CN114444631A - Warehouse archive asset management method and system based on RFID and Internet of things technology - Google Patents

Abstract

The application relates to a warehouse archive asset management method and system based on RFID and Internet of things technology, wherein the method comprises the steps of associating an RFID identifier of each archive asset with a monitoring terminal for monitoring the abnormal state of the archive asset; when receiving abnormal data sent by the monitoring terminal, sending a starting instruction to the RFID label; the RFID identification sends a positioning message to the RFID reader-writer after receiving the starting instruction so as to enable the RFID reader-writer to forward the starting instruction; when positioning information forwarded by the RFID reader-writer is received, warning information is generated; and packaging and sending the warning information and the positioning information to a user terminal used for binding with monitoring personnel. The file asset monitoring management system has the advantages that abnormal information can be timely obtained when abnormal conditions occur in file assets, and then abnormal states of the file assets can be timely monitored and managed, and the efficiency of file asset monitoring management and utilization is improved.

Description

Warehouse archive asset management method and system based on RFID and Internet of things technology

Technical Field

The application relates to the technical field of RFID measurement and control, in particular to a warehouse archive asset management method and system based on RFID and Internet of things technology.

Background

The RFID is radio frequency identification, and the principle thereof is that data communication is performed between a reader and a tag in a non-contact manner to achieve the purpose of identifying a target, but in the aspect of asset management, the RFID technology is generally used to track the position and the state of an asset, so as to achieve the purpose of monitoring the flows of asset newly-added warehousing, asset renting and lending, asset operation, asset maintenance, asset scrapping and the like.

Disclosure of Invention

In order to timely acquire abnormal information when the archive assets are in abnormal conditions and further timely monitor and manage abnormal states of the archive assets, and improve the efficiency of archive asset monitoring, management and utilization, the application provides a warehouse archive asset management method and system based on RFID and Internet of things technology.

The above object of the present invention is achieved by the following technical solutions:

a warehouse archive asset management method based on RFID and Internet of things technology comprises the following steps:

associating the RFID identification of each archival asset with a monitoring terminal for monitoring the asset abnormal state;

when receiving abnormal data sent by the monitoring terminal, sending a starting instruction to the RFID label;

the RFID identification sends a positioning message to the RFID reader-writer after receiving the starting instruction so as to enable the RFID reader-writer to forward the starting instruction;

when positioning information forwarded by the RFID reader-writer is received, warning information is generated;

and packaging and sending the warning information and the positioning information to a user terminal used for binding with monitoring personnel.

By adopting the technical scheme, the RFID identification is associated with the monitoring terminal to realize data feedback, when the monitoring terminal finds that the archive assets are abnormally represented, abnormal data are generated and sent to the background server, the background server responds and controls the RFID identification to send positioning information to the RFID reader-writer, the RFID reader-writer obtains the position of the archive assets, sends the positioning information to the background server to generate warning information and sends the warning information and the positioning information to the user terminal controlled by a monitoring person, the monitoring person can timely know which archive assets are abnormally represented, and can timely control or go to the archive assets to be maintained through the positioning information, therefore, on the premise that the RFID identification monitors the movement and the position of the archive assets, the RFID identification is associated with the monitoring terminal to realize the monitoring of the whole life cycle of the archive assets, and further, the abnormal states of the archive assets can be monitored and managed in time, the efficiency of archive asset monitoring management and utilization is improved.

The present application may be further configured in a preferred example to: after the step of packaging and sending the warning information and the positioning information to the user terminal bound with the monitoring personnel, the method further comprises the following steps:

based on the warning message, when a field warning request sent by a user terminal is received, a warning instruction is generated;

sending the warning instruction to the monitoring terminal;

and the monitoring terminal sends out a warning signal when receiving the warning instruction.

By adopting the technical scheme, when the driving control personnel of the user terminal receives the warning information, the driving control personnel send a field warning request to the background server to produce a warning instruction, and the warning instruction is sent to the monitoring terminal to enable the monitoring terminal to send a warning signal to remind workers on the filed of the archival assets, so that the archival assets which are abnormal frequently are found by the workers on the filed more easily, and the archival assets can be maintained in time for remote archival assets.

