CN115018511B - Anti-counterfeiting method, equipment and medium for agricultural machinery - Google Patents

Abstract

The application discloses an anti-counterfeiting method, equipment and medium for agricultural machinery, wherein the method comprises the following steps: the server constructs information interconnection with a sales platform of the agricultural machine, a storage platform of the agricultural machine and an after-sales platform of the agricultural machine; selecting agricultural machinery meeting the conditions from a storage platform; activating the identification device by the order number; acquiring real-time position information of the agricultural machinery meeting the conditions through a positioning module, and modifying the current state in the identification equipment into a state in transportation; and determining that the agricultural machine meeting the conditions reaches the position corresponding to the receiving address, and modifying the current state in the identification equipment into the received state. The whole ordering, conveying and using processes of the agricultural machine are monitored, binding and correspondence of the data and the agricultural machine are guaranteed on the basis of guaranteeing reality and effectiveness of various data, identity identification of the agricultural machine is guaranteed, identity verification of the agricultural machine is enhanced, and conditions of renewing and fake making of the agricultural machine are avoided.

Description

Anti-counterfeiting method, equipment and medium for agricultural machinery

Technical Field

The application relates to the technical field of industrial Internet, in particular to an anti-counterfeiting method, anti-counterfeiting equipment and anti-counterfeiting medium for agricultural machinery.

Background

With the development of agricultural automation, various stages of agricultural sowing, irrigation, maintenance, harvesting and the like are realized through agricultural machinery, and human resources can be gradually liberated through the agricultural machinery. Meanwhile, agricultural production is implemented through agricultural machinery, and the efficiency of agricultural production can be improved. The country is a process for promoting agricultural automation, and policies such as subsidy purchased by agricultural machinery are also issued.

However, with the increasing popularity of agricultural machinery, black industry chains such as agricultural machinery refurbishment and the like have begun to appear. The existing agricultural machinery usually realizes identity identification through a machine body nameplate, but the nameplate and the information provided by the nameplate are very limited and are easy to forge and do not have the condition of being monitored in real time, so that the cost for renewing or counterfeiting the agricultural machinery is very low and easy to realize.

Disclosure of Invention

In order to solve the problems that the existing agricultural machinery can only realize identity identification through a machine body nameplate, and the cost for counterfeiting the agricultural machinery is very low and easy to realize, the application provides an anti-counterfeiting method, equipment and medium for the agricultural machinery, which comprise the following steps:

In a first aspect, the present application proposes a method for anti-counterfeiting of an agricultural machine, comprising: the server constructs information interconnection with a sales platform of the agricultural machine, a storage platform of the agricultural machine and an after-sales platform of the agricultural machine, and acquires order information of the agricultural machine in real time through the sales platform, wherein the order information comprises at least one of the following: order number, agricultural machinery model, order remarks, receiving address, and orderer information; inquiring a plurality of corresponding agricultural machines in the storage platform according to the model of the agricultural machine, and selecting the agricultural machine meeting the conditions from the plurality of agricultural machines according to the order remarks; transmitting the order number to an identification device installed in the qualified agricultural machine, activating the identification device through the order number, setting a current state to be a to-be-delivered state in the identification device, uploading an agricultural machine code of the qualified agricultural machine to the sales platform and the after-sales platform, and binding the agricultural machine code with the order information in the sales platform, wherein the agricultural machine code is stored in the identification device, and the identification device comprises: the device comprises a processing module, a communication module and a positioning module; acquiring real-time position information of the qualified agricultural machine through the positioning module, determining that the qualified agricultural machine has position movement according to the real-time position information, modifying the current state in the identification equipment into an in-transit state, and transmitting the real-time position information to the after-sales platform through the communication module; and according to the real-time position information, determining that the agricultural machine meeting the conditions reaches the position corresponding to the receiving address, determining that the logistics state corresponding to the order information is received through the sales platform, modifying the current state in the identification equipment into the received state, and synchronizing the received state to the after-sales platform.

In one example, after acquiring, by the positioning module, real-time location information of the eligible farm machine, to determine, by the real-time location information, that there is a positional movement of the eligible farm machine, and to modify a current state in the identification device to an in-transit state, and to transmit, by the communication module, the real-time location information to the after-market platform, the method further comprises: constructing a normal mobile line diagram according to the position of the storage platform and the receiving address; acquiring logistics information of the agricultural machinery meeting the conditions, and inquiring a corresponding historical moving circuit diagram according to logistics merchant information and the receiving address included in the logistics information; constructing an actual moving circuit diagram of the agricultural machinery meeting the conditions according to the real-time position information; and according to the moving path of the actual moving circuit diagram, respectively carrying out overlapping comparison on the actual moving circuit diagram and part or all of the normal moving circuit diagram and the historical moving circuit diagram to obtain two overlapping degree values, and sending alarm information to the after-sales platform when the two overlapping degree values can not reach a preset threshold value.

In one example, the order number is transmitted to an identification device installed in the eligible farm machine to activate the identification device with the order number and set a current status to a to-be-shipped status in the identification device, and an agricultural code of the eligible farm machine is uploaded to the sales platform and the after-market platform and after binding the agricultural code with the order information in the sales platform, the method further comprises: the self-contained power supply voltage of the identification equipment and the battery voltage of the agricultural machinery meeting the conditions are obtained through the processing module, wherein the identification equipment is connected with the battery so as to provide electric energy for the identification equipment through the battery, and the battery voltage is larger than the self-contained power supply voltage; collecting the current voltage of the identification equipment in real time through the processing module; if the current voltage is not greater than the self-contained power supply voltage, sending alarm information to the after-sales platform through the communication module; acquiring a voltage change value of the identification equipment within a preset time range through the processing module; constructing a voltage change curve graph of the identification equipment within the preset time range according to the current voltage change value; according to the voltage change curve graph, if the voltage change is determined to have mutation in the preset time range, marking the alarm information as high risk through the communication module; and if the voltage change does not have abrupt change in the preset time range, marking the alarm information as low risk through the communication module.

