CN111260268B - Processing method, processing device, detection equipment and server - Google Patents

Abstract

The embodiment of the application provides a processing method, a processing device, detection equipment and a server. The detection equipment is at least partially arranged in the express package, detects at least one environmental parameter in the express package, and sends parameter data of the at least one environmental parameter to the server, so that the server can determine the state of the express package based on the parameter data of the at least one environmental parameter. The technical scheme provided by the embodiment of the application realizes the transportation monitoring of the express packages, thereby ensuring the transportation safety of articles.

Description

Processing method, processing device, detection equipment and server

Technical Field

The embodiment of the application relates to the technical field of computer application, in particular to a processing method, a processing device, detection equipment and a server.

Background

When the logistics company carries out article transportation, the articles are packaged in express packages for transportation and delivery to a receiver. Due to uncertainty of logistics environment and the fact that the express package needs to be transferred before reaching a receiver, the express package can be unpacked halfway maliciously during logistics transportation, so that abnormal transportation conditions such as article loss, damage and package falling occur, and article transportation safety is still low.

Disclosure of Invention

The embodiment of the application provides a processing method, a processing device, detection equipment and a server.

In a first aspect, an embodiment of the present application provides a processing method, including:

detecting at least one environmental parameter in the express package;

and sending the parameter data of the at least one environmental parameter to a server side so that the server side can determine the state of the express package based on the parameter data of the at least one environmental parameter.

In a second aspect, an embodiment of the present application provides a detection device, at least partially disposed in an express package, including at least one detection component, a storage component, a communication component, and a control component;

the storage component stores one or more computer instructions; the one or more computer instructions are for the control component to call and execute;

the control assembly is used for:

detecting at least one environmental parameter within the express package by the at least one detection component;

triggering the communication component to send the parameter data of the at least one environmental parameter to a server side so that the server side can determine the state of the express package based on the parameter data of the at least one environmental parameter.

In a third aspect, an embodiment of the present application provides a processing method, including:

receiving parameter data of at least one environmental parameter sent by the detection equipment; wherein the detection equipment is at least partially arranged in the express package;

and determining the state of the express package based on the parameter data of the at least one environmental parameter.

In a fourth aspect, in an embodiment of the present application, a processing method is provided, including:

detecting at least one environmental parameter in the express package;

and determining the state of the express package based on the parameter data of the at least one environmental parameter.

In a fifth aspect, an embodiment of the present application provides a detection device, at least partially disposed in an express package, including at least one detection component, a storage component, and a control component;

the storage component stores one or more computer instructions; the one or more computer instructions are for the control component to call and execute;

the control assembly is used for:

detecting at least one environmental parameter within the express package by the at least one detection component;

and determining the state of the express package based on the parameter data of the at least one environmental parameter.

In a sixth aspect, in an embodiment of the present application, there is provided a processing apparatus, including:

the first detection module is used for detecting at least one environmental parameter in the express package;

the sending module is used for sending the parameter data of the at least one environment parameter to the server side so that the server side can determine the state of the express package based on the parameter data of the at least one environment parameter.

In a seventh aspect, in an embodiment of the present application, there is provided a processing apparatus, including:

the receiving module is used for receiving the parameter data of at least one environmental parameter sent by the detection equipment; wherein the detection equipment is at least partially arranged in the express package;

the first determining module is used for determining the state of the express package based on the parameter data of the at least one environment parameter.

In an eighth aspect, in an embodiment of the present application, there is provided a processing apparatus, including:

the second detection module is used for detecting at least one environmental parameter in the express package;

and the second determining module is used for determining the state of the express package based on the parameter data of the at least one environment parameter.

In a ninth aspect, in an embodiment of the present application, a server is provided, including a processing component and a storage component;

The storage component stores one or more computer instructions; the one or more computer instructions are to be invoked for execution by the processing component;

the processing assembly is configured to:

receiving parameter data which is sent by detection equipment and is provided with at least one environmental parameter; wherein the detection equipment is at least partially arranged in the express package;

and determining the state of the express package based on the parameter data of the at least one environmental parameter.

