CN110189583B

CN110189583B - Microcomputer control experiment teaching system based on VR singlechip

Info

Publication number: CN110189583B
Application number: CN201910477449.XA
Authority: CN
Inventors: 邓鹏�
Original assignee: Jingchu University of Technology
Current assignee: Jingmen City Dream Exploring Technology Co ltd
Priority date: 2019-06-03
Filing date: 2019-06-03
Publication date: 2021-03-09
Anticipated expiration: 2039-06-03
Also published as: CN110189583A

Abstract

The invention belongs to the field of medical teaching systems, in particular to a microcomputer control experiment teaching system based on a VR (virtual reality) single chip microcomputer, which comprises an accurate simulation module, an intelligent control module, a target optimization module, a self-lifting module, a system lifting module and an automatic generation module; the accurate simulation module comprises an information input unit, a requirement issuing unit, a bleeding point matching unit and a bleeding amount simulation unit; the animal information input assembly is used for storing different animal information; the requirement issuing unit is used for randomly requiring and issuing experimenters and sending experimental requirement data to the bleeding point matching unit; the bleeding point matching unit is used for automatically matching corresponding information in the database according to the experiment requirement data sent by the requirement issuing unit and sending the information data to the blood volume simulation unit; the invention is mainly used for solving the problems that the prior experiment teaching system has more technical defects and the self-growth of the experiment system can not be realized when the experiment system is in a closed state.

Description

Microcomputer control experiment teaching system based on VR singlechip

Technical Field

The invention belongs to the field of medical teaching systems, and particularly relates to a microcomputer control experiment teaching system based on a VR single chip microcomputer.

Background

A computer constituted by a microprocessor is called a microcomputer. Microprocessors perform various calculations and have various control functions, which perform an operation through the execution of a series of instructions (called a software program). These instructions are stored in a memory coupled to the microprocessor. An Arithmetic Logic Unit (ALU) is a processing unit that performs all arithmetic and logical operations such as addition, subtraction, and bit manipulation.

With the rapid development of economy in China, the network technology is a major repair course of a plurality of related professions such as computer science, propaganda science, information technology, education technology and the like, has the characteristics of wide application range and large demand, is a normally-open course of schools and training institutions, and at present, related subjects of all colleges are relatively weak in a network technology practice teaching link, and particularly in the aspect of experimental environment, a unified standard of system and standard does not exist.

Disclosure of Invention

In order to make up for the defects of the prior art, the invention provides a microcomputer control experiment teaching system based on a VR single chip microcomputer. The invention is mainly used for solving the problems that the prior experiment teaching system has more technical defects and the self-growth of the experiment system can not be realized when the experiment system is in a closed state.

The technical scheme adopted by the invention for solving the technical problems is as follows: the invention relates to a microcomputer control experiment teaching system based on a VR (virtual reality) single chip microcomputer, which comprises a precise simulation module, an intelligent control module, a target optimization module, a self-lifting module, a system lifting module and an automatic generation module; the accurate simulation module is used for automatically simulating the state of a bleeding point according to teaching requirements; the intelligent control module is used for automatically switching the difficulty level according to the treatment level of an experimenter; the aiming optimization module is used for comparing the treatment method of the experimenter with the professional method to check the defects and adjusting the defects in a targeted manner; the self-lifting module is used for enabling the experimenters to learn each other and promoting mutual improvement; the system lifting module is used for comparing the processing method of the experimenter with the system processing method, learning excellent operation and updating in real time; the automatic generation module is used for automatically matching a processing method according to the idea of an experimenter; the accurate simulation module comprises an information input unit, a requirement issuing unit, a bleeding point matching unit and a bleeding amount simulation unit; the information input unit stores the simulation data, and comprises a human body information input component and an animal information input component; the human body information input assembly is used for storing different human body information; the animal information input assembly is used for storing different animal information; the requirement issuing unit is used for randomly requiring and issuing experimenters and sending experimental requirement data to the bleeding point matching unit; the bleeding point matching unit is used for automatically matching corresponding information in the database according to the experiment requirement data sent by the requirement issuing unit and sending the information data to the blood volume simulation unit; the bleeding amount simulation unit is used for automatically simulating a bleeding point and a bleeding amount according to the information data sent by the bleeding point matching unit so as to enable an experimenter to carry out an experiment; when the device works, the information input unit can store simulation data, the human body information input component in the information input unit can store different human body information, the animal information input component can store different animal information, when people need to perform a simulation experiment, the requirement issuing unit can randomly issue the experimenter and send experiment requirement data to the bleeding point matching unit, the bleeding point matching unit automatically matches corresponding information in the database according to the experiment requirement data sent by the requirement issuing unit and sends the information data to the blood volume simulating unit, the blood volume simulating unit automatically simulates a bleeding point and a blood volume according to the information data sent by the blood volume matching unit to enable the experimenter to perform the experiment, and all experiment data can be pre-stored by arranging the accurate simulating module, the experimental subjects are randomly assigned by an experimenter before the experiment, the condition and the bleeding amount of a bleeding point are intelligently simulated according to the assigned subjects, the experimenter carries out comprehensive consideration, the processing method is convenient to monitor in real time and is compared with the processing method specified by the system, and the better teaching purpose is achieved.