In one example, according to the real-time location information, determining that the agricultural machine meeting the condition arrives at the location corresponding to the receiving address, and determining, by the sales platform, that the logistics state corresponding to the order information is received, modifying the current state in the identification device to the received state, and synchronizing the received state to the after-sales platform, the method further includes: determining, by the sales platform, that a user has uploaded a receipt, the receipt comprising: the image of the agricultural machinery meeting the conditions and the identity card image of the user; performing feature extraction and recognition processing on the image of the agricultural machine meeting the conditions through a first image recognition model to obtain a recognition result, and extracting key information from the recognition result, wherein the key information comprises: model of agricultural machinery and color of the machine body; performing feature extraction and recognition processing on the identity card image of the user through a second image recognition model to obtain a recognition result, and determining the identity card number of the user according to the recognition result; comparing the key information and the identification card number with corresponding information in the order information, and determining that the comparison result is consistent; activating the agricultural machinery meeting the conditions through the identification equipment, and uploading the activation time and the activation place to the after-sales platform.

In one example, the order number is transmitted to an identification device installed in the eligible farm machine to activate the identification device with the order number and set a current status to a to-be-shipped status in the identification device, and an agricultural code of the eligible farm machine is uploaded to the sales platform and the after-market platform and after binding the agricultural code with the order information in the sales platform, the method further comprises: acquiring displacement sensor information through the processing module, wherein the displacement sensor is arranged at a connecting bolt of the identification equipment and the agricultural machinery meeting the conditions; and according to the displacement sensor information, if the connecting bolt is determined to have displacement, sending alarm information to the after-sales platform through the communication module.

In one example, according to the real-time location information, determining that the agricultural machine meeting the condition arrives at the location corresponding to the receiving address, and determining, by the sales platform, that the logistics state corresponding to the order information is received, modifying the current state in the identification device to the received state, and synchronizing the received state to the after-sales platform, the method further includes: recording the order information corresponding to the identification equipment, the change time point of the current state of the identification equipment and the movement information of the identification equipment to the identification equipment; collecting, by the processing module, usage data of the eligible farm machine, the usage data including at least one of: recording the service time, the driving mileage and maintenance; and synchronously recording the use data into the identification equipment, and synchronously transmitting the use data to the after-sales platform through the communication module every interval for a preset time value.

In one example, after synchronously logging the usage data into the identification device and synchronously transmitting the usage data to the after-market platform through the communication module, the method further comprises: monitoring the synchronous time of the usage data through the after-sales platform, and recording alarm information in the after-sales platform if the difference value between the uploading time of the latest usage data and the current time is larger than the preset time value; and performing anomaly monitoring on the usage data, and recording alarm information in the after-sales platform if the usage data is determined to have an anomaly condition, wherein the anomaly condition comprises at least one of the following: the service time is reduced, the driving mileage is reduced, and the maintenance records are deleted; acquiring the last piece of use data corresponding to the use data with the abnormality in the after-sales platform; and recording the last piece of use data and the alarm information to the corresponding identification equipment through the communication module.

In one example, the method further comprises: determining that the identification equipment and a terminal APP are connected in a Bluetooth mode through the identification equipment, and sending a unique identification code of the identification equipment to the terminal APP through the identification equipment; determining that the terminal APP establishes communication connection with the after-sales platform, and determining that the after-sales platform receives the unique identification code sent by the terminal APP; and inquiring all information corresponding to the unique identification code in the after-sale platform, and sending all information to the terminal APP through the after-sale platform.

In another aspect, the present application also proposes an anti-counterfeiting device for an agricultural machine, comprising: at least one processor; and a memory communicatively coupled to the at least one processor; wherein the memory stores instructions executable by the at least one processor to enable the at least one processor to perform the following instructions: information interconnection between a sales platform of the agricultural machine, a storage platform of the agricultural machine and an after-sales platform of the agricultural machine is constructed, order information of the agricultural machine is obtained in real time through the sales platform, and the order information comprises at least one of the following: order number, agricultural machinery model, order remarks, receiving address, and orderer information; inquiring a plurality of corresponding agricultural machines in the storage platform according to the model of the agricultural machine, and selecting the agricultural machine meeting the conditions from the plurality of agricultural machines according to the order remarks; transmitting the order number to an identification device installed in the qualified agricultural machine, activating the identification device through the order number, setting a current state to be a to-be-delivered state in the identification device, uploading an agricultural machine code of the qualified agricultural machine to the sales platform and the after-sales platform, and binding the agricultural machine code with the order information in the sales platform; wherein the agricultural machinery code is stored in the identification device, the identification device comprising: the device comprises a processing module, a communication module and a positioning module; acquiring real-time position information of the qualified agricultural machine through the positioning module, determining that the qualified agricultural machine has position movement according to the real-time position information, modifying the current state in the identification equipment into an in-transit state, and transmitting the real-time position information to the after-sales platform through the communication module; and according to the real-time position information, determining that the agricultural machine meeting the conditions reaches the position corresponding to the receiving address, determining that the logistics state corresponding to the order information is received through the sales platform, modifying the current state in the identification equipment into the received state, and synchronizing the received state to the after-sales platform.

