CN111241597A - In-transit cargo state monitoring system, device and method based on block chain - Google Patents

Abstract

The invention discloses a cargo in transit state monitoring system, a cargo in transit state monitoring device and a cargo in transit state monitoring method based on a block chain. If the data is abnormal, the problem is sent to a system worker, a vehicle owner is contacted, the condition is inquired and processed, the data is stored in the block chain, if the data is not abnormal, the system is not operated, and the data is stored in the block chain by default. The method ensures the safety of information storage and can not be falsified, dynamically tracks the in-transit information of the vehicle, and improves the timeliness rate of processing the in-transit vehicle abnormity and the safety of the whole transportation process.

Description

In-transit cargo state monitoring system, device and method based on block chain

Technical Field

The invention belongs to the technical field of computers, and particularly relates to a system, a device and a method for monitoring the in-transit cargo state based on a block chain.

Background

Cargo transportation is widely applied to modern society, and the safe and complete delivery of cargo to a destination is a target pursued by many transportation companies. After the vehicle goes on the road, the enterprise cannot check the in-transit condition of the vehicle, only can know basic information when the vehicle arrives at a corresponding station, and cannot timely know and process the goods when the goods are abnormal, and only can actively inform the goods by a driver. If the vehicle or the goods are abnormal, such as the vehicle is damaged or the goods are lost, the driver does not inform the enterprise, and the enterprise cannot timely know the acquired transportation condition. This greatly increases the incoherence of the enterprise to the goods in transit state and the timeliness of handling the exception.

In recent years, the rapid development of the block chain technology provides a solution direction for solving the problems, and because the block chain technology has non-falsification and traceability, parameters of goods in the transportation process can be collected and stored in the block chain, an enterprise can possibly grasp the goods in transit in time without actively informing the goods in transit through a driver, the strict control of the enterprise on the goods in transit is enriched, and the tracking of the goods in transit state is realized. The method can timely and accurately detect possible abnormity of the goods in transit and the timeliness of processing the abnormity. Thereby reducing the in-transit abnormality rate of the goods and improving the abnormality processing efficiency.

Disclosure of Invention

In order to overcome the defects of the prior art, the invention aims to provide a system, a device and a method for monitoring the state of goods in transit based on a block chain, so as to solve the problems that an enterprise cannot master the state of the goods in transit in the whole course and cannot take preventive measures in advance; the problem of the car owner can not the correct processing goods abnormal conditions to cause great loss is solved.

In order to achieve the purpose, the invention adopts the technical scheme that the in-transit cargo state monitoring method based on the block chain comprises the following steps:

s1, registering the in-transit cargo into a block chain system, monitoring real-time information of the in-transit cargo, and transmitting the real-time information into the block chain system;

s2, the blockchain system carries out identity verification on the information of the goods in transit in the S1, receives the real-time information monitored in the S1 after passing the identity verification, then enters the S3, and does not receive the real-time information after failing in the identity verification;

s3, comparing the real-time information monitored in S1 with the information in a standard state, judging whether the monitored parameters are in a reasonable interval, comparing the parameter data transmitted by the system according to the terminal with the data in a standard condition, and judging whether the parameters are in the reasonable interval of the related parameters;

s4, after the comparison in S3 is finished, judging whether the parameters exceed a reasonable interval, if the parameters do not exceed the reasonable interval, finishing the transmission of the data, and storing the related data into the block chain system; if the parameter exceeds the reasonable interval, displaying abnormal parameters, displaying the reason of the situation, providing encrypted information of the current data transmission vehicle contact, sending warning information to an administrator, and storing the transmitted data into a block chain system;

s5, after the information is transmitted to the terminal logged in by the administrator, the blockchain system verifies the identity of the administrator and authorizes the terminal logged in by the administrator to decrypt the information of the vehicle owner, and the contact way of the vehicle owner is transmitted to the terminal logged in by the administrator;

s6, after arriving at the destination, an in-transit detection report is generated in the blockchain system.

In S1, the detection device transmits the monitored data to the handheld terminal, and transmits the monitored data to the blockchain system through the handheld terminal.

