CN107038667B - Science popularization science and education intelligence building system based on STEP and implementation method - Google Patents

Abstract

The invention relates to a science education intelligence building system based on STEP and an implementation method thereof, wherein the system comprises a STEP information science and technology capability evaluation module, a STEP information science and technology capability evaluation module and a STEP information science and technology capability evaluation module, wherein the STEP information science and technology capability evaluation module generates a design basis for science education of a user; the intelligent science popularization science and education prediction module of the STEP big data obtains IPS data with high matching degree with the user and generates a STEP science and technology innovation capability evaluation report; IPS data is transmitted to the STEP information science and technology capability evaluation module, and the evaluation report is transmitted to the STEP cloud intelligence building module and the STEP-based science and technology innovation capability evaluation module; the STEP cloud intelligence building module carries out information interaction with the STEP-based science and education intelligence building module to complete different mode settings of different science and education objects; the STEP cloud intelligence building module generates a STEP-FLOG file based on a STEP standard protocol and sends the file to the STEP-based science education intelligence building module; the science popularization science and education intelligence building module based on the STEP is produced according to the STEP-FLOG file; and the STEP-based scientific and technological innovation ability evaluation module evaluates the scientific and technological innovation ability of the completed science and education products according to the evaluation report.

Description

Science popularization science and education intelligence building system based on STEP and implementation method

Technical Field

The invention relates to the field of intelligent science popularization, in particular to a science popularization science education intelligent creation system based on STEP and an implementation method.

Background

At present, the reform of the broadsword axe in the American education community is that STEM education is taken first and is widely popularized in countries such as Europe and America, and curriculum reform is also performed in primary and secondary schools in China. U.S. education focuses on practicality, especially in the increasingly competitive 21 st century. Therefore, the popularization of practicalities is promoted, and in the 21 st information era, the electronic era, the high-tech and intelligent rapid and energy-saving era, the basic theoretical subjects are mathematics, science, engineering and technology.

Governments in many countries have also begun to use science and technology as the driving force for economic growth and development, and have begun to build more knowledge-intensive economies in which research and development, commercial development and knowledge will play more roles. Science, engineering, technology will be the basic skills required for intensive economy, and the subject will be the essential link for connecting skills, research and development and commercial development.

In the wide scientific and technological activities, how to keep the climax of the entrepreneurship and realize the new power of the entrepreneurship of the universities, how to actively invest and build the ' one-by-one-way ' construction taking five-way ' as the main content, win the wide consensus and active participation of the international society, inject new power for the regional and global economic growth, bring new hope for the world economy to get out of haze, and the responsibility of the Chinese people is heavy, so the knowledge level and the scientific and technological innovation capability of the national people in China must be improved.

Disclosure of Invention

In view of the above problems, the present invention is to provide a science popularization science education intelligent creation system based on STEP and an implementation method thereof, which can be used for different people in different science education forms and can perform comprehensive science education for different attention points of different people.

In order to achieve the purpose, the invention adopts the following technical scheme: a science popularization science education intelligence system based on STEP is characterized by comprising: the system comprises a STEP information science and technology capability evaluation module, a STEP big data intelligent science and education prediction module, a STEP cloud intelligence creation module, a STEP-based science and technology innovation capability evaluation module and a STEP-based science and education intelligence creation module; wherein S in STEP represents a scientific model, T represents a technical model, E represents an engineering model, and P represents a topic model; the STEP information science and technology capability evaluation module is used for receiving user demand information, evaluating the information science and technology capability of a user, receiving IPS data which is transmitted by the intelligent science and technology prediction module of the STEP big data and has high matching degree with the user, and generating a design basis aiming at science and technology of the user; IPS is a science popularization science and education mode and scheme; the intelligent science popularization science and education prediction module for the STEP big data is used for matching an S model, a T model, an E model and a P model with user requirements, obtaining IPS data with high matching degree with a user through PCD-Q information and generating a STEP science and technology innovation capability evaluation report; IPS data is transmitted to the STEP information science and technology capability evaluation module, and meanwhile, an evaluation report is transmitted to the STEP cloud intelligence building module and the STEP-based science and technology innovation capability evaluation module; PCD-Q is STEP information technology capability data; the STEP cloud intelligence building module performs information interaction with each STEP-based science education intelligence building module through a cloud mode to complete different mode settings of different science education objects; the setting progress and the setting data of the STEP cloud intelligence building module are synchronized to a STEP equipment cloud, a STEP-FLOG file based on a STEP standard protocol is generated at the same time, and finally, the STEP-FLOG file is uniformly packed and respectively sent to each STEP-based science and education intelligence building module to finish the production of science and education products; the science popularization science and education intelligence building module based on the STEP is arranged in a plurality of modules, and each science popularization science and education intelligence building module based on the STEP is produced according to a STEP-FLOG file provided by the STEP cloud intelligence building module; and the science and technology innovation ability evaluation module based on the STEP evaluates the science and technology innovation ability of the science and technology education products completed by the STEP cloud intelligence building module according to the evaluation report transmitted by the intelligent science and technology education prediction module of the STEP big data.