In another aspect, the present application also provides a non-volatile computer storage medium storing computer-executable instructions configured to: information interconnection between a sales platform of the agricultural machine, a storage platform of the agricultural machine and an after-sales platform of the agricultural machine is constructed, order information of the agricultural machine is obtained in real time through the sales platform, and the order information comprises at least one of the following: order number, agricultural machinery model, order remarks, receiving address, and orderer information; inquiring a plurality of corresponding agricultural machines in the storage platform according to the model of the agricultural machine, and selecting the agricultural machine meeting the conditions from the plurality of agricultural machines according to the order remarks; transmitting the order number to an identification device installed in the qualified agricultural machine, activating the identification device through the order number, setting a current state to be a to-be-delivered state in the identification device, uploading an agricultural machine code of the qualified agricultural machine to the sales platform and the after-sales platform, and binding the agricultural machine code with the order information in the sales platform; wherein the agricultural machinery code is stored in the identification device, the identification device comprising: the device comprises a processing module, a communication module and a positioning module; acquiring real-time position information of the qualified agricultural machine through the positioning module, determining that the qualified agricultural machine has position movement according to the real-time position information, modifying the current state in the identification equipment into an in-transit state, and transmitting the real-time position information to the after-sales platform through the communication module; and according to the real-time position information, determining that the agricultural machine meeting the conditions reaches the position corresponding to the receiving address, determining that the logistics state corresponding to the order information is received through the sales platform, modifying the current state in the identification equipment into the received state, and synchronizing the received state to the after-sales platform.

The anti-counterfeiting method, the anti-counterfeiting equipment and the anti-counterfeiting medium for the agricultural machinery provided by the application have the following beneficial effects: the whole ordering, conveying and using processes of the agricultural machine are monitored, binding and correspondence between the data and the agricultural machine are guaranteed on the basis of guaranteeing the reality and effectiveness of various data, the identity of the agricultural machine is guaranteed, the identity verification of the agricultural machine is enhanced, and the conditions of renewing, fake making and the like of the agricultural machine are avoided.

Drawings

The accompanying drawings, which are included to provide a further understanding of the application and are incorporated in and constitute a part of this specification, illustrate embodiments of the application and together with the description serve to explain the application and do not constitute a limitation on the application. In the drawings:

FIG. 1 is a schematic flow chart of an anti-counterfeiting method for an agricultural machine according to an embodiment of the present application;

Fig. 2 is a schematic view of an anti-counterfeiting device for an agricultural machine according to an embodiment of the present application.

Detailed Description

In order to make the objects, technical solutions and advantages of the present application more apparent, the technical solutions of the present application will be clearly and completely described below with reference to specific embodiments of the present application and corresponding drawings. It will be apparent that the described embodiments are only some, but not all, embodiments of the application. All other embodiments, which can be made by those skilled in the art based on the embodiments of the application without making any inventive effort, are intended to be within the scope of the application.

It should be noted that, in order to support normal operation of the program or algorithm, the anti-counterfeiting method for the agricultural machine according to the present application may be stored in a corresponding terminal in a form of a program or algorithm, and the terminal should be provided with corresponding hardware, such as a processor, a memory, a communication module, etc., so as to support the program and algorithm through the terminal. In the embodiment of the application, the terminal is defined as a remote server, and the remote server realizes the corresponding scheme of the method through information interconnection with a sales platform of an agricultural machine, a storage platform of the agricultural machine, an after-sales platform of the agricultural machine and an active identification device of the agricultural machine. Meanwhile, the user can log in the server through the forms of the server background, APP or WEB webpage and the like, so that control, allocation and monitoring of various functions or parameters in the server are realized.

The following describes in detail the technical solutions provided by the embodiments of the present application with reference to the accompanying drawings.

As shown in fig. 1, an anti-counterfeiting method for an agricultural machine according to an embodiment of the present application includes:

S101: the server constructs information interconnection with a sales platform of the agricultural machine, a storage platform of the agricultural machine and an after-sales platform of the agricultural machine, and acquires order information of the agricultural machine in real time through the sales platform, wherein the order information comprises at least one of the following: order number, agricultural machinery model, order remark, shipping address, order person information.

Specifically, in the embodiment of the application, the agricultural machine can adopt an online sales mode, and in order to deal with sales management of the agricultural machine, the system can comprise a sales platform, a storage platform and an after-sales platform. The sales platform can be a network platform built by an enterprise, or can be a network platform which is resided in other sales websites, and can be in information interconnection with the server.

The storage platform is used for recording storage information of agricultural machinery, including parameters such as storage information, delivery information and model number of the stored agricultural machinery, and in the embodiment of the application, the storage platform can be a database which can be interconnected with the sales platform and the server, after a user places an order through the sales platform, the server can access the storage platform according to the order information, and the storage platform and the sales platform are supported to realize information sharing so as to ensure the instantaneity of the storage information.

The after-sales platform is a network platform which is specially built for the farm machinery by an enterprise and is used for solving the after-sales problem and recording after-sales information, and a worker can read the after-sales information specific to a certain farm machinery in the after-sales platform in a mode that the server accesses the after-sales platform. Meanwhile, a user purchasing the agricultural machinery can also construct information interconnection with the server through the terminal APP, so that the after-sales platform is accessed to acquire corresponding after-sales information of the agricultural machinery.

Further, the user can access the sales platform in the embodiment of the application through a terminal APP or WEB site inquiry and the like, and select agricultural machinery with required functions and types from commodity columns provided in the sales platform so as to realize self-service ordering. Meanwhile, after the user places an order, the user can select or key the order by the interface list, and the remark content can include: fuselage color, tank capacity, endurance mileage, etc.