In a tenth aspect, embodiments of the present application provide a packaging box, including a box body for accommodating an article and a detection device disposed in the box body according to the second aspect or the fifth aspect.

In this embodiment of the application, the detection equipment is at least partly built-in the express delivery parcel, in express delivery parcel commodity circulation transportation, can detect at least one environmental parameter in the express delivery parcel to obtain parameter data with at least one environmental parameter detection and upload to the service terminal, the service terminal can confirm the state of express delivery parcel based on the parameter data of at least one environmental parameter, with judging whether express delivery parcel has the transportation abnormal condition, reaches the purpose of transportation monitoring to the express delivery parcel, with this article transportation security that has improved.

These and other aspects of the present application will be more readily apparent from the following description of the embodiments.

Drawings

In order to more clearly illustrate the embodiments of the present application or the technical solutions in the prior art, a brief description will be given below of the drawings that are needed in the embodiments or the prior art descriptions, and it is obvious that the drawings in the following description are some embodiments of the present application, and that other drawings can be obtained according to these drawings without inventive effort for a person skilled in the art.

FIG. 1 is a schematic structural view of one embodiment of a detection device provided in the present application;

FIG. 2 illustrates a flow chart of one embodiment of a processing method provided herein;

FIG. 3 illustrates a flow chart of yet another embodiment of a processing method provided herein;

FIG. 4 is a schematic diagram illustrating the processing interaction of an embodiment of the present application in a practical application;

FIG. 5 is a schematic structural view of a further embodiment of a detection device provided in the present application;

FIG. 6 shows a flow chart of yet another embodiment of a processing method provided herein;

FIG. 7 is a schematic diagram illustrating one embodiment of a processing device provided herein;

FIG. 8 shows a schematic structural view of yet another embodiment of a processing device provided herein;

FIG. 9 is a schematic structural diagram of one embodiment of a server provided in the present application;

fig. 10 is a schematic structural view of a further embodiment of a processing device provided in the present application.

Detailed Description

In order to enable those skilled in the art to better understand the present application, the following description will make clear and complete descriptions of the technical solutions in the embodiments of the present application with reference to the accompanying drawings in the embodiments of the present application.

In some of the flows described in the specification and claims of this application and in the foregoing figures, a number of operations are included that occur in a particular order, but it should be understood that the operations may be performed in other than the order in which they occur or in parallel, that the order of operations such as 101, 102, etc. is merely for distinguishing between the various operations, and that the order of execution is not by itself represented by any order of execution. In addition, the flows may include more or fewer operations, and the operations may be performed sequentially or in parallel. It should be noted that, the descriptions of "first" and "second" herein are used to distinguish different messages, devices, modules, etc., and do not represent a sequence, and are not limited to the "first" and the "second" being different types.

The technical scheme of this application embodiment is mainly applied to in the commodity circulation transportation scene for monitor the express delivery parcel in commodity circulation transportation, especially when the article in the express delivery parcel is valuables, realize the control of express delivery parcel transportation state, with this security of guaranteeing article transportation.

With the continuous perfection of online transaction platforms, more and more people acquire goods required by themselves in an online shopping mode, and then logistics business is gradually developed, and more logistics companies are also increased. At present, when a logistics company carries out article transportation, articles are packed in a packing box to form express packages for transportation, but the express packages have unpacking risks, so that the transportation safety of the articles at present cannot be effectively ensured.

In order to improve the transportation safety of the articles, the inventor provides a technical scheme of the application through a series of researches, and in the embodiment of the application, the detection equipment can be at least partially arranged in the express package so as to detect at least one environmental parameter in the express package and upload the parameter data of the at least one environmental parameter to a service end.

The following description of the embodiments of the present application will be made clearly and fully with reference to the accompanying drawings, in which it is evident that the embodiments described are only some, but not all, of the embodiments of the present application. All other embodiments, which can be made by those skilled in the art based on the embodiments herein without making any inventive effort, are intended to be within the scope of the present application.