The STEP information science and technology capability evaluation module adopts a STEP standard protocol and transmits corresponding design data to the STEP equipment cloud.

The STEP cloud intelligence building module adopts a STEP standard protocol, an interface adopts a network communication protocol, and information interaction is carried out with each STEP-based science and education intelligence building module through a cloud mode.

The STEP cloud intelligence building module comprises a digital cooperation system, a control system, STP Internet of things service and science popularization science and education big data middleware; the digital collaboration is used for model searching and model setting; the control system is used for modeling, semantization and tasking; the STP Internet of things service is used for displaying various information of products designed by a current user to the user so that the user can monitor the information of popular science and education products in real time at the terminal; the science popularization science and education big data middleware is used for controlling the STEP science and education intelligence building.

The STP internet of things service also provides an optimized interface of product design for users.

A science popularization science and education intelligence creation implementation method based on STEP is characterized in that: the implementation method comprises a STEP cloud intelligence creation process and a STEP-based science education intelligence creation process: the STEP cloud intelligence process is as follows: 1) a user logs in a STEP user requirement design interface, clicks registration or login, submits design requirements according to a STEP requirement design model, and submits and browses design requirements which can be viewed graphically and are based on a STEP protocol; 2) clicking a project design to complete a project design document based on the STEP protocol; 3) the design requirements are submitted to a STEP information science and technology capability evaluation module by clicking, and the STEP information science and technology capability evaluation module generates a STEP information science and technology capability evaluation module report and a project design file according to the design requirements; 4) searching popular science and education cases and models which meet the design requirements of the intelligent science and education system or meet the requirements of the intelligent science and education system through condition query by using an SETP big data intelligent science and education prediction module; 5) an intelligent science popularization and science education prediction module of SETP big data retrieves a STEP information science and technology capability evaluation module report and a subject design file, predicts the rationality and the performability of the subject and generates a STEP science and technology innovation capability evaluation standard; 6) after retrieving the STEP information science and technology ability evaluation module report and a topic design file, the STEP cloud intelligence manufacturing design module carries out digital design according to a STEP protocol, a STEP customization control system carries out semantic analysis, a program module and task control, and the STEP science and technology education software controls the STEP science and technology education through STEP science and technology education big data middleware; 7) checking information of the design of popular science and education products in real time through the STEP equipment cloud; 8) performing actual evaluation and practical evaluation according to the STEP scientific and technological innovation capability evaluation standard; the technological popularization science and education intelligent creation module process of STEP is as follows: and distributing and executing corresponding product design according to the STEP protocol through the analyzed data and instructions of the STEP science and general education big data middleware software.

Due to the adoption of the technical scheme, the invention has the following advantages: 1. the invention can provide subject innovation and design, can realize scientific education, and provides standard, evaluative and rich courses and other teaching materials. 2. The invention can realize technical science popularization and engineering science popularization, and can enable participating educators to apply daily techniques and evaluate the influence of different techniques on the society and the environment. 3. The invention can realize the research and input of science popularization requirements: the system can be used for different people in different scientific education modes and can carry out comprehensive scientific education aiming at different attention points of different people. 4. The invention can realize the scientific and technological capability assessment: the scientific and technological capability assessment is mainly to perform comprehensive assessment on scientific quality, technical quality and engineering quality according to a topic model, and mainly to assess whether the natural world can be understood by applying scientific knowledge course engineering, understand the development process of the technology, analyze how to influence the capability of the technology, and reasonably stimulate the practical result of the interest system for solving the problem. 5. The invention can realize the design of science popularization products, combines the evaluation result of scientific and technological capability, analyzes and disassembles innovation points, development points, interest points and practice points one by one according to the basic, skilled and high-level ratio, combines the 'four elements' of the self, combines the industry and demand of the practical society science and technology, and has intelligent output completely conforming to the customized science and education products of the self. 6. The invention can realize capability assessment and comprehensively assess the crowd according to social practices and social science and technology intersection points.