Preferably, the intelligent control module comprises a real-time recording unit, an analysis unit and an intelligent adjustment unit; the real-time recording unit is used for recording the experiment process of an experimenter in real time and comprises a processing recording component, a score recording component and a progress recording component; the processing recording assembly is used for recording the processing method of the experimenter and comprises a step recording element and a method recording element; the step recording element is used for recording the processing steps of the experimenter and sending the recorded data to the analysis unit; the method recording element is used for recording the processing method of the experimenter and sending the recorded data to the analysis unit; the score recording component is used for recording the operation scores of the experimenters and sending the recorded data to the analysis unit; the progress recording component is used for recording the processing progress of the experimenter and sending the recorded data to the analysis unit; the analysis unit is used for analyzing the recorded data sent by the real-time recording unit, comprehensively checking the processing condition of an experimenter and sending the analyzed data to the intelligent adjustment unit; the intelligent adjusting unit is used for adjusting the experiment difficulty of an experimenter in real time according to the analysis data sent by the analysis unit so as to achieve a better experiment effect; when the system works, the real-time recording unit can record the experimental process of an experimenter in real time, the processing recording component in the real-time recording unit can record the processing method of the experimenter, the step recording component in the processing recording component is used for recording the processing steps of the experimenter and sending the recorded data to the analysis unit, the method recording component can record the processing method of the experimenter and send the recorded data to the analysis unit, the score recording component can record the operation scores of the experimenter and send the recorded data to the analysis unit, the progress recording component can record the processing progress of the experimenter and send the recorded data to the analysis unit, the analysis unit analyzes the recorded data sent by the real-time recording unit, comprehensively checks the processing condition of the experimenter and sends the analyzed data to the intelligent adjustment unit, the experiment degree of difficulty of the real-time adjustment experimenter of analysis data through sending according to the analysis unit of intelligent adjustment unit to reach better experimental effect, can realize carrying out real time monitoring to experimenter's processing method through setting up intelligent control module, and contrast with the system, look over its experiment progress, thereby reach and switch over the experiment degree of difficulty according to experimenter's performance level intelligence, produce progressive effect, help the various circumstances of better processing of experimenter, synthesize and temper the experimenter, reach better teaching effect with this.

Preferably, the aiming optimization module comprises a medical treatment unit, a comparison unit, a problem induction unit and a prompt adjustment unit; the medical treatment unit is used for integrating the processing data sent by the real-time recording unit with the medical treatment specified processing data in the hospital and sending the processing data to the comparison unit; the comparison unit is used for comparing the integrated data sent by the medical unit, checking the difference between the processing data of the experimenter and the specified data, and sending the difference data to the problem induction unit; the problem induction unit is used for summarizing the problems existing in the processing process of the experimenter according to the difference data sent by the comparison unit and sending the problem data to the prompt adjustment unit; the prompt adjusting unit is used for automatically arranging a lifting scheme according to the problem data sent by the problem summarizing unit, prompting an experimenter and helping to improve; during operation, the real-time recording unit in the intelligent control module can send real-time processing data of an experimenter to the medical unit, the medical unit integrates the processing data sent by the real-time recording unit with the medical treatment specified processing data in a hospital and sends the integrated data to the comparison unit, the comparison unit compares the processing data sent by the medical unit with the specified data, the difference between the processing data of the experimenter and the specified data is checked, the difference data is sent to the problem summarizing unit, the problem summarizing unit summarizes the problems existing in the processing process of the experimenter according to the difference data sent by the comparison unit and sends the problem data to the prompt adjusting unit, the prompt adjusting unit automatically compiles a lifting scheme according to the problem data sent by the problem summarizing unit and prompts the experimenter, the improvement is facilitated, and the processing method of the experimenter and the regular processing method of the hospital can be realized by setting the optimization module The contrast is carried out, which deficiencies still exist in the process of processing by the experimenter are checked, so that the experimenter is prompted according to the deficiency points, the processing method for helping the experimenter infinitely tends to be more professional, the experimenter can be helped to adjust the processing method in real time, the teaching effect is further improved, and the experimenter is helped to adjust in real time.