The present application may be further configured in a preferred example to: after the step of sending the warning instruction to the monitoring terminal, the method further comprises the following steps:

the warning information, the warning instruction, the mobile information and the RFID identification which sends out the positioning information are associated to generate historical data, and the historical data are stored;

when an identification retrieval instruction input by a user terminal is received, the RFID reader-writer acquires an RFID identification based on the identification retrieval instruction;

and sending the historical data corresponding to the RFID identification to the user terminal based on the RFID identification.

By adopting the technical scheme, the mobile information, the warning information and the warning instruction of the archive asset are all associated by the RFID identifier and stored in the system, when monitoring personnel of the user terminal check the information of any archive asset, the historical mobile state information of the archive asset can be obtained, if the archive asset is abnormal, the monitoring personnel can obtain the warning information of the archive asset, the abnormal condition of the archive asset can be obtained from the warning information, and whether the monitoring personnel have processed the abnormal condition or not can be obtained from the generated warning instruction, so that the traceability can be realized.

The present application may be further configured in a preferred example to: when positioning information forwarded by the RFID reader-writer is received, a step of generating warning information comprises the following steps:

when positioning information forwarded by the RFID reader-writer is received, acquiring abnormal type information from the monitoring terminal;

inputting the abnormal type information into a matching model preset with matching rules to generate a matching result;

and generating warning information matched with the abnormal type information based on the judgment result.

By adopting the technical scheme, the monitoring terminal bound to the archive asset monitors multiple aspects of the archive asset, such as temperature, humidity and the like, when the RFID reader-writer forwards the positioning information of the archive asset to the background server, the background server acquires the abnormal type information from the monitoring terminal, inputs the abnormal type information into the matching model, and obtains the warning information corresponding to the abnormal type, so that the warning information received by the user terminal is more specific and accurate, and the monitoring personnel can make maintenance preparation in a targeted manner.

The present application may be further configured in a preferred example to: after the step of generating the warning information matched with the abnormal type information based on the judgment result, the method further comprises the following steps:

acquiring abnormal type information, and screening out scheme data for solving the abnormal type according to a scheme matching strategy;

and transmitting the scheme data to the user terminal.

By adopting the technical scheme, based on the abnormal type information, the scheme data for solving the abnormal type is screened out according to the preset scheme matching strategy, the solved scheme data is sent to the user terminal, and the monitoring personnel can make a decision for solving the abnormal condition in time through the preset abnormal condition handling method, so that the file assets can be maintained in time.

The present application may be further configured in a preferred example to: the method comprises the steps of obtaining abnormal type information, screening out scheme data for solving the abnormal type according to a scheme matching strategy, and further comprises the following steps:

when the acquired abnormal type information comprises two or more than two, acquiring respective measured data based on each abnormal type information;

comparing the actually measured data with preset threshold data of the same type based on a scheme matching strategy to generate a comparison result;

generating a priority list recorded with the display abnormal severity degree based on each comparison result;

entering the plan data into a finite list and sending the priority list to the user terminal.

By adopting the technical scheme, when the obtained abnormal types include two or more than two, the monitoring system compares the measured data of the archival asset with the threshold data, for example, the measured temperature data is compared with the temperature threshold data to obtain a comparison result, the degree of the measured data far away from the threshold data can be obtained from the comparison result, the larger the difference between the measured data and the threshold data is, the more serious the abnormal condition of the archival asset is proved, the priority list is generated based on the severity of each abnormal type, and the monitoring personnel can process the more serious abnormal condition according to the severity limit of the priority list, so that the handling of the abnormal condition of the asset is more reasonable and efficient; the abnormal type comprises two or more conditions, including that one archive asset has a plurality of abnormal conditions at the same time or a plurality of archive assets have abnormal conditions.

The second objective of the present invention is achieved by the following technical solutions:

a storehouse archive asset management system based on RFID and Internet of things technology comprises:

the monitoring binding module is used for associating the RFID identification of each archival asset with a monitoring terminal for monitoring the abnormal state of the asset;

the abnormal starting module is used for sending a starting instruction to the RFID identification when receiving abnormal data sent by the monitoring terminal;

the starting forwarding module is used for sending a positioning message to the RFID reader-writer after the RFID identification receives the starting instruction so as to enable the RFID reader-writer to forward the starting instruction;

the warning generation module is used for generating warning information when the positioning information forwarded by the RFID reader-writer is received;

and the warning sending module is used for packaging and sending the warning information and the positioning information to the user terminal bound with the monitoring personnel.