Fig. 1 is a schematic structural diagram of an embodiment of a detection device provided in an embodiment of the present application, where the detection device is at least partially disposed in an express package, and may be packaged with an article in the express package, and may include at least one detection component 101, a storage component 102, a communication component 103, and a control component 104; according to actual demands, at least part of the detection components can be arranged outside the express packages.

Wherein the storage component 102 stores one or more computer instructions; the one or more computer instructions are for invocation and execution by the control component 104;

the control assembly 104 is configured to:

detecting, by the at least one detection component 101, at least one environmental parameter within the express package;

Triggering the communication component 103 to send the parameter data of the at least one environmental parameter to a server.

Therefore, the server side can determine the state of the express package based on the parameter data of the at least one environmental parameter.

Optionally, the method may include determining whether the express package has abnormal transportation conditions based on the parameter data of the at least one environmental parameter, and generating the alarm prompt information if it is determined that the express package has abnormal transportation conditions.

The abnormal transportation condition can be the problem that the express package is unpacked to cause the loss, damage or package falling of the articles and the like.

The express package has abnormal transportation conditions, namely, abnormal transportation conditions of articles in the express package are indicated.

Alternatively, at least one environmental parameter within the express package may be detected by the at least one detection component 101 in real time or periodically.

Therefore, the control component may specifically send at least one parameter data obtained by detecting each of the at least one environmental parameter to the server through the communication component.

In addition, in order to facilitate the service end to determine the express package, the control component may specifically send, through the communication component, the device identifier of the detection device and the parameter data of the at least one environmental parameter to the service end, so that the service end determines the express package based on the device identifier.

The device identifier may be pre-stored in the storage component, and the corresponding relationship between the device identifier, the package identifier, the item identifier and the like may be pre-stored in the server, so that based on the corresponding relationship, the express package represented by the package identifier corresponding to the device identifier and the item identified by the item identifier corresponding to the device identifier may be determined.

The alarm prompt message can be used for prompting the existence of abnormal transportation conditions of express packages.

The control component 104 can be implemented as one or more Application Specific Integrated Circuits (ASICs), digital Signal Processors (DSPs), digital Signal Processing Devices (DSPDs), programmable Logic Devices (PLDs), field Programmable Gate Arrays (FPGAs), controllers, microcontrollers, microprocessors, or other electronic elements for executing the methods described above.

The storage component 102 is configured to store various types of data to support operation at the detection device. The memory component may be implemented by any type or combination of volatile or nonvolatile memory devices such as Static Random Access Memory (SRAM), electrically erasable programmable read-only memory (EEPROM), erasable programmable read-only memory (EPROM), programmable read-only memory (PROM), read-only memory (ROM), magnetic memory, flash memory, magnetic or optical disk.

The communication component 103 may, for example, comprise a short-range communication component, such as a bluetooth component or the like;

or the communication component 103 may refer to a communication component such as Lora (a low power consumption local area network wireless technology), NBIOT (Narrow Band Internet of Things ), 2G (second generation mobile communication technology), 3G (third generation mobile communication technology), 4G (fourth generation mobile communication technology), or 5G (second generation mobile communication technology).

The at least one detection component may include a sensor or the like of the at least one environmental parameter.

In one alternative, the at least one environmental parameter may include, for example, one or more of gas concentration, light intensity, and sound intensity;

the at least one detection component includes one or more of a gas concentration sensor to detect a gas concentration, a light sensor to detect a light intensity, and a sound sensor to detect a sound intensity.

When the at least one environmental parameter comprises gas concentration, the express package is in a sealed state and filled with specific gas. The specific gas is nontoxic and colorless gas, such as various inert gases, such as argon, krypton, xenon, etc. The express package can adopt a specific packaging box which can be in a sealed state.

Of course, the at least one detecting component may also include a closing sensor, for example, to detect whether the express package is opened, etc. A sensor to detect temperature, a sensor to detect humidity, etc. may also be included.

Those skilled in the art will understand that the detection device may necessarily further include other components for implementing its normal operation, such as an input/output interface, a housing, a power supply assembly, etc., which are not described herein.

The specific implementation manner of determining the express package state by the server based on the parameter data of the at least one environmental parameter is described in detail in the following embodiments.