Preferably, the self-promoting module comprises a mobile phone communication unit, an operation summary unit, a summary unit and a suggestion unit; the mobile phone communication unit is used for connecting the processing data of the experimenter with the mobile phone of the experimenter and sending a connection completion signal to the operation summarizing unit; the operation summarizing unit is used for summarizing the operation data of the experimenter according to the connection completion signal sent by the mobile phone communication unit and sending the summarized data to the comparison unit in the optimization module; the comparison unit is used for comparing the summarized data sent by the operation summarizing unit with other experimenters and sending the compared data to the summarizing unit; the summarizing unit is used for summarizing the comparison data sent by the comparison unit and sending the summarized data to the suggestion unit; the suggestion unit is used for giving reasonable suggestions to experimenters according to the summary data sent by the summary unit and helping to improve; when the mobile phone communication unit works, the mobile phone communication unit can connect the processing data of an experimenter with a mobile phone thereof and send a connection completion signal to the operation summarizing unit, the operation summarizing unit summarizes the operation data of the experimenter according to the connection completion signal sent by the mobile phone communication unit and sends the summarized data to the comparison unit in the optimization module, the comparison unit can compare the summarized data sent by the operation summarizing unit with other experimenters and send the compared data to the summarizing unit, the summarizing unit summarizes the compared data sent by the comparison unit and sends the summarized data to the suggestion unit, the suggestion unit gives reasonable suggestions to the experimenter according to the summarized data sent by the summarizing unit to help improve, the processing method of the experimenters can be recorded and sent to the mobile phone terminal of the experimenters by arranging the self-improving module, therefore, the experimenter can check the own processing method in real time after the processing is finished, the experimenter can better summarize the defects in the own processing process, and meanwhile, the experimenter can compare the own processing method with the processing methods of other experimenters, so that the purpose of mutual learning is achieved, and the advantages are made up.

Preferably, the system lifting module comprises a marking unit, a replacing unit, an auditing unit and a changing unit; the marking unit is used for marking the system processing data and sending a marking signal to the replacing unit; the replacing unit is used for replacing the system processing data according to the marking signal sent by the marking unit and sending a replacing completion signal to the auditing unit; the auditing unit is used for auditing the replacement data according to the replacement completion signal sent by the replacement unit and sending the auditing completion signal to the change unit; the change unit is used for changing the system processing data according to the auditing completion signal sent by the auditing unit; when the intelligent control system works, the real-time recording unit in the intelligent control module sends the recorded data to the comparison unit, the comparison unit compares the processed data sent by the real-time recording unit with the processed data recorded in the system, checks whether the data recorded in the system is inferior to the processed data of an experimenter, if the data is found to be inferior to the processed data of the experimenter, the comparison unit sends a signal to the marking unit, the marking unit marks the processed data of the system according to the signal sent by the comparison unit and sends the marking signal to the replacement unit, the replacement unit replaces the processed data of the system according to the marking signal sent by the marking unit and sends a replacement completion signal to the verification unit, the verification unit verifies the replaced data according to the replacement completion signal sent by the replacement unit and sends the verification completion signal to the change unit, the change unit changes the system processing data according to the auditing completion signal sent by the auditing unit, and can compare the processing method of the experimenter with the system processing method in real time by setting the system lifting module, check the difference between the processing method of each step of the experimenter and the system method, find the advantages in the experimenter processing method and replace the points, so that the teaching system can update the processing method in real time, thereby achieving better processing effect and faster processing method.