By adopting the technical scheme, the RFID identification is associated with the monitoring terminal to realize data feedback, when the monitoring terminal finds that the archive assets are abnormally represented, abnormal data are generated and sent to the background server, the background server responds and controls the RFID identification to send positioning information to the RFID reader-writer, the RFID reader-writer obtains the position of the archive assets, sends the positioning information to the background server to generate warning information and sends the warning information and the positioning information to the user terminal controlled by a monitoring person, the monitoring person can timely know which archive assets are abnormally represented, and can timely control or go to the archive assets to be maintained through the positioning information, therefore, on the premise that the RFID identification monitors the movement and the position of the archive assets, the RFID identification is associated with the monitoring terminal, the monitoring of the whole life cycle of the archive assets is realized, and the monitoring of the archive assets is more comprehensive, the efficiency of archive asset monitoring management and utilization is improved.

The present application may be further configured in a preferred example to: further comprising:

the field warning request module is used for generating a warning instruction when receiving a field warning request sent by the user terminal based on the warning message;

the warning instruction sending module is used for sending the warning instruction to the monitoring terminal;

and the warning signal module is used for sending a warning signal when the monitoring terminal receives the warning instruction.

In summary, the present application includes at least one of the following beneficial technical effects:

1. monitoring personnel can timely know which archive asset is in an abnormal state, and can timely control or go to the archive asset for maintenance through the positioning information, so that the RFID identification is associated with the monitoring terminal on the premise that the RFID identification monitors the movement and the position of the archive asset, the full life cycle of the archive asset is monitored, and the efficiency of monitoring, managing and utilizing the archive asset is improved;

2. the warning instruction is sent to the monitoring terminal, so that the monitoring terminal sends a warning signal to remind workers on the file asset site, the file assets which are often abnormal are more easily found by the workers on the site, and the remote file assets can be maintained in time;

3. acquiring historical movement state information of the archive asset, acquiring warning information of the archive asset by monitoring personnel if the archive asset is abnormal, acquiring the abnormal condition of the archive asset from the warning information, acquiring whether the monitoring personnel has processed the abnormal condition or not according to the generated warning instruction, and further tracing responsibility;

4. the background server acquires the abnormal type information from the monitoring terminal, inputs the abnormal type information into the matching model, and acquires the warning information corresponding to the abnormal type, so that the warning information received by the user terminal is more specific and accurate, and the monitoring personnel can make maintenance preparation in a targeted manner.

Drawings

FIG. 1 is a flow chart of an embodiment of a warehouse archive asset management method based on RFID and Internet of things technology;

FIG. 2 is a flow chart of an implementation in another embodiment of the present application;

FIG. 3 is a flow chart of an implementation in another embodiment of the present application;

FIG. 4 is a flow chart of an implementation in another embodiment of the present application;

FIG. 5 is a flow chart of an implementation in another embodiment of the present application;

fig. 6 is a schematic block diagram of a warehouse archive asset management system based on RFID and internet of things technology according to the present application.

Detailed Description

The present application is described in further detail below with reference to figures 1-6.

In an embodiment, as shown in fig. 1, the application discloses a repository archive asset management method based on RFID and internet of things technology, which specifically includes the following steps:

s10: associating the RFID identification of each archival asset with a monitoring terminal for monitoring the asset abnormal state;

in this embodiment, the RFID tags on the plurality of archive assets are matched with one RFID reader, the monitoring terminal employs multiple types of sensors, such as a temperature sensor for detecting the archive assets, a humidity sensor for detecting the ambient humidity, and the like, and the sensors of the multiple different types are all in communication connection with the background server to transmit detected data.

Specifically, the RFID identification of each archival asset is bound to a monitoring terminal, namely the RFID representation is in communication connection with the sensors for monitoring the archival assets.