Further, after the user places an order, the sales platform may obtain order information of the farm machine in real time, where the order information includes at least one of: order number, agricultural machinery model, order remarks, shipping address, order person information, etc.

S102: and inquiring a plurality of corresponding agricultural machines in the storage platform according to the model of the agricultural machine, and selecting the agricultural machine meeting the conditions from the plurality of agricultural machines according to the order remarks.

Specifically, the server can acquire the order information through the sales platform, further reads the model of the agricultural machine from the order information, and inquires a plurality of corresponding agricultural machines in the storage platform. It should be noted that, in the embodiment of the present application, in order to meet the personalized needs of the user, there may be the same type of farm machinery, but different colors of the machine body or other configurations, so that the situation is not solved, and the server may also read the order remarks from the order information, further identify the relevant information in the order remarks through the semantic identification model, and further extract the keywords.

Further, the server can use the keywords as selection conditions to select the agricultural machinery meeting the conditions from the plurality of agricultural machinery.

S103: transmitting the order number to an identification device installed in the qualified agricultural machine, activating the identification device through the order number, setting a current state to be a to-be-delivered state in the identification device, uploading an agricultural machine code of the qualified agricultural machine to the sales platform and the after-sales platform, and binding the agricultural machine code with the order information in the sales platform, wherein the agricultural machine code is stored in the identification device, and the identification device comprises: the device comprises a processing module, a communication module and a positioning module.

Specifically, in the embodiment of the application, the agricultural machine is provided with the identification equipment which is used for bearing the identification of the agricultural machine and recording other data of the agricultural machine. After the agricultural machine comes off-line from the production line, the identification device is installed into the agricultural machine, and the identification device is in an inactive state at this time, so as to prove that the corresponding agricultural machine is not sold. Meanwhile, the identification equipment is connected with the storage battery of the agricultural machine in a wired manner so as to supply power to the agricultural machine through the storage battery of the agricultural machine, and a self-contained power supply is also arranged in the identification equipment so as to ensure the normal operation of the identification equipment when the electric quantity of the storage battery of the agricultural machine is insufficient.

Further, to implement the functions of identification and data recording of the identification device, the identification device includes: the device comprises a processing module, a communication module and a positioning module. The processing module can adopt an embedded eUICC card, the communication module is used for supporting the establishment of communication connection with the server and the after-sales platform, and the positioning module is used for collecting the position information of the identification equipment.

Further, the server may establish a wireless communication connection with the communication module of the identification device, and after the communication module verifies the routing address of the server, it may determine that the connection is successful. Furthermore, based on the unique order number, the server can transmit the order number as an activation condition to the identification device installed in the qualified agricultural machine, and after the processing module of the identification device authenticates the order number, the identification device can be determined to be activated to represent that the corresponding qualified agricultural machine has been sold.

Meanwhile, the server can also control and set the state information of the identification equipment, and after the identification equipment is activated, the server can control the current state of the identification equipment to be set to be in a to-be-delivered state so as to ensure that each sale flow of the agricultural machinery is recorded through the identification equipment.

In addition, the identification device records the agricultural machine code of the corresponding agricultural machine which meets the condition, and the agricultural machine code is used as the unique identity code of the corresponding agricultural machine. The server reads the agricultural machine code recorded in the identification equipment, and then uploads the agricultural machine code to the sales platform and the after-sales platform, and binds the agricultural machine code with order information in the sales platform. At this time, the user can inquire the agricultural machinery code of the purchased agricultural machinery on the order interface of the sales platform so as to verify when receiving goods.

S104: and acquiring real-time position information of the qualified agricultural machine through the positioning module, determining that the qualified agricultural machine has position movement through the real-time position information, modifying the current state in the identification equipment into an in-transit state, and transmitting the real-time position information to the after-sales platform through the communication module.

Specifically, after the identification device is activated, the positioning module is kept in an on state, that is, the position information of the identification device is collected in real time, and meanwhile, the server can also obtain the real-time position information of the identification device, that is, the real-time position information of the agricultural machinery meeting the conditions through the positioning module.

Further, when the server determines that the eligible farm machine has a positional movement through the real-time positional information, it can be determined that the eligible farm machine has started shipping. Here, the position movement may have a certain threshold range, that is, the position movement distance exceeds the threshold range, and then the position movement of the farm machine that meets the condition may be determined.

Further, the server may modify a current state in the state information identifying the device to an in-transit state and transmit the real-time location information to the after-market platform via the communication module.

The real-time position information is not checked before the user receives the commodity, and is used only for the after-sales platform to monitor the movement path of the farm machine which meets the condition.

S105: and according to the real-time position information, determining that the agricultural machine meeting the conditions reaches the position corresponding to the receiving address, determining that the logistics state corresponding to the order information is received through the sales platform, modifying the current state in the identification equipment into the received state, and synchronizing the received state to the after-sales platform.

Specifically, based on the real-time location information updated in real-time, and the order information, the server may determine whether the eligible farm machine has arrived at a location corresponding to the receiving address.

Meanwhile, when the logistics company transports the agricultural machinery meeting the conditions, a corresponding transportation path diagram and a receiving state prompt can be provided, the information can be uploaded to a sales platform, and a user can determine the transportation position of the agricultural machinery placed by the order through logistics information in the sales platform before receiving. Meanwhile, after the logistics company determines that the qualified agricultural machinery is signed by the corresponding user, the logistics state in the sales platform is modified to be received.

Based on the information, the server determines that the farm machinery meeting the conditions has reached the position corresponding to the receiving address, and when the logistics state is received, the current state in the identification equipment can be modified into the received state, and the received state is synchronized to the after-sales platform.

