CN112419108A

CN112419108A - Internet of things experiment cloud management system

Info

Publication number: CN112419108A
Application number: CN202011208603.2A
Authority: CN
Inventors: 刘鑫; 何韦颖; 钟健; 黄贵丽; 崔月娟
Original assignee: Guangzhou Institute of Technology
Current assignee: Guangzhou Institute of Technology
Priority date: 2020-11-03
Filing date: 2020-11-03
Publication date: 2021-02-26

Abstract

The invention provides an Internet of things experiment cloud management system which comprises a submission system, an analysis system, a verification system, a transmission system, a recording system and a cloud server, wherein the submission system, the analysis system, the verification system and the transmission system are respectively connected with the cloud server, and the cloud server analyzes experiment information in the whole Internet, collects the collected information and stores the collected information in the analysis system. Through adopting analytic system to be used for carrying out actual analysis to the experimentation, it is right to guarantee analytic system the relation of connection of model is analyzed, and the process that can also experiment is analyzed, and the result of the experiment of producing reality makes things convenient for experiment operating personnel to accomplish visual, easy operation, clear wrong step constantly to promote the ability of experiment to the process of experiment.

Description

Internet of things experiment cloud management system

Technical Field

The invention relates to the technical field of experiment systems, in particular to an experiment cloud management system for the Internet of things.

Background

For example, CN201710211870.7 prior art discloses a laboratory management system, in which it is a consistent practice to manually write experimental records by research and development personnel, and most of the operation flows specified in scientific experiments and regulation environments still adopt paper records as carriers for storing scientific achievements and recording operation flows. Some experimental conditions and experimental procedures are changed during the experimental process as the research and development personnel modify the experimental scheme. Another typical prior art system is a remote hardware experiment system as disclosed in WO 2013/064656 a 1. A large amount of capital investment is needed, professional personnel are needed to debug hardware equipment and software programs on site, and particularly in experimental teaching and research and development of scientific research projects of teachers and students, the traditional experimental platform is low in efficiency and high in cost. Referring to the remote experiment systems and remote experiment methods disclosed in the prior art of EP3351940a1, the experiment environment is virtualized completely by software in a mode of "virtual operation — virtual measurement", and most of them are virtual experiment systems developed for the experiment teaching contents of subjects such as their own physics and computers; one is to adopt a mode of 'virtual instrument panel-hardware equipment entity-real experiment scene' to carry out remote control experiment. The invention aims to solve the problems of inconvenient sharing, no error operation of experimental analysis steps, low experimental efficiency, incapability of simulating an experimental process, incapability of testing a model and the like in the field.

Disclosure of Invention

The invention aims to provide an experiment cloud management system of the Internet of things, aiming at the defects of the existing experiment system of the Internet of things.

In order to overcome the defects of the prior art, the invention adopts the following technical scheme:

the utility model provides an thing networking experiment cloud management system, is including submitting system, analytic system, verification system, transmission system, recording system and cloud ware, submit the system the analytic system verify the system transmission system respectively with the cloud ware, the cloud ware is analyzed and is gathered the information of gathering and store in the analytic system to the experimental information in the whole internet.

Optionally, the analysis system includes an analysis model, a model generation device, and an analysis record, the analysis model is connected to the model generation device, and the model generation device generates the model, the generation of the model is provided with a plurality of analysis records, and the analysis records of the model can be provided with a plurality of simulated contact points.

Optionally, the verification system includes an association module and a connection module, where the association module is configured to associate, under the analysis system, the attribute identifier of the object type having the predetermined configuration with the contact point element in the corresponding model; the connection module is configured to create a model calculation object for the monitored experimental object of the object type in an experimental state, where the calculation object includes data of a display model of the experimental object type, and the display model includes at least one element, where the template calculation object draws a model according to the data of the display template, and renders an element associated with an attribute identifier into a display effect corresponding to an attribute value of the attribute identifier of the monitored experimental object.

