CN111340418A - Dangerous goods logistics monitoring method, device and system - Google Patents

Abstract

The application relates to a dangerous goods logistics monitoring method, a dangerous goods logistics monitoring device and a dangerous goods logistics monitoring system, which belong to the technical field of logistics, and the method comprises the following steps: acquiring dangerous goods state parameters acquired by a monitoring sensor, wherein the state parameters comprise: current temperature, current humidity, current vibration condition, current position and current inclination; determining whether the logistics state of the dangerous goods is in an abnormal state or not based on the dangerous goods state parameters; sending abnormal information to a plurality of monitoring ends when the logistics state of the dangerous goods is in an abnormal state; receiving processing information sent by a carrier end; updating the logistics state of the dangerous goods based on the processing information; the problem that the monitored result of the conventional dangerous goods logistics monitoring method is not accurate enough and not timely enough can be solved; due to the fact that the abnormity can be comprehensively considered by combining various state parameters of the dangerous goods, the abnormity in the dangerous goods logistics process can be timely identified and decided, and risks in the dangerous goods transportation logistics process are reduced or eliminated.

Description

Dangerous goods logistics monitoring method, device and system

Technical Field

The application relates to a dangerous goods logistics monitoring method, a dangerous goods logistics monitoring device and a dangerous goods logistics monitoring system, and belongs to the technical field of logistics.

Background

Along with the development of wisdom commodity circulation, the monitoring of hazardous materials commodity circulation can be realized based on wisdom commodity circulation. The intelligent logistics is a technology which improves the analysis decision and intelligent execution capacity of the logistics system and improves the intelligent and automatic level of the whole logistics system through intelligent technologies and means such as intelligent hardware, internet of things and big data.

Present dangerous goods logistics monitoring based on wisdom commodity circulation is realized includes: collecting the temperature and humidity of the dangerous goods; and determining whether the dangerous goods are in an abnormal state or not based on the temperature and humidity data. However, the determination of the physical distribution state of the dangerous goods is not accurate enough only through the temperature and humidity data.

Disclosure of Invention

The application provides a method, a device and a system for monitoring dangerous goods logistics, which can solve the problem that the results monitored by the existing method for monitoring dangerous goods logistics are not accurate enough and not timely enough. The application provides the following technical scheme:

in a first aspect, a method for monitoring a hazardous material logistics is provided, the method comprising:

acquiring dangerous goods state parameters acquired by a monitoring sensor, wherein the state parameters comprise: current temperature, current humidity, current vibration condition, current position and current inclination;

determining whether the logistics state of the dangerous goods is in an abnormal state or not based on the dangerous goods state parameters;

when the logistics state of the dangerous goods is in an abnormal state, sending abnormal information to a plurality of monitoring ends, wherein the abnormal information is used for informing the monitoring ends that the logistics state of the dangerous goods is in the abnormal state and prompting a carrying end to confirm and process the abnormality; the monitoring terminals comprise a delivery terminal, a carrier terminal, a receiving terminal, a management terminal and a customized role terminal;

receiving processing information sent by the carrier end, wherein the processing information comprises a processing result, a processing mode, a processing state, a processing time and a processor;

and updating the logistics state of the dangerous goods based on the processing information.

Optionally, the determining whether the logistics state of the hazardous article is in an abnormal state based on the hazardous article state parameter includes:

comparing the dangerous goods state parameters with corresponding parameter standards;

and determining that the logistics state of the dangerous goods is in an abnormal state when the dangerous goods state parameters do not meet the corresponding parameter standards.

Optionally, before sending the abnormal information to the plurality of monitoring terminals when the logistics state of the hazardous articles is in the abnormal state, the method further includes:

receiving a registration request of a monitoring end, wherein the registration request is used for requesting the authority of monitoring the dangerous goods logistics, and the registration request comprises the authority type requested by the monitoring end;

and registering a corresponding monitoring account for the monitoring terminal based on the registration request, and establishing a corresponding relation between the monitoring account and the authority type.

Optionally, after acquiring the dangerous goods state parameters collected by the monitoring sensor, the method further includes:

acquiring dangerous article order information corresponding to the dangerous articles;

and sending the dangerous goods order information and the dangerous goods state parameters to an appointed monitoring end, wherein the appointed monitoring end is one or more of the delivery end, the carrying end, the receiving end, the management end and the customized role end.