In addition, if the server inquires that the logistics state is received, but the real-time position information does not appear at the position corresponding to the receiving address, the after-sale platform can record alarm information to indicate that the agricultural machine has an abnormal condition.

In one embodiment, after the server obtains the real-time position information of the qualified agricultural machine through the positioning module to determine that the qualified agricultural machine has a position movement according to the real-time position information, and modifies the current state in the identification device to the in-transit state, and transmits the real-time position information to the after-market platform through the communication module, the method may further include:

And the server constructs a normal mobile line diagram according to the position of the warehouse platform and the receiving address. The location of the warehouse platform may be recorded in a database corresponding to the server, where the location of the warehouse platform is the actual geographical location of the warehouse storing the agricultural machine. The normal movement pattern here is a pattern of road transport and/or railway transport and/or air transport between two points.

Further, the server acquires logistics information of the agricultural machinery meeting the conditions, and queries a corresponding historical moving circuit diagram according to logistics merchant information and a receiving address included in the logistics information. Because the location of the warehouse platform is usually fixed, and different logistics merchants may have different route preferences, in the embodiment of the present application, whether the corresponding logistics merchants have the same historical shipping path information as the receiving address, that is, the historical mobile line graph, can be queried.

Further, the server may construct an actual movement pattern of the agricultural machine that meets the conditions based on the real-time position information. And the server respectively performs overlapping comparison on the actual mobile line diagram and part or all of the normal mobile line diagram and the historical mobile line diagram according to the mobile path of the actual mobile line diagram to obtain two overlapping degree values, and sends alarm information to the after-sales platform when the two overlapping degree values can not reach a preset threshold value.

Because the actual moving route diagram is not necessarily a global moving route and may have a situation in transportation, in the embodiment of the present application, two overlapping degree values may be acquired in real time or periodically, preferably periodically, for example, once every six hours, and when two overlapping degree values do not reach a preset threshold, it is indicated that there is an abnormality in the actual moving route of the farm machine that meets the condition, and then alarm information may be sent to the after-sales platform.

In addition, in the embodiment of the application, if the historical mobile line graph cannot be queried, only part or all of the actual mobile line graph and the normal mobile line graph can be overlapped and compared to obtain the corresponding overlapping degree value, and when the corresponding overlapping degree value cannot reach the preset threshold value, alarm information is sent to the after-sales platform.

In one embodiment, the server transmits the order number to the identification device installed in the qualified agricultural machine, so as to activate the identification device through the order number, set the current state to be the to-be-delivered state in the identification device, upload the agricultural machine code of the qualified agricultural machine to the sales platform and the after-sales platform, and bind the agricultural machine code with the order information in the sales platform, and further may:

The server obtains the self-contained power supply voltage of the identification equipment and the battery voltage of the agricultural machinery meeting the conditions through the processing module, wherein the identification equipment is connected with the battery so as to provide electric energy for the identification equipment through the battery, and the battery voltage is larger than the self-contained power supply voltage.

And the server acquires the current voltage of the identification equipment in real time through the processing module, and if the current voltage is not greater than the self-contained power supply voltage, the server sends alarm information to the after-sales platform through the communication module.

Through the technical scheme, the voltage of the identification equipment can be monitored, so that the identification equipment is prevented from being forcibly disassembled.

Meanwhile, the server can also acquire the voltage change value of the identification equipment in a preset time range through the processing module, then construct a voltage change curve graph of the identification equipment in the preset time range according to the voltage change value, label the alarm information as high risk through the communication module if the voltage change in the preset time range is determined to have abrupt change according to the voltage change curve graph, and label the alarm information as low risk through the communication module if the voltage change in the preset time range is determined to have no abrupt change.

If only the voltage value is monitored, the battery can be slowly discharged to exhaustion, and the self-contained power supply is replaced to continue to slowly discharge, and the alarm information at the moment can be mistakenly reported, and the voltage change is detected, so that the problem can be effectively solved.

In one embodiment, the server determines that the farm machinery meeting the condition arrives at the location corresponding to the receiving address according to the real-time location information, and determines that the physical distribution state corresponding to the order information is received through the sales platform, then the server modifies the current state in the identification device to be the received state, and synchronizes the received state to the after-sales platform, and then the server may further:

The server sends the certificate uploading instruction to the terminal APP of the user or the user through a short message mode, so that the user uploads the corresponding receiving certificate to the sales platform according to the certificate uploading instruction.

Specifically, the server determines, through the sales platform, that the user has uploaded a receipt, the receipt comprising: an image of the agricultural machine meeting the conditions and an identity card image of a user.

Further, the server performs feature extraction and recognition processing on the image of the agricultural machine meeting the conditions through the first image recognition model to obtain a recognition result, and extracts key information from the recognition result, wherein the key information comprises: agricultural machine model and machine body color.

Meanwhile, the server performs feature extraction and recognition processing on the identity card image of the user through the second image recognition model to obtain a recognition result, and the identity card number of the user can be determined according to the recognition result.

And then, the server compares the key information and the identification card number with corresponding information in the order information, determines that the comparison result is consistent, activates the agricultural machinery meeting the conditions through the identification equipment, and uploads the activation time and the activation place to the after-sales platform.

The activation mode of the qualified agricultural machine may be that the identification device controls the battery of the qualified agricultural machine to start supplying power to the starter, or controls the starting authority of the qualified agricultural machine to be started.

Through the technical scheme, the agricultural machinery meeting the conditions can be prevented from being faked, and meanwhile, the agricultural machinery meeting the conditions is activated through the comparison result, so that the agricultural machinery can be ensured to be normally started after being received by a corresponding purchaser.