Optionally, the transmission system includes a verification device, a wireless transmission device, and a server cluster, where the verification device includes an identifier, a verification code, a time code, and a verification password, the identifier, the verification code, the time code, and the verification password are generated by the server cluster randomly, and the verification password is a password of each client login interface. The authentication password is specific to the operator, and the identifier is used for distinguishing the situation of two similar authentication passwords; the wireless transmission device comprises a wireless network bridge and a pre-storage device, wherein the wireless network bridge is electrically connected with the pre-storage device and each server cluster.

Optionally, the recording system includes a record generating device, a record storage device, and a record querying device, the record generating device, the record storage device, and the record querying device are electrically connected to each other, the record generating device is configured to generate each record and store the record in the record storage device, the record querying device traverses each record in the record storage device and generates a recommended record report, and the recommended record report is called by the transmission system and transmitted to each server cluster.

In addition, the invention also provides a using method of the experiment cloud management system, and the using method comprises the following steps: inputting project name selection information and determining simulated experimental projects; displaying an experiment model preset and the experiment, wherein the experiment model comprises a man-machine interaction interface of the experiment; and generating an experiment record table aiming at the experiment subject and the experiment model and displaying the experiment.

Optionally, an experiment model and a calculation model associated with the model are created corresponding to the experiment object type, the experiment model includes a plurality of attribute identifiers and attribute values of the experiment object type, the calculation model includes data of the experiment object type template and a calculation logic code, and the calculation logic code is used for rendering a presentation effect of an associated element according to an attribute value corresponding to an attribute identifier associated with the element in the experiment model.

Optionally, an interactive interface for inputting information of one or more monitored experimental objects is displayed, information of an experimental object type to which the monitored experimental object belongs is obtained according to the information of the one or more monitored experimental objects input by the user, and one or more data management objects of the monitored experimental objects are respectively created according to the data management model of the experimental object type, wherein the attribute identifications and the attribute values of the one or more data management objects are respectively initialized to the multiple attribute identifications and the attribute values of the respective monitored experimental objects, and corresponding record data is generated and stored on the record storage device.

Optionally, recording rendering effect parameters in the display template, and associating rendering of the attribute identifier with a display effect corresponding to the attribute value of the attribute identifier in the data management object, where the display effect includes: and displaying the corresponding display effect of the attribute value associated with the attribute identifier and the attribute value of the associated attribute identifier according to the recorded rendering effect parameters.

The beneficial effects obtained by the invention are as follows:

1. the submission system can also share data of actual experiments, so that the shared experimental data can be uploaded to the experimental cloud, the experimental data shared by the experimental cloud can be analyzed, and the experimental platform can continuously provide high-quality experimental resources when the experimental data conforms to the same experimental type or the shared experimental effect is better, the experimental steps are simplified or a better experimental process is achieved;

2. the analysis system is used for carrying out actual analysis on the experimental process, so that the analysis system is ensured to analyze the connection relation of the model, the experimental process can be analyzed, the actual experimental result is generated, and the experimental capability of the experimental operator can be improved continuously by visual, easy-to-operate and clear and wrong steps in the experimental process;

3. the process of analyzing and recording is that in the process of generating the actual model by the analyzing device, the contact points on each model on the model are recorded to actually contact, so that the actual experimental process performed by the model can be ensured to obtain all records, the operator can be ensured to summarize after the experiment, and the high-efficiency experimental efficiency of the experimental operation is ensured;

4. by adopting the recording system, the process of each experiment is analyzed in real time, so that the operator can determine which step has errors and which step has defects, experience is accumulated for subsequent experiments, and good manual operation capability can be developed.

Drawings

The invention will be further understood from the following description in conjunction with the accompanying drawings. The components in the figures are not necessarily to scale, emphasis instead being placed upon illustrating the principles of the embodiments. Like reference numerals designate corresponding parts throughout the different views.