In S2, the vehicle owner communicates with the blockchain system through the terminal to apply for the system, the vehicle owner logs in according to the identity information during registration, and the blockchain system performs information verification according to the Hash encryption algorithm and the asymmetric encryption algorithm.

In S2, the terminal for transmitting data is a smart phone, a tablet computer or a palm computer.

At S3, the monitoring parameters at least include: temperature, humidity, gross vehicle weight, and speed of travel within the vehicle cabin.

A cargo in transit state monitoring system based on a block chain comprises a registration module, a storage module, an inquiry module, an identity verification module, a parameter comparison module, an exception handling module, a data decryption module and an evaluation module;

a registration module: the system is used for registering the car owner to enter the block chain, obtaining the unique identifier and encrypting the registration information;

a storage module: the system comprises a data acquisition module, a data storage module, a data transmission module and a data transmission module, wherein the data acquisition module is used for acquiring data transmitted by a sensor;

the query module: the system is used for inquiring the value of the current goods in transit state parameter stored in the storage module by the vehicle owner;

an identity verification module: for verifying that the applicant is a car owner, a general user or a system administrator; verifying in a block chain according to identity information provided during registration and the obtained unique identification mark;

a parameter comparison module: the system is used for comparing with the standard working state stored by the system;

an exception handling module: processing abnormal conditions according to the conclusion obtained by the parameter comparison module to obtain an encrypted code of the contact way of the vehicle owner;

a data decryption module: decrypting the encrypted code of the vehicle owner contact way so that a system manager can contact the vehicle owner to process abnormity;

an evaluation module: the system is used for evaluating the travel service of the current time by a goods owner; including evaluation of blockchain servers and evaluation of exception handling capabilities.

The device for the in-transit cargo state monitoring method based on the blockchain comprises a processor, a memory and a network adapter, wherein the memory and the network adapter are in bidirectional communication connection with the processor, a computer program capable of running on the processor is stored in the memory, and when the processor executes the computer program, the method of any one of claims 1 to 5 is realized.

Compared with the prior art, the invention has at least the following beneficial effects: the in-transit cargo state is stored in the block chain system, real-time data cannot be tampered, the whole cargo transportation link can be made public and transparent, managers can obtain real in-transit data in real time, if an accident occurs, a basis can be provided for responsibility division, the situation that responsibility subjects are not clear due to manual data tampering is avoided, meanwhile, enterprises can independently trace the state of the transported cargo, the trend of the change of the state can be mastered constantly, abnormal handling can be carried out timely, potential danger is reduced, and loss after the abnormal situation occurs is reduced.

Drawings

FIG. 1 is a flow chart of a technical route of the present invention.

Fig. 2 is a schematic block diagram of the system of the present invention.

Fig. 3 is a block diagram of the system of the present invention.

In the figure, 201-a registration module, 202-a storage module, 203-a query module, 204-an identity verification module, 205-a parameter comparison module, 206-an exception handling module, 207-a data decryption module and 208-an evaluation module.

Detailed Description

Fig. 1 is a technical route flowchart of a block chain-based in-transit cargo state monitoring method according to an embodiment of the present invention.

Comprises the following steps:

s1: the vehicle owner registers to enter the block chain, the detection equipment transmits the monitored data to the handheld terminal, and the handheld terminal transmits the monitored data to the block chain system.

S2: and the block chain system verification module receives the data information from the terminal, verifies the identity and determines whether to receive the transmitted data. The vehicle owner is connected with the block chain through the selected terminal, an application is provided for the system, the system verifies identity information, the vehicle owner logs in according to the identity information during registration, the block chain system verifies the information according to the related technology, if the verification is successful, the related parameter information transmitted by the vehicle owner is received, the next operation is carried out, and if the verification information is wrong, the application is ended.

Optionally, the mobile terminal for transmitting data adopts a smart phone (such as an Android phone and an IOS phone), a tablet computer, a palm computer, and a mobile internet device.

S3: the system compares the parameter data transmitted by the terminal with the data under the standard condition and judges whether the monitoring parameters are in the reasonable interval.