In one embodiment, the server transmits the order number to an identification device installed in the eligible farm machine, to activate the identification device with the order number, and to set the current status in the identification device to the to-be-shipped status, and to upload the agricultural machine code of the eligible farm machine to the sales platform and the after-sales platform, and to bind the agricultural machine code with the order information in the sales platform, the method may further include:

And acquiring information of a displacement sensor through a processing module, wherein the displacement sensor is arranged at a connecting bolt of the identification equipment and the agricultural machinery meeting the conditions.

And further, according to the displacement sensor information, if the connecting bolt is determined to have displacement, alarm information is sent to the after-sales platform through the communication module.

Through the technical scheme, the identification equipment can be prevented from being disassembled.

In one embodiment, the server determines that the farm machinery meeting the condition arrives at the location corresponding to the receiving address according to the real-time location information, and determines that the physical distribution state corresponding to the order information is received through the sales platform, then the current state in the identification device is modified to be the received state, and after synchronizing the received state to the after-sales platform, the server may further:

the server records order information corresponding to the identification equipment, a change time point of the current state of the identification equipment and movement information of the identification equipment to the identification equipment.

Furthermore, the processing module is used for collecting the usage data of the agricultural machinery meeting the conditions, wherein the usage data at least comprises at least one of the following: use time, driving mileage, maintenance record.

Furthermore, the server synchronously records the use data into the identification equipment and synchronously transmits the use data to the after-sales platform through the communication module every interval for a preset time value.

Through the technical scheme, the identification equipment and the after-sale platform can store the information of the corresponding agricultural machinery, so that the safety and the authenticity of the information are further ensured.

In addition, the server can monitor the synchronization time of the usage data through the after-sales platform, if the difference value between the uploading time and the current time of the latest usage data is larger than the preset time value, the after-sales platform records the alarm information, and monitors the usage data abnormally, and if the usage data is determined to have an abnormal condition, the after-sales platform records the alarm information, wherein the abnormal condition comprises at least one of the following: the service time is reduced, the driving mileage is reduced, and the maintenance record is deleted.

Further, the server can acquire the last piece of use data corresponding to the use data with the abnormality in the after-sales platform, and further record the last piece of use data and the alarm information into the corresponding identification equipment through the communication module.

By the technical scheme, the situation that the user counterfeits the use condition of the agricultural machinery can be avoided, so that the rights and interests of second-hand traders are infringed, and meanwhile, the authenticity of data is further ensured.

In addition, in one embodiment, the server may further determine that the identification device establishes a bluetooth connection with the terminal APP through the identification device, and send a unique identification code of the identification device to the terminal APP through the identification device, where the unique identification code is used to prove identity information of the identification device.

After the terminal APP obtains the unique identification code of the identification equipment, the access right of the after-sale platform of the corresponding farm machinery can be obtained.

Further, the server may determine that the terminal APP establishes a communication connection with the after-market platform, and that the after-market platform receives the unique identification code sent by the terminal APP.

Further, the server may query the after-market platform for all information corresponding to the unique identification code, and send all information to the terminal APP through the after-market platform.

Through the technical scheme, the user can read the data recorded by the after-sale platform of the corresponding agricultural machine, and meanwhile, in the subsequent second-hand transaction, the transparency of the data is ensured, so that the conditions of renewing and counterfeiting the agricultural machine are avoided.

In one embodiment, as shown in FIG. 2, the present application also provides an anti-counterfeiting device for an agricultural machine, comprising:

At least one processor; and

A memory communicatively coupled to the at least one processor; wherein,

The memory stores instructions executable by the at least one processor to enable the at least one processor to perform the following instructions:

Information interconnection between a sales platform of the agricultural machine, a storage platform of the agricultural machine and an after-sales platform of the agricultural machine is constructed, order information of the agricultural machine is obtained in real time through the sales platform, and the order information comprises at least one of the following: order number, agricultural machinery model, order remarks, receiving address, and orderer information;

inquiring a plurality of corresponding agricultural machines in the storage platform according to the model of the agricultural machine, and selecting the agricultural machine meeting the conditions from the plurality of agricultural machines according to the order remarks;

Transmitting the order number to an identification device installed in the qualified agricultural machine, activating the identification device through the order number, setting a current state to be a to-be-delivered state in the identification device, uploading an agricultural machine code of the qualified agricultural machine to the sales platform and the after-sales platform, and binding the agricultural machine code with the order information in the sales platform; wherein the agricultural machinery code is stored in the identification device, the identification device comprising: the device comprises a processing module, a communication module and a positioning module;

Acquiring real-time position information of the qualified agricultural machine through the positioning module, determining that the qualified agricultural machine has position movement according to the real-time position information, modifying the current state in the identification equipment into an in-transit state, and transmitting the real-time position information to the after-sales platform through the communication module;

And according to the real-time position information, determining that the agricultural machine meeting the conditions reaches the position corresponding to the receiving address, determining that the logistics state corresponding to the order information is received through the sales platform, modifying the current state in the identification equipment into the received state, and synchronizing the received state to the after-sales platform.