Fig. 1 is a block diagram of an experimental cloud management system of the internet of things.

Fig. 2 is a block diagram of the analysis system of the internet of things experiment cloud management system of the present invention.

Fig. 3 is a block diagram of the verification system of the internet of things experiment cloud management system of the present invention.

Fig. 4 is a block diagram of the transmission system of the internet of things experiment cloud management system of the present invention.

Fig. 5 is a block diagram of the recording system of the internet of things experiment cloud management system of the present invention.

Detailed Description

In order to make the objects and advantages of the present invention more apparent, the present invention will be further described in detail with reference to the following embodiments; it should be understood that the specific embodiments described herein are merely illustrative of the invention and are not intended to limit the invention. Other systems, methods, and/or features of the present embodiments will become apparent to those skilled in the art upon review of the following detailed description. It is intended that all such additional systems, methods, features and advantages be included within this description, be within the scope of the invention, and be protected by the accompanying claims. Additional features of the disclosed embodiments are described in, and will be apparent from, the detailed description that follows.

The same or similar reference numerals in the drawings of the embodiments of the present invention correspond to the same or similar components; in the description of the present invention, it should be understood that if there is an orientation or positional relationship indicated by the terms "upper" and "lower" and "left" and "right" etc., it is only for convenience of description and simplification of the description based on the orientation or positional relationship shown in the drawings, but it is not indicated or implied that the device or assembly referred to must have a specific orientation.

The first embodiment is as follows: the utility model provides an thing networking experiment cloud management system, is including submitting system, analytic system, verification system, transmission system, recording system and cloud ware, submit the system the analytic system verify the system transmission system respectively with the cloud ware, the cloud ware is analyzed and is gathered the information of gathering and store in the analytic system to the experimental information in the whole internet. The analysis system comprises an analysis model, a model generation device and analysis records, wherein the analysis model is connected with the model generation device and is generated by the model generation device, the generated model is provided with a plurality of analysis records, and the analysis records of the model can be provided with a plurality of simulated contact points. The verification system comprises an association module and a connection module, wherein the association module is used for associating attribute identifications of object types with preset configurations and contact point elements in corresponding models under an analysis system; the connection module is configured to create a model calculation object for the monitored experimental object of the object type in an experimental state, where the calculation object includes data of a display model of the experimental object type, and the display model includes at least one element, where the template calculation object draws a model according to the data of the display template, and renders an element associated with an attribute identifier into a display effect corresponding to an attribute value of the attribute identifier of the monitored experimental object. The transmission system comprises a verification device, a wireless transmission device and a server cluster, wherein the verification device comprises an identifier, a verification code, a time code and a verification password, the identifier, the verification code, the time code and the verification password are generated randomly by the server cluster, and the verification password is the password of each client login interface. The authentication password is specific to the operator, and the identifier is used for distinguishing the situation of two similar authentication passwords; the wireless transmission device comprises a wireless network bridge and a pre-storage device, wherein the wireless network bridge is electrically connected with the pre-storage device and each server cluster. The recording system comprises a record generating device, a record storage device and a record query device, wherein the record generating device, the record storage device and the record query device are electrically connected with one another, the record generating device is used for generating each record and storing the record in the record storage device, the record query device traverses each record in the record storage device and generates a recommended record report, and the recommended record report is called by the transmission system and transmitted to each server cluster. In addition, the invention also provides a using method of the experiment cloud management system, and the using method comprises the following steps: inputting project name selection information and determining simulated experimental projects; displaying an experiment model preset and the experiment, wherein the experiment model comprises a man-machine interaction interface of the experiment; and generating an experiment record table aiming at the experiment subject and the experiment model and displaying the experiment. And establishing an experiment model and a calculation model associated with the model corresponding to the experiment object type, wherein the experiment model comprises a plurality of attribute identifications and attribute values of the experiment object type, the calculation model comprises data of the experiment object type template and a calculation logic code, and the calculation logic code is used for rendering the display effect of the associated element according to the attribute value corresponding to the attribute identification associated with the element in the experiment model. Displaying an interactive interface used for inputting information of one or more monitored experimental objects, acquiring information of an experimental object type to which the monitored experimental object belongs according to the information of the one or more monitored experimental objects input by a user, and respectively creating data management objects of the one or more monitored experimental objects according to a data management model of the experimental object type, wherein attribute identifications and attribute values of the one or more data management objects are respectively initialized into a plurality of attribute identifications and attribute values of the monitored experimental objects, and corresponding record data are generated and stored on the record storage device. Recording rendering effect parameters in the display template, and displaying the rendering of the associated attribute identifier and the display effect corresponding to the attribute value of the attribute identifier in the data management object, wherein the display effect comprises: and displaying the corresponding display effect of the attribute value associated with the attribute identifier and the attribute value of the associated attribute identifier according to the recorded rendering effect parameters.

