit is found out is greater than one, multiple P pairs is taken The mean value of the multiple θ answered estimates ability value as current goal knowledge point.

Embodiment 3

Knowledge point ability value estimates equipment, including memory, processor and storage are in the memory and can be in institute The computer program run on processor is stated, the processor is realized described in previous embodiment 1 when executing the computer program The step of method.

Embodiment 4

A kind of computer readable storage medium, the computer-readable recording medium storage have computer program, the meter The step of 1 the method for previous embodiment is realized when calculation machine program is executed by processor.

The above is only presently preferred embodiments of the present invention, is not intended to limit the invention in any way, it is all according to the present invention Technical spirit any simple modification to the above embodiments, change and equivalent structural changes, still fall within skill of the present invention In the protection scope of art scheme.

Claims (10)

1. knowledge point ability value predictor method, it is characterised in that: the following steps are included:

Step 1: extracting the ability value vector V of source knowledge point from initialized data base_S, V_S=[(P_s1, θ_s1)、(P_s2, θ_s2)、 (P_s3, θ_s3)、...(P_sN, θ_sN)]；

Step 2: calculating the transmission factor δ between object knowledge point and source knowledge point, the object knowledge point is in knowledge point map In postposition knowledge point with source Knowledge Relation, transmission factor δ calculating process includes:

Step 201 acquires the shortest path S between object knowledge point and source knowledge point according to knowledge point map；According to knowledge point diagram The node in-degree λ of spectrum acquisition object knowledge point；

Step 202, from initialized data base extraction source knowledge point difficulty value d, 0 < d < 1；

Step 203, foundationCalculate transmission factor δ；

Step 3: calculating the new ability value vector V of object knowledge point_new, V_new=V_S×δ；After the completion of calculating, V is extracted_newIn P, Obtain (P_new1、P_new2、P_new3、...P_newN)；

Step 4: extracting the current ability value vector V of object knowledge point from initialized data base_now, extract V_nowIn P, obtain (P_now1、P_now2、P_now3、...P_nowN),

Calculate (P_new1×P_now1、P_new2×P_now2、P_new3×P_now3、...P_newN×P_nowN),

New (P is obtained by calculated result_now1、P_now2、P_now3、...P_nowN)；

By new (P_now1、P_now2、P_now3、...P_nowN) return to ability value vector V_now, obtain updated V_now；After updating V_nowBack in initialized data base；

Step 5: finding out updated V_nowIn (P_now1、P_now2、P_now3、...P_nowN) in the maximum P of numerical value, and looked for according to the P Corresponding θ out, the θ estimate ability value for current goal knowledge point；

Step 6: extracting the ability value vector V of next source knowledge point from initialized data base_S, step 2 is then executed to step Five.

2. ability value predictor method in knowledge point described in accordance with the claim 1, it is characterised in that: from initialized data base in step 4 Extract the current ability value vector V of object knowledge point_nowWhen, if not being stored with ability value vector V in initialized data base_nowWhen, With V in step 3_newAs updated V_now, and by V_nowBack in initialized data base.

3. ability value predictor method in knowledge point described in accordance with the claim 1, it is characterised in that: the numerical value found out in step 5 is most When the quantity of big P is greater than one, the mean value of the corresponding multiple θ of multiple P is taken to estimate ability as current goal knowledge point Value.

4. knowledge point ability value Prediction System characterized by comprising

Data extracting unit, the ability value vector V for the extraction source knowledge point from initialized data base_S, V_S=[(P_s1, θ_s1)、 (P_s2, θ_s2)、(P_s3, θ_s3)、...(P_sN, θ_sN)]；For extracting the new ability value vector V of object knowledge point_newIn P, obtain (P_new1、P_new2、P_new3、...P_newN), the object knowledge point is that the postposition in the map of knowledge point with source Knowledge Relation is known Know point；For extracting the current ability value vector V of object knowledge point from initialized data base_now, and extract V_nowIn P, obtain (P_now1、P_now2、P_now3、...P_nowN)；Difficulty value d, 0 < d < 1 for the extraction source knowledge point from initialized data base；

Data acquisition unit, for according to the shortest path S between knowledge point map acquisition object knowledge point and source knowledge point；Foundation The node in-degree λ of knowledge point map acquisition object knowledge point；

Data processing unit, for calculating the transmission factor δ between object knowledge point and source knowledge point,For calculating mesh Mark the new ability value vector V of knowledge point_new, V_new=V_S×δ；For calculating (P_new1×P_now1、P_new2×P_now2、P_new3× P_now3、...P_newN×P_nowN), obtain new (P_now1、P_now2、P_now3、...P_nowN)；For by new (P_now1、P_now2、 P_now3、...P_nowN) return to ability value vector V_now, to V_nowIt is updated, and by updated V_nowBack to initialized data base In；For finding out updated V_nowIn (P_now1、P_now2、P_now3、...P_nowN) in the maximum P of numerical value, and found out according to the P Corresponding θ, the θ estimate ability value for current goal knowledge point.

5. knowledge point ability value Prediction System according to claim 4, it is characterised in that: data extracting unit is from preset number The current ability value vector V of object knowledge point is extracted according to library_nowWhen, if not being stored with ability value vector V in initialized data base_now When, the new ability value vector V of object knowledge point is calculated with it for data processing unit_newAs updated V_now, and will more V after new_nowBack in initialized data base.

6. knowledge point ability value Prediction System according to claim 4, it is characterised in that: the number that data processing unit is found out When being worth the quantity of maximum P greater than one, mean value the estimating as current goal knowledge point of the corresponding multiple θ of multiple P is taken Ability value.

7. knowledge point ability value estimates equipment, including memory, processor and storage are in the memory and can be described The computer program run on processor, which is characterized in that the processor realizes such as right when executing the computer program It is required that the step of 1,2 or 3 the method.

8. computer readable storage medium, the computer-readable recording medium storage has computer program, which is characterized in that institute It states and realizes when computer program is executed by processor such as the step of claim 1,2 or 3 the method.

9. knowledge point ability value predictor method, it is characterised in that: the following steps are included:

Step 1: extracting the ability value vector V of source knowledge point from initialized data base_S, V_S=[(P_s1, θ_s1)、(P_s2, θ_s2)、 (P_s3, θ_s3)、...(P_sN, θ_sN)]；

Step 2: calculating the transmission factor δ between object knowledge point and source knowledge point, the object knowledge point is in knowledge point map In postposition knowledge point with source Knowledge Relation, transmission factor δ calculating process includes:

Step 201 acquires the shortest path S between object knowledge point and source knowledge point according to knowledge point map；According to knowledge point diagram The node in-degree λ of spectrum acquisition object knowledge point；

Step 202, from initialized data base extraction source knowledge point difficulty value d, 0 < d < 1；

Step 203, foundationCalculate transmission factor δ；

Step 3: calculating the new ability value vector V of object knowledge point_new, V_new=V_S×δ；After the completion of calculating, V is extracted_newIn P, Obtain (P_new1、P_new2、P_new3、...P_newN)；

Step 4: finding out (P_new1、P_new2、P_new3、...P_newN) in the maximum P of numerical value, and corresponding θ is found out according to the P, The θ estimates ability value for current goal knowledge point.

10. knowledge point ability value predictor method according to claim 9, it is characterised in that: the numerical value found out in step 4 When the quantity of maximum P is greater than one, the mean value of the corresponding multiple θ of multiple P is taken to estimate energy as current goal knowledge point Force value.