CN115438514B - Reconfigurable experiment system based on cloud server - Google Patents

Abstract

The invention provides a reconfigurable experiment system based on a cloud server, which comprises a basic experiment module, an extended experiment module, an experiment construction module, an experiment operation module and an operation module, wherein the basic experiment module is used for storing basic experiment case data, the extended experiment module is used for storing experiment part data, the experiment construction module is used for reconstructing the experiment case data and the experiment part data, the experiment operation module is used for executing a reconstructed experiment model, and the operation module is used for inputting operation data and displaying an experiment result; the system can freely construct a new experiment model capable of running based on data in the cloud server, and exploration of the experiment is improved.

Description

Reconfigurable experimental system based on cloud server

Technical Field

The invention relates to the field of simulation teaching systems, in particular to a reconfigurable experiment system based on a cloud server.

Background

Can promote the learning effect through the experiment teaching in higher education system, nevertheless in current experiment teaching system, often can only carry out current experiment teaching, if want to change experiment content, can only carry out the entity operation under online, but limited experiment place can not satisfy a large amount of experiment demands, so need a system that can carry out the experiment reconstruction online to satisfy a large amount of exploration demands.

The foregoing discussion of the background art is intended only to facilitate an understanding of the present invention. This discussion is not an acknowledgement or admission as to part of the common general knowledge of any of the materials referred to.

Many experimental systems have been developed, and through a lot of search and reference, it is found that the existing experimental system is disclosed as CN107067907B, and these systems generally include a network service terminal, a networking experimental instrument module and an experimental box module; the network service terminal is used for controlling the experiment box module, and simultaneously realizing information interaction with the instrument measurement module and submitting and storing experiment data; the networked experimental instrument module carries out input data adjustment according to a control command of the network service terminal, adjusts the oscilloscope to the optimal observation state, and carries out measurement and feedback of data and waveforms on the observation point; the experiment box module is used for receiving and processing the internet access communication data, performing experiment content selection and experiment circuit composition in an IIC bus mode, and sending feedback information back to the network service terminal. But the reconstruction stated by the system is only the adjustment of experimental parameters, and the substantive content of the experiment can not be freely changed to meet the requirement of innovative experiment.

Disclosure of Invention

The invention aims to provide a reconfigurable experimental system based on a cloud server aiming at the defects.

The invention adopts the following technical scheme:

a reconfigurable experiment system based on a cloud server comprises a basic experiment module, an extended experiment module, an experiment construction module, an experiment operation module and an operation module, wherein the basic experiment module is used for storing basic experiment case data, the extended experiment module is used for storing experiment part data, the experiment construction module is used for reconstructing the experiment case data and the experiment part data, the experiment operation module is used for executing a reconstructed experiment model, and the operation module is used for inputting operation data and displaying experiment results;

the basic experiment module and the expansion experiment module are arranged in a cloud server, and the experiment construction module, the experiment operation module and the operation module are arranged in terminal equipment;

the basic experiment module comprises a first register, the expansion experiment module comprises a second register, the experiment case data stored in the first register comprises common data and an expansion data packet, the experiment component data stored in the second register comprises common data and a type code, and the common data in the experiment component data can be stored into the corresponding expansion data packet according to the type code;

the experiment construction module comprises an original register, a construction register and a calculation processor, wherein the original register is used for storing experiment case data and experiment part data acquired from the basic experiment module and the extended experiment module, the construction register is used for storing experiment model data reconstructed by the experiment case data and the experiment part data, and the calculation processor is used for judging whether the experiment part data can be stored in an extended data packet or not;

the type code recorded in the extended data packet is recorded as A, the type code in the experimental component data is recorded as B, and the calculation processor calculates a matching code C according to the following formula:

；

wherein the content of the first and second substances,

indicates the value corresponding to the k-th bit character in the type code a,

represents the value corresponding to the kth bit character in the type code B, C is a matching code,

representing the value corresponding to the k bit character in the matching code C;

when the value corresponding to the matching code C is 0, the type code A is matched with the type code B, and the construction register can store the experimental part data containing the type code B into an extended data packet containing the type code A;

furthermore, the expansion data packet includes a flag area, a state area, a check area, an execution area and an end area, where the flag area and the end area respectively store a flag symbol and an end symbol for identifying the expansion data packet, the check area is used for storing a type code, the execution area is used for storing common data in the experimental component data, the state area is used for storing a state code, and the state code is used for indicating whether the experimental component data exists in the execution area;

furthermore, the experiment operation module comprises a reading unit, an execution unit and a result output unit, wherein the reading unit is used for reading experiment model data and sending the experiment model data to the execution unit, the execution unit is used for executing the experiment model data and obtaining an execution result, and the result output unit is used for sending the execution result to the operation module for displaying;

further, the operation module comprises a login unit and an interaction unit, the login unit is used for connecting the terminal device with the cloud server, the interaction unit comprises a content display area, a reconstruction display area and an execution display area, and interaction operation can be performed in the content display area, the reconstruction display area and the execution display area;

further, a filling area is arranged in the common data in the experimental part data, and the filling area is used for inputting specific values of the parameters.

The beneficial effects obtained by the invention are as follows:

the system stores massive experimental case data and experimental part data through the cloud server, the breadth of exploratory experiments is greatly improved, the system reconstructs a new experimental model by inserting the experimental part data into the experimental case data, meanwhile, the experimental part data can be correctly inserted into the proper position of the experimental case data through the matching of the type codes, the matching of the type codes is not one-to-one matching but many-to-many matching, and the breadth of the reconstruction experiments is further improved.

For a better understanding of the features and technical content of the present invention, reference should be made to the following detailed description of the invention and accompanying drawings, which are provided for purposes of illustration and description only and are not intended to limit the invention.

Drawings

FIG. 1 is a schematic view of the overall structural framework of the present invention;

FIG. 2 is a schematic diagram of an extended packet configuration according to the present invention;

FIG. 3 is a schematic diagram of the construction of an experimental construction module according to the present invention;

FIG. 4 is a schematic diagram of an experimental operating module of the present invention;

fig. 5 is a schematic diagram of reading and transmitting an extended packet according to the present invention.

Detailed Description

The following is a description of embodiments of the present invention with reference to specific embodiments, and those skilled in the art will understand the advantages and effects of the present invention from the disclosure of the present specification. The invention is capable of other and different embodiments and its several details are capable of modification in various other respects, all without departing from the spirit and scope of the present invention. The drawings of the present invention are for illustrative purposes only and are not drawn to scale. The following embodiments will further explain the related art of the present invention in detail, but the disclosure is not intended to limit the scope of the present invention.

The first embodiment.

The embodiment provides a reconfigurable experiment system based on a cloud server, which is combined with fig. 1 and comprises a basic experiment module, an extended experiment module, an experiment construction module, an experiment operation module and an operation module, wherein the basic experiment module is used for storing basic experiment case data, the extended experiment module is used for storing experiment part data, the experiment construction module is used for reconstructing the experiment case data and the experiment part data, the experiment operation module is used for executing a reconstructed experiment model, and the operation module is used for inputting operation data and displaying an experiment result;

the basic experiment module and the extended experiment module are arranged in a cloud server, and the experiment construction module, the experiment operation module and the operation module are arranged in terminal equipment;

the basic experiment module comprises a first register, the expansion experiment module comprises a second register, the experiment case data stored in the first register comprises common data and an expansion data packet, the experiment part data stored in the second register comprises common data and type codes, and the common data in the experiment part data can be stored into the corresponding expansion data packet according to the type codes;

the experiment construction module comprises an original register, a construction register and a calculation processor, wherein the original register is used for storing experiment case data and experiment part data acquired from the basic experiment module and the extended experiment module, the construction register is used for storing experiment model data reconstructed by the experiment case data and the experiment part data, and the calculation processor is used for judging whether the experiment part data can be stored in an extended data packet or not;

the type code recorded in the extended data packet is recorded as A, the type code in the experimental component data is recorded as B, and the calculation processor calculates a matching code C according to the following formula:

；

wherein the content of the first and second substances,

indicating the value corresponding to the k-th bit character in the type code a,

indicating the value corresponding to the kth character in the type code B, C being the matching code,

representing the value corresponding to the k-th bit character in the matching code C;

when the value corresponding to the matching code C is 0, the matching between the type code A and the type code B is represented, and the construction register can store the experimental part data containing the type code B into an expansion data packet containing the type code A;

the expansion data packet comprises a mark area, a state area, a check area, an execution area and an end area, wherein the mark area and the end area respectively store a mark symbol and an end symbol and are used for identifying the expansion data packet, the check area is used for storing type codes, the execution area is used for storing common data in experimental part data, the state area is used for storing state codes, and the state codes are used for indicating whether the experimental part data exist in the execution area or not;

the experiment operation module comprises a reading unit, an execution unit and a result output unit, wherein the reading unit is used for reading experiment model data and sending the experiment model data to the execution unit, the execution unit is used for executing the experiment model data and obtaining an execution result, and the result output unit is used for sending the execution result to the operation module for displaying;

the operation module comprises a login unit and an interaction unit, the login unit is used for connecting the terminal equipment with the cloud server, the interaction unit comprises a content display area, a reconstruction display area and an execution display area, and interaction operation can be performed in the content display area, the reconstruction display area and the execution display area;

and a filling area is arranged in the common data in the experimental part data, and is used for inputting specific values of the parameters.

Example two.

The embodiment includes all contents in the first embodiment, and provides a reconfigurable experiment system based on a cloud server, which comprises a basic experiment module, an extended experiment module, an experiment construction module, an experiment operation module and an operation module, wherein the basic experiment module is used for storing basic experiment case data, the extended experiment module is used for storing experiment part data, the experiment construction module is used for reconstructing the experiment case data and the experiment part data, the experiment operation module is used for executing a reconstructed experiment model, and the operation module is used for inputting operation data and displaying an experiment result;

the basic experiment module and the extended experiment module are arranged in a cloud server, the basic experiment module comprises a first register, at least one experiment case data is stored in the first register, the basic experiment module further comprises a first calling register, the number of each experiment case data and the storage address of the corresponding experiment case data are stored in the first calling register, the basic experiment module further comprises a first input and output assembly, and the first input and output assembly is used for receiving the number of the experiment case data and outputting the corresponding experiment case data;

the process of acquiring the experimental case data in the basic experimental module comprises the following steps:

s1, the first input and output assembly receives number information;

s2, the first input and output component sends the number information to the first calling register;

s3, the first calling register retrieves the corresponding storage address according to the number;

s4, the first calling register sends a storage address to the first input and output assembly;

s5, the first input and output component acquires corresponding experimental case data in the first register according to a storage address;

s6, the first input and output component outputs the acquired experimental case data;

the experiment expansion module comprises a second register, at least one experiment component data is stored in the second register, a second calling register is further included, the number of each experiment component data and the storage address of the corresponding experiment component data are stored in the second calling register, the experiment expansion module further comprises a second input and output assembly, and the second input and output assembly is used for receiving the number of the experiment component data and outputting the corresponding experiment component data;

the process of acquiring the experimental component data in the extended experimental module comprises the following steps:

s21, the second input and output assembly receives number information;

s22, the second input and output component sends the number information to the second calling register;

s23, the second calling register retrieves the corresponding storage address according to the number;

s24, the second calling register sends a storage address to the second input and output component;

s25, the second input/output component acquires corresponding experimental part data in the second register according to a storage address;

s26, the second input and output assembly outputs the acquired experimental part data;

the experimental case data comprises at least one insertable point, the insertable point is represented by an expanded data packet, and with reference to fig. 2, the expanded data packet comprises a flag area, a state area, a verification area, an execution area and an end area, data in the flag area is a flag, the flag is used for identifying the expanded data packet, data in the state area is a state, the state is used for representing whether the expanded data packet has inserted experimental component data, the verification area is used for storing a type code of the experimental component data and verifying a type of the inserted experimental component data, the execution area is used for storing the inserted experimental component data, data in the end area is an end, and the end is used for identifying the expanded data packet;

the experimental part data comprises a type code and a filling area, wherein the type code is used for representing the type of the experimental part data, and the filling area is used for inputting the specific numerical value of the parameter;

the experiment construction module, the experiment operation module and the operation module are arranged in terminal equipment, and in combination with fig. 3, the experiment construction module comprises an original register, a construction register, a copying component and a model output component, wherein the original register is used for storing experiment case data acquired from the basic experiment module and experiment part data acquired from the extended experiment module, the construction register is used for storing new experiment model data formed by the experiment case data and the experiment part data, the copying component is used for copying the data in the original register, and the model output component is used for sending the completed experiment model data to the experiment operation module;