Example two: the utility model provides an thing networking experiment cloud management system, is including submitting system, analytic system, verification system, transmission system, recording system and cloud ware, submit the system the analytic system verify the system transmission system respectively with the cloud ware, the cloud ware is analyzed and is gathered the information of gathering and store in the analytic system to the experimental information in the whole internet. Specifically, the management system enables an operator of the whole device to simulate an experiment at present, so as to deepen understanding of the principle of the experiment. In real-life experiments, the dangerous experiments cannot be performed through actual operations, and meanwhile, improper experimental steps cause dangerous accidents in the process of treatment. The experimental cloud management system can effectively prevent dangerous accidents. In this embodiment, the submission system can also share data of an actual experiment, the shared experimental data is uploaded to the experimental cloud, the experimental cloud can analyze the shared experimental data, and the experimental data is stored in the database of the experimental cloud after the data accords with the same experimental type or the actual operations such as better experimental effect, fewer steps and the like. The transmission system is connected with the cloud servers, so that the server cluster can call the experimental data in real time. The analysis system is used for carrying out actual analysis on the experimental process, analyzing the connection relation of the model, analyzing the experimental process and generating an actual experimental result. In addition, the analysis system can also score the actual operation steps of the operator and the results of the experiment, and the scoring standard is analyzed by the analysis system through analyzing the experiment data corresponding to the cloud server.

The analysis system comprises an analysis model, a model generation device and analysis records, wherein the analysis model is connected with the model generation device and is generated by the model generation device, the generated model is provided with a plurality of analysis records, and the analysis records of the model can be provided with a plurality of simulated contact points. Specifically, the analysis model of the analysis system is set as long as the model of the experimental apparatus. When the experimental device generates the model, a corresponding virtual model is generated at the same time. The step of actually performing the virtual model is performed in synchronization with the actually modeled model. The model generating device can generate a model in real time according to actual operation in the process of experiment, in the embodiment, the analyzing device is provided with a common model base which comprises common experimental models, and the model can realize the experimental process with the same function as the entity equipment. For example, when a common circuit is used for building a model, virtual wires are needed for connection, the connection process cannot have common cautions such as crossing, and the like, and the method is also universal in the invention and is used for cultivating the experimental habits of operators and improving the literacy of the experiments of the operators. The analysis records data used for recording experiments of the analysis device, and data recording devices of various models of the experiments, such as the current value of current and voltage tests in circuit experiments. The process of analyzing and recording is that in the process of generating the actual model by the analysis device, the contact points on each model on the model are recorded to actually contact, so that the actual experimental process performed by the model can be ensured to be completely recorded, the operator can be ensured to summarize after the experiment, and the high-efficiency experimental efficiency of the experimental operation is ensured.

