CN112785239A - Multi-scene student growth system and using method thereof - Google Patents

Abstract

The invention provides a multi-scene student growth system and a using method thereof, wherein the multi-scene student growth system comprises the following steps: the method comprises the steps that a first server receives software identification information sent by a terminal; the first server searches for scene information corresponding to the software identification information according to a corresponding relation between preset scene information and the software identification information; and the first server sends the scene information or the prompt to the terminal. By designing the multi-scenario student growth system and the use method thereof, the unified growth data acquisition standard is set, so that the service system realizes modular setting and deployment, flexible reconstruction and expansion are facilitated, more timely and efficient user response is obtained, and convenient and daily collection of student growth data is realized.

Description

Multi-scene student growth system and using method thereof

Technical Field

The invention relates to the field of education auxiliary computer software and hardware systems, in particular to a multi-scene student growth system and a using method thereof.

Background

In recent years, the call for improvement of quality education of students has led to the full attention from the country, society to specific families. Under the traditional education mode, more learning result appraisals of students are presented in the form of simple examination papers and scores, only the mastering conditions of the students on knowledge and ability can be partially reflected, and the comprehensive literacy and development potential of the students cannot be reflected. Therefore, except for the change of education content and method, how to adopt a more scientific and reasonable mode to carry out examination and evaluation on the education process and the periodic results of students to form the comprehensive evaluation of academic examination and learning process and the key breakthrough of the education change.

At present, a common method for recording the learning process still mainly relies on a form filling form of parents or teachers, a series of standardized forms are provided by schools or education competent units, and the forms are filled in through the form filling of the parents or the teachers. Part of the existing system standard forms are electronized, examination and approval authorities and confirmation links are set according to filling requirements and authority setting, the system applied to the business environment is directly moved to the education environment, and more problems exist: the system is complex to operate and complicated to fill in, and in a commercial environment, staff can learn the use mode of the system according to an operation manual and can execute the operation by referring to the manual during daily use; in the education environment, students, parents and teachers are all education system users, the students in the young are difficult to use the system according to a complex operation manual like adult staff, if the students only depend on the teachers and the parents to fill in various data, mistakes are easily omitted, the burdens of the teachers and families are increased, the general conflict emotion is caused, the process records flow in the form, and the comprehensive growth performance of the students cannot be objectively and scientifically reflected.

The collection of growth performance data through the normalized service is conditional, a large number of teaching services adopt informatization systems along with the popularization of campus informatization application, and more services adopt informatization tools along with the deep fusion of technology and education. The learning data generated by the tool are split mutually, only statistics can be provided for the business itself, effective association with individual performances of students is not formed, and the tools lack a unified data standard and a verification mechanism, particularly a relevant standard of growth evaluation, so that the comprehensive growth performance of the students cannot be effectively fed back. The existing solution adopted for the multi-service system is to process, screen and collect the data of each service system regularly, generate a report and store the report, and because a large amount of data is not standardized in the collection process, a large amount of fields are lost and are difficult to complete; without standard data, it is difficult to process data by an informatization means, and a large amount of labor is required. In order to avoid access of multiple platforms, the same system and terminal are used, on one hand, a large amount of repeated development work is generated, resources are wasted, and on the other hand, the expandability of the system is checked, and the maintenance work is huge.

Therefore, those skilled in the art are dedicated to develop a multi-scenario student growth system and a method for using the same, and provide a multi-scenario student growth system which is convenient to operate, uniform in data, flexible in business scenario and strong in expansibility.

Disclosure of Invention

In view of the above defects in the prior art, the technical problems to be solved by the invention are that the existing student growth process is complicated in recording work, poor in data relevance and uniformity and capable of recording isolated jobs of software, and by designing the multi-scenario student growth system and the use method thereof, a uniform growth data acquisition standard is set, so that the service system is modularly set and deployed, flexible reconstruction and expansion are facilitated, timely and efficient user responses are obtained, and convenience and daily acquisition of student growth data are realized.

In order to achieve the purpose, the invention provides a using method of a multi-scene student growth system, which comprises the following steps: the method comprises the steps that a first server receives software identification information sent by a terminal; the first server searches for scene information corresponding to the software identification information according to a corresponding relation between preset scene information and the software identification information; and the first server sends the scene information or the prompt to the terminal.

Further, the searching, by the first server, the scene information corresponding to the software identification information according to a preset corresponding relationship between the scene information and the software identification information specifically includes: the first server determines the software type of sending the software identification information; the first server acquires one or more pieces of scene information corresponding to the software identification information according to the corresponding relationship between the preset scene information and the software identification information under the software type.

Further, still include: the method comprises the steps that a first server receives hardware identification information sent by a terminal; the first server searches for scene information corresponding to the hardware identification information according to a corresponding relation between preset scene information and the hardware identification information; the first server transmits the scene information to the terminal.

Further, the first server searches for the scene information corresponding to the hardware identification information according to a preset corresponding relationship between the scene information and the hardware identification information, and specifically includes: the first server acquires the position of a terminal sending hardware identification information; and the first server acquires the user group identification number of the user terminal according to the position of the terminal and searches the scene information corresponding to the user group identification number.

Further, the first server searches for the scene information corresponding to the hardware identification information according to a preset corresponding relationship between the scene information and the hardware identification information, and specifically includes: the first server acquires hardware configuration of a terminal sending hardware identification information; and the first server searches the scene information matched with the hardware configuration according to the hardware configuration of the terminal.

Further, the first server searches for the scene information corresponding to the hardware identification information according to a preset corresponding relationship between the scene information and the hardware identification information, and specifically includes: the first server determines the state of the terminal equipment which sends the hardware identification information; and the first server determines the running state of the terminal equipment, and if the terminal equipment is not activated, the first server sends a prompt to the terminal.