Preferably, the automatic generation module comprises an idea input unit, a system matching unit, a judgment unit, an application unit and an automatic research and development unit; the idea recording unit is used for recording an expected processing method of an experimenter and sending a recording completion signal to the system matching unit; the system matching unit is used for matching corresponding processing data in the system according to the input completion signal sent by the idea input unit and sending the matching completion signal to the judging unit; the judging unit is used for judging the matching data sent by the system matching unit, checking whether the matched processing data conforms to the idea of an experimenter, if so, sending the signal to the application unit, and if not, sending the signal to the automatic research and development unit; the application unit is used for applying the matched processing data to the experimenter according to the signal sent by the judgment unit; the automatic research and development unit is used for independently researching and developing the idea processing data of the experimenter according to the signal sent by the judgment unit; when the system works, the idea input unit can input the expected processing method of an experimenter and sends an input completion signal to the system matching unit, the system matching unit matches corresponding processing data in the system according to the input completion signal sent by the idea input unit and sends the matching completion signal to the judging unit, the judging unit judges whether the matched processing data accords with the idea of the experimenter or not by judging the matching data sent by the system matching unit, if so, the signal is sent to the application unit, if not, the signal is sent to the automatic research and development unit, the application unit applies the matched processing data to the experimenter by the signal sent by the judging unit, the automatic research and development unit independently researches and develops the idea processing data of the experimenter by the signal sent by the judging unit, the input of the experimenter target processing idea can be realized by arranging the automatic generation module, so that a processing method similar to the experimenter ideal method is automatically matched, the capability of the experimenter is maximally displayed, and the self research and development in the system can be realized if the system does not have the processing method similar to the experimenter idea, so that the system is more perfect, and other experimenters can grow better.

The invention has the following beneficial effects:

1. according to the invention, all experimental data can be pre-stored by arranging the accurate simulation module, so that an experimenter randomly appoints experimental questions before carrying out an experiment, intelligently simulates the condition and the bleeding amount of a bleeding point according to the appointed questions, and carries out comprehensive consideration on the bleeding point, thereby facilitating real-time monitoring of a processing method of the bleeding point and comparing the bleeding point with a processing method specified by a system, and further achieving a better teaching purpose.

2. According to the invention, the processing method of the experimenter can be monitored in real time by arranging the intelligent control module, and compared with the system to check the experiment progress, so that the experiment difficulty can be intelligently switched according to the performance level of the experimenter, a progressive effect is generated, the experimenter is helped to better process various conditions, and the experimenter is comprehensively exercised, thereby achieving a better teaching effect.

3. According to the invention, the processing method of the experimenter can be compared with the regular processing method of the hospital by setting the optimization module, and the defects of the experimenter in the processing process are checked, so that the experimenter is prompted according to the defects, the processing method of the experimenter is helped to be infinitely more professional, the experimenter can be helped to adjust the processing method in real time, the teaching effect is further improved, and the experimenter is helped to adjust in real time.

Drawings

FIG. 1 is a block diagram of the overall structure of the present invention;

FIG. 2 is a block diagram of the architecture of the precision simulation module of the present invention;

FIG. 3 is a block diagram of the intelligent control module of the present invention;

Detailed Description

A microcomputer-controlled experimental teaching system based on a VR single-chip microcomputer according to an embodiment of the present invention will be described below with reference to fig. 1 to 3.