Optionally, the hazardous materials order information includes: order number, goods name, quantity, volume, transport vehicle information and monitoring sensor information; the transport vehicle information comprises a transport vehicle identification, a carrier name and a carrier contact way; the monitoring sensor information includes sensor identification and acquisition time.

Optionally, the method further comprises:

receiving an information query request sent by the monitoring end, wherein the information query request comprises a query keyword, and the information query request is used for requesting dangerous goods logistics information related to the keyword;

searching storage information comprising query keywords in the information query request, and sending the storage information and the dangerous goods logistics information corresponding to the storage information to the monitoring end.

Optionally, the query keyword is a partial character in a sensor identifier of the monitoring sensor; or, the dangerous goods are part of characters in the vehicle identification of the carrier vehicle of the dangerous goods.

Optionally, the updating the logistics state of the hazardous article based on the processing information includes:

and when the processing information indicates that the abnormal processing is completed, the abnormal information is invalid, and the logistics state of the dangerous goods is updated from the abnormal state to the normal state.

In a second aspect, a hazardous materials logistics monitoring device is provided, the device comprising:

the parameter acquisition module is used for acquiring dangerous goods state parameters acquired by the monitoring sensor, and the state parameters comprise: current temperature, current humidity, current vibration condition, current position and current inclination;

the abnormity determining module is used for determining whether the logistics state of the dangerous goods is in an abnormal state or not based on the dangerous goods state parameters;

the abnormal informing module is used for sending abnormal information to a plurality of monitoring ends when the logistics state of the dangerous goods is in an abnormal state, wherein the abnormal information is used for informing the monitoring ends that the logistics state of the dangerous goods is in the abnormal state and prompting a carrying end to confirm and process the abnormality; the monitoring terminals comprise a delivery terminal, a carrier terminal, a receiving terminal, a management terminal and a customized role terminal;

the information receiving module is used for receiving processing information sent by the carrier end, wherein the processing information comprises a processing result, a processing mode, a processing state, a processing duration and a processor;

and the state updating module is used for updating the logistics state of the dangerous goods based on the processing information.

In a third aspect, a dangerous goods logistics monitoring system is provided, the system includes the dangerous goods logistics monitoring device provided in the second aspect, a monitoring sensor and a monitoring end, wherein the monitoring sensor is in communication connection with the dangerous goods logistics monitoring device.

The beneficial effect of this application lies in: through the hazardous articles status parameter that acquires monitoring sensor, status parameter includes: current temperature, current humidity, current vibration condition, current position and current inclination; determining whether the logistics state of the dangerous goods is in an abnormal state or not based on the dangerous goods state parameters; when the logistics state of the dangerous goods is in an abnormal state, abnormal information is sent to a plurality of monitoring ends, the abnormal information is used for informing the monitoring ends that the logistics state of the dangerous goods is in the abnormal state, and prompting a carrying end to confirm and process the abnormality; receiving processing information sent by a carrier end; updating the logistics state of the dangerous goods based on the processing information; the problem that the monitored result of the conventional dangerous goods logistics monitoring method is not accurate enough and not timely enough can be solved; the abnormity can be comprehensively considered by combining various state parameters of the dangerous goods; the abnormity in the dangerous goods logistics process can be identified and decided in time, and the risk in the dangerous goods transportation logistics process is reduced or eliminated.

In addition, when the logistics state of the dangerous goods is in an abnormal state, abnormal information is sent to a plurality of monitoring ends; the plurality of monitoring ends comprise a delivery end, a carrier end, a receiving end, a management end and a customized role end; therefore, the function of reminding the abnormality in multiple ways can be realized, and the efficiency of abnormality processing is improved.

In addition, by receiving an information query request comprising part of characters in the sensor identification or the vehicle identification and determining the dangerous goods logistics information comprising the part of characters based on the part of characters, fuzzy query of orders can be realized, and query efficiency is improved.

The foregoing description is only an overview of the technical solutions of the present application, and in order to make the technical solutions of the present application more clear and clear, and to implement the technical solutions according to the content of the description, the following detailed description is made with reference to the preferred embodiments of the present application and the accompanying drawings.

Drawings

Fig. 1 is a schematic structural diagram of a hazardous material logistics monitoring system provided in an embodiment of the present application;

FIG. 2 is a flow chart of a method for monitoring a hazardous material flow according to an embodiment of the present disclosure;

fig. 3 is a block diagram of a hazardous materials logistics monitoring device provided in an embodiment of the present application.

