CN106201263A - Abstract conception virtual interactive interface method and system based on free modular construction - Google Patents
Abstract conception virtual interactive interface method and system based on free modular construction Download PDFInfo
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- CN106201263A CN106201263A CN201610519122.0A CN201610519122A CN106201263A CN 106201263 A CN106201263 A CN 106201263A CN 201610519122 A CN201610519122 A CN 201610519122A CN 106201263 A CN106201263 A CN 106201263A
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- G—PHYSICS
- G06—COMPUTING; CALCULATING OR COUNTING
- G06F—ELECTRIC DIGITAL DATA PROCESSING
- G06F3/00—Input arrangements for transferring data to be processed into a form capable of being handled by the computer; Output arrangements for transferring data from processing unit to output unit, e.g. interface arrangements
- G06F3/01—Input arrangements or combined input and output arrangements for interaction between user and computer
- G06F3/048—Interaction techniques based on graphical user interfaces [GUI]
- G06F3/0484—Interaction techniques based on graphical user interfaces [GUI] for the control of specific functions or operations, e.g. selecting or manipulating an object, an image or a displayed text element, setting a parameter value or selecting a range
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- G—PHYSICS
- G09—EDUCATION; CRYPTOGRAPHY; DISPLAY; ADVERTISING; SEALS
- G09B—EDUCATIONAL OR DEMONSTRATION APPLIANCES; APPLIANCES FOR TEACHING, OR COMMUNICATING WITH, THE BLIND, DEAF OR MUTE; MODELS; PLANETARIA; GLOBES; MAPS; DIAGRAMS
- G09B5/00—Electrically-operated educational appliances
- G09B5/08—Electrically-operated educational appliances providing for individual presentation of information to a plurality of student stations
- G09B5/14—Electrically-operated educational appliances providing for individual presentation of information to a plurality of student stations with provision for individual teacher-student communication
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Abstract
The present invention relates to a kind of abstract conception virtual interactive interface method and system based on free modular construction.This system includes modular construction storehouse subsystem, algorithm running subsystem, interface alternation subsystem and data storage subsystem.User can use this systematic learning and observation complex concept abstract after graphical presentation process, and interact with graphic assembly, accelerate to understand speed, sharpen understanding degree.The present invention is that teaching person provides a high efficiency and visual educational aid, the most also provides for learner that one interactive extremely strong and interesting information is mutual and learning platform, more effectively promotes the ability of user solution challenge.
Description
Technical field
The present invention relates to computer graphical visualization, algorithm and complexity analyzing and computer science conceptual abstraction
Technical field, is specifically related to a kind of abstract conception virtual interactive interface method and system based on free modular construction.
Background technology
In Computer Subject teaching process, some abstract conception are often had to need to be shown by figure, such as data
The courses such as structure, algorithm, digital circuit, architecture, computer network.Along with study further and the application of knowledge, right
More and more higher in the requirement of learner understandability, the formula that the browses learning method efficiency of simple video or picture and text is little, learns
Habit person cannot produce the learning demand realizing personalization alternately with it, so design one can help learner understanding abstract
Knowledge, and understand on the basis of grasp abstract problem is converted to computer can by execution in the way of virtual interactive interface method
Become the most urgent with system.
Summary of the invention
It is an object of the invention to realize a kind of abstract conception virtual interactive interface method and system based on free modular construction,
Help learner to learn complicated knowledge in the way of more meeting Cognitive Science, promote conceptual abstraction and the energy of interactive visual
Power.
It is an object of the invention to be achieved through the following technical solutions:
A kind of abstract conception virtual interactive interface method based on free modular construction, its step includes:
1) select to specify the data message required for the knowledge point algorithm groupware corresponding with concept and algorithm running;
2) the required graphical information represented when running according to algorithm, chooses correspondence from the graphic assembly storehouse of storage
Graphic assembly element, and it is bound with algorithm groupware;
3) the graphic assembly element of binding, algorithm groupware and teaching guidance information are presented in interactive interface, carry simultaneously
Operate for user for control module;
4) user utilizes control module, operates graphic assembly element according to teaching guidance information, and according to friendship
Behavioural information gives feedback and the response of correspondence mutually.