In this embodiment, the detection device is at least partially built in the express package, and may detect at least one environmental parameter in the express package, and upload parameter data obtained by respectively detecting at least one environmental parameter to the server, so that the server may determine the status in the express package based on the parameter data of the at least one environmental parameter, thereby implementing transportation monitoring on the express package, and improving the transportation security of the articles.

Wherein, as an alternative, a network connection may be established with the service end by using the communication component, and the communication component may include, for example, a Lora, NBIOT, GPS, 2G, 3G, 4G, or 5G communication component.

Thus, the method is applicable to a variety of applications. The control component can upload the parameter data obtained by detection to the server in real time, that is, send the parameter data obtained by current detection of at least one environmental parameter to the server in real time, for example, when the communication signal strength between the detection device and the server meets the communication requirement, send the parameter data obtained by current detection of at least one environmental parameter to the server in real time;

in addition, the communication signal strength between the communication component and the server may not meet the communication requirements due to the influence of the transportation environment. At this time, the control component may save the parameter data obtained by the respective detection of at least one environmental parameter to the storage component;

the triggering of the communication component by the control component to send the at least one parameter data obtained by the respective detection of the at least one environmental parameter to the server may be that the communication signal strength with the server meets the communication requirement, and then triggering the communication component to send the at least one parameter data obtained by the respective detection of the at least one environmental parameter to the server.

In addition, the parameter data sent to the server side each time can carry the equipment identifier, so that the server side can distinguish different express packages.

Because the detection of at least one environmental parameter in the express package can be continuously performed, optionally, the parameter data uploaded to the server may not be repeatedly transmitted.

Thus, in some embodiments, the control component may specifically trigger the communication component to send at least one parameter data, which is not uploaded by the at least one environmental parameter, to the server.

As a further alternative, since the detection device communicates directly with the service end, the communication quality may be affected by the transportation environment. In some embodiments, the control component sending the at least one parameter data that is not uploaded by each of the at least one environmental parameter to the server comprises:

establishing a communication connection with any one of the user terminals through the communication component based on a communication connection request of any one of the terminals;

and transmitting at least one parameter data which is not uploaded by the at least one environment parameter to any terminal based on the communication connection, and transmitting the at least one parameter data which is not uploaded by the at least one environment parameter to a server by any terminal.

Wherein the communication component may include a short-range communication component, and the control component may establish a communication connection with any one of the user terminals through the communication component based on a communication connection request of any one of the terminals:

And establishing communication connection with any one terminal through the short-distance communication component based on the communication connection request of the any one terminal.

Since the express packages are transported in logistics, the packages may be circulated at a plurality of sites, there may be a plurality of operators to sort, etc., and any one of the terminals may be a handheld device configured by any one of the operators, etc.

At least one parameter data which is not uploaded by at least one environment parameter can be sent to the server through any terminal. The at least one environmental parameter is detected by the at least one detection component when the at least one parameter data, which is not uploaded by the at least one environmental parameter, respectively, is not communicatively connected to any terminal.

Wherein at least one parameter data for each environmental parameter may be acquired by the respective detection component in real time or periodically continuously.

The server side judges whether the abnormal transportation condition exists in the express package based on at least one parameter data of the at least one environment parameter, and the initial data of the at least one parameter data of the at least one environment parameter can be compared and determined.

Optionally, the initial data of at least one environmental parameter may be preconfigured in the server, for example, when the environmental parameter is a gas concentration of a specific gas filled in the express package, the initial data of the gas concentration is the filling concentration of the specific gas, and is recorded in the server.

Furthermore, the initial data of the at least one environmental parameter may also be obtained by detecting that the detection device is initially placed in the express package, and thus, in some embodiments, the control component is further configured to:

responding to a detection starting instruction, and detecting and obtaining initial data of at least one environmental parameter in the express package;

and sending the initial data of the at least one environmental parameter to a server side so that the server side can judge whether the express package has abnormal transportation conditions or not based on the initial data of the at least one environmental parameter and the parameter data.

Optionally, the device identifier and the initial data of the at least one environmental parameter may be sent to a server, so that the server may determine the express package based on the device identifier.