Detailed Description

The following detailed description of embodiments of the present application will be described in conjunction with the accompanying drawings and examples. The following examples are intended to illustrate the present application but are not intended to limit the scope of the present application.

Fig. 1 is a schematic structural diagram of a hazardous material logistics monitoring system according to an embodiment of the present application, and as shown in fig. 1, the system includes: the monitoring device 11 for the dangerous goods logistics, and a monitoring sensor 12 and a monitoring end 13 which are in communication connection with the monitoring device 11 for the dangerous goods logistics.

Alternatively, the hazardous material logistics monitoring device 11 can be an electronic device with processing capability, such as a computer, a mobile phone, a tablet computer, or a server.

In one example, the monitoring sensor 12 is communicatively connected to the hazardous material logistics monitoring device 11 through a gateway. The monitoring sensor 12 is in communication connection with the gateway based on bluetooth technology, and the gateway is in communication connection with the hazardous material logistics monitoring device 11 based on a wireless transmission protocol (such as General Packet Radio Service (GPRS)).

Optionally, the monitoring sensor 12 is used to collect status parameters of the hazardous material. Wherein the state parameters include: current temperature, current humidity, current vibration condition, current position, and current inclination. The types of the monitoring sensor 12 include various types, such as: the temperature sensor is used for collecting the current temperature, the humidity sensor is used for collecting the current humidity, the positioning sensor is used for collecting the current position, and the inclination angle sensor is used for collecting the current inclination.

It should be added that the monitoring sensor 12 is mounted on the dangerous goods, not in the carriage for transporting the dangerous goods, so that the accuracy of the state parameters acquired by the monitoring sensor 12 can be improved.

The monitoring end 13 comprises a delivery end, a carrier end, a receiving end, a management end and a customized role end. Each monitoring terminal 13 may be an electronic device based on a computer, a mobile phone, a tablet device, a wearable device, or the like, and the type of the monitoring terminal 13 is not limited in this application.

The delivery end refers to electronic equipment used by a delivery person of the dangerous goods; the carrier refers to an electronic device used by a dangerous goods transport person (or an enterprise); the receiving end refers to electronic equipment used by dangerous goods transport personnel (or enterprises); the management end is electronic equipment used by personnel managing the dangerous goods logistics monitoring device; the customized role terminal refers to electronic equipment used by other people who need to access the hazardous material logistics monitoring device 11, such as: government, public security, insurance companies, etc.

In this application, hazardous articles logistics monitoring devices 11 are used for: acquiring dangerous goods state parameters acquired by a monitoring sensor, wherein the state parameters comprise: current temperature, current humidity, current vibration condition, current position and current inclination; determining whether the logistics state of the dangerous goods is in an abnormal state or not based on the dangerous goods state parameters; when the logistics state of the dangerous goods is in an abnormal state, abnormal information is sent to a plurality of monitoring ends, the abnormal information is used for informing the monitoring ends that the logistics state of the dangerous goods is in the abnormal state, and prompting a carrying end to confirm and process the abnormality; the monitoring terminals comprise a delivery terminal, a carrier terminal, a receiving terminal, a management terminal and a customized role terminal; receiving processing information sent by a carrier end, wherein the processing information comprises a processing result, a processing mode, a processing state, processing time and a processor; and updating the logistics state of the dangerous goods based on the processing information.

Since the dangerous goods logistics monitoring device 11 comprehensively considers whether the logistics state of the dangerous goods is in an abnormal state or not in combination with the current temperature, the current humidity, the current vibration condition, the current position and the current inclination of the dangerous goods, the accuracy of determining the abnormal state can be improved.

In addition, by sending the abnormal state to a plurality of processing terminals, for example: the delivery end, the carrier end, the receiving end, the management end and the customized role end can realize the function of reminding abnormality in many ways and improve the efficiency of abnormality processing.

In addition, the carrier is prompted to confirm and process the abnormity, and the abnormal processing and ending process is tracked and managed, so that the timeliness of abnormity management can be ensured.

Fig. 2 is a flowchart of a method for monitoring hazardous material logistics according to an embodiment of the present application, which is described in this embodiment by taking the method as an example for being used in the hazardous material logistics monitoring device 11 shown in fig. 1, and the method at least includes the following steps:

step 201, obtaining dangerous goods state parameters collected by a monitoring sensor, wherein the state parameters include: current temperature, current humidity, current vibration condition, current position, and current inclination.

And step 202, determining whether the logistics state of the dangerous goods is in an abnormal state or not based on the dangerous goods state parameters.