The verification system comprises an association module and a connection module, wherein the association module is used for associating attribute identifications of object types with preset configurations and contact point elements in corresponding models under an analysis system; the connection module is configured to create a model calculation object for the monitored experimental object of the object type in an experimental state, where the calculation object includes data of a display model of the experimental object type, and the display model includes at least one element, where the template calculation object draws a model according to the data of the display template, and renders an element associated with an attribute identifier into a display effect corresponding to an attribute value of the attribute identifier of the monitored experimental object. Specifically, the association module and the connection module of the verification system are used cooperatively, so that efficient connection of the verification system is ensured, and the model and the analysis device can be associated. The connection mode can ensure that the model is actually connected with the analysis device, so that the model can be virtually connected with the analysis system in the experiment process, and the experiment operation performed by the operator is recorded. In addition, the association module connects the object attributes of the predetermined configuration, in this embodiment, the object type of the connection module is categorized into the water mark, and during the actual connection process of the same type or similar types, the elements of the contact points in the model are associated. In addition, in this embodiment, the verification system further provides a connection rule, where the connection rule includes: the connection rules of the contact points with similar or same types, the classification of the attribute values of the attribute identifications and the matching of different display effects.

The transmission system comprises a verification device, a wireless transmission device and a server cluster, wherein the verification device comprises an identifier, a verification code, a time code and a verification password, the identifier, the verification code, the time code and the verification password are generated randomly by the server cluster, and the verification password is the password of each client login interface. The authentication password is specific to the operator, and the identifier is used for distinguishing the situation of two similar authentication passwords; the wireless transmission device comprises a wireless network bridge and a pre-storage device, wherein the wireless network bridge is electrically connected with the pre-storage device and each server cluster. Specifically, the verification device of the transmission system can ensure that the experimental data is analyzed and the actual operation is verified according to the analysis result in the process of performing the actual experiment by the operation device. In addition, in this embodiment, the verifying apparatus further verifies the identity of the user, the verification includes a combination of an identifier, a verification code, the time code, and a verification password, and in the verification process, the operating apparatus that passes the verification can perform actual operation. During authentication, the authentication device verifies the identifier by locating a record associated with the identifier in an authentication database, and uses an identifier generator to generate a replacement identifier for updating the record in the authentication database once the identifier is verified. The verification code and the random code jointly form an operator identification code, and the identification code enables the verification process of the transmission device to be more efficient. In addition, the identification code enables the experimental data to be uploaded, and in the uploaded experimental data, the identification code serves as identity recognition of the whole device and distinguishes the experimental data. In an embodiment, the wireless bridge and the prestored Jining Jinxiong data are verified by the verification device in the transmission process, so that the experimental data is more simplified, and each server cluster can transmit the experimental data more accurately.

The recording system comprises a record generating device, a record storage device and a record query device, wherein the record generating device, the record storage device and the record query device are electrically connected with one another, the record generating device is used for generating each record and storing the record in the record storage device, the record query device traverses each record in the record storage device and generates a recommended record report, and the recommended record report is called by the transmission system and transmitted to each server cluster. Specifically, the record generating device records various data of the experimental process and records the data of the connection of the model. In this embodiment, the record generating device further includes a record report and a data map, where the record report can record the actual operation steps in the experimental process and each simulation contact point with the model in real time. In the actual operation process of each simulation contact point, the contact points in the operation process can ensure the actual connection data information among the contact points in the experiment process, and the operator can conveniently perform subsequent operation. In addition, in this embodiment, the record generation device may upload the record report to the cloud server and share the record report with each server cluster in real time. The recording system can record common wrong experiment steps, so that experiments with unified subjects can be actually operated, and most shared data can be guaranteed.