Drawings

Fig. 1 is a schematic view of the overall structure of the present invention.

Detailed Description

The invention is described in detail below with reference to the figures and examples.

As shown in fig. 1, the present invention provides a science education and intelligence building system based on STEP, wherein S in STEP represents a scientific model, T represents a technical model, E represents an engineering model, and P represents a topic model. The system comprises a STEP information science and technology capability evaluation module, an intelligent science and education prediction module of STEP big data, a STEP cloud intelligence creation module, a STEP-based science and technology innovation capability evaluation module and a STEP-based science and education intelligence creation module.

The STEP information science and technology ability evaluation module is used for receiving user demand information, evaluating the information science and technology ability of a user, receiving IPS data (science and technology education modes and schemes) which are transmitted by the intelligent science and technology prediction module of the STEP big data and have high matching degree with the user, and generating a design basis aiming at science and technology of the user.

The intelligent science popularization science and education prediction module for the STEP big data is used for matching an S model, a T model, an E model and a P model with user requirements, obtaining IPS data with high matching degree with a user through PCD-Q information (STEP information science and technology capability data) and generating a STEP science and technology innovation capability evaluation report; IPS data transmission to STEP information science and technology ability evaluation module in order to improve more reasonable science popularization science and education product for the user, the module is made to the STEP cloud intelligence and the module is appraised to the science and technology innovation ability based on STEP to the report of appraising simultaneously.

The STEP cloud intelligence building module carries out information interaction with each science popularization science and education building module based on STEP through the cloud mode to guarantee that each science popularization science and education building module based on STEP is independent mutually according to the protocol that sets for in advance, accomplish the different mode settings of different science and education objects. The setting progress and the setting data of the STEP cloud intelligent building module are synchronized to the STEP equipment cloud so that a user can conveniently check the setting progress and the setting data in real time; and simultaneously, a STEP-FLOG (format file) based on the STEP standard protocol is generated, and finally, the file is uniformly packed and respectively sent to each STEP-based science and education intelligent building module to finish the production of science and education products.

The science popularization science and education intelligence building module based on the STEP is set to be a plurality of, and each science popularization science and education intelligence building module based on the STEP is produced according to the STEP-FLOG file provided by the STEP cloud intelligence building module.

And the science and technology innovation ability evaluation module based on the STEP carries out the science and technology innovation ability evaluation on the science and technology education products finished by the STEP cloud intelligence building module according to the evaluation report transmitted by the intelligent science and technology education prediction module of the STEP big data.

In the above embodiment, the STEP information technology capability assessment module is internally provided with a topic model, technology capability basic skill and high-level assessment, innovation point, extension point, interest point and practice point assessment, scientific quality, technical quality and engineering quality assessment, and scientific line, technical line and engineering line assessment. The STEP information technology ability assessment module carries out comprehensive assessment on scientific quality, technical quality and engineering quality according to the topic model, and mainly assesses whether to understand the nature by applying scientific knowledge course engineering, understand the development process of the technology, analyze how to influence the ability of the user and reasonably stimulate the practical result of the interest system for solving the problem.

The STEP information technology capability assessment module adopts a STEP standard protocol and transmits corresponding design data to the STEP equipment cloud, and a user can log in a corresponding STEP equipment cloud account to check the capability assessment information of the user. The STEP information technology capability data (PCD-Q) provides information such as PS topic data, CS basic control information, DC personal direction information, and QC personal diathesis capability information.

In the above embodiments, the STEP cloud intelligence creation module adopts a STEP standard protocol, the interface adopts a network communication protocol, and information interaction is performed with each STEP-based science education intelligence creation module through a cloud mode.