In one embodiment, the present application also provides a non-volatile computer storage medium storing computer-executable instructions configured to:

Information interconnection between a sales platform of the agricultural machine, a storage platform of the agricultural machine and an after-sales platform of the agricultural machine is constructed, order information of the agricultural machine is obtained in real time through the sales platform, and the order information comprises at least one of the following: order number, agricultural machinery model, order remarks, receiving address, and orderer information;

inquiring a plurality of corresponding agricultural machines in the storage platform according to the model of the agricultural machine, and selecting the agricultural machine meeting the conditions from the plurality of agricultural machines according to the order remarks;

Transmitting the order number to an identification device installed in the qualified agricultural machine, activating the identification device through the order number, setting a current state to be a to-be-delivered state in the identification device, uploading an agricultural machine code of the qualified agricultural machine to the sales platform and the after-sales platform, and binding the agricultural machine code with the order information in the sales platform; wherein the agricultural machinery code is stored in the identification device, the identification device comprising: the device comprises a processing module, a communication module and a positioning module;

Acquiring real-time position information of the qualified agricultural machine through the positioning module, determining that the qualified agricultural machine has position movement according to the real-time position information, modifying the current state in the identification equipment into an in-transit state, and transmitting the real-time position information to the after-sales platform through the communication module;

And according to the real-time position information, determining that the agricultural machine meeting the conditions reaches the position corresponding to the receiving address, determining that the logistics state corresponding to the order information is received through the sales platform, modifying the current state in the identification equipment into the received state, and synchronizing the received state to the after-sales platform.

The embodiments of the present application are described in a progressive manner, and the same and similar parts of the embodiments are all referred to each other, and each embodiment is mainly described in the differences from the other embodiments. In particular, for the apparatus and medium embodiments, the description is relatively simple, as it is substantially similar to the method embodiments, with reference to the section of the method embodiments being relevant.

The devices and media provided in the embodiments of the present application are in one-to-one correspondence with the methods, so that the devices and media also have similar beneficial technical effects as the corresponding methods, and since the beneficial technical effects of the methods have been described in detail above, the beneficial technical effects of the devices and media are not repeated here.

It will be appreciated by those skilled in the art that embodiments of the present application may be provided as a method, system, or computer program product. Accordingly, the present application may take the form of an entirely hardware embodiment, an entirely software embodiment or an embodiment combining software and hardware aspects. Furthermore, the present application may take the form of a computer program product embodied on one or more computer-usable storage media (including, but not limited to, disk storage, CD-ROM, optical storage, and the like) having computer-usable program code embodied therein.

The present application is described with reference to flowchart illustrations and/or block diagrams of methods, apparatus (systems) and computer program products according to embodiments of the application. It will be understood that each flow and/or block of the flowchart illustrations and/or block diagrams, and combinations of flows and/or blocks in the flowchart illustrations and/or block diagrams, can be implemented by computer program instructions. These computer program instructions may be provided to a processor of a general purpose computer, special purpose computer, embedded processor, or other programmable data processing apparatus to produce a machine, such that the instructions, which execute via the processor of the computer or other programmable data processing apparatus, create means for implementing the functions specified in the flowchart flow or flows and/or block diagram block or blocks.

These computer program instructions may also be stored in a computer-readable memory that can direct a computer or other programmable data processing apparatus to function in a particular manner, such that the instructions stored in the computer-readable memory produce an article of manufacture including instruction means which implement the function specified in the flowchart flow or flows and/or block diagram block or blocks.

These computer program instructions may also be loaded onto a computer or other programmable data processing apparatus to cause a series of operational steps to be performed on the computer or other programmable apparatus to produce a computer implemented process such that the instructions which execute on the computer or other programmable apparatus provide steps for implementing the functions specified in the flowchart flow or flows and/or block diagram block or blocks.

In one typical configuration, a computing device includes one or more processors (CPUs), input/output interfaces, network interfaces, and memory.

The memory may include volatile memory in a computer-readable medium, random Access Memory (RAM) and/or nonvolatile memory, such as Read Only Memory (ROM) or flash memory (flash RAM). Memory is an example of computer-readable media.

Computer readable media, including both non-transitory and non-transitory, removable and non-removable media, may implement information storage by any method or technology. The information may be computer readable instructions, data structures, modules of a program, or other data. Examples of storage media for a computer include, but are not limited to, phase change memory (PRAM), static Random Access Memory (SRAM), dynamic Random Access Memory (DRAM), other types of Random Access Memory (RAM), read Only Memory (ROM), electrically Erasable Programmable Read Only Memory (EEPROM), flash memory or other memory technology, compact disc read only memory (CD-ROM), digital Versatile Discs (DVD) or other optical storage, magnetic cassettes, magnetic tape magnetic disk storage or other magnetic storage devices, or any other non-transmission medium, which can be used to store information that can be accessed by a computing device. Computer-readable media, as defined herein, does not include transitory computer-readable media (transmission media), such as modulated data signals and carrier waves.

It should also be noted that the terms "comprises," "comprising," or any other variation thereof, are intended to cover a non-exclusive inclusion, such that a process, method, article, or apparatus that comprises a list of elements does not include only those elements but may include other elements not expressly listed or inherent to such process, method, article, or apparatus. Without further limitation, an element defined by the phrase "comprising one … …" does not exclude the presence of other like elements in a process, method, article or apparatus that comprises the element.

The foregoing is merely exemplary of the present application and is not intended to limit the present application. Various modifications and variations of the present application will be apparent to those skilled in the art. Any modification, equivalent replacement, improvement, etc. which come within the spirit and principles of the application are to be included in the scope of the claims of the present application.