Further, still include: the first server determines the software type of sending the software identification information; the first server receives hardware identification information sent by a terminal and acquires the hardware type of the terminal; the first server acquires an incidence relation between a preset software type and a preset hardware type, judges whether the incidence relation exists between software and the terminal, and sends scene information to the terminal if the incidence relation exists; and if the association does not exist, the first server refuses to send the scene information.

Further, still include: the first server searches user information corresponding to the software identification information according to a preset corresponding relation between the user information and the software identification information; and the first server sends the user information to the terminal.

Further, the first server searches for the user information corresponding to the software identification information according to a preset corresponding relationship between the user information and the software identification information, and specifically includes: the first server determines the software type of sending the software identification information; and the first server acquires the user information corresponding to the software identification information according to the corresponding relation between the user information and the software identification information preset under the software type.

Further, still include: the method comprises the steps that a first server receives hardware identification information sent by a terminal; the first server searches user information corresponding to the hardware identification information according to a preset corresponding relation between the user information and the hardware identification information; and the first server sends the user information to the terminal.

Further, the first server searches for the user information corresponding to the hardware identification information according to a preset correspondence between the user information and the hardware identification information, and specifically includes: the first server acquires the position of a terminal sending hardware identification information; and the first server acquires the user group identification number of the user terminal according to the position of the terminal, searches the user group corresponding to the user group identification number and acquires user information according to the user group.

Further, the terminal receives the scene information and caches the scene information in the terminal.

Further, the terminal receives the user information and caches the scene information and the user information in the terminal.

Further, the first server receives growth data sent by the terminal, wherein the growth data comprise data acquired by the terminal according to the scene information; the first server acquires a preset scene information data requirement, judges whether the growth data meet the scene information data requirement, and sends a data requirement verification non-compliance prompt to the terminal if the growth data do not meet the scene information data requirement.

Further, the first server refuses to record the growth data sent by the terminal, and sends a prompt of refilling the growth data to the terminal.

Further, still include: the first server receives growth data sent by the terminal; the first server judges whether the received growth data conforms to the corresponding relation related to judgment according to the corresponding relation between the preset scene information and the growth data: and if the received growth data do not accord with the corresponding relation related to judgment, the first server sends a prompt that the growth data do not accord with the corresponding relation related to judgment to the terminal and refuses to record the growth data, and if the received growth data accord with the corresponding relation related to judgment, the growth data are recorded in the first server.

Further, still include: the software identification information sent by the terminal and received by the first server is forwarded through the second server; the first server acquires server software identification information of a second server; and the first server acquires preset safety verification information and judges whether the second server passes the safety verification or not according to the corresponding relation between the safety verification information and the server software identification information.

Further, the second server passes security verification, and the first server searches for scene information corresponding to the server software identification information according to a preset corresponding relationship between the scene information and the server software identification information; the first server sends the scene information to the second server; and the second server sends the scene information to the terminal.

Further, the second server fails to pass the security verification, the first server sends an access denial prompt to the second server, and the second server sends the access denial prompt to the terminal.

Further, the first server receives the growth data sent by the second server; the first server judges whether the received growth data conforms to the corresponding relation related to judgment according to the corresponding relation between the preset scene information and the growth data: and if the received growth data do not accord with the corresponding relation related to judgment, the first server sends a prompt that the growth data do not accord with the judgment to the second server and refuses to record the growth data, and if the received growth data accord with the corresponding relation related to judgment, the growth data are recorded in the first server.

The invention also provides a server of the multi-scene student growth system, which comprises: the receiving module is used for receiving the identification information sent by the terminal or the second server; the management configuration module is used for adjusting the corresponding relation between configuration data and preset information, wherein the configuration data comprises scene information, user information, identification information and growth data attributes; the information correspondence includes, but is not limited to, correspondence between scene information and identification information, user information and identification information; the searching module is used for searching the scene information corresponding to the identification information according to the corresponding relation between the preset scene information and the identification information; the sending module is used for sending the scene information to the terminal or the server; the identification information comprises software identification information, hardware identification information and server software identification information.

Further, the searching module is further configured to search for user information corresponding to the identification information according to a preset corresponding relationship between the user information and the identification information; the sending module is further configured to send the user information to the terminal or the server.

The system further comprises a verification module for safely verifying or judging whether one or more corresponding relations of scene information, identification information and data attributes included in the growth data conform to preset configuration.

From the above scheme, the invention has the following advantages:

1. the system is preset with a complete evaluation scale (scene) covering all service scenes and users, the server acquires software types according to software identification information and acquires scene information according to the software types, so that scene selection operations are reduced, the terminal usability is improved, the scene loading efficiency is improved, the system is suitable for scenes in which a single terminal in a teaching environment faces multi-user use, daily real data can be conveniently recorded in service, special organization and report filling are not needed, the workload is saved, and the authenticity is guaranteed;

2. the server acquires the scene information according to the hardware identification information, so that the range of the scene information can be further screened, the scene selection process is simplified, the scene loading efficiency is further improved, the dependence on hardware, network performance and system stability is reduced, and the low-cost normalized application is guaranteed;

3. the server can also obtain the hardware configuration of the terminal through the hardware identification information, selectively sends user information and user verification data to the terminal according to the hardware configuration, and selects a proper terminal according to different service requirements, thereby effectively avoiding the computational redundancy of hardware and reducing the system cost;

4. whether the self-research platform service software or the third-party cooperation service software is adopted, rules are preset during starting, data are uniformly acquired, stored and utilized according to the rules, and on the premise of guaranteeing service characteristic requirements, a growth record scene is loaded, so that a uniform data standard across service scenes is realized, and the uniformity of the data standard comprises the uniformity of a user level and the uniformity of an evaluation standard.