The STEP cloud intelligence building module comprises a digital cooperation system, a control system, STP Internet of things service and science popularization science and education big data middleware. Digital collaboration is used for model searching and model setting; the control system is used for modeling, semantization and tasking; the STP internet of things service is used for displaying various information of products designed by a current user to the user so that the user can monitor the information of own popular science and education products in real time at a terminal; the science popularization science and education big data middleware is used for controlling the STEP science and education intelligence creation.

In a preferred embodiment, the STP internet of things service also provides an optimized interface for product design for users, and facilitates the users to participate in case information research and collection of science popularization and science education information of the system. Meanwhile, the user can submit a model file and related data information based on the STEP protocol to the customized science popularization education product design through the STEP science education product design APP and the STEP science popularization product design APP.

The invention also provides a method for realizing the science popularization science and education intelligence creation based on the STEP, which mainly comprises the following STEPs:

the STEP cloud intelligence process is as follows:

1) a user logs in a STEP user requirement design interface, clicks registration or login, submits design requirements according to a STEP requirement design model, and submits and browses design requirements which can be viewed graphically and are based on a STEP protocol;

2) the user can click on the project design to complete the project design document based on the STEP protocol.

3) And clicking to submit the design requirement, submitting the design requirement to the STEP information technology capability evaluation module, and generating a STEP information technology capability evaluation module report and a project design file by the STEP information technology capability evaluation module according to the design requirement.

4) The user can also utilize the SETP big data wisdom science popularization and education prediction module, retrieve the design demand that accords with oneself, also can satisfy the science popularization and education case and the model that oneself required through condition inquiry retrieval.

5) The SETP big data intelligent science popularization and science education prediction module retrieves the STEP information science and technology ability evaluation module report and a subject design file, predicts the rationality and the performability of the subject and generates a STEP science and technology innovation ability evaluation standard.

6) After the STEP cloud intelligence creation design module retrieves the STEP information science and technology ability evaluation module report and a subject design file, digital design is carried out according to a STEP protocol, a STEP customization control system carries out semantic analysis and program module and task control, and STEP science and technology education creation is controlled through STEP science and technology education big data middleware software.

7) A user can check information of popular science and education product design in real time through the STEP equipment cloud;

8) the user can also carry out actual evaluation and practical evaluation according to the STEP scientific and technological innovation ability evaluation standard.

The technological popularization science and education intelligent creation module process of STEP is as follows: and distributing and executing corresponding product design according to the STEP protocol through the analyzed data and instructions of the STEP science and general education big data middleware software.

The above embodiments are only for illustrating the present invention, and the structure, size, arrangement position and shape of each component can be changed, and on the basis of the technical scheme of the present invention, the improvement and equivalent transformation of the individual components according to the principle of the present invention should not be excluded from the protection scope of the present invention.

Claims (6)

1. A science popularization science education intelligence system based on STEP is characterized by comprising: the system comprises a STEP information science and technology capability evaluation module, a STEP big data intelligent science and education prediction module, a STEP cloud intelligence creation module, a STEP-based science and technology innovation capability evaluation module and a STEP-based science and education intelligence creation module; wherein S in STEP represents a scientific model, T represents a technical model, E represents an engineering model, and P represents a topic model;

the STEP information science and technology capability evaluation module is used for receiving user demand information, evaluating the information science and technology capability of a user, receiving IPS data which is transmitted by the intelligent science and technology prediction module of the STEP big data and has high matching degree with the user, and generating a design basis aiming at science and technology of the user; IPS is a science popularization science and education mode and scheme;

the intelligent science popularization science and education prediction module for the STEP big data is used for matching an S model, a T model, an E model and a P model with user requirements, obtaining IPS data with high matching degree with a user through PCD-Q information and generating a STEP science and technology innovation capability evaluation report; IPS data is transmitted to the STEP information science and technology capability evaluation module, and meanwhile, an evaluation report is transmitted to the STEP cloud intelligence building module and the STEP-based science and technology innovation capability evaluation module; PCD-Q is STEP information technology capability data;