Comparing the dangerous goods state parameters with corresponding parameter standards; and determining that the logistics state of the dangerous goods is in an abnormal state when the dangerous goods state parameters do not meet the corresponding parameter standards.

Such as: comparing the current temperature with a temperature parameter standard; and determining that the logistics state of the dangerous goods is in an abnormal state when the current temperature is greater than or less than the temperature parameter standard. Wherein the temperature parameter criterion may be a value; or may be a range, and the present embodiment does not limit the setting manner of the temperature parameter standard. Of course, the humidity parameter criterion, the vibration parameter criterion and the inclination parameter criterion may be one value; or may be a range, and the present embodiment does not limit the setting manner of each parameter standard

For another example: the location parameter criteria are used to indicate a standard transportation path. At the moment, comparing the current position with a standard transportation path indicated by the position parameter standard; and when the current position is not on the standard transportation path, determining that the logistics state of the dangerous goods is in an abnormal state.

Optionally, step 203 is executed when the logistics state of the dangerous goods is in an abnormal state; step 201 is executed again when the logistics state of the dangerous goods is not in an abnormal state.

Step 203, sending abnormal information to a plurality of monitoring ends when the logistics state of the dangerous goods is in an abnormal state, wherein the abnormal information is used for informing the monitoring ends that the logistics state of the dangerous goods is in the abnormal state and prompting a carrying end to confirm and process the abnormality; the monitoring terminals comprise a delivery terminal, a carrier terminal, a receiving terminal, a management terminal and a customized role terminal.

Optionally, before sending the abnormal information to the multiple monitoring terminals, receiving a registration request of the monitoring terminals, where the registration request is used to request the authority for monitoring the logistics of the hazardous materials, and the registration request includes the authority type requested by the monitoring terminals; and registering the corresponding monitoring account for the monitoring terminal based on the registration request, and establishing a corresponding relation between the monitoring account and the authority type. In addition, the dangerous goods state parameters are also stored in the corresponding relation.

And step 204, receiving processing information sent by the carrier, wherein the processing information comprises a processing result, a processing mode, a processing state, a processing time and a processor.

And step 205, updating the logistics state of the dangerous goods based on the processing information.

Optionally, updating the logistics state of the hazardous articles based on the processing information comprises: and when the processing information indicates that the exception processing is completed, disabling the exception information and updating the logistics state of the dangerous goods from the exception state to the normal state.

Invalidating exception information, comprising: and sending an abnormal failure notice to the plurality of monitoring ends, wherein the abnormal failure notice is used for notifying that the corresponding monitoring ends are abnormal and failed.

Optionally, after step 201, the hazardous material logistics monitoring device is further configured to obtain hazardous material order information corresponding to the hazardous material; and sending the dangerous goods order information and the dangerous goods state parameters to an appointed monitoring end, wherein the appointed monitoring end is one or more of a delivery end, a carrying end, a receiving end, a management end and a customized role end.

Because the information that different monitoring terminals need to check may be different, in this embodiment, the hazardous article order information and the hazardous article state parameter may be sent to the designated monitoring terminal (i.e., the monitoring terminal that needs to check), thereby avoiding wasting communication resources.

Wherein, hazardous articles order information includes: order number, goods name, quantity, volume, transport vehicle information and monitoring sensor information; the transport vehicle information comprises a transport vehicle identifier, a carrier name and a carrier contact way; the monitoring sensor information includes sensor identification and acquisition time.

And dangerous goods order information is stored in the corresponding relation, and the dangerous goods order information is initiated by the receiving end and is established by the dangerous goods logistics monitoring device after being confirmed by the delivery end.

Optionally, the dangerous goods logistics monitoring device is further configured to receive an information query request sent by the monitoring end; searching storage information comprising query keywords in the information query request, and sending the storage information and dangerous goods logistics information corresponding to the storage information to a monitoring end. The information query request comprises a query keyword, and the information query request is used for requesting dangerous goods logistics information related to the keyword.

The query keywords are partial characters in the sensor identification of the monitoring sensor; or, a partial character in the vehicle identification of the carrier vehicle for the hazardous material. In other words, the hazardous material logistics monitoring device supports fuzzy search.

