CN112036807A - Thinking guide diagram-based culture scheme making method - Google Patents

Abstract

The invention relates to a school culture scheme making method, in particular to a culture scheme making method based on a thought chart, which comprises the following steps: predefining a multi-branch tree data structure corresponding to the mind map; setting root nodes of the thought guide graph according to the culture unit; adding a learning molecular node according to the root node, wherein the learning molecular node is defined by a user; verifying the logic relationship between the academic molecular nodes; adding leaf nodes on the basis of the school child nodes, wherein the leaf nodes comprise courses or course groups.

Description

Thinking guide diagram-based culture scheme making method

Technical Field

The invention relates to a school culture scheme making method, in particular to a culture scheme making method based on a thought chart.

Background

The society advances, the personalized appeal becomes stronger and stronger, and the original fixed mode of each professional culture plan is not suitable for the personalized demand. The demands for flexible setting according to changes of professional culture are increasing. The continuous improvement is continuously pursued in the course of school reform, relates to the formulation of a culture plan, and needs to be modified at any time according to the requirement of teaching reform. The original two-dimensional table mode is a fixed mode, and flexible user-defined expansion is difficult to realize.

Disclosure of Invention

In order to realize flexible custom expansion of a culture plan, the invention provides a culture scheme making method based on a thought chart, which comprises the following steps: predefining a multi-branch tree data structure corresponding to the mind map; setting root nodes of the thought guide graph according to the culture unit; adding a learning molecular node according to the root node, wherein the learning molecular node is defined by a user; verifying the logic relationship between the academic molecular nodes; adding leaf nodes on the basis of the school child nodes, wherein the leaf nodes comprise courses or course groups.

Further, the culture unit comprises a grade specialty, a college specialty and a professional class.

Further, adding the chemical molecule node according to the root node comprises: adding a chemical molecular node according to the root node; by the method, the culture scheme is made by schools more conveniently and more flexibly; better support personalized culture and better expandability.

Drawings

FIG. 1 is an example of a conventional two-dimensional table format of a culture protocol.

FIG. 2 is a schematic flow chart of a method for preparing a culture protocol based on a mind map according to an embodiment of the present invention.

FIG. 3 is a schematic operation diagram of a user's thinking-chart-based cultivation scheme creation method according to an embodiment of the present invention.

Detailed Description

Referring to fig. 2, a method for preparing a mind map-based culture plan according to an embodiment of the present invention includes the following steps:

s01, predefining a multi-branch tree data structure corresponding to the mind map;

s03, setting root nodes of the thought map according to the culture units;

s05, adding a learning molecule node according to the root node, wherein the learning molecule node is customized by a user;

s07, verifying the logic relationship between the chemical molecular nodes;

and S09, adding leaf nodes on the basis of the school child nodes, wherein the leaf nodes comprise courses or course groups.

Further, the culture unit comprises a grade specialty, a college specialty and a professional class.

Further, adding the child nodes according to the root node comprises the following steps:

s0501, adding a child node of the school score according to the root node;

and S0503, dragging the chemical molecule nodes to change the parent-child relationship among the chemical molecule nodes.

By the embodiment of the invention, the culture target is unchanged, and the formulation requirement of an individualized culture scheme is met; the student node can be customized. The direction, the module and the grouping can be divided; based on the mind map, support can be extended in infinite levels.

Specifically, the top-level design of the invention needs a general view, and is defined according to which structure trees, root nodes are set, and the addition of the learning molecular nodes is carried out by taking the root nodes as the main basis; defining the names of the chemical molecular nodes by a user, and only adding the chemical molecular nodes required by the user; after the definition of the student nodes is completed, whether the logical relationship between the nodes is correct or not needs to be verified, and the constraint conditions among the nodes can be the relationship with each other, or 1 or N nodes are selected before a plurality of child nodes; on the basis of the school children nodes, leaves, namely the endmost courses, course groups and the like are added.

Illustratively, the method for establishing the culture scheme based on the mind map comprises the following concrete implementation steps:

1. adding information of grade major, and defaulting to be a root node;

2. selecting the information added in step 1, adding the requirement of the credit node, wherein N is available, and the name can be modified by self;

3.2, the hierarchical relation can be increased, and the hierarchical relation is added one level at a time;

4.2 repeating for multiple times, and adjusting the relationship among each other and the relationship among the upper level nodes and the lower level nodes;

5. selecting the added credit nodes in step 2, and setting the final course or course group;

6. the correlations are shown and verified in a mind map.

To further illustrate the embodiments of the present invention, the following further illustrates the embodiments of the present invention in conjunction with software code:

1. the root node for making the thought-guiding graph can be specifically a grade specialty.

2. And (3) making data of the multi-branch trees corresponding to the mind map, wherein the multi-branch trees can be in an AND (OR) relationship, and the levels of the multi-branch trees are not limited.

XML data structures are as follows:

<nodes>

< nodeText >

< parentnodext ═ 2019 computer "> < parentnode/>

< remove ═ course that must be passed by all gates "> < remove/>)

</>

</node>

</nodes>

3. And traversing the multi-branch tree and the interrelation among each node of the multi-branch tree.

XML data structures are as follows:

<nodes>

< noditext ═ 2019 computer' >

< remove >

<childNodestext＝”and”></childNodes>

</>

</node>

</nodes>

4. The last node of the multi-branch tree is called as the last node, and the course, the course group, the course category and the like can be mounted. Courses, course groups and course categories need to be predefined.

<nodes>

< nodeText ═ professional core course >

< parentnodext ═ must repair >

All calculation GPA "> < demo/>", for "professional core course

<courses>

<coursecode＝””></course>

<coursecode＝””></course>

……

</courses>

</>

</node>

</nodes>

Illustratively, the user implements the UI, as shown in fig. 3, by using the software programming described above, as a result of the mind map-based cultivation scenario creating method according to the embodiment of the present invention.

Claims (3)

1. A thinking-map-based culture scheme making method is characterized by comprising the following steps:

predefining a multi-branch tree data structure corresponding to the mind map;

setting root nodes of the thought guide graph according to the culture unit;

adding a learning molecular node according to the root node, wherein the learning molecular node is defined by a user;

verifying the logic relationship between the academic molecular nodes;

adding leaf nodes on the basis of the school child nodes, wherein the leaf nodes comprise courses or course groups.

2. The method of claim 1, wherein the culture unit comprises a grade specialty, a college specialty, and a professional class.

3. The thinking-graph-based cultivation scenario formulation method as claimed in claim 1, wherein adding the chemical molecule nodes according to the root nodes comprises:

adding a chemical molecular node according to the root node;

dragging the learning molecular nodes changes the parent-child relationship between the learning molecular nodes.

Images