As shown in fig. 1-3, the microcomputer control experiment teaching system based on the VR single-chip microcomputer comprises an accurate simulation module, an intelligent control module, a target optimization module, a self-lifting module, a system lifting module and an automatic generation module; the accurate simulation module is used for automatically simulating the state of a bleeding point according to teaching requirements; the intelligent control module is used for automatically switching the difficulty level according to the treatment level of an experimenter; the aiming optimization module is used for comparing the treatment method of the experimenter with the professional method to check the defects and adjusting the defects in a targeted manner; the self-lifting module is used for enabling the experimenters to learn each other and promoting mutual improvement; the system lifting module is used for comparing the processing method of the experimenter with the system processing method, learning excellent operation and updating in real time; the automatic generation module is used for automatically matching a processing method according to the idea of an experimenter; the accurate simulation module comprises an information input unit, a requirement issuing unit, a bleeding point matching unit and a bleeding amount simulation unit; the information input unit stores the simulation data, and comprises a human body information input component and an animal information input component; the human body information input assembly is used for storing different human body information; the animal information input assembly is used for storing different animal information; the requirement issuing unit is used for randomly requiring and issuing experimenters and sending experimental requirement data to the bleeding point matching unit; the bleeding point matching unit is used for automatically matching corresponding information in the database according to the experiment requirement data sent by the requirement issuing unit and sending the information data to the blood volume simulation unit; the bleeding amount simulation unit is used for automatically simulating a bleeding point and a bleeding amount according to the information data sent by the bleeding point matching unit so as to enable an experimenter to carry out an experiment; when the device works, the information input unit can store simulation data, the human body information input component in the information input unit can store different human body information, the animal information input component can store different animal information, when people need to perform a simulation experiment, the requirement issuing unit can randomly issue the experimenter and send experiment requirement data to the bleeding point matching unit, the bleeding point matching unit automatically matches corresponding information in the database according to the experiment requirement data sent by the requirement issuing unit and sends the information data to the blood volume simulating unit, the blood volume simulating unit automatically simulates a bleeding point and a blood volume according to the information data sent by the blood volume matching unit to enable the experimenter to perform the experiment, and all experiment data can be pre-stored by arranging the accurate simulating module, the experimental subjects are randomly assigned by an experimenter before the experiment, the condition and the bleeding amount of a bleeding point are intelligently simulated according to the assigned subjects, the experimenter carries out comprehensive consideration, the processing method is convenient to monitor in real time and is compared with the processing method specified by the system, and the better teaching purpose is achieved.

As shown in fig. 3, the intelligent control module includes a real-time recording unit, an analyzing unit and an intelligent adjusting unit; the real-time recording unit is used for recording the experiment process of an experimenter in real time and comprises a processing recording component, a score recording component and a progress recording component; the processing recording assembly is used for recording the processing method of the experimenter and comprises a step recording element and a method recording element; the step recording element is used for recording the processing steps of the experimenter and sending the recorded data to the analysis unit; the method recording element is used for recording the processing method of the experimenter and sending the recorded data to the analysis unit; the score recording component is used for recording the operation scores of the experimenters and sending the recorded data to the analysis unit; the progress recording component is used for recording the processing progress of the experimenter and sending the recorded data to the analysis unit; the analysis unit is used for analyzing the recorded data sent by the real-time recording unit, comprehensively checking the processing condition of an experimenter and sending the analyzed data to the intelligent adjustment unit; the intelligent adjusting unit is used for adjusting the experiment difficulty of an experimenter in real time according to the analysis data sent by the analysis unit so as to achieve a better experiment effect; when the system works, the real-time recording unit can record the experimental process of an experimenter in real time, the processing recording component in the real-time recording unit can record the processing method of the experimenter, the step recording component in the processing recording component is used for recording the processing steps of the experimenter and sending the recorded data to the analysis unit, the method recording component can record the processing method of the experimenter and send the recorded data to the analysis unit, the score recording component can record the operation scores of the experimenter and send the recorded data to the analysis unit, the progress recording component can record the processing progress of the experimenter and send the recorded data to the analysis unit, the analysis unit analyzes the recorded data sent by the real-time recording unit, comprehensively checks the processing condition of the experimenter and sends the analyzed data to the intelligent adjustment unit, the experiment degree of difficulty of the real-time adjustment experimenter of analysis data through sending according to the analysis unit of intelligent adjustment unit to reach better experimental effect, can realize carrying out real time monitoring to experimenter's processing method through setting up intelligent control module, and contrast with the system, look over its experiment progress, thereby reach and switch over the experiment degree of difficulty according to experimenter's performance level intelligence, produce progressive effect, help the various circumstances of better processing of experimenter, synthesize and temper the experimenter, reach better teaching effect with this.