Further, step 2) in graphic assembly storehouse be broadly divided into two classes: the first kind is infrastructure component storehouse, including straight
The infrastructure component elements such as line, curve, circle, rectangle, triangle, text, picture;Equations of The Second Kind is then by the basis in infrastructure component storehouse
Assembly element is combined assembly, forms electric hybrid module storehouse, the electric hybrid module element such as including node, limit, box, form.Such as
Electric hybrid module element node is to be formed by circular and these two infrastructure component element combinations of text, limit be then by straight line, curve,
These three infrastructure component element combinations of text form.According to aforesaid way, choose one or more graphic assembly element and algorithms
Plug-in unit is bound.
Further, step 3) in control module mainly include three generic operation modes: the first kind is for graphic assembly
The action-item of element metadata, including inserting metadata, deletes the interbehavior such as metadata, lookup metadata;Equations of The Second Kind is pin
Action-item to graphic assembly set playing process, including returning to the first step, taking a step back, played in order, take a step forward, arrive
The control modes such as final step, quickening broadcasting speed;3rd class is to show the action-item of sight for graphic assembly set, including
Pull graphic assembly element, amplification figure component metadata element, reduce the modes of operation such as graphic assembly element.
Further, step 3) in teaching guidance information refer to curricula content, operation guiding information and figure
Information required in shape presentation process.
Further, step 4) include following sub-step:
A) user by use step 3) in control module, send an interbehavior information to system, this is mutual
Behavior belongs in above-mentioned numerous mode of operation;
B) when receiving the interbehavior information of user, system calls operation function corresponding in algorithm groupware, root
According to the operation result of operation function, obtain the number of times of the operating procedure of this operation function, and the number of times of operating procedure is passed to
Algorithm groupware;
C) bound due to algorithm groupware with graphic assembly element and associated, now graphic assembly element and teaching guidance
Task queue in information performs according to the number of times of operating procedure respectively, respectively the graphic assembly element in interactive interface
Display area, teaching guidance region and false code perform region and carry out dynamic demonstration, and in presentation process, these three task queue is held
Row order is identical;
D), after having demonstrated, user can proceed with other operations, repeat the above steps b) and step c).
A kind of abstract conception virtual interactive interface system based on free modular construction using said method, this system bag
Include:
Modular construction storehouse subsystem, the graphic assembly element in managing graphic Component Gallery, from data storage subsystem
The metadata of middle acquisition graphic assembly element, and provide graph of a correspondence assembly set for different algorithm groupwares, by this figure
Assembly set information is sent in algorithm running subsystem;
Algorithm running subsystem, receives the graphic assembly element information from modular construction storehouse subsystem, simultaneously from data
Data message required for acquisition algorithm running in storage subsystem, transports algorithm groupware, graphic assembly element and algorithm
Row data bind together, and are sent in interface alternation subsystem by the data acquisition system after binding;
Interface alternation subsystem, obtains the data acquisition system from algorithm running subsystem, and it is illustrated in mutual respectively
In interface, when user produces interbehavior, system gives in different feedback form and feedback according to interbehavior information
Hold;
Data storage subsystem, centralized stores and other three subsystems of management need the data message called, including
The data message of the metadata information of graphic assembly element, algorithm running needs and the teaching guidance information of interaction.
Further, described modular construction storehouse subsystem includes:
Infrastructure component management module, obtains algorithms of different from the component metadata memory module of data storage subsystem and inserts
The metadata that part is corresponding, adds metadata on basic figure assembly element, then the basic figure component metadata that will be related to
Prime information is sent to the algorithm binding module of algorithm running subsystem and the electric hybrid module management module of modular construction storehouse subsystem
In;
Electric hybrid module management module, according to the information of infrastructure component management module transmission, by different basic figure assemblies
Element combinations becomes the mixed graph assembly element of required use, and transmits this information to the algorithm of algorithm running subsystem
In binding module.