5. The system has the advantages that the service is high in flexible expansibility and modularized deployment, student growth data needing to be recorded can be flexibly customized according to actual needs and recorded in a growth file, and a new service module can be conveniently developed, reformed and integrated into a growth system;

6. the user information is locally pre-cached and verified locally, so that the safety of the user information is guaranteed, the response speed of the terminal is improved, and the user can use the terminal conveniently;

in summary, by using the multi-scene student growth system of the invention, schools can record the growth data of students in a more convenient, more abundant, daily and cross-business scene manner.

The conception, the specific structure and the technical effects of the present invention will be further described with reference to the accompanying drawings to fully understand the objects, the features and the effects of the present invention.

Drawings

Fig. 1 is a schematic view of a multi-scenario student growth system according to the present invention.

Detailed Description

The following describes a method for recording student growth according to the present invention in detail with reference to the examples. In the following description, suffixes such as "module" used to represent elements are used only for facilitating the explanation of the embodiment of the present invention, and have no specific meaning in itself.

In addition, although the terms "first," "second," etc. are used herein multiple times to describe servers, these servers should not be limited by these terms. These terms are only used to distinguish one server from another. For example, a first server may be referred to as a second server, and a second server may also be referred to as a first server, without departing from the scope of the invention.

For convenience, in the present application, a terminal refers to a device carrying a specific application software, including but not limited to an electronic shift board, a mobile phone terminal, a desktop computer, a notebook computer, an all-in-one machine, an intelligent teaching stick, an intelligent piano, a book self-help borrowing and returning machine, an intelligent bookshelf, and an entrance guard attendance machine.

The scene information refers to structured business data which is stored in advance by the system, accurately returned to the terminal according to the terminal request and the requirement and is correspondingly matched with a related hardware system in order to carry out personalized service deployment and growth data reliability verification, and the structured business data comprises fields (including necessary and optional filling) and rules related to business in a growth data record; the terminal performs service response and data acquisition according to the preloaded scene information, so that the calculated amount can be compressed and the service response time can be shortened. By presetting related scene information among different clients, growth data collected by terminals of cross-terminal, cross-service and cross-platform systems can be ensured to accord with a uniform data standard.

The growth data refers to data that can be recorded by the growth system and is related to the growth of the student, and comprises a certain data structure, and the data of the certain data structure comprises structured data and unstructured data. The growth data is collected by the service terminal, verified by the growth system server and stored in the growth system server.

The growth data generally comprises recorded main bodies, user related information, recorded event content and service related information; the recorded main body is a student; the user related information comprises a recorder, related personnel and the relation with a record main body (such as teachers and students, classmates and relatives); recorded event content, the format of the recorded event content including tables, pictures, audio, video, text; the service related information includes teaching type, evaluation index, organization relation (such as class, group, least team, common squad, community, dormitory), equipment information and equipment position information.

Table one is a management example corresponding to the scene information of the growth system server (first server), table two is a correspondence example corresponding to the hardware identification information of the terminal, and table three is a correspondence example corresponding to the location information.

Table-growth system server (first server) scene information correspondence example

Example of correspondence relationship between hardware identification information of terminal II table

Table three-position information correspondence relation example

Example one

Step S101, starting the terminal named as the electronic class card, and turning to step S102.

In step S102, the emotion management software is started, and the software identification code of the software is 3000005, the process proceeds to step S103.

In step S103, the electronic shift board terminal sends the software identification code 3000005 for emotion management to the growth system server, and the process goes to step S104.

In step S104, the growth system server receives the software identification information, i.e., the software identification code 3000005, transmitted from the terminal, and the process goes to step S105.

Step S105, the growth system server determines that the service software type is emotion management according to the software identification code 3000005, determines that the subject corresponding to the emotion management software is a psychological course according to the correspondence between the software identification information and the scene information as shown in table one, determines that the corresponding school segment is a student in a primary school or a middle school, determines that the matched device type is an electronic class board or a psychological classroom, and transfers to step S106, where the system attribute is self-research.

Step S106, the growth system server obtains scene information with a scene number of C0005 according to the corresponding relation between the preset software identification code and the scene information, the scene information comprises all psychological course evaluation scales of primary schools and junior and middle schools, the server directly communicates with the terminal according to the system attribute, and the step S107 is carried out.

Step S107, the growth system server sends the acquired scene information, namely all psychological course evaluation scales for the primary school and the junior middle stage to the electronic class board terminal, and the process goes to step S108.

And S108, the electronic class board terminal receives the scene information sent by the growth system server and caches the scene information in the local so as to load the scene in the local terminal when the campus network environment is unstable, thereby facilitating the user to use the related service offline, transmitting the growth data filled by the user to the growth system server when the network is recovered to be normal, and turning to S109.

Step S109, the growth system server obtains information of all users in the primary school and the junior middle school according to the corresponding relationship between the preset software identification code and the user information, and goes to step S110.

Step S110, the growth system server sends all user information and verification modes of the elementary school and the junior school to the electronic class card terminal, and the step S111 is carried out.

And step S111, the electronic class board terminal caches all user information and verification modes of primary schools and junior schools locally so as to log in and verify identity information offline under the condition that the network is unstable, use related services, transmit user input information to a growth system server when the network is recovered to be normal, and go to step S112.

And step S112, the equipment is started successfully, the terminal communicates with the service server to maintain normal operation of the service, the terminal communicates with the growth system server to record the growth data of the students in real time or in a delayed manner according to the uniform student user identification codes to generate the growth data, and the growth data is transmitted to the growth system server in real time or in a delayed manner.