In addition, the invention also provides a using method of the experiment cloud management system, and the using method comprises the following steps: inputting project name selection information and determining simulated experimental projects; displaying an experiment model preset and the experiment, wherein the experiment model comprises a man-machine interaction interface of the experiment; and generating an experiment record table aiming at the experiment subject and the experiment model and displaying the experiment. The use method further comprises the following steps: and establishing an experiment model and a calculation model associated with the model corresponding to the experiment object type, wherein the experiment model comprises a plurality of attribute identifications and attribute values of the experiment object type, the calculation model comprises data of the experiment object type template and a calculation logic code, and the calculation logic code is used for rendering the display effect of the associated element according to the attribute value corresponding to the attribute identification associated with the element in the experiment model. The use method further comprises the following steps: displaying an interactive interface used for inputting information of one or more monitored experimental objects, acquiring information of an experimental object type to which the monitored experimental object belongs according to the information of the one or more monitored experimental objects input by a user, and respectively creating data management objects of the one or more monitored experimental objects according to a data management model of the experimental object type, wherein attribute identifications and attribute values of the one or more data management objects are respectively initialized into a plurality of attribute identifications and attribute values of the monitored experimental objects, and corresponding record data are generated and stored on the record storage device. The use method further comprises the following steps: recording rendering effect parameters in the display template, and displaying the rendering of the associated attribute identifier and the display effect corresponding to the attribute value of the attribute identifier in the data management object, wherein the display effect comprises: and displaying the corresponding display effect of the attribute value associated with the attribute identifier and the attribute value of the associated attribute identifier according to the recorded rendering effect parameters.

In summary, according to the internet of things experiment cloud management system, the submission system is adopted to share the data of the actual experiment, so that the shared experiment data is uploaded to the experiment cloud, the experiment data shared by the experiment cloud is analyzed, the experiment cloud management system has better experiment effect and simplified experiment steps or achieves better experiment process according with the same experiment type or shared experiment, and the experiment platform can continuously provide high-quality experiment resources; the analysis system is used for carrying out actual analysis on the experimental process, so that the analysis system is ensured to analyze the connection relation of the model, the experimental process can be analyzed, the actual experimental result is generated, and the experimental capability of the experimental operator can be improved continuously by visual, easy-to-operate and clear and wrong steps in the experimental process; the process of analyzing and recording is that in the process of generating the actual model by the analyzing device, the contact points on each model on the model are recorded to actually contact, so that the actual experimental process performed by the model can be ensured to obtain all records, the operator can be ensured to summarize after the experiment, and the high-efficiency experimental efficiency of the experimental operation is ensured; by adopting the recording system, the process of each experiment is analyzed in real time, so that the operator can determine which step has errors and which step has defects, experience is accumulated for subsequent experiments, and good manual operation capability can be developed.

Although the invention has been described above with reference to various embodiments, it should be understood that many changes and modifications may be made without departing from the scope of the invention. That is, the methods, systems, and devices discussed above are examples. Various configurations may omit, substitute, or add various procedures or components as appropriate. For example, in alternative configurations, the methods may be performed in an order different than that described, and/or various components may be added, omitted, and/or combined. Moreover, features described with respect to certain configurations may be combined in various other configurations, as different aspects and elements of the configurations may be combined in a similar manner. Further, elements therein may be updated as technology evolves, i.e., many elements are examples and do not limit the scope of the disclosure or claims.

Specific details are given in the description to provide a thorough understanding of the exemplary configurations including implementations. However, configurations may be practiced without these specific details, for example, well-known circuits, processes, algorithms, structures, and techniques have been shown without unnecessary detail in order to avoid obscuring the configurations. This description provides example configurations only, and does not limit the scope, applicability, or configuration of the claims. Rather, the foregoing description of the configurations will provide those skilled in the art with an enabling description for implementing the described techniques. Various changes may be made in the function and arrangement of elements without departing from the spirit or scope of the disclosure.

In conclusion, it is intended that the foregoing detailed description be regarded as illustrative rather than limiting, and that it be understood that these examples are illustrative only and are not intended to limit the scope of the invention. After reading the description of the invention, the skilled person can make various changes or modifications to the invention, and these equivalent changes and modifications also fall into the scope of the invention defined by the claims.