with reference to fig. 4, the experiment operation module includes a reading unit, an execution unit, and a result output unit, where the reading unit is configured to read experiment model data and send the experiment model data to the execution unit, the execution unit is configured to execute the experiment model data and obtain an execution result, and the result output unit is configured to send the execution result to the operation module for display;

the operation module comprises a login unit and an interaction unit, the login unit can connect the terminal equipment with the cloud server, the interaction unit is used for performing interaction operation, and the interaction operation comprises: downloading data, reconstructing experiments and executing the experiments;

data downloading: selecting an icon corresponding to experimental case data or experimental part data in an interaction unit, wherein the interaction unit sends a corresponding number to the basic experiment module or the extended experiment module, and the basic experiment module or the extended experiment module sends the corresponding experimental case data or the corresponding experimental part data to an element register in the experiment construction module;

and (3) reconstruction experiment: the interactive unit is provided with a construction area for displaying all experimental case data and experimental part data in an original register, the construction area can display a strip-shaped graph after the icon of the experimental case data is dragged into the construction area, at least one notch is arranged on the strip-shaped graph, each notch corresponds to an insertable point in the experimental case data, the construction area can display a block-shaped graph after the icon of the experimental part data is dragged into the construction area, a bulge is arranged on the block-shaped graph, the notch on the strip-shaped graph and the bulge on the block-shaped graph both correspond to the type of the experimental part data, when the notch and the bulge are matched, the block-shaped graph can be connected to the corresponding notch, when a block-shaped graph is connected to a gap which is not matched, the information of 'connection failure and type non-conformity' can be prompted, after the block-shaped graph is double-clicked, a parameter table can be popped up in the parameter table, a completion button is arranged in the construction area, when all parameters on the strip-shaped graph are filled, the information of connection failure and the block-shaped graph can be displayed as a gray parameter display state corresponding to the block-clicked image, and when the parameter value of the block-shaped graph is displayed, the parameter value is not normally clicked, the parameter display state of the click is completed;

the experiments were performed: an execution area and a result display area are arranged in the interaction unit, and after model icons corresponding to experimental model data are dragged into the execution area, the result display area can continuously display the result of experimental operation;

when an icon of experimental case data or experimental part data is dragged into the construction area in the experimental reconstruction process, the copying assembly can copy the corresponding experimental case data or experimental part data in the original register and then store the copied data in the construction register;

when a block-shaped graph is connected to a gap, the experiment construction module compares the type code of the checking area in the corresponding expansion data packet with the type code in the experiment component data, when the type codes are matched, the experiment component data is stored in the execution area in the expansion data packet, and the state symbol in the state area in the expansion data packet is changed from 0 to 1, wherein 0 represents no experiment component data, and 1 represents the experiment component data;

with reference to fig. 5, when the reading unit of the experiment running module reads the identifier, it will suspend sending the read data to the execution unit, when the status symbol is read to 1, it will directly read the data in the execution area and send it to the execution unit, when the end symbol is read, it will resume normal reading and sending steps, when the status symbol is read to 0, it will wait for reading the end symbol and then resume normal reading and sending steps;

the type code in the verification area is represented by A, the type code in the experimental component data is represented by B, the type code A can be matched with a plurality of type codes B, the type code B can also be matched with a plurality of type codes A, the experiment construction module further comprises a calculation processor, the calculation processor is used for judging whether the type code A is matched with the type code B, and the judgment formula is as follows:

；

wherein, the first and the second end of the pipe are connected with each other,

indicates the value corresponding to the k-th bit character in the type code a,

represents the value corresponding to the kth bit character in the type code B, C is a matching code,

representing the value corresponding to the k-th bit character in the matching code C;

when the value corresponding to the matching code C is 0, the matching code A is matched with the type code B;

the type code A, the type code B and the matching code C have the same length and are even numbers;

the following illustrates the matching of type codes:

type code a is 1224 and type code B is 1826, the two type codes match;

type code A is 1224, type code B is 1820, then the two type codes match;

type code a is 1220 and type code B is 1826, the two type codes do not match.