Example two

In the first embodiment, the terminal acquires the scene information only through the software identification information, namely the software identification code, so that the screening work of the user is reduced, and the educational process data is conveniently and regularly filled, but in the first embodiment, the mental class filling report table data for all users in primary schools and junior schools is still loaded, and after the selection of the user is needed, whether a more convenient and faster mode is provided to further narrow the range of the used user, the scene is acquired more accurately, the requirement on the data computing capability of the terminal equipment is lowered, and a further solution is provided in the second embodiment.

In step S201, the terminal named as the electronic class board is started, and the hardware identification code of the electronic class board is 1000001, the process goes to step S202.

In step S202, the emotion management software is started, and the software identification code of the software is 3000005, the process proceeds to step S203.

In step S203, the electronic shift board terminal sends the software identifier 3000005 for emotion management and the hardware identifier 1000001 for electronic shift board to the growth system server, and the process goes to step S204.

In step S204, the growth system server receives the software identification information and the hardware identification information sent by the electronic shift board terminal, where the software identification information is the software identification code 3000005, and the hardware identification information is the hardware identification code 1000001, and the process goes to step S205.

Step S205, the growth system server determines the type of the service software as emotion management according to the software identification code 3000005, determines the subject corresponding to the emotion management software as a psychological course according to the corresponding relation between the software identification information and the scene information as shown in Table I, determines the corresponding segment as students in primary schools and junior schools, determines the matched equipment type as an electronic class board or a psychological classroom, determines the system attribute as self-research, and determines the number of the related data requirement as Y0005 corresponding to the data format and mandatory field required by the emotion management data; as shown in table two, the growth system server determines that the name of the hardware device is an electronic class board according to the hardware identification code 1000001, the device location is an 18-class 1 class classroom, the hardware is configured as a touch screen and an RFID identification device, the device status is an activated status, the electronic class board can be determined to be located in a standard classroom according to the device location and the table three, the associated user group number is 1003, the user organization is a 1-class 1 class, and the associated terminal device is the electronic class board, the all-in-one machine and the intelligent teaching stick, and the process goes to step S206.

Step S206, the growth system server determines that the software type for sending the identification information is emotion management and the hardware type is an electronic class card, judges whether the software and the terminal have an association relationship, and if so, the emotion management and the electronic class card have the association relationship according to the knowledge in the table I, and then the step S207 is switched to; if the software and the terminal are not in the association relationship, go to step S214.

Step S207, the growth system server obtains scene information with a scene number of C0005 according to the corresponding relation between the preset software identification code and the scene information shown in the table I, wherein the scene information comprises all psychological course evaluation tables for grade 1 of the primary school, and the server is directly communicated with the terminal according to the system attribute of self-research; go to step S208.

In step S208, the growth system server sends the acquired scene information, i.e., the mental class assessment table for grade 1 of the primary school, to the electronic class card terminal, and the process goes to step S209.

Step S209, the electronic class board terminal receives the scene information sent by the growth system server and caches the scene information locally, so that when the campus network environment is unstable, the scene is loaded locally at the terminal, a user can use related services offline conveniently, when the network is recovered to be normal, growth data filled by the user is transmitted to the growth system server, and the step S210 is carried out.

Step S210, the growth system server obtains information of all users of the primary school grade 1 class according to a preset corresponding relationship between a software identification code, a hardware identification code and user information, additionally obtains information of all users of the grade 1 class 2 class for the convenience of using by users of adjacent classes, obtains information related to a verification mode according to hardware configuration of the class plate, determines to obtain user names and passwords of the grade 1 class and the grade 1 class 2 class and RFID identification information, and goes to step S211.

Step S211, the growth system server sends the user information and the verification mode of the primary school grade 1 class and 2 class, i.e. the user name, the password and the RFID identification information, to the electronic class card terminal, and goes to step S212.

Step S212, the electronic class board terminal caches the user information and verification modes of class 1 and class 2 of primary school, so as to log in and verify the identity information offline under the condition that the network is unstable, use related services, and when the network is recovered to be normal, the user input information is transmitted to the growth system server, and the step S213 is carried out.

And S213, successfully starting the equipment, communicating the terminal with the service server, maintaining normal operation of the service, communicating the terminal with the growth system server, recording the growth data of the students in real time or in a delayed manner according to the uniform student user identification codes, generating the growth data, and transmitting the growth data to the growth system server in real time or in a delayed manner.

In step S214, the growth system server sends the error report result to the electronic shift board terminal, and the process goes to step S215.

Step S215, the electronic class board receives the error report result sent by the growth system server, the software is displayed in the electronic class board to enter an error state, the user is prompted that the software cannot be normally used, and the step S216 is carried out.

Step S216, the growth system server sends an error prompt message to the maintainer to prompt the maintainer to maintain in time.

EXAMPLE III

In step S301, the terminal named electronic class card is started, and the hardware identification code of the electronic class card is 1000003, and the process goes to step S302.

In step S302, the emotion management software is started, and the software identification code of the software is 3000005, the process proceeds to step S303.

In step S303, the electronic class board terminal sends the software identifier 3000005 of the emotion management service and the hardware identifier 1000003 of the electronic class board to the growth system server, and the process goes to step S204.

In step S304, the growth system server receives the software identification information and the hardware identification information sent by the electronic shift board terminal, where the software identification information is the software identification code 3000005 and the hardware identification information is the hardware identification code 1000003, and the process goes to step S305.

Step S305, the growth system server determines the type of the service software to be emotion management according to the software identification code 3000005, determines the subject corresponding to the emotion management software to be a psychological course according to the corresponding relation between the software identification information and the scene information shown in the table I, determines the corresponding segment to be students in primary schools and junior schools, determines the matched equipment type to be an electronic class board or a psychological classroom, determines the system attribute to be self-research, and determines the number to be Y0005 corresponding to the data format and mandatory field required by the emotion management data; as shown in table two, the growth system server determines that the name of the hardware device is an electronic class board according to the hardware identification code 1000003, the device location is a class-15 class-3 class classroom, the hardware is configured as a touch screen, an RFID recognition device, and a face recognition device, the device status is inactive, and the process goes to step S306.