As shown in fig. 1, the targeting optimization module comprises a medical treatment unit, a comparison unit, a problem induction unit and a prompt adjustment unit; the medical treatment unit is used for integrating the processing data sent by the real-time recording unit with the medical treatment specified processing data in the hospital and sending the processing data to the comparison unit; the comparison unit is used for comparing the integrated data sent by the medical unit, checking the difference between the processing data of the experimenter and the specified data, and sending the difference data to the problem induction unit; the problem induction unit is used for summarizing the problems existing in the processing process of the experimenter according to the difference data sent by the comparison unit and sending the problem data to the prompt adjustment unit; the prompt adjusting unit is used for automatically arranging a lifting scheme according to the problem data sent by the problem summarizing unit, prompting an experimenter and helping to improve; during operation, the real-time recording unit in the intelligent control module can send real-time processing data of an experimenter to the medical unit, the medical unit integrates the processing data sent by the real-time recording unit with the medical treatment specified processing data in a hospital and sends the integrated data to the comparison unit, the comparison unit compares the processing data sent by the medical unit with the specified data, the difference between the processing data of the experimenter and the specified data is checked, the difference data is sent to the problem summarizing unit, the problem summarizing unit summarizes the problems existing in the processing process of the experimenter according to the difference data sent by the comparison unit and sends the problem data to the prompt adjusting unit, the prompt adjusting unit automatically compiles a lifting scheme according to the problem data sent by the problem summarizing unit and prompts the experimenter, the improvement is facilitated, and the processing method of the experimenter and the regular processing method of the hospital can be realized by setting the optimization module The contrast is carried out, which deficiencies still exist in the process of processing by the experimenter are checked, so that the experimenter is prompted according to the deficiency points, the processing method for helping the experimenter infinitely tends to be more professional, the experimenter can be helped to adjust the processing method in real time, the teaching effect is further improved, and the experimenter is helped to adjust in real time.

As shown in fig. 1, the self-promoting module includes a mobile phone communication unit, an operation summary unit, a summary unit and a suggestion unit; the mobile phone communication unit is used for connecting the processing data of the experimenter with the mobile phone of the experimenter and sending a connection completion signal to the operation summarizing unit; the operation summarizing unit is used for summarizing the operation data of the experimenter according to the connection completion signal sent by the mobile phone communication unit and sending the summarized data to the comparison unit in the optimization module; the comparison unit is used for comparing the summarized data sent by the operation summarizing unit with other experimenters and sending the compared data to the summarizing unit; the summarizing unit is used for summarizing the comparison data sent by the comparison unit and sending the summarized data to the suggestion unit; the suggestion unit is used for giving reasonable suggestions to experimenters according to the summary data sent by the summary unit and helping to improve; when the mobile phone communication unit works, the mobile phone communication unit can connect the processing data of an experimenter with a mobile phone thereof and send a connection completion signal to the operation summarizing unit, the operation summarizing unit summarizes the operation data of the experimenter according to the connection completion signal sent by the mobile phone communication unit and sends the summarized data to the comparison unit in the optimization module, the comparison unit can compare the summarized data sent by the operation summarizing unit with other experimenters and send the compared data to the summarizing unit, the summarizing unit summarizes the compared data sent by the comparison unit and sends the summarized data to the suggestion unit, the suggestion unit gives reasonable suggestions to the experimenter according to the summarized data sent by the summarizing unit to help improve, the processing method of the experimenters can be recorded and sent to the mobile phone terminal of the experimenters by arranging the self-improving module, therefore, the experimenter can check the own processing method in real time after the processing is finished, the experimenter can better summarize the defects in the own processing process, and meanwhile, the experimenter can compare the own processing method with the processing methods of other experimenters, so that the purpose of mutual learning is achieved, and the advantages are made up.