Further, described algorithm running subsystem includes:
Algorithm groupware management module, this module is mainly used to store and manage all of algorithm groupware, according to different sights
Call, corresponding algorithm groupware information is sent to algorithm and runs in module;
Algorithm runs module, the information that this module sends according to algorithm groupware management module, calls data storage subsystem
Algorithm service data management module in algorithm running in required data, and send such information to algorithm and tie up
In cover half block;
Algorithm binding module, this module receives the data message running module from algorithm, and from modular construction storehouse
Graphic assembly element information in subsystem, is bound together, and is then graphical set according to the use sight of algorithm groupware
The task queue of part element presentation process and algorithm running arranges identical length, and by the algorithm groupware set after association
It is sent to the figure display module of interface alternation subsystem.
Further, described interface alternation subsystem includes:
Figure display module, receives the algorithm groupware collection sended over from the algorithm binding module of algorithm running subsystem
Conjunction information, and manage, from the guidance information of data storage subsystem, the guidance information that acquisition module is used for imparting knowledge to students, these are believed
Breath be presented in interactive interface check for user and, when user generation interbehavior time, monitoring system response message
And show;
Interbehavior control module, receives and interbehavior information can be supplied to user from figure display module, and
According to the mutual-action behavior used and between system, the information of generation is sent to information response's module;
Information response's module, receives the interbehavior information that user produces in interbehavior control module, and gives not
Same response message, the algorithm groupware set called in figure display module according to system response message is demonstrated.
Further, described data storage subsystem includes:
Component metadata memory module, stores the data message relevant to graphic assembly element in data base, and will deposit
The infrastructure component being sent in the subsystem of modular construction storehouse for combining the metadata of graphic assembly element of storage manages module;
Algorithm service data management module, in data base storage and management algorithm plug-in component operation process required for data
With the false code data for demonstrating algorithm running, send these data to the algorithm in algorithm running subsystem and run
Module, is used for assisting the execution step in abstract conception visualization process and logic;
Guidance information management module, stores and manages the guidance information for teaching and related content in data base, will
Teaching guidance information is sent to the figure display module of interface alternation subsystem, the knowledge concepts after helping user understanding abstract
Content and the operation of guided interaction action process.
Graphic element can be combined as basic figure assembly for learner difference learning demand by said system, and will
Basic figure assembly combines again, becomes increasingly complex mixed graph assembly.On the basis of based on DFA design principle, point
The algorithm executable portion after abstract to graphic assembly, basic data structural library and knowledge point is not linked together, and at interface
Interactive system is shown.For the graphic element shown and displaying process itself, learner can enter according to the demand of oneself
Row regulation and manipulation.It addition, in existing fixing abstract component structure, instructor can set proof rule, and system will
Generate exercise question according to proof rule and can verify that the answer passed through, for learner.This system can be greatly enhanced study
The knowledge concepts degree of understanding of person, learns to convert knowledge to actual application scenario from theory simultaneously, improves and utilizes calculating
Machine solves the ability of challenge.
The abstract conception virtual interactive interface method and system based on free modular construction of the present invention, may help to user
Understand and analyze complex concept and knowledge, utilizing the design that man-machine interaction is friendly, use basic figure assembly element and combination chart
The mode of shape assembly element independent assortment, carries out customization demonstration and the teaching of cognitive aspect, according to the interbehavior of user
Giving different types of feedback information, student and teacher for computer-related speciality provide a high efficiency, by force interest
Learning platform.
Accompanying drawing explanation
Fig. 1 is the general flow chart of abstract conception virtual interactive interface method based on free modular construction in embodiment;
Fig. 2 is the schematic flow sheet of modular construction storehouse subsystem in embodiment;
Fig. 3 is the schematic flow sheet of algorithm running subsystem in embodiment;
Fig. 4 is the schematic flow sheet of embodiment median surface interactive subsystem;
Fig. 5 is the figure display module schematic diagram 1 in the interactive subsystem of embodiment median surface;
Fig. 6 is the figure display module schematic diagram 2 in the interactive subsystem of embodiment median surface.