Claims (3)

1. An anti-counterfeiting method for an agricultural machine, comprising:

The server constructs information interconnection with a sales platform of the agricultural machine, a storage platform of the agricultural machine and an after-sales platform of the agricultural machine, and acquires order information of the agricultural machine in real time through the sales platform, wherein the order information comprises at least one of the following: order number, agricultural machinery model, order remarks, receiving address, and orderer information;

inquiring a plurality of corresponding agricultural machines in the storage platform according to the model of the agricultural machine, and selecting the agricultural machine meeting the conditions from the plurality of agricultural machines according to the order remarks;

Transmitting the order number to an identification device installed in the qualified agricultural machine, activating the identification device through the order number, setting a current state to be a to-be-delivered state in the identification device, uploading an agricultural machine code of the qualified agricultural machine to the sales platform and the after-sales platform, and binding the agricultural machine code with the order information in the sales platform, wherein the agricultural machine code is stored in the identification device, and the identification device comprises: the device comprises a processing module, a communication module and a positioning module;

Thereafter, the method further comprises: the self-contained power supply voltage of the identification equipment and the battery voltage of the agricultural machinery meeting the conditions are obtained through the processing module, wherein the identification equipment is connected with the battery so as to provide electric energy for the identification equipment through the battery, and the battery voltage is larger than the self-contained power supply voltage; collecting the current voltage of the identification equipment in real time through the processing module; if the current voltage is not greater than the self-contained power supply voltage, sending alarm information to the after-sales platform through the communication module; acquiring a voltage change value of the identification equipment within a preset time range through the processing module; constructing a voltage change curve graph of the identification equipment within the preset time range according to the current voltage change value; according to the voltage change curve graph, if the voltage change is determined to have mutation in the preset time range, marking the alarm information as high risk through the communication module; if the voltage change does not have mutation in the preset time range, marking the alarm information as low risk through the communication module;

Thereafter, the method further comprises: acquiring displacement sensor information through the processing module, wherein the displacement sensor is arranged at a connecting bolt of the identification equipment and the agricultural machinery meeting the conditions; according to the displacement sensor information, if the fact that the connecting bolt has displacement is determined, alarm information is sent to the after-sales platform through the communication module;

Acquiring real-time position information of the qualified agricultural machine through the positioning module, determining that the qualified agricultural machine has position movement according to the real-time position information, modifying the current state in the identification equipment into an in-transit state, and transmitting the real-time position information to the after-sales platform through the communication module;

Thereafter, the method further comprises: constructing a normal mobile line diagram according to the position of the storage platform and the receiving address; acquiring logistics information of the agricultural machinery meeting the conditions, and inquiring a corresponding historical moving circuit diagram according to logistics merchant information and the receiving address included in the logistics information; constructing an actual moving circuit diagram of the agricultural machinery meeting the conditions according to the real-time position information; according to the moving path of the actual moving circuit diagram, respectively carrying out overlapping comparison on the actual moving circuit diagram and part or all of the normal moving circuit diagram and the historical moving circuit diagram to obtain two overlapping degree values, and sending alarm information to the after-sales platform when the two overlapping degree values can not reach a preset threshold value;

According to the real-time position information, determining that the agricultural machinery meeting the conditions arrives at the position corresponding to the receiving address, and determining that the logistics state corresponding to the order information is received through the sales platform, modifying the current state in the identification equipment into the received state, and synchronizing the received state to the after-sales platform;

The method then further comprises: determining, by the sales platform, that a user has uploaded a receipt, the receipt comprising: the image of the agricultural machinery meeting the conditions and the identity card image of the user; performing feature extraction and recognition processing on the image of the agricultural machine meeting the conditions through a first image recognition model to obtain a recognition result, and extracting key information from the recognition result, wherein the key information comprises: agricultural machine model and machine body color; performing feature extraction and recognition processing on the identity card image of the user through a second image recognition model to obtain a recognition result, and determining the identity card number of the user according to the recognition result; comparing the key information and the identification card number with corresponding information in the order information, and determining that the comparison result is consistent; activating the agricultural machinery meeting the conditions through the identification equipment, and uploading the activation time and the activation place to the after-sales platform;

Thereafter, the method further comprises: recording the order information corresponding to the identification equipment, the change time point of the current state of the identification equipment and the movement information of the identification equipment to the identification equipment; collecting, by the processing module, usage data of the eligible farm machine, the usage data including at least one of: recording the service time, the driving mileage and maintenance; synchronously recording the use data into the identification equipment, and synchronously transmitting the use data to the after-sales platform through the communication module every interval with a preset time value; monitoring the synchronous time of the usage data through the after-sales platform, and recording alarm information in the after-sales platform if the difference value between the uploading time of the latest usage data and the current time is larger than the preset time value; and performing anomaly monitoring on the usage data, and recording alarm information in the after-sales platform if the usage data is determined to have an anomaly condition, wherein the anomaly condition comprises at least one of the following: the service time is reduced, the driving mileage is reduced, and the maintenance records are deleted; acquiring the last piece of use data corresponding to the use data with the abnormality in the after-sales platform; recording the last piece of use data and the alarm information to the corresponding identification equipment through the communication module;

The method further comprises the steps of: determining that the identification equipment and a terminal APP are connected in a Bluetooth mode through the identification equipment, and sending a unique identification code of the identification equipment to the terminal APP through the identification equipment; determining that the terminal APP establishes communication connection with the after-sales platform, and determining that the after-sales platform receives the unique identification code sent by the terminal APP; and inquiring all information corresponding to the unique identification code in the after-sale platform, and sending all information to the terminal APP through the after-sale platform.

2. An anti-counterfeiting device for an agricultural machine, comprising:

At least one processor; and

A memory communicatively coupled to the at least one processor; wherein the memory stores instructions executable by the at least one processor to enable the at least one processor to perform an anti-counterfeiting method for an agricultural machine according to claim 1.

3. A non-volatile computer storage medium storing computer executable instructions arranged to be able to perform an anti-counterfeiting method for an agricultural machine according to claim 1.