To sum up, the hazardous material logistics monitoring method provided by the application comprises the following steps of acquiring the hazardous material state parameters collected by the monitoring sensor, wherein the state parameters comprise: current temperature, current humidity, current vibration condition, current position and current inclination; determining whether the logistics state of the dangerous goods is in an abnormal state or not based on the dangerous goods state parameters; when the logistics state of the dangerous goods is in an abnormal state, abnormal information is sent to a plurality of monitoring ends, the abnormal information is used for informing the monitoring ends that the logistics state of the dangerous goods is in the abnormal state, and prompting a carrying end to confirm and process the abnormality; receiving processing information sent by a carrier end; updating the logistics state of the dangerous goods based on the processing information; (ii) a The problem that the monitored result of the conventional dangerous goods logistics monitoring method is not accurate enough and not timely enough can be solved; the abnormity can be comprehensively considered by combining various state parameters of the dangerous goods; the abnormity in the dangerous goods logistics process can be identified and decided in time, and the risk in the dangerous goods transportation logistics process is reduced or eliminated.

In addition, when the logistics state of the dangerous goods is in an abnormal state, abnormal information is sent to a plurality of monitoring ends; the plurality of monitoring ends comprise a delivery end, a carrier end, a receiving end, a management end and a customized role end; therefore, the function of reminding the abnormality in multiple ways can be realized, and the efficiency of abnormality processing is improved.

In addition, by receiving an information query request comprising part of characters in the sensor identification or the vehicle identification and determining the dangerous goods logistics information comprising the part of characters based on the part of characters, fuzzy query of orders can be realized, and query efficiency is improved.

Fig. 3 is a block diagram of a hazardous material logistics monitoring device according to an embodiment of the present application, and this embodiment takes the example of the application of the device to the hazardous material logistics monitoring device 110 in the hazardous material logistics monitoring system shown in fig. 1 as an example. The device at least comprises the following modules: a parameter acquisition module 310, an exception determination module 320, an exception notification module 330, an information reception module 340, and a status update module 350.

A parameter obtaining module 310, configured to obtain a dangerous goods state parameter acquired by a monitoring sensor, where the state parameter includes: current temperature, current humidity, current vibration condition, current position and current inclination;

an anomaly determination module 320, configured to determine whether the logistics state of the hazardous material is in an abnormal state based on the hazardous material state parameter;

the abnormal notification module 330 is configured to send abnormal information to the multiple monitoring terminals when the logistics state of the hazardous articles is in an abnormal state, where the abnormal information is used to notify the monitoring terminals that the logistics state of the hazardous articles is in an abnormal state, and prompt the carrying terminal to confirm and process the abnormal state; the monitoring terminals comprise a delivery terminal, a carrier terminal, a receiving terminal, a management terminal and a customized role terminal;

the information receiving module 340 is configured to receive processing information sent by the carrier, where the processing information includes a processing result, a processing mode, a processing state, a processing duration, and a handler;

and a state updating module 350, configured to update the logistics state of the hazardous article based on the processing information.

For relevant details reference is made to the above-described method embodiments.

It should be noted that: when the hazardous material logistics monitoring device provided in the above embodiment performs hazardous material logistics monitoring, only the division of the functional modules is used for illustration, and in practical application, the function distribution can be completed by different functional modules according to needs, that is, the internal structure of the hazardous material logistics monitoring device is divided into different functional modules to complete all or part of the functions described above. In addition, the hazardous material logistics monitoring device provided by the embodiment and the hazardous material logistics monitoring method embodiment belong to the same concept, and specific implementation processes thereof are detailed in the method embodiment and are not described herein again.

Optionally, the present application further provides a computer-readable storage medium, where a program is stored in the computer-readable storage medium, and the program is loaded and executed by a processor to implement the hazardous material logistics monitoring method according to the above method embodiment.

Optionally, the present application further provides a computer product, which includes a computer-readable storage medium, in which a program is stored, and the program is loaded and executed by a processor to implement the congestion detection method of the above-mentioned method embodiment.

The technical features of the embodiments described above may be arbitrarily combined, and for the sake of brevity, all possible combinations of the technical features in the embodiments described above are not described, but should be considered as being within the scope of the present specification as long as there is no contradiction between the combinations of the technical features.

The above-mentioned embodiments only express several embodiments of the present application, and the description thereof is more specific and detailed, but not construed as limiting the scope of the invention. It should be noted that, for a person skilled in the art, several variations and modifications can be made without departing from the concept of the present application, which falls within the scope of protection of the present application. Therefore, the protection scope of the present patent shall be subject to the appended claims.