Detailed description of the invention
Understandable for enabling the above-mentioned purpose of the present invention, feature and advantage to become apparent from, below by specific embodiment and
Accompanying drawing, is described further invention.
Fig. 1 is the main-process stream schematic diagram of the inventive method.As it is shown in figure 1, this embodiment mainly comprises the steps that
Step 11, modular construction storehouse subsystem provides graphical assembly element for user, and is graphical assembly element
Add metadata.
Fig. 2 is the schematic flow sheet of the modular construction storehouse subsystem of the present embodiment, as in figure 2 it is shown, include following sub-step:
Step 111, user uses infrastructure component management module and electric hybrid module management module to add new combination chart
Shape assembly element, detects this mixed graph assembly element the need of using new basic figure assembly element, if it is desired, then
User is allowed to add new basic figure assembly element;Otherwise, existing basic figure assembly element is directly used to carry out group
Close;
Step 112, when user needs to add new basic figure assembly element, needs for this basic figure component metadata
Element adds the metadata form being likely to occur;
Step 113, when the mixed graph assembly element in electric hybrid module management module meets demand, chooses required
Element set, and add metadata for it, for subsequent step.
Step 12, algorithm running subsystem transfers the graphic assembly element in the subsystem of modular construction storehouse according to demand, and
It is bound with algorithm groupware.
Fig. 3 is the schematic flow sheet of the algorithm running subsystem of the present embodiment, as it is shown on figure 3, include following sub-step:
Step 121, the algorithm groupware that algorithm groupware management module calls has stored, and detect whether to exist the algorithm of association
Service data, obtains this algorithm groupware if it is present manage module from the algorithm service data of data storage subsystem
Running data;Otherwise, this algorithm groupware is pointed out to there is not the service data of association;
Step 122, the algorithm service data used during by demonstration is bound with algorithm groupware so that algorithm groupware running
Task queue and the task queue of algorithm display data coupling consistent, the start node of two task queues and queue length are all
Identical;
Step 123, will add the algorithm groupware collection after the mixed graph assembly element of metadata and binding in step 122
Conjunction is associated so that the dynamic task queue of mixed graph assembly element mates one with the task queue of algorithm groupware set
Causing, the start node of the two queue and identical length are same;
Step 124, it is thus achieved that with the algorithm groupware set of graphic assembly, and send it to interface alternation subsystem, supply
Mutual and presentation process uses.
Step 13, the algorithm groupware collection with graphic assembly that interface alternation subsystem receiving algorithm running subsystem is submitted to
Close, be illustrated in interactive interface and the interbehavior of user is fed back.
Fig. 4 is the schematic flow sheet of the present embodiment median surface interactive subsystem, as shown in Figure 4, including following sub-step:
Step 131, the algorithm groupware aggregate information with graphic assembly is illustrated in corresponding interface by figure display module
In region, and wait the interbehavior information that user produces;
Step 132, when interbehavior control module detects the interbehavior information of user, asking according to user
Seek type, call task queue corresponding in current algorithm plug-in unit;
Step 133, algorithm groupware starts to perform from the starting point of task queue, and synchronizes to perform its associated graphic assembly
In dynamic task queue;
Step 134, Fig. 5 and Fig. 6 is the figure display module schematic diagram in the interface alternation subsystem of the present embodiment.Fig. 5
In "+" represent and amplify graphic assembly, "-" represents and reduces graphic assembly, and " X1 " represents and recover graphic assembly size, " 5-9-1-8 "
Represent the node elements in list structure.Node elements during U, L, F, E, M, K, S represent tree construction in Fig. 6.Such as Fig. 5, Fig. 6 institute
Showing, the algorithm service data in algorithm groupware set is illustrated in the content of courses respectively and runs and exhibition with operation guide region and algorithm
Show in region, start to perform respective task queue with identical step;
Step 135, after algorithm groupware has performed task queue, the result presentation of demonstration is given and is used by information response's module
Person, user can terminate demonstration as required, or again produce interbehavior with figure display module.