S4: after the comparison in the S3 is finished, judging whether the parameters exceed a reasonable interval, if the parameters do not exceed the reasonable interval, finishing the transmission of the data, and storing the related data into a block chain system; if the parameter exceeds the reasonable interval, displaying abnormal parameters, displaying the reason of the situation, providing encrypted information of the current data transmission vehicle contact, sending warning information to an administrator, and storing the transmitted data into a block chain system;

s5: after the information is transmitted to the terminal registered by the administrator, the blockchain system verifies the identity of the administrator and authorizes the terminal registered by the administrator to decrypt the information of the vehicle owner and transmits the contact information of the vehicle owner to the terminal registered by the administrator,

s6: after the system arrives at the destination, an in-transit monitoring report is generated, and the client login system evaluates the service of the current journey, including the evaluation of the blockchain server and the evaluation of the abnormal handling capacity. The block chain server is evaluated so as to be better optimized, and the data transmission is more timely, comprehensive and accurate, so that the abnormal detection is more accurate, timely and comprehensive in the later period. The service information can be comprehensively broadcasted in the block chain, so that more vehicle owners can conveniently join the block chain, and more vehicle owners can be guided to join the block chain.

The evaluation principle is as follows: 1. the driver can deliver the goods to the client on time;

2. the goods are not damaged in the transportation process;

3. when abnormality occurs in the in-transit process, the client knows the timeliness of the message;

4. if the goods are abnormal, the system personnel processes whether to process in time;

5. where the bad experience of the blockchain system is;

6. the driver's services are evaluated and a monetary reward may be made.

Fig. 2 and fig. 3 are a schematic block diagram and a structural block diagram of a block chain-based in-transit cargo state monitoring method according to an embodiment of the present invention, and the device includes a registration module 201, a storage module 202, an inquiry module 203, an identity verification module 204, a parameter comparison module 205, an exception handling module 206, a data decryption module 207, and an evaluation module 208. The specific functions of each module are as follows:

the registration module 201 is used for registering a vehicle owner to enter a block chain, acquiring a unique identifier and encrypting registration information; after the registration is finished, the vehicle owner can upload all the parameters monitored by the sensor monitored by the monitoring terminal to the block chain server.

The storage module 202 is used for receiving and storing the value of the data transmitted by the sensor, and broadcasting the received information to the whole network.

The query module 203 is used for the vehicle owner to query the value of the current in-transit cargo state parameter; the owner connects the terminal to the blockchain server, and can issue a query application on the terminal.

The identity verification module 204 is used for verifying that the applicant is a car owner, a common user or a system administrator; and verifying in the block chain according to the identity information provided during registration and the obtained unique identification.

The parameter comparison module 205 is used for comparing with the standard working state stored in the system; and judging whether the abnormality exists.

And the exception handling module 206 is used for processing the abnormal condition according to the conclusion obtained by the parameter comparison module to obtain the encrypted code of the vehicle owner contact way.

The data decryption module 207 is used for decrypting the encrypted code of the vehicle owner contact information so that background personnel can contact the vehicle owner to process abnormity.

The evaluation module 208 is used for the user to evaluate the travel service. Including evaluation of blockchain servers and evaluation of exception handling capabilities. And evaluating the blockchain server so as to better optimize the blockchain server, store more possible exceptions and more exception solutions, and detect the exceptions more accurately, timely and comprehensively in the later period. The service information is broadcast in a block chain.

As an alternative embodiment of the present invention, a schematic diagram of an apparatus for a block chain-based in-transit cargo state monitoring method is provided, which includes a processor, a memory, and a computer program, such as a comparison operation program, stored in the memory and executable on the processor; the processor implements S3 in the method embodiment of the present invention when executing the computer program, and implements the functions of the modules/units in the above-mentioned device embodiments when executing the computer program, for example, the parameter comparison module 205 is used to compare with the standard operating state stored in the system; and comparing whether the real-time temperature in the carriage is consistent with the target temperature or not, and comparing whether the real-time weight of the vehicle is consistent with the weight which should appear when the vehicle arrives at the destination or not.