Step S306, the verification module of the growth system server determines that the equipment state is 'inactive', the growth system server judges that the electronic class card with the hardware identification code of 1000003 is an unauthorized equipment, the growth system server directly communicates with the terminal according to the system attribute of self-research, and the step S307 is switched to.

Step S307, the growth system server sends the error report result to the electronic class card terminal, and the step S308 is switched to.

Step S308, the electronic class board receives the error report result sent by the growth system server, the software is displayed in the electronic class board to enter an error state, a user is prompted that the software cannot be normally used, and the step S309 is carried out.

Step S309, the growth system server sends an error notification message to the maintainer to prompt the maintainer to maintain in time.

Example four

Step S401, the terminal named as the intelligent bookshelf is started, the hardware identification code of the electronic class card is 1000006, and the step S402 is switched to.

In step S402, the book management software is started, the software identification code of the software is 3000007, and the process goes to step S403.

In step S403, the smart shelf terminal sends the software id 3000007 of book management and the hardware id 1000006 of the smart shelf to the growth system server, and then the process goes to step S404.

In step S404, the growth system server receives the software identification information and the hardware identification information sent by the smart bookshelf terminal, where the software identification information is a software identification code 3000007, and the hardware identification information is a hardware identification code 1000006, and goes to step S405.

Step S405, the growth system server determines the service software type as book management according to the software identification code 3000007, determines the subject corresponding to the book management software as reading expansion according to the corresponding relation between the software identification information and the scene information shown in the table I, the corresponding school section is a student in a kindergarten, a primary school, a junior middle school and a senior high school, the matched equipment type is a library system, an electronic class card and an intelligent bookshelf, the system attribute is self-research, the number of the related data requirement is Y0007, and the label corresponds to the data format and mandatory field required by the book management; determining that the name of the hardware equipment is a smart bookshelf according to the hardware identification code 1000006, the position of the equipment is a library floor 1, the hardware is configured to be a fingerprint identification device and a face identification device, the state of the equipment is a fault, determining that the equipment is located in a reading space according to the position of the equipment and a table III, the user group number is 3001, the associated user is organized into students in the whole school, the associated equipment is a book borrowing and returning machine and the smart bookshelf, and turning to the step S406.

Step S406, the growth system server determines that the software type sending the identification information is book management and the hardware type is an intelligent bookshelf, judges whether the software and the terminal have an association relationship, learns that the book management and the intelligent bookshelf have the association relationship according to the table I, and goes to step S407.

Step S407, the verification module of the growth system server determines that the equipment state is 'fault', and the growth system server judges that the intelligent bookshelf cannot use the complete function of the book management software, but can still obtain scene information; the growth system server obtains scene information with a scene number of C0007 according to the corresponding relationship between the preset software identification code and the scene information as shown in table one, wherein the scene information includes all reading expansion evaluation tables for the 1 st building of the library, the kindergarten, the primary school, the junior middle school and the high school, the growth system server directly communicates with the terminal according to the system attribute as self-research, and the step S408 is carried out.

Step S408, the growth system server sends the acquired scene information, namely the all reading expansion evaluation scales for the 1 st building of the library, the kindergarten, the primary school, the junior middle school and the high school to the intelligent bookshelf terminal, and the process goes to step S409.

Step S409, the intelligent bookshelf terminal receives the scene information sent by the growth system server and caches the scene information in the local, so that when the campus network environment is unstable, the scene is loaded in the local of the terminal, a user can use related services offline conveniently, when the network is recovered to be normal, growth data filled by the user is transmitted to the growth system server, and the step S410 is carried out.

Step S410, the growth system server obtains information of all users of the students in the college according to the corresponding relationship between the preset software identification code, the preset hardware identification code and the user information, determines to obtain fingerprint identification information and face identification information of the students in the college according to the hardware configuration of the smart bookshelf, and goes to step S411.

In step S411, the growth system server sends the user information and the verification mode of the students in the colleges, that is, the user name, the password and the RFID identification information, to the smart bookshelf terminal, and goes to step S412.

Step S412, the electronic class board terminal caches the user information and the verification mode of the students in the whole school locally, so that the students log in and verify the identity information offline under the condition that the network is unstable, relevant services are used, when the network is recovered to be normal, the user input information is transmitted to the growth system server, and the process goes to step S413.

Step S413, the device is successfully started, the terminal communicates with the service server, the growth system server sends a fault prompt to the smart bookshelf terminal, the book management software of the smart bookshelf prompts the user that some functions in use are affected, and the scene information that is not affected is normally loaded, the book management software normally collects growth data according to the uniform student user identification code, and transmits the growth data to the growth system server in real time or in a delayed manner.

EXAMPLE five

In step S501, the growth system server receives growth data returned by the german rearing management software with the software identification code of 3000003, the growth data is data filled by the user according to the scene information sent to the terminal by the server, the growth data is the german rearing comment and the german rearing comment related paragraph filled by the teacher, and the process goes to step S502.

Step S502, the growth system server determines that the scene number of the scene is C0003 according to the corresponding relation between the software identification code 3000003 and the first table, the scene display data corresponding to the scene number is the name of a student, the class of the student, the data to be acquired are the German birth comment, the relevant paragraph of the German birth comment and the evaluation relevant activity, the data requirement number is Y0003, the data requirement number requires that the format of the data of the German birth comment is a character string, the data format of the relevant paragraph of the comment and the evaluation activity is a label, and the mandatory field is the relevant paragraph of the German birth comment and the relevant paragraph of the German birth comment, and the step S503 is switched.