the STEP cloud intelligence building module performs information interaction with each STEP-based science education intelligence building module through a cloud mode to complete different mode settings of different science education objects; the setting progress and the setting data of the STEP cloud intelligence building module are synchronized to a STEP equipment cloud, a STEP-FLOG file based on a STEP standard protocol is generated at the same time, and finally, the STEP-FLOG file is uniformly packed and respectively sent to each STEP-based science and education intelligence building module to finish the production of science and education products;

the science popularization science and education intelligence building module based on the STEP is arranged in a plurality of modules, and each science popularization science and education intelligence building module based on the STEP is produced according to a STEP-FLOG file provided by the STEP cloud intelligence building module;

the STEP-based scientific and technological innovation ability evaluation module evaluates scientific and technological innovation ability of the science and education products completed by the STEP cloud intelligence building module according to an evaluation report transmitted by the intelligent science and education prediction module of the STEP big data;

the STEP information science and technology capability evaluation module is internally provided with a topic model, science and technology capability basic proficiency and high-grade evaluation, innovation point, extension point, interest point and practice point evaluation, scientific quality, technical quality and engineering quality evaluation, and scientific line, technical line and engineering line evaluation; the STEP information technology ability assessment module carries out comprehensive assessment on scientific quality, technical quality and engineering quality according to the topic model, and mainly assesses whether to understand the nature by applying scientific knowledge course engineering, understand the development process of the technology, analyze how to influence the ability of the user and reasonably stimulate the practical result of the interest system for solving the problem.

2. The STEP-based science education intelligence system of claim 1, wherein: the STEP information science and technology capability evaluation module adopts a STEP standard protocol and transmits corresponding design data to the STEP equipment cloud.

3. The STEP-based science education intelligence system of claim 1, wherein: the STEP cloud intelligence building module adopts a STEP standard protocol, an interface adopts a network communication protocol, and information interaction is carried out with each STEP-based science and education intelligence building module through a cloud mode.

4. The STEP-based science education intelligence system of claim 1, wherein: the STEP cloud intelligence building module comprises a digital cooperation system, a control system, STP Internet of things service and science popularization science and education big data middleware; the digital collaboration is used for model searching and model setting; the control system is used for modeling, semantization and tasking; the STP Internet of things service is used for displaying various information of products designed by a current user to the user so that the user can monitor the information of popular science and education products in real time at the terminal; the science popularization science and education big data middleware is used for controlling the STEP science and education intelligence building.

5. The STEP-based science education intelligence system of claim 4, wherein: the STP internet of things service also provides an optimized interface of product design for users.

6. A STEP-based science education realization method based on the system of claim 1, characterized in that: the implementation method comprises a STEP cloud intelligence creation process and a STEP-based science education intelligence creation process:

the STEP cloud intelligence process is as follows:

1) a user logs in a STEP user requirement design interface, clicks registration or login, submits design requirements according to a STEP requirement design model, and submits and browses design requirements which can be viewed graphically and are based on a STEP protocol;

2) clicking a project design to complete a project design document based on the STEP protocol;

3) the design requirements are submitted to a STEP information science and technology capability evaluation module by clicking, and the STEP information science and technology capability evaluation module generates a STEP information science and technology capability evaluation module report and a project design file according to the design requirements;

4) searching popular science and education cases and models which meet the design requirements of the intelligent science and education system or meet the requirements of the intelligent science and education system through condition query by using an SETP big data intelligent science and education prediction module;

5) an intelligent science popularization and science education prediction module of SETP big data retrieves a STEP information science and technology capability evaluation module report and a subject design file, predicts the rationality and the performability of the subject and generates a STEP science and technology innovation capability evaluation standard;

6) after retrieving the STEP information science and technology ability evaluation module report and a topic design file, the STEP cloud intelligence manufacturing design module carries out digital design according to a STEP protocol, a STEP customization control system carries out semantic analysis, a program module and task control, and the STEP science and technology education software controls the STEP science and technology education through STEP science and technology education big data middleware;

7) checking information of the design of popular science and education products in real time through the STEP equipment cloud;

8) performing actual evaluation and practical evaluation according to the STEP scientific and technological innovation capability evaluation standard;

the technological popularization science and education intelligent creation module process of STEP is as follows: and distributing and executing corresponding product design according to the STEP protocol through the analyzed data and instructions of the STEP science and general education big data middleware software.

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