Example: such as in the knowledge point presentation process of binary tree traversal traversal of binary tree, first by text, circle, line this
The electric hybrid module of a little infrastructure component one binary tree of composition.Interbehavior control module includes preorder traversal, inorder traversal,
Postorder traversal, in being elected to during one of them action-item, graphic assembly element will be according to having stored in component metadata storage
Task queue in module starts to perform, simultaneously according to algorithm binding module and figure display module, by teaching guidance information and
False code data display is at corresponding interface zone.To a binary tree T1:(I (M (H (G, F), X (P, V)), J (T (S, L), K
(W, D)))) carry out the operation of preorder traversal, the content of courses and operation guide region show the process of each sub-step successively
Journey, such as the operation such as " accessing node I ", " judging whether left subtree is empty ", " left subtree is not for sky, preamble traversal left subtree ".With
Time false code corresponding to this processing procedure be displayed on algorithm and run and display area, such as " judging whether left subtree is sky "
The false code of operation correspondence is " if root.leftChild!=null ", so perform until all operations completes.Above-mentioned two
Result after fork tree T1 preamble traversal is (I, M, H, G, F, X, P, V, J, T, S, L, K, W, D).
Above example is only limited in order to technical scheme to be described, the ordinary skill of this area
Technical scheme can be modified or equivalent by personnel, without departing from the spirit and scope of the present invention, and this
The protection domain of invention should be as the criterion with described in claim.
Claims (9)
1. an abstract conception virtual interactive interface method based on free modular construction, it is characterised in that comprise the following steps:
1) select to specify the data message required for the knowledge point algorithm groupware corresponding with concept and algorithm running;
2) the required graphical information represented when running according to algorithm, chooses graph of a correspondence from the graphic assembly storehouse of storage
Assembly element, and it is bound with algorithm groupware;
3) the graphic assembly element of binding, algorithm groupware and teaching guidance information are presented in interactive interface, control is provided simultaneously
Molding block operates for user;
4) user utilizes control module, operates graphic assembly element according to teaching guidance information, and according to mutual row
Feedback and the response of correspondence is given for information.
2. the method for claim 1, it is characterised in that step 2) described graphic assembly storehouse is divided into two classes: the first kind is
Infrastructure component storehouse, it contains infrastructure component element, including straight line, curve, circle, rectangle, triangle, text, picture;
Equations of The Second Kind is the electric hybrid module storehouse infrastructure component element in infrastructure component storehouse being combined assembly and being formed, and it contains mixed
Seaming element element, including node, limit, box, form.
3. the method for claim 1, it is characterised in that step 3) described control module includes three generic operation modes:
One class is the action-item for graphic assembly element metadata, including inserting metadata, deletes metadata, lookup metadata;The
Two classes are the action-items for graphic assembly set playing process, including return to the first step, take a step back, played in order, advance
One step, arrival final step, quickening broadcasting speed;3rd class is to show the action-item of sight for graphic assembly set, including
Pull graphic assembly element, amplification figure component metadata element, reduce graphic assembly element.
4. method as claimed in claim 3, it is characterised in that step 4) include following sub-step:
A) user by use step 3) in control module send an interbehavior information;
B) when receiving the interbehavior information of user, operation function corresponding in algorithm groupware is called, according to running letter
The operation result of number obtains the number of times of the operating procedure of this operation function, and the number of times of operating procedure is passed to algorithm groupware;
C) graphic assembly element performs according to the number of times of operating procedure respectively with the task queue in teaching guidance information, point
The not graphic assembly element display area in interactive interface, teaching guidance region and false code execution region is dynamically drilled
Showing, in presentation process, these three task queue execution sequence is identical;
D), after having demonstrated, user can proceed with other operations, repeat the above steps b) and step c).