Step S503, the growth system server verifying module verifies the reliability of the growth data, and judges whether the growth data meets the requirements of the scene information data, the growth data sent by the terminal has missing data of the related academic paragraph of the German education comment, the verifying module judges that the growth data does not meet the requirements of the scene information data, the growth system server does not record the data which does not meet the corresponding relation relevant to judgment, and the step S504 is carried out.

Step S504, the growth system server sends a prompt to the terminal, prompting that growth data needs to be rewritten, the reason field is missing, prompting the name of the specific missing field, and the step S505 is switched to.

And step S505, the terminal receives the prompt of the growth system server, the terminal prompts the teacher that the growth data is missing, the teacher is required to refill the growth data, the refill data is cached in the terminal, the teacher only needs to refill missing fields, and the step S506 is switched to.

Step S506, the growth system server sends error-reporting prompt information to maintenance personnel to prompt the maintenance personnel to optimize user experience.

EXAMPLE six

In step S601, the growth system server receives growth data sent back by the classroom review software with the software identification code of 3000002, and the growth data is an attendance management table, and the process goes to step S602.

Step S602, the growth system server determines that the scene number of the scene is C0002 according to the corresponding relation between the software identification code 3000002 and the table I, the scene display data corresponding to the scene number is the name of the student and the class of the student, the data to be acquired is the classroom review, the associated subject and the course time, the data requirement number is Y0002, the data requirement number requires that the classroom review data format is a character string, the data format of the associated subject is a label, the data format of the course time is time, and the mandatory field is the classroom review and the associated subject, and the step S603 is switched to.

Step S603, the growth system server verification module performs reliability verification on the growth data, and determines whether the growth data meets the requirements of the scene information data, and if the attendance management table is not matched with the scene number C0002 in the growth data sent by the terminal, the growth system server rejects to record the corresponding relationship data which is not matched with the judgment, and then the process goes to step S604.

Step S604, the growth system server sends a prompt to the terminal, prompting that the growth data transmission does not conform to the corresponding relationship related to the determination, and the reason growth data does not match the scene information, and then the process goes to step S605.

Step S605, the terminal receives the growth data prompt sent by the growth system server refusing to record, the terminal stores the corresponding relation data which is not qualified to judge and sends the prompt to the user for prompt processing, and the step S606 is switched.

Step S606, the growth system server sends error-reporting prompt information to maintenance personnel, and the maintenance personnel are prompted to optimize user experience.

EXAMPLE seven

Step S701, the entrance guard equipment is started, the hardware identification code of the entrance guard equipment terminal is 1000009, and the step S702 is switched to.

Step S702, the entrance guard attendance software is started, the software identification code is 3000004, and the step S703 is switched to.

In step S703, the access control device terminal sends the software identifier 3000004 of the access control attendance and the hardware identifier 1000009 of the access control device to the third-party service system server (i.e., the second server), and goes to step S704.

In step S704, the third party service system server sends the server software identification code to the growth system server, and then goes to step S705.

Step S705, the growth system server receives server software identification information sent by a third-party service system server, the server software identification information is a server software identification code, the growth system server acquires preset safety verification information, whether the third-party service system server passes the safety verification or not is judged according to the corresponding relation between the safety verification information and the server software identification information, and if the third-party service system server passes the safety verification, the step S707 is switched to; if the security authentication is not passed, the process goes to step S706.

Step S706, the growth system server judges that the third-party service system server fails the security verification, sends an access denial prompt to the third-party service system server, and the third-party service system server sends the access denial prompt to the access control device.

In step S707, the third-party service system server sends the software identifier 3000004 of the access attendance and the hardware identifier 1000009 of the access device to the growth system server, and the process goes to step S708.

In step S708, the growth system server receives the software identification information and the hardware identification information sent by the third-party service system, where the software identification information is the software identification code 3000005, and the hardware identification information is the hardware identification code 1000001, and then the process goes to step S709.

Step S709, the verification module of the growth system server determines that the software type is access control attendance and the hardware type is attendance equipment, judges whether the software and the terminal have an association relationship, and turns to step S708 if the access control attendance and the attendance equipment have an association relationship according to the relationship corresponding to the table I; if the software and the terminal do not have the association relationship, go to step S710.

Step S710, the growth system server sends an error report result to the third-party service system.

Step S711, the growth system server determines that the service software type is access control attendance according to the software identification code, determines that the school section corresponding to the access control attendance is students in primary schools, junior high schools and high schools according to the corresponding relation between the software identification information and the scene information shown in the table I, the matched equipment type is access control equipment without corresponding subjects, the system attribute is a third party, the serial number required by the relevant data is Y0005, and the serial number corresponds to the data format and mandatory field required by the access control attendance data; as shown in table two, the growth system server determines that the name of the hardware device is an access control device according to the hardware identification code 1000009, the device location is a school gate, the hardware is configured as an RFID recognition device, a fingerprint recognition device, and a face recognition device, the device status is an active status, and according to the device location and the table three, it can be determined that the device is located in a specific area, the user group number is 0001, there is no associated user organization, and the associated terminal device is an access control device, and the process goes to step S712.

Step S712, the growth system server obtains scene information with scene number C0004 according to the corresponding relationship between the preset software identification code and the scene information as shown in table one, where the scene information includes all attendance meters for the primary school, junior middle school, and high school students, and the growth system server communicates with the third-party service system server according to the system attribute as the third party, and then the process goes to step S713.

Step S713, the growth system server sends the acquired scene information, namely all the attendance meters for the primary school students, the junior high school students and the high school students to the third-party service system server, and the process goes to step S714.

In step S714, the third-party service system server receives the scene information sent by the growth system server, converts the received scene information according to the requirements of the service system, and forwards the scene information to the third-party service system terminal, i.e., the access control device terminal, and then goes to step S715.