S20: when receiving abnormal data sent by the monitoring terminal, sending a starting instruction to the RFID label;

in this embodiment, the abnormal data refers to data that exceeds a detection standard and is monitored by a sensor, the standard data is preset in the sensor, and when the detected data exceeds a standard interval, for example, data with too high temperature, too low temperature, too high humidity, and the like, the start instruction refers to an instruction for controlling the RFID tag to send out self-positioning information.

Specifically, when receiving abnormal data sent by the monitoring terminal, a starting instruction is generated and sent to the RFID tag, so that the RFID tag sends self-positioning information.

S30: the RFID identification sends a positioning message to the RFID reader-writer after receiving the starting instruction so as to enable the RFID reader-writer to forward the starting instruction;

in the embodiment, the positioning information can reflect the specific position condition of the archive asset, and the RFID reader is used for reading the positioning information sent by the RFID identification and carrying out data transmission by connecting the RFID with the background server in a communication way.

Specifically, the RFID identification sends a positioning message to the RFID reader-writer after receiving the starting instruction, and the RFID reader-writer reads the specific position of the RFID identification, so as to obtain the position of the archive asset with abnormal conditions, and enable the RFID reader-writer to further forward and inform the positioning message.

S40: when positioning information forwarded by the RFID reader-writer is received, warning information is generated;

in the embodiment, the warning message includes specific abnormal items of the archive asset where the abnormal condition occurs, i.e. the abnormal data detected by the corresponding sensor, and the specific type of the abnormal.

Specifically, the background server generates the warning information when receiving the positioning information about the archive assets forwarded by the RFID reader.

S50: and packaging and sending the warning information and the positioning information to a user terminal used for binding with monitoring personnel.

In this embodiment, the user terminal is a PC terminal or a mobile terminal operated by a monitoring person responsible for monitoring the archive asset.

Specifically, the warning information and the positioning information are packaged and sent to the user terminal.

Furthermore, the user terminal sets sound and light reminding when receiving the warning information and the positioning information, so that monitoring personnel can find the information in time.

In still another embodiment, referring to fig. 2, after step S50, the method further includes the steps of:

s51: based on the warning message, when a field warning request sent by a user terminal is received, a warning instruction is generated;

s52: sending the warning instruction to the monitoring terminal;

s53: and the monitoring terminal sends out a warning signal when receiving the warning instruction.

In this embodiment, the sensors of the monitoring terminal have an acousto-optic holding function, the field warning request refers to a request sent by a monitoring person of the user terminal to request the archive asset to send a warning signal on the field, and the warning instruction is used for controlling the monitoring terminal to send the warning signal.

Specifically, based on the warning message received by the user terminal, a monitoring person controls the user terminal to send a field warning request, the background server generates a warning instruction and sends the warning instruction to the monitoring terminal bound with the abnormal file assets, and a sensor sending abnormal data in the monitoring terminal receives the warning instruction and sends an acousto-optic warning signal based on the acousto-optic warning function of the sensor.

Furthermore, the acousto-optic warning signal can prompt staff on the site of the archive asset or nearby to maintain the asset in time, and the method is suitable for controlling the remote archive asset.

In another embodiment, referring to fig. 3, after step S52, the method further includes the steps of:

s54: the warning information, the warning instruction, the mobile information and the RFID identification which sends out the positioning information are associated to generate historical data, and the historical data are stored;

s55: when an identification retrieval instruction input by a user terminal is received, the RFID reader-writer acquires an RFID identification based on the identification retrieval instruction;

s56: and sending the historical data corresponding to the RFID identification to the user terminal based on the RFID identification.

In this embodiment, the warning information, the warning instruction, and the movement information are stored in a database of the backend server and recorded as historical data, and the retrieval instruction is a retrieval instruction of the RFID tag sent by the monitoring personnel of the user terminal.

Specifically, the RFID identification of each file asset binds warning information, warning instructions and mobile information and stores the warning information, the warning instructions and the mobile information in a database of a background server, when a user terminal inputs an instruction for retrieving the RFID identification through a retrieval port, the mobile information of the file asset corresponding to the RFID identification is sent to the user terminal,

furthermore, if the file asset is abnormal, the corresponding warning information, the warning instruction, the time node corresponding to the warning information and the warning instruction are sent to the user terminal.