5. use an abstract conception virtual interactive interface system based on free modular construction for method described in claim 1, its
It is characterised by, including modular construction storehouse subsystem, algorithm running subsystem, interface alternation subsystem and data storage subsystem:
Described modular construction storehouse subsystem, the graphic assembly element in managing graphic Component Gallery, from data storage subsystem
The metadata of middle acquisition graphic assembly element, and provide graph of a correspondence assembly set for different algorithm groupwares, by this figure
Assembly set information is sent in algorithm running subsystem;
Described algorithm running subsystem, receives the graphic assembly element information from modular construction storehouse subsystem, simultaneously from data
Data message required for acquisition algorithm running in storage subsystem, transports algorithm groupware, graphic assembly element and algorithm
Row data bind together, and are sent in interface alternation subsystem by the data acquisition system after binding;
Described interface alternation subsystem, obtains the data acquisition system from algorithm running subsystem, and it is illustrated in mutual respectively
In interface, when user produces interbehavior, give different feedback form and feedback content according to interbehavior information;
Described data storage subsystem, centralized stores and other three subsystems of management need the data message called, including
The data message of the metadata information of graphic assembly element, algorithm running needs and the teaching guidance information of interaction.
6. system as claimed in claim 5, it is characterised in that described modular construction storehouse subsystem includes:
Infrastructure component management module, obtains algorithms of different plug-in unit pair from the component metadata memory module of data storage subsystem
The metadata answered, adds metadata on basic figure assembly element, then the basic figure assembly element letter that will be related to
Breath is sent in the algorithm binding module of algorithm running subsystem and the electric hybrid module management module of modular construction storehouse subsystem;
Electric hybrid module management module, according to the information of infrastructure component management module transmission, by different basic figure assembly elements
It is combined into the mixed graph assembly element of required use, and transmits this information to the algorithm binding of algorithm running subsystem
In module.
7. system as claimed in claim 5, it is characterised in that described algorithm running subsystem includes:
Algorithm groupware management module, is used for storing and manage all of algorithm groupware, calls, by correspondence according to different sights
Algorithm groupware information be sent to algorithm and run in module;
Algorithm runs module, the information sent according to algorithm groupware management module, and the algorithm calling data storage subsystem runs
Data required in algorithm running in data management module, and send such information in algorithm binding module;
Algorithm binding module, receives the data message running module from algorithm, and from the subsystem of modular construction storehouse
Graphic assembly element information, is bound together, then according to the use sight of algorithm groupware be graphic assembly element demonstration
The task queue of process and algorithm running arranges identical length, and the algorithm groupware set after association is sent to interface
The figure display module of interactive subsystem.
8. system as claimed in claim 5, it is characterised in that described interface alternation subsystem includes:
Figure display module, receives the algorithm groupware set letter sended over from the algorithm binding module of algorithm running subsystem
Breath, and manage, from the guidance information of data storage subsystem, the guidance information that acquisition module is used for imparting knowledge to students, by these information exhibitions
Now interactive interface is checked for user and, when user generation interbehavior, monitoring system response message is also given
Give displaying;
Interbehavior control module, receives and interbehavior information can be supplied to user from figure display module, and according to
Mutual-action behavior between use and system, is sent to information response's module by the information of generation;
Information response's module, receives the interbehavior information that user produces in interbehavior control module, and gives different
Response message, the algorithm groupware set called in figure display module according to system response message is demonstrated.
9. system as claimed in claim 5, it is characterised in that described data storage subsystem includes:
Component metadata memory module, stores the data message relevant to graphic assembly element in data base, and by storage
For combining the infrastructure component management module that the metadata of graphic assembly element is sent in the subsystem of modular construction storehouse;
Algorithm service data management module, in data base storage and management algorithm plug-in component operation process required for data and use
In the false code data of demonstration algorithm running, send these data to the algorithm in algorithm running subsystem and run mould
Block, is used for assisting the execution step in abstract conception visualization process and logic;
Guidance information management module, stores and manages the guidance information for teaching and related content in data base, will teaching
Guidance information is sent to the figure display module of interface alternation subsystem, the knowledge concepts content after helping user understanding abstract
And the operation of guided interaction action process.
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