Wherein the parameter data obtained by each environmental parameter detection may include time stamp information representing the respective acquisition time. Thus, the data obtained by the earliest detection of each environmental parameter can be used as initial data.

As can be seen from the above description, the control component may save the parameter data obtained by detecting each of the at least one environmental parameter to the storage component;

Thus, in some embodiments, the sending, by the control component, the at least one parameter data that is not uploaded by each of the at least one environmental parameter to the server may include:

at least one parameter data which are not uploaded by the at least one environmental parameter in the storage component are sent to a server;

the control assembly is further configured to:

and deleting the parameter data uploaded by the at least one environmental parameter from the storage component.

By deleting the uploaded parameter data, memory occupation and the like can be reduced.

In some embodiments, the detection device may also include a positioning component, such as a GPS component.

The control assembly may also be configured to:

positioning and detecting the express package by utilizing the positioning component;

and sending at least one piece of position information obtained through detection to a server through the communication component, wherein when the server determines that the express package has abnormal transportation conditions, the server determines an abnormal transportation area of the express package based on the at least one piece of position information, so that the server can generate alarm prompt information based on the abnormal transportation area specifically to prompt a user on which areas of the express package are abnormal, and the like.

The express package can be positioned and detected in real time by utilizing the positioning component;

of course, in order to reduce energy consumption, the express packages can be positioned and detected in real time by using the positioning assembly every certain time.

Optionally, the communication component may send the at least one position information that is not uploaded by the detection result to the server.

The at least one piece of location information that is not uploaded may be sent to the server simultaneously with at least one piece of parameter data that is not uploaded by the at least one environmental parameter.

In addition, to further improve security, the detection device may further include an encryption chip;

the control component sending the parameter data of the at least one environmental parameter to the server comprises:

encrypting the parameter data of the at least one environmental parameter by using the encryption chip;

and sending the encrypted parameter data of the at least one environment parameter to a server. So that the server needs to decrypt the received data to obtain the parameter data of the at least one environmental parameter.

Based on the detection apparatus described in any of the foregoing embodiments, a processing method according to an embodiment of the present application is further provided, as shown in fig. 2, and the method may include the following steps:

201: at least one environmental parameter within the express package is detected.

At least one environmental parameter in the express package can be detected in real time or periodically.

202: and sending the parameter data of the at least one environmental parameter to a server.

The server side can determine the state of the express package based on the respective parameter data of the at least one environmental parameter. Specifically, whether the express package has abnormal transportation conditions or not can be judged, and if the abnormal transportation conditions of the express package are determined, alarm prompt information is generated.

Optionally, the device identifier and the parameter data of the at least one environmental parameter may be sent to the server, so that the server determines the express package based on the device identifier; and determining the state of the express package based on the respective parameter data of the at least one environmental parameter.

In some embodiments, the sending the parameter data of the at least one environmental parameter to the server may include:

and transmitting at least one parameter data which are not uploaded by the at least one environment parameter to a server.

The parameter data obtained by detection can be uploaded to the server in real time; of course, the method can also be used for caching, and then uploading a plurality of parameter data of each environmental parameter to the server, so as to avoid the problem of uploading failure caused by weak signal strength or other reasons and the like of real-time uploading.

In addition, since the detection device is at least partially built in the express package, and has limited volume and limited performance, it may be time consuming to directly establish a network connection with the server, or even the connection may fail, and in some embodiments, the sending, to the server, at least one parameter data that is not uploaded by each of the at least one environmental parameter may include:

receiving a communication connection request of any terminal and establishing communication connection with any terminal;

and transmitting at least one parameter data which is not uploaded by the at least one environment parameter to any terminal based on the communication connection, and transmitting the at least one parameter data which is not uploaded by the at least one environment parameter by any terminal to a server.

Alternatively, a short-range communication connection may be established with either terminal in particular.

The server determines, based on the parameter data of the at least one environmental parameter, a status of the express package, which may be determined by comparing the parameter data of the at least one environmental parameter with the initial data of the at least one environmental parameter.