Furthermore, whether monitoring personnel feed back or process the warning message or not can be judged through the warning instruction, and the processing time can be judged through the corresponding time node, so that the responsibility of the monitoring personnel can be traced.

In another embodiment, referring to fig. 4, the step of step S40 includes the steps of:

s41: when positioning information forwarded by the RFID reader-writer is received, acquiring abnormal type information from the monitoring terminal;

s42, inputting the abnormal type information into a matching model preset with matching rules to generate a matching result;

s43: and generating warning information matched with the abnormal type information based on the judgment result.

In this embodiment, the anomaly type information refers to a type of an anomaly, such as a temperature anomaly, a humidity anomaly, and the like, the matching model is a trained model for determining the anomaly type, and includes a plurality of types of warning information for different anomaly types, such as temperature warning information and humidity warning information, and the matching rule refers to a rule for matching the anomaly type with the corresponding warning information. The matching result contains the corresponding type of warning information.

Specifically, when positioning information forwarded by the RFID reader-writer is received, the background server actively acquires abnormal type information from a plurality of sensors of the monitoring terminal, inputs the abnormal type information into the matching model, automatically pairs the corresponding types of warning information by the matching rule, and extracts the warning information from the pairing result.

In another embodiment, the step of step S43 is followed by the step of:

s44: acquiring abnormal type information, and screening out scheme data for solving the abnormal type according to a scheme matching strategy;

s45: and transmitting the scheme data to the user terminal.

In the present embodiment, the solution data refers to a solution preset for the corresponding abnormal type to solve the abnormal condition, for example, when the humidity is too high, the solution is to provide a dehumidifying tool for the field maintenance of the archival asset. The matching strategy is recorded with a plurality of coping schemes set for different abnormal conditions.

Specifically, according to the abnormal type information, the scheme matching strategy screens out the corresponding measures matched with the abnormal type, and sends the corresponding measures and tools to the user terminal to remind monitoring personnel.

In another embodiment, referring to fig. 5, the step of step S44 further includes the steps of:

s441: when the acquired abnormal type information comprises two or more than two, acquiring respective measured data based on each abnormal type information;

s442: comparing the actually measured data with preset threshold data of the same type based on a scheme matching strategy to generate a comparison result;

s443: generating a priority list recorded with the display abnormal severity degree based on each comparison result;

s444: entering the plan data into a finite list and sending the priority list to the user terminal.

In this embodiment, the two or more types of exception type information include multiple exception types of the same archive asset and multiple exception types of archive assets; the measured data refers to measured data output by each sensor of the monitoring terminal, for example, temperature data output by a temperature sensor, the threshold data refers to normal monitoring data preset by the sensor, and the comparison result is a difference value between the measured data and the threshold data. The priority list records the scheme data corresponding to the abnormal type information, and arranges the larger difference value between the measured data and the threshold data at the first position of the priority list according to the difference value between the measured data and the threshold data.

Specifically, when the received abnormal type information includes two or more than two, the measured data of each sensor is obtained, the measured data is compared with the threshold value data according to a scheme matching strategy, a comparison result is generated according to a comparison difference result, a priority list is generated on the basis of the comparison result, the scheme data corresponding to each abnormal type information is recorded in the list, and each scheme data and each abnormal type information are arranged according to the sequence that the difference value between the measured data and the threshold value data is large to be small.

Furthermore, the priority list is sent to the user terminal, and a monitoring person of the user terminal can determine which abnormal condition of the archive asset is preferentially processed or the archive asset is preferentially processed according to the priority list.

In one embodiment, when the temperature of the file asset is abnormally increased and is higher than a preset standard value of the temperature sensor, the temperature sensor sends abnormal data to a background server, the background server generates a starting instruction and sends the starting instruction to an RFID (radio frequency identification) identifier bound with the file asset, the RFID identifier sends positioning information representing the position of the file asset to an RFID reader-writer after receiving the starting instruction, the RFID reader-writer sends the positioning information to the background server, the background server obtains abnormal type information from a monitoring terminal after receiving the positioning information, and corresponding warning information and scheme data are matched through a matching model and sent to a user terminal.

The user terminal generates a warning instruction and controls the temperature sensor to send out an acousto-optic warning signal by inputting a field warning request. And the user terminal selects a corresponding tool through the scheme data and goes to the archive asset for maintenance according to the positioning information.