Step S715, the growth system server obtains attendance related information of the primary school, junior middle school, and high school users according to a preset correspondence between the software identification code, the hardware identification code, and the user information, obtains verification mode related information according to the hardware configuration of the access control device, determines to obtain RFID identification information, fingerprint identification information, and face identification information of the primary school, junior middle school, and high school users, and proceeds to step S716.

In step S716, the growth system server sends the attendance related information and verification mode of the primary school user, the junior middle school user, and the senior high school user to the third party service system server, and then the process goes to step S717.

In step S717, the third-party service system server sends the attendance related information and the verification mode of the primary school user, the junior high school user, and the high school user to the access control device terminal, and the process goes to step S718.

Step S718, the entrance guard equipment is started successfully, the entrance guard equipment terminal communicates with a third-party service server to maintain normal operation of the service, the third-party service server communicates with a growth system server to record student growth data in real time or in a delayed manner according to the uniform student user identification codes to generate entrance guard attendance growth data, the entrance guard attendance growth data are transmitted to the growth system server in real time or in a delayed manner, and the step S719 is carried out.

In step S719, the growth system server receives growth data sent back by the entrance guard attendance software with the software identification code of 3000004, and the growth data is user attendance data acquired by the entrance guard attendance according to the scene information, and the process goes to step S720.

Step S720, the growth system server determines, according to the correspondence between the software identification code 3000004 and the table one, that the scene number of the scene is C0004, the scene display data corresponding to the scene number is the name of the student, the class of the student, and the data to be acquired is the attendance time, and then the process goes to step S721.

Step S721, the growth system server verification module performs reliability verification on the growth data, and determines whether the growth data meets the requirements of the scene information data, and if the data type or data content verification of the growth data of the received attendance time does not meet the corresponding relationship related to the determination, the terminal proceeds to step S722 in the growth data sent by the terminal; if the data verification conforms to the relevant correspondence, go to step S723.

In step S722, the growth system server sends a record growth data rejection prompt to the third-party service system server, and the third-party service system server sends a record growth data rejection prompt to the access control device, and the process goes to step S724.

And step S723, the growth system server records the access control attendance data and sends a data storage success prompt to a third-party service system server.

Step S724, the growth system server sends an error notification message to the maintainer, and the maintainer is prompted to optimize the user experience.

Example eight

As shown in fig. 1, the growth recording server (first server) includes:

the receiving module is used for receiving the identification information sent by the terminal or the server;

the management configuration module is used for adjusting the corresponding relation between configuration data and preset information, wherein the configuration data comprises scene information, user information, software identification information, hardware identification information and growth data attributes; the information correspondence includes, but is not limited to, correspondence between scene information and identification information, user information, and identification information;

the searching module is used for searching the scene information corresponding to the identification information according to the corresponding relation between the preset scene information and the identification information, and searching the user information corresponding to the identification information according to the corresponding relation between the preset user information and the identification information;

the sending module is used for sending the scene information to the terminal or the server and sending the user information to the terminal or the server;

the identification information comprises software identification information, hardware identification information and server software identification information;

and the verification module is used for verifying safety, verifying the corresponding relation or incidence relation between the terminal or the server and the service software and judging whether the terminal or the server is allowed to write data into the growth system or not, and judging whether the corresponding relation between the scene information and one or more of the server software identification information, the growth data and the mandatory field exists or not and whether the transmission data between the server and the terminal or the server does not accord with the corresponding relation related to judgment or not, and the corresponding relation needs to be corrected or re-filled.

As shown in fig. 1, the service system 1 is a self-research service system, the third-party service system 2 is a third-party service system, and for the self-research service system, the service system terminal 1 directly communicates with a growth record server (i.e., a first server) to receive or send data; for the third-party service system, in order to facilitate data unification, a third-party service system server (also called a second server) communicates with a growth system server (a first server) and exchanges growth data, and if the third-party service system server (the second server) needs to provide personalized loading data for a third-party terminal, the third-party service system determines the growth data. The self-research service system or the third-party service system comprises a server and a service terminal, wherein the server is communicated with the terminal and exchanges data, and the terminal comprises a software part and a hardware part.

The foregoing detailed description of the preferred embodiments of the invention has been presented. It should be understood that numerous modifications and variations could be devised by those skilled in the art in light of the present teachings without departing from the inventive concepts. Therefore, the technical solutions available to those skilled in the art through logic analysis, reasoning and limited experiments based on the prior art according to the concept of the present invention should be within the scope of protection defined by the claims.

Claims (23)

1. A method for using a multi-scenario student growth system is characterized by comprising the following steps:

the method comprises the steps that a first server receives software identification information sent by a terminal;

the first server searches for scene information corresponding to the software identification information according to a corresponding relation between preset scene information and the software identification information;

and the first server sends the scene information or the prompt to the terminal.

2. The method as claimed in claim 1, wherein the step of finding the scene information corresponding to the software identification information by the first server according to a preset correspondence between the scene information and the software identification information includes:

the first server determines the software type of sending the software identification information;

the first server acquires one or more pieces of scene information corresponding to the software identification information according to the corresponding relationship between the preset scene information and the software identification information under the software type.

3. The method of claim 1, further comprising:

the method comprises the steps that a first server receives hardware identification information sent by a terminal;

the first server searches for scene information corresponding to the hardware identification information according to a corresponding relation between preset scene information and the hardware identification information;

the first server transmits the scene information to the terminal.

4. The method as claimed in claim 3, wherein the step of the first server searching for the scene information corresponding to the hardware identification information according to a preset correspondence between the scene information and the hardware identification information specifically includes:

the first server acquires the position of a terminal sending hardware identification information;

and the first server acquires the user group identification number of the user terminal according to the position of the terminal and searches the scene information corresponding to the user group identification number.