The above disclosure is only a preferred embodiment of the present invention, and is not intended to limit the scope of the present invention, so that all the modifications and equivalents of the technical changes and equivalents made by the disclosure and drawings are included in the scope of the present invention, and the elements thereof may be updated as the technology develops.

Claims (5)

1. A reconfigurable experiment system based on a cloud server is characterized by comprising a basic experiment module, an extended experiment module, an experiment construction module, an experiment operation module and an operation module, wherein the basic experiment module is used for storing basic experiment case data, the extended experiment module is used for storing experiment part data, the experiment construction module is used for reconstructing the experiment case data and the experiment part data, the experiment operation module is used for executing a reconstructed experiment model, and the operation module is used for inputting operation data and displaying an experiment result;

the basic experiment module and the extended experiment module are arranged in a cloud server, and the experiment construction module, the experiment operation module and the operation module are arranged in terminal equipment;

the basic experiment module comprises a first register, the expansion experiment module comprises a second register, the experiment case data stored in the first register comprises common data and an expansion data packet, the experiment component data stored in the second register comprises common data and a type code, and the common data in the experiment component data can be stored into the corresponding expansion data packet according to the type code;

the experiment construction module comprises an original register, a construction register and a calculation processor, wherein the original register is used for storing experiment case data and experiment part data acquired from the basic experiment module and the extended experiment module, the construction register is used for storing experiment model data reconstructed by the experiment case data and the experiment part data, and the calculation processor is used for judging whether the experiment part data can be stored in an extended data packet or not;

the type code recorded in the extended data packet is recorded as A, the type code in the experimental component data is recorded as B, and the calculation processor calculates a matching code C according to the following formula:

；

wherein the content of the first and second substances,

indicating the value corresponding to the k-th bit character in the type code a,

representing type codeB, the value corresponding to the k-th bit character, C is the matching code,

representing the value corresponding to the k bit character in the matching code C;

when the value corresponding to the matching code C is 0, the type code A is matched with the type code B, and the construction register can store the experimental part data containing the type code B into an extended data packet containing the type code A;

the basic experiment module also comprises a first calling register, wherein the number of each experiment case data and the storage address of the corresponding experiment case data are stored in the first calling register, and the basic experiment module also comprises a first input and output assembly, and the first input and output assembly is used for receiving the number of the experiment case data and outputting the corresponding experiment case data;

the process of acquiring the experimental case data in the basic experimental module comprises the following steps:

s1, the first input and output assembly receives number information;

s2, the first input and output component sends the number information to the first calling register;

s3, the first calling register retrieves a corresponding storage address according to the number;

s4, the first calling register sends a storage address to the first input and output assembly;

s5, the first input and output component acquires corresponding experimental case data in the first register according to a storage address;

s6, the first input and output component outputs the acquired experimental case data;

the experiment expansion module further comprises a second calling register, wherein the number of each experiment component data and the storage address of the corresponding experiment component data are stored in the second calling register, and the experiment expansion module further comprises a second input and output assembly which is used for receiving the number of the experiment component data and outputting the corresponding experiment component data.

2. The cloud server-based reconfigurable experimental system of claim 1, wherein the expansion data packet includes a flag area, a status area, a check area, an execution area and an end area, the flag area and the end area respectively store a flag symbol and an end symbol for identifying the expansion data packet, the check area is used for storing a type code, the execution area is used for storing common data in the experimental component data, the status area is used for storing a status code, and the status code is used for indicating whether the experimental component data exists in the execution area.

3. The reconfigurable experiment system based on the cloud server as claimed in claim 2, wherein the experiment running module comprises a reading unit, an execution unit and a result output unit, the reading unit is used for reading experiment model data and sending the experiment model data to the execution unit, the execution unit is used for executing the experiment model data and obtaining an execution result, and the result output unit is used for sending the execution result to the operation module for displaying.

4. The cloud server-based reconfigurable experimental system of claim 3, wherein the operation module comprises a login unit and an interaction unit, the login unit is used for connecting the terminal device with the cloud server, the interaction unit comprises a content display area, a reconfiguration display area and an execution display area, and interactive operation can be performed in the content display area, the reconfiguration display area and the execution display area.

5. The cloud server-based reconfigurable experimental system according to claim 4, wherein a filling area is provided in common data in the experimental component data, and the filling area is used for inputting specific numerical values of the parameters.

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