It should be understood that, the sequence numbers of the steps in the foregoing embodiments do not imply an execution sequence, and the execution sequence of each process should be determined by its function and inherent logic, and should not constitute any limitation to the implementation process of the embodiments of the present application.

In an embodiment, a warehouse archive asset management system based on the RFID and the internet of things technology is provided, and the warehouse archive asset management system based on the RFID and the internet of things technology corresponds to the warehouse archive asset management method based on the RFID and the internet of things technology in the above embodiments one to one. As shown in fig. 6, the warehouse archive asset management system based on RFID and internet of things technology includes:

the monitoring binding module is used for associating the RFID identification of each archival asset with a monitoring terminal for monitoring the abnormal state of the asset;

the abnormal starting module is used for sending a starting instruction to the RFID identification when receiving abnormal data sent by the monitoring terminal;

the starting forwarding module is used for sending a positioning message to the RFID reader-writer after the RFID identification receives the starting instruction so as to enable the RFID reader-writer to forward the starting instruction;

the warning generation module is used for generating warning information when the positioning information forwarded by the RFID reader-writer is received;

and the warning sending module is used for packaging and sending the warning information and the positioning information to the user terminal bound with the monitoring personnel.

Optionally, the warehouse archive asset management system based on the RFID and the internet of things further includes:

the field warning request module is used for generating a warning instruction when receiving a field warning request sent by the user terminal based on the warning message;

the warning instruction sending module is used for sending the warning instruction to the monitoring terminal;

and the warning signal module is used for sending a warning signal when the monitoring terminal receives the warning instruction.

Optionally, the warehouse archive asset management system based on the RFID and the internet of things further includes:

the historical data generation module is used for associating the warning information, the warning instruction, the movement information and the RFID identification which sends the positioning information to generate historical data and storing the historical data;

the retrieval module is used for acquiring the RFID identification by the RFID reader-writer based on the identification retrieval instruction when the identification retrieval instruction input by the user terminal is received;

and the historical data sending module is used for sending the historical data corresponding to the RFID identification to the user terminal based on the RFID identification.

Optionally, the alert generating module includes:

the abnormal type acquisition sub-module is used for acquiring abnormal type information from the monitoring terminal when the positioning information forwarded by the RFID reader-writer is received;

the type matching submodule is used for inputting the abnormal type information into a matching model preset with matching rules to generate a matching result;

and the warning information generation submodule is used for generating warning information matched with the abnormal type information based on the judgment result.

Optionally, the alert generating module further includes:

the scheme screening submodule is used for acquiring abnormal type information and screening scheme data for solving the abnormal type according to a scheme matching strategy;

and the scheme sending submodule is used for sending the scheme data to the user terminal.

Optionally, the scheme screening submodule includes:

the measured data acquisition unit is used for acquiring respective measured data based on each abnormal type information when the acquired abnormal type information contains two or more than two;

the data comparison unit is used for comparing the actually measured data with preset threshold data of the same type based on the scheme matching strategy to generate a comparison result;

the list generating unit is used for generating and recording a priority list for showing the abnormal severity degree based on each comparison result;

and the list sending unit is used for recording the scheme data into the limited-level list and sending the priority list to the user terminal.

For specific limitations of the warehouse archive asset management system based on the RFID and the internet of things technology, reference may be made to the above limitations of the warehouse archive asset management method based on the RFID and the internet of things technology, which are not described herein again. All modules in the warehouse archive asset management system based on the RFID and the Internet of things technology can be completely or partially realized through software, hardware and a combination of the software and the hardware. The modules can be embedded in a hardware form or independent from a processor in the computer device, and can also be stored in a memory in the computer device in a software form, so that the processor can call and execute operations corresponding to the modules.

The above-mentioned embodiments are only used for illustrating the technical solutions of the present application, and not for limiting the same; although the present application has been described in detail with reference to the foregoing embodiments, it should be understood by those of ordinary skill in the art that: the technical solutions described in the foregoing embodiments may still be modified, or some technical features may be equivalently replaced; such modifications and substitutions do not substantially depart from the spirit and scope of the embodiments of the present application and are intended to be included within the scope of the present application.