5. The method as claimed in claim 3, wherein the step of the first server searching for the scene information corresponding to the hardware identification information according to a preset correspondence between the scene information and the hardware identification information specifically includes:

the first server acquires hardware configuration of a terminal sending hardware identification information;

and the first server searches the scene information matched with the hardware configuration according to the hardware configuration of the terminal.

6. The method as claimed in claim 3, wherein the step of the first server searching for the scene information corresponding to the hardware identification information according to a preset correspondence between the scene information and the hardware identification information specifically includes:

the first server determines the state of the terminal equipment which sends the hardware identification information;

and the first server determines the running state of the terminal equipment, and if the terminal equipment is not activated, the first server sends a prompt to the terminal.

7. The method of claim 1, further comprising:

the first server determines the software type of sending the software identification information;

the first server receives hardware identification information sent by a terminal and acquires the hardware type of the terminal;

the first server acquires an incidence relation between a preset software type and a preset hardware type, judges whether the incidence relation exists between software and the terminal, and sends scene information to the terminal if the incidence relation exists; and if the association does not exist, the first server refuses to send the scene information.

8. The method of claim 1, further comprising:

the first server searches user information corresponding to the software identification information according to a preset corresponding relation between the user information and the software identification information;

and the first server sends the user information to the terminal.

9. The method as claimed in claim 8, wherein the step of the first server searching for the user information corresponding to the software identification information according to a preset correspondence between the user information and the software identification information includes:

the first server determines the software type of sending the software identification information;

and the first server acquires the user information corresponding to the software identification information according to the corresponding relation between the user information and the software identification information preset under the software type.

10. The method of claim 8, further comprising:

the method comprises the steps that a first server receives hardware identification information sent by a terminal;

the first server searches user information corresponding to the hardware identification information according to a preset corresponding relation between the user information and the hardware identification information;

and the first server sends the user information to the terminal.

11. The method as claimed in claim 10, wherein the step of the first server searching for the user information corresponding to the hardware identification information according to a preset correspondence between the user information and the hardware identification information includes:

the first server acquires the position of a terminal sending hardware identification information;

and the first server acquires the user group identification number of the user terminal according to the position of the terminal, searches the user group corresponding to the user group identification number and acquires user information according to the user group.

12. The method as claimed in any one of claims 1 to 7, wherein the terminal receives and caches the scene information at the terminal.

13. The method as claimed in any one of claims 8 to 11, wherein the terminal receives the user information and caches the scene information and the user information in the terminal.

14. The method as claimed in claim 1, further comprising the step of receiving, by the first server, growth data sent by the terminal, wherein the growth data includes data obtained by the terminal according to the scenario information; the first server acquires a preset scene information data requirement, judges whether the growth data meet the scene information data requirement, and sends a data requirement verification non-compliance prompt to the terminal if the growth data do not meet the scene information data requirement.

15. The method as claimed in claim 14, wherein the first server refuses to record the growth data sent by the terminal and sends a prompt to refill the growth data to the terminal.

16. The method of claim 1, further comprising:

the first server receives growth data sent by the terminal;

the first server judges whether the received growth data conforms to the corresponding relation related to judgment according to the corresponding relation between the preset scene information and the growth data: and if the received growth data do not accord with the corresponding relation related to judgment, the first server sends a prompt that the growth data do not accord with the corresponding relation related to judgment to the terminal and refuses to record the growth data, and if the received growth data accord with the corresponding relation related to judgment, the growth data are recorded in the first server.

17. The method of claim 1, further comprising:

the software identification information sent by the terminal and received by the first server is forwarded through the second server;

the first server acquires server software identification information of a second server;

and the first server acquires preset safety verification information and judges whether the second server passes the safety verification or not according to the corresponding relation between the safety verification information and the server software identification information.

18. The method of claim 17, wherein the multi-scenario student growth system,

the second server passes the safety verification, and the first server searches the scene information corresponding to the server software identification information according to the corresponding relation between the preset scene information and the server software identification information;

the first server sends the scene information to the second server;

and the second server sends the scene information to the terminal.

19. The method of claim 17, wherein the multi-scenario student growth system,

and the second server fails to pass the security verification, the first server sends an access denial prompt to the second server, and the second server sends the access denial prompt to the terminal.

20. The method of claim 18, wherein the student growth system is a multi-scenario system,

the first server receives the growth data sent by the second server;

the first server judges whether the received growth data conforms to the corresponding relation related to judgment according to the corresponding relation between the preset scene information and the growth data: and if the received growth data do not accord with the corresponding relation related to judgment, the first server sends a prompt that the growth data do not accord with the judgment to the second server and refuses to record the growth data, and if the received growth data accord with the corresponding relation related to judgment, the growth data are recorded in the first server.

21. A server of a multi-scenario student growth system, comprising:

the receiving module is used for receiving the identification information sent by the terminal or the second server;

the management configuration module is used for adjusting the corresponding relation between configuration data and preset information, wherein the configuration data comprises scene information, user information, identification information and growth data attributes; the information correspondence includes, but is not limited to, correspondence between scene information and identification information, user information and identification information;

the searching module is used for searching the scene information corresponding to the identification information according to the corresponding relation between the preset scene information and the identification information;

the sending module is used for sending the scene information to the terminal or the server;

the identification information comprises software identification information, hardware identification information and server software identification information.

22. The server according to claim 21, wherein the search module is further configured to search for the user information corresponding to the identification information according to a preset correspondence between the user information and the identification information; the sending module is further configured to send the user information to the terminal or the server.

23. The server according to claim 21, further comprising a verification module for performing a security verification or determining whether one or more corresponding relationships among the scene information, the identification information, and the data attributes included in the growth data satisfy a preset configuration.

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