Claims (10)

1. A method for monitoring a hazardous material logistics, the method comprising:

acquiring dangerous goods state parameters acquired by a monitoring sensor, wherein the state parameters comprise: current temperature, current humidity, current vibration condition, current position and current inclination;

determining whether the logistics state of the dangerous goods is in an abnormal state or not based on the dangerous goods state parameters;

when the logistics state of the dangerous goods is in an abnormal state, sending abnormal information to a plurality of monitoring ends, wherein the abnormal information is used for informing the monitoring ends that the logistics state of the dangerous goods is in the abnormal state and prompting a carrying end to confirm and process the abnormality; the monitoring terminals comprise a delivery terminal, a carrier terminal, a receiving terminal, a management terminal and a customized role terminal;

receiving processing information sent by the carrier end, wherein the processing information comprises a processing result, a processing mode, a processing state, a processing time and a processor;

and updating the logistics state of the dangerous goods based on the processing information.

2. The method of claim 1, wherein the determining whether the logistics state of the hazardous material is in an abnormal state based on the hazardous material state parameter comprises:

comparing the dangerous goods state parameters with corresponding parameter standards;

and determining that the logistics state of the dangerous goods is in an abnormal state when the dangerous goods state parameters do not meet the corresponding parameter standards.

3. The method according to claim 1, before sending the abnormal information to the plurality of monitoring terminals when the logistics state of the dangerous goods is in an abnormal state, further comprising:

receiving a registration request of a monitoring end, wherein the registration request is used for requesting the authority of monitoring the dangerous goods logistics, and the registration request comprises the authority type requested by the monitoring end;

and registering a corresponding monitoring account for the monitoring terminal based on the registration request, and establishing a corresponding relation between the monitoring account and the authority type.

4. The method according to claim 1, wherein after acquiring the dangerous goods status parameters collected by the monitoring sensors, the method further comprises:

acquiring dangerous article order information corresponding to the dangerous articles;

and sending the dangerous goods order information and the dangerous goods state parameters to an appointed monitoring end, wherein the appointed monitoring end is one or more of the delivery end, the carrying end, the receiving end, the management end and the customized role end.

5. The method of claim 4, wherein the hazardous material order information comprises: order number, goods name, quantity, volume, transport vehicle information and monitoring sensor information; the transport vehicle information comprises a transport vehicle identification, a carrier name and a carrier contact way; the monitoring sensor information includes sensor identification and acquisition time.

6. The method of any of claims 1 to 5, further comprising:

receiving an information query request sent by the monitoring end, wherein the information query request comprises a query keyword, and the information query request is used for requesting dangerous goods logistics information related to the keyword;

searching storage information comprising query keywords in the information query request, and sending the storage information and the dangerous goods logistics information corresponding to the storage information to the monitoring end.

7. The method of claim 6, wherein the query keyword is a partial character in a sensor identifier of the monitoring sensor; or, the dangerous goods are part of characters in the vehicle identification of the carrier vehicle of the dangerous goods.

8. The method according to any one of claims 1 to 5, wherein the updating the logistics state of the hazardous material based on the processing information comprises:

and when the processing information indicates that the abnormal processing is completed, the abnormal information is invalid, and the logistics state of the dangerous goods is updated from the abnormal state to the normal state.

9. A hazardous materials logistics monitoring device, characterized in that the device comprises:

the parameter acquisition module is used for acquiring dangerous goods state parameters acquired by the monitoring sensor, and the state parameters comprise: current temperature, current humidity, current vibration condition, current position and current inclination;

the abnormity determining module is used for determining whether the logistics state of the dangerous goods is in an abnormal state or not based on the dangerous goods state parameters;

the abnormal informing module is used for sending abnormal information to a plurality of monitoring ends when the logistics state of the dangerous goods is in an abnormal state, wherein the abnormal information is used for informing the monitoring ends that the logistics state of the dangerous goods is in the abnormal state and prompting a carrying end to confirm and process the abnormality; the monitoring terminals comprise a delivery terminal, a carrier terminal, a receiving terminal, a management terminal and a customized role terminal;

the information receiving module is used for receiving processing information sent by the carrier end, wherein the processing information comprises a processing result, a processing mode, a processing state, a processing duration and a processor;

and the state updating module is used for updating the logistics state of the dangerous goods based on the processing information.

10. A dangerous goods logistics monitoring system, which is characterized in that the system comprises the dangerous goods logistics monitoring device as claimed in claim 9, a monitoring sensor and a monitoring end, wherein the monitoring sensor is in communication connection with the dangerous goods logistics monitoring device.

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