Claims (8)

1. A warehouse archive asset management method based on RFID and Internet of things technology is characterized by comprising the following steps: the method comprises the following steps:

associating the RFID identification of each archival asset with a monitoring terminal for monitoring the abnormal state of the archival asset;

when receiving abnormal data sent by the monitoring terminal, sending a starting instruction to the RFID label;

the RFID identification sends a positioning message to the RFID reader-writer after receiving the starting instruction so as to enable the RFID reader-writer to forward the starting instruction;

when positioning information forwarded by the RFID reader-writer is received, warning information is generated;

and packaging and sending the warning information and the positioning information to a user terminal used for binding with monitoring personnel.

2. The warehouse archive asset management method based on the RFID and the Internet of things technology as claimed in claim 1, wherein: after the step of packaging and sending the warning information and the positioning information to the user terminal bound with the monitoring personnel, the method further comprises the following steps:

based on the warning message, when a field warning request sent by a user terminal is received, a warning instruction is generated;

sending the warning instruction to the monitoring terminal;

and the monitoring terminal sends out a warning signal when receiving the warning instruction.

3. The warehouse archive asset management method based on the RFID and the Internet of things technology as claimed in claim 2, wherein: after the step of sending the warning instruction to the monitoring terminal, the method further comprises the following steps:

the warning information, the warning instruction, the mobile information and the RFID identification which sends out the positioning information are associated to generate historical data, and the historical data are stored;

when an identification retrieval instruction input by a user terminal is received, the RFID reader-writer acquires an RFID identification based on the identification retrieval instruction;

and sending the historical data corresponding to the RFID identification to the user terminal based on the RFID identification.

4. The warehouse archive asset management method based on the RFID and the Internet of things technology as claimed in claim 1, wherein: when positioning information forwarded by the RFID reader-writer is received, a step of generating warning information comprises the following steps:

when positioning information forwarded by the RFID reader-writer is received, acquiring abnormal type information from the monitoring terminal;

inputting the abnormal type information into a matching model preset with matching rules to generate a matching result;

and generating warning information matched with the abnormal type information based on the judgment result.

5. The warehouse archive asset management method based on the RFID and the Internet of things technology as claimed in claim 4, wherein: after the step of generating the warning information matched with the abnormal type information based on the judgment result, the method further comprises the following steps:

acquiring abnormal type information, and screening out scheme data for solving the abnormal type according to a scheme matching strategy;

and transmitting the scheme data to the user terminal.

6. The warehouse archive asset management method based on the RFID and the Internet of things technology as claimed in claim 5, wherein: the method comprises the steps of obtaining abnormal type information, screening out scheme data for solving the abnormal type according to a scheme matching strategy, and further comprises the following steps:

when the acquired abnormal type information comprises two or more than two, acquiring respective measured data based on each abnormal type information;

comparing the actually measured data with preset threshold data of the same type based on a scheme matching strategy to generate a comparison result;

generating a priority list recorded with the display abnormal severity degree based on each comparison result;

entering the plan data into a finite list and sending the priority list to the user terminal.

7. The utility model provides a storehouse archives asset management system based on RFID and internet of things, its characterized in that: the method comprises the following steps:

the monitoring binding module is used for associating the RFID identification of each file asset with a monitoring terminal for monitoring the abnormal state of the file asset;

the abnormal starting module is used for sending a starting instruction to the RFID identification when receiving abnormal data sent by the monitoring terminal;

the starting forwarding module is used for sending a positioning message to the RFID reader-writer after the RFID identification receives the starting instruction so as to enable the RFID reader-writer to forward the starting instruction;

the warning generation module is used for generating warning information when the positioning information forwarded by the RFID reader-writer is received;

and the warning sending module is used for packaging and sending the warning information and the positioning information to the user terminal bound with the monitoring personnel.

8. The warehouse archive asset management system based on the RFID and the Internet of things technology as claimed in claim 7, wherein: further comprising:

the field warning request module is used for generating a warning instruction when receiving a field warning request sent by the user terminal based on the warning message;

the warning instruction sending module is used for sending the warning instruction to the monitoring terminal;

and the warning signal module is used for sending a warning signal when the monitoring terminal receives the warning instruction.

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