The computer program may be divided into one or more modules/units, which are stored in the memory and executed by the processor to perform the method of the invention.

Claims (7)

1. An in-transit cargo state monitoring method based on a block chain is characterized by comprising the following steps:

s1, registering the in-transit cargo into a block chain system, monitoring real-time information of the in-transit cargo, and transmitting the real-time information into the block chain system;

s2, the blockchain system carries out identity verification on the information of the goods in transit in the S1, receives the real-time information monitored in the S1 after passing the identity verification, then enters the S3, and does not receive the real-time information after failing in the identity verification;

s3, comparing the real-time information monitored in S1 with the information in a standard state, judging whether the monitored parameters are in a reasonable interval, comparing the parameter data transmitted by the system according to the terminal with the data in a standard condition, and judging whether the parameters are in the reasonable interval of the related parameters;

s4, after the comparison in S3 is finished, judging whether the parameters exceed a reasonable interval, if the parameters do not exceed the reasonable interval, finishing the transmission of the data, and storing the related data into the block chain system; if the parameter exceeds the reasonable interval, displaying abnormal parameters, displaying the reason of the situation, providing encrypted information of the current data transmission vehicle contact, sending warning information to an administrator, and storing the transmitted data into a block chain system;

s5, after the information is transmitted to the terminal logged in by the administrator, the blockchain system verifies the identity of the administrator and authorizes the terminal logged in by the administrator to decrypt the information of the vehicle owner, and transmits the contact information of the vehicle owner to the terminal logged in by the administrator,

s6, after arriving at the destination, an in-transit detection report is generated in the blockchain system.

2. The method according to claim 1, wherein in step S1, the detecting device transmits the monitored data to the handheld terminal, and the handheld terminal transmits the monitored data to the blockchain system.

3. The method according to claim 1, wherein in step S2, the car owner communicates with the blockchain system through a terminal to apply for the system, the car owner logs in according to the identity information during registration, and the blockchain system performs information verification according to a hash encryption algorithm and an asymmetric encryption algorithm.

4. The block chain-based in-transit cargo state monitoring method according to claim 1, wherein in S2, a terminal for transmitting data employs a smart phone, a tablet computer or a palm computer.

5. The block chain-based in-transit cargo state monitoring method according to claim 1, wherein in S3, the monitoring parameters at least include: temperature, humidity, gross vehicle weight, and speed of travel within the vehicle cabin.

6. The in-transit cargo state monitoring system based on the block chain is characterized by comprising a registration module (201), a storage module (202), a query module (203), an identity verification module (204), a parameter comparison module (205), an exception handling module (206), a data decryption module (207) and an evaluation module (208);

registration module (201): the system is used for registering the car owner to enter the block chain, obtaining the unique identifier and encrypting the registration information;

storage module (202): the system comprises a data acquisition module, a data storage module, a data transmission module and a data transmission module, wherein the data acquisition module is used for acquiring data transmitted by a sensor;

query module (203): the system is used for inquiring the value of the current goods in transit state parameter stored in the storage module (202) by the vehicle owner;

identity verification module (204): for verifying that the applicant is a car owner, a general user or a system administrator; verifying in a block chain according to identity information provided during registration and the obtained unique identification mark;

parameter comparison module (205): the system is used for comparing with the standard working state stored by the system;

exception handling module (206): processing abnormal conditions according to the conclusion obtained by the parameter comparison module to obtain an encrypted code of the contact way of the vehicle owner;

data decryption module (207): decrypting the encrypted code of the vehicle owner contact way so that a system manager can contact the vehicle owner to process abnormity;

an evaluation module (208): the system is used for evaluating the travel service of the current time by a goods owner; including evaluation of blockchain servers and evaluation of exception handling capabilities.

7. A device for a block chain-based in-transit cargo state monitoring method, characterized by comprising a processor, a memory and a network adapter, wherein the memory and the network adapter are both in bidirectional communication with the processor, the memory is stored with a computer program capable of running on the processor, and the processor executes the computer program to realize the method as claimed in any one of claims 1 to 5.

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