Claims

1. The utility model provides an thing networking experiment cloud management system, is including submitting system, analytic system, verification system, transmission system, recording system and cloud ware, its characterized in that, submit the system, analytic system verify the system, transmission system respectively with the cloud ware, the cloud ware is analyzed and is gathered the information of gathering and store in the analytic system to the experimental information in the whole internet.

2. The internet-of-things experiment cloud management system as claimed in claim 1, wherein the analysis system comprises an analysis model, a model generation device and an analysis record, the analysis model is connected with the model generation device and is generated by the model generation device, the generation of the model is provided with a plurality of analysis records, and the analysis records of the model can be provided with a plurality of simulated contact points.

3. An internet of things experiment cloud management system as claimed in one of the preceding claims, wherein the verification system comprises an association module and a connection module, wherein the association module is used for associating attribute identifications of object types with preset configurations and contact point elements in corresponding models under an analysis system; the connection module is configured to create a model calculation object for the monitored experimental object of the object type in an experimental state, where the calculation object includes data of a display model of the experimental object type, and the display model includes at least one element, where the template calculation object draws a model according to the data of the display template, and renders an element associated with an attribute identifier into a display effect corresponding to an attribute value of the attribute identifier of the monitored experimental object.

4. The IOT (Internet of things) experiment cloud management system as claimed in one of the preceding claims, wherein the transmission system comprises a verification device, a wireless transmission device and a server cluster, the verification device comprises an identifier, a verification code, a time code and a verification password, the identifier, the verification code, the time code and the verification password are generated randomly by the server cluster, and the verification password is a password of each client login interface. The authentication password is specific to the operator, and the identifier is used for distinguishing the situation of two similar authentication passwords; the wireless transmission device comprises a wireless network bridge and a pre-storage device, wherein the wireless network bridge is electrically connected with the pre-storage device and each server cluster.

5. The internet-of-things experiment cloud management system as claimed in one of the preceding claims, wherein the recording system comprises a record generation device, a record storage device and a record query device, the record generation device, the record storage device and the record query device are electrically connected with each other, the record generation device is configured to generate each record and store the record in the record storage device, the record query device traverses each record in the record storage device and generates a recommended record report, and the recommended record report is called by the transmission system and transmitted to each server cluster.

6. An application method of the experiment cloud management system for the Internet of things according to claims 1-5, wherein the application method comprises the following steps: inputting project name selection information and determining simulated experimental projects; displaying an experiment model preset and the experiment, wherein the experiment model comprises a man-machine interaction interface of the experiment; and generating an experiment record table aiming at the experiment subject and the experiment model and displaying the experiment.

7. Use of an experimental cloud management system according to one of the preceding claims, wherein an experimental model and a calculation model associated with said model are created in correspondence with said type of experimental object, said experimental model comprising a plurality of attribute identifications and attribute values of said type of experimental object, said calculation model comprising data of said template of type of experimental object and calculation logic code for rendering the presentation effect of the associated element according to the attribute value corresponding to the attribute identification of the associated element in said experimental model.

8. The method of one of the preceding claims, wherein an interactive interface for inputting information of one or more monitored experimental objects is displayed, information of an experimental object type to which the monitored experimental object belongs is obtained according to the information of the one or more monitored experimental objects input by a user, and a data management object of the one or more monitored experimental objects is respectively created according to a data management model of the experimental object type, wherein the attribute identification and the attribute value of the one or more data management objects are respectively initialized to a plurality of attribute identifications and attribute values of the respective monitored experimental objects, and corresponding record data is generated and stored on the record storage device.

9. The method as claimed in one of the preceding claims, wherein a rendering effect parameter in the presentation template is recorded, and the rendering of the associated attribute identifier is associated with a presentation effect corresponding to the attribute value of the attribute identifier in the data management object, and the presentation effect includes: and displaying the corresponding display effect of the attribute value associated with the attribute identifier and the attribute value of the associated attribute identifier according to the recorded rendering effect parameters.