As shown in fig. 1, the system lifting module includes a marking unit, a replacing unit, an auditing unit, and a changing unit; the marking unit is used for marking the system processing data and sending a marking signal to the replacing unit; the replacing unit is used for replacing the system processing data according to the marking signal sent by the marking unit and sending a replacing completion signal to the auditing unit; the auditing unit is used for auditing the replacement data according to the replacement completion signal sent by the replacement unit and sending the auditing completion signal to the change unit; the change unit is used for changing the system processing data according to the auditing completion signal sent by the auditing unit; when the intelligent control system works, the real-time recording unit in the intelligent control module sends the recorded data to the comparison unit, the comparison unit compares the processed data sent by the real-time recording unit with the processed data recorded in the system, checks whether the data recorded in the system is inferior to the processed data of an experimenter, if the data is found to be inferior to the processed data of the experimenter, the comparison unit sends a signal to the marking unit, the marking unit marks the processed data of the system according to the signal sent by the comparison unit and sends the marking signal to the replacement unit, the replacement unit replaces the processed data of the system according to the marking signal sent by the marking unit and sends a replacement completion signal to the verification unit, the verification unit verifies the replaced data according to the replacement completion signal sent by the replacement unit and sends the verification completion signal to the change unit, the change unit changes the system processing data according to the auditing completion signal sent by the auditing unit, and can compare the processing method of the experimenter with the system processing method in real time by setting the system lifting module, check the difference between the processing method of each step of the experimenter and the system method, find the advantages in the experimenter processing method and replace the points, so that the teaching system can update the processing method in real time, thereby achieving better processing effect and faster processing method.

As shown in fig. 1, the automatic generation module includes an idea entry unit, a system matching unit, a judgment unit, an application unit, and an automatic development unit; the idea recording unit is used for recording an expected processing method of an experimenter and sending a recording completion signal to the system matching unit; the system matching unit is used for matching corresponding processing data in the system according to the input completion signal sent by the idea input unit and sending the matching completion signal to the judging unit; the judging unit is used for judging the matching data sent by the system matching unit, checking whether the matched processing data conforms to the idea of an experimenter, if so, sending the signal to the application unit, and if not, sending the signal to the automatic research and development unit; the application unit is used for applying the matched processing data to the experimenter according to the signal sent by the judgment unit; the automatic research and development unit is used for independently researching and developing the idea processing data of the experimenter according to the signal sent by the judgment unit; when the system works, the idea input unit can input the expected processing method of an experimenter and sends an input completion signal to the system matching unit, the system matching unit matches corresponding processing data in the system according to the input completion signal sent by the idea input unit and sends the matching completion signal to the judging unit, the judging unit judges whether the matched processing data accords with the idea of the experimenter or not by judging the matching data sent by the system matching unit, if so, the signal is sent to the application unit, if not, the signal is sent to the automatic research and development unit, the application unit applies the matched processing data to the experimenter by the signal sent by the judging unit, the automatic research and development unit independently researches and develops the idea processing data of the experimenter by the signal sent by the judging unit, the input of the experimenter target processing idea can be realized by arranging the automatic generation module, so that a processing method similar to the experimenter ideal method is automatically matched, the capability of the experimenter is maximally displayed, and the self research and development in the system can be realized if the system does not have the processing method similar to the experimenter idea, so that the system is more perfect, and other experimenters can grow better.

While the present invention has been described with reference to the embodiments shown in the drawings, the present invention is not limited to the embodiments, which are illustrative and not restrictive, and it will be apparent to those skilled in the art that various changes and modifications can be made therein without departing from the spirit and scope of the invention as defined in the appended claims.

Claims

1. The utility model provides a microcomputer control experiment teaching system based on VR singlechip which characterized in that: the system comprises an accurate simulation module, an intelligent control module, a target optimization module, a self-lifting module, a system lifting module and an automatic generation module; the accurate simulation module is used for automatically simulating the state of a bleeding point according to teaching requirements; the intelligent control module is used for automatically switching the difficulty level according to the treatment level of an experimenter; the aiming optimization module is used for comparing the treatment method of the experimenter with the professional method to check the defects and adjusting the defects in a targeted manner; the self-lifting module is used for enabling the experimenters to learn each other and promoting mutual improvement; the system lifting module is used for comparing the processing method of the experimenter with the system processing method, learning excellent operation and updating in real time; the automatic generation module is used for automatically matching a processing method according to the idea of an experimenter; the accurate simulation module comprises an information input unit, a requirement issuing unit, a bleeding point matching unit and a bleeding amount simulation unit; the information input unit stores the simulation data, and comprises a human body information input component and an animal information input component; the human body information input assembly is used for storing different human body information; the animal information input assembly is used for storing different animal information; the requirement issuing unit is used for randomly requiring and issuing experimenters and sending experimental requirement data to the bleeding point matching unit; the bleeding point matching unit is used for automatically matching corresponding information in the database according to the experiment requirement data sent by the requirement issuing unit and sending the information data to the blood volume simulation unit; the bleeding amount simulation unit is used for automatically simulating a bleeding point and a bleeding amount according to the information data sent by the bleeding point matching unit so as to enable an experimenter to carry out an experiment; the intelligent control module comprises a real-time recording unit, an analysis unit and an intelligent adjusting unit; the real-time recording unit is used for recording the experiment process of an experimenter in real time and comprises a processing recording component, a score recording component and a progress recording component; the processing recording assembly is used for recording the processing method of the experimenter and comprises a step recording element and a method recording element; the step recording element is used for recording the processing steps of the experimenter and sending the recorded data to the analysis unit; the method recording element is used for recording the processing method of the experimenter and sending the recorded data to the analysis unit; the score recording component is used for recording the operation scores of the experimenters and sending the recorded data to the analysis unit; the progress recording component is used for recording the processing progress of the experimenter and sending the recorded data to the analysis unit; the analysis unit is used for analyzing the recorded data sent by the real-time recording unit, comprehensively checking the processing condition of an experimenter and sending the analyzed data to the intelligent adjustment unit; the intelligent adjusting unit is used for adjusting the experiment difficulty of an experimenter in real time according to the analysis data sent by the analysis unit so as to achieve a better experiment effect; the aiming optimization module comprises a medical unit, a comparison unit, a problem induction unit and a prompt adjustment unit; the medical treatment unit is used for integrating the processing data sent by the real-time recording unit with the medical treatment specified processing data in the hospital and sending the processing data to the comparison unit; the comparison unit is used for comparing the integrated data sent by the medical unit, checking the difference between the processing data of the experimenter and the specified data, and sending the difference data to the problem induction unit; the problem induction unit is used for summarizing the problems existing in the processing process of the experimenter according to the difference data sent by the comparison unit and sending the problem data to the prompt adjustment unit; the prompt adjusting unit is used for automatically arranging a lifting scheme according to the problem data sent by the problem summarizing unit, prompting an experimenter and helping to improve; the self-lifting module comprises a mobile phone communication unit, an operation summary unit, a summary unit and a suggestion unit; the mobile phone communication unit is used for connecting the processing data of the experimenter with the mobile phone of the experimenter and sending a connection completion signal to the operation summarizing unit; the operation summarizing unit is used for summarizing the operation data of the experimenter according to the connection completion signal sent by the mobile phone communication unit and sending the summarized data to the comparison unit in the optimization module; the comparison unit is used for comparing the summarized data sent by the operation summarizing unit with other experimenters and sending the compared data to the summarizing unit; the summarizing unit is used for summarizing the comparison data sent by the comparison unit and sending the summarized data to the suggestion unit; the suggestion unit is used for giving reasonable suggestions to experimenters according to the summary data sent by the summary unit and helping to improve; the system lifting module comprises a marking unit, a replacing unit, an auditing unit and a changing unit; the marking unit is used for marking the system processing data and sending a marking signal to the replacing unit; the replacing unit is used for replacing the system processing data according to the marking signal sent by the marking unit and sending a replacing completion signal to the auditing unit; the auditing unit is used for auditing the replacement data according to the replacement completion signal sent by the replacement unit and sending the auditing completion signal to the change unit; and the change unit is used for changing the system processing data according to the auditing completion signal sent by the auditing unit.

2. The VR single-chip microcomputer-based microcomputer-controlled experimental teaching system of claim 1, wherein: the automatic generation module comprises an idea input unit, a system matching unit, a judgment unit, an application unit and an automatic research and development unit; the idea recording unit is used for recording an expected processing method of an experimenter and sending a recording completion signal to the system matching unit; the system matching unit is used for matching corresponding processing data in the system according to the input completion signal sent by the idea input unit and sending the matching completion signal to the judging unit; the judging unit is used for judging the matching data sent by the system matching unit, checking whether the matched processing data conforms to the idea of an experimenter, if so, sending the signal to the application unit, and if not, sending the signal to the automatic research and development unit; the application unit is used for applying the matched processing data to the experimenter according to the signal sent by the judgment unit; the automatic research and development unit is used for autonomously researching and developing idea processing data of an experimenter according to the signals sent by the judgment unit.