Optionally, the initial data of at least one environmental parameter may be preconfigured in the server, for example, when the environmental parameter is a gas concentration of a specific gas filled in the express package, the initial data of the gas concentration is the filling concentration of the specific gas, and is recorded in the server.

Furthermore, the initial data of the at least one environmental parameter may also be obtained by detecting that the detection device is initially placed in the express package, and thus, in some embodiments, the method may further include:

detecting and obtaining initial data of at least one environmental parameter in the express package;

and sending the initial data of the at least one environmental parameter to a server side so that the server side can judge whether the express package has abnormal transportation conditions or not based on the initial data of the at least one environmental parameter and the respective at least one parameter data.

Optionally, the device identifier and the initial data of the at least one environmental parameter may be sent to a server, so that the server may determine the initial data of the at least one environmental parameter and detect the obtained parameter data according to the device identifier.

Wherein the at least one environmental parameter may include one or more of gas concentration, light intensity, and sound intensity;

when the at least one environmental parameter comprises gas concentration, the express package is in a sealed state and filled with specific gas. The specific gas is nontoxic and colorless gas, such as various inert gases, such as argon, krypton, xenon, etc. The express package can adopt a specific packaging box which can be in a sealed state.

Of course, the at least one environmental parameter may also include temperature, humidity, etc.

In order to conveniently determine the area of the express package when the abnormal transportation condition exists, the method may further include:

positioning and detecting the express package;

and sending at least one piece of position information obtained through detection to a server side, so that when the server side determines that the express package has abnormal transportation conditions, a transportation abnormal area of the express package is determined based on the at least one piece of position information.

The at least one piece of location information may be obtained by positioning in a detection period corresponding to at least one piece of parameter data of each of the at least one environmental parameter.

Namely, at least one piece of position information obtained in a detection time range corresponding to at least one parameter data of the at least one environmental parameter is sent to the server.

The at least one location information may be transmitted to the server simultaneously with at least one parameter data of each of the at least one environmental parameter.

Alternatively, in some embodiments, at least one location information obtained by the detection may be sent to any one of the terminals based on a communication connection established with the any one of the terminals, and the at least one location information may be sent to the server by the any one of the terminals.

Optionally, at least one piece of position information which is obtained by detection and is not uploaded can be specifically sent to the server.

In some embodiments, to improve the security, the sending the parameter data of each of the at least one environmental parameter to the server may include:

encrypting the parameter data of the at least one environmental parameter;

and sending at least one parameter data of each of the at least one environment parameter after encryption to a server.

Fig. 3 is a flowchart of another embodiment of a processing method provided in the embodiment of the present application, where the technical scheme of the present embodiment is executed by a server, and the method may include the following steps:

301: and receiving parameter data of at least one environmental parameter sent by the detection equipment.

The detection device is at least partially built in the express package, and the at least one environmental parameter may refer to an environmental parameter in the express package.

The detection device can continuously detect the express packages, so that parameter data of at least one environmental parameter can be continuously sent to the server.

The detection device may send the parameter data of any one of the environmental parameters to the server after detecting the parameter data, or may send the parameter data of any one of the environmental parameters to the server after accumulating the parameter data. Thus, it may be in particular that at least one parameter data of each of the at least one environmental parameter transmitted by the detection device is received.

In addition, the detection device can also send the device identifier to the server for the server to search the corresponding express packages. Thus, alternatively, at least one parameter data obtained by respective detection of the device identification transmitted by the detection device and the at least one environmental parameter may be received.

The server side can pre-store the corresponding relation among the equipment identifier, the package identifier of the express package, the item identifier of the item in the express package and the user identifier of the user corresponding to the express package.

Therefore, by searching the corresponding relation, the package identifier and the article identifier corresponding to the equipment identifier can be determined, and further the express package represented by the package identifier and the articles in the express package are determined.

In practical application, when the articles and the detection equipment are placed in the express packages and packaged, the service end can record the package identifications, the article identifications and the equipment identifications, and as each article corresponds to a receiving user and a sending user respectively, the user identifications of the receiving user or the sending user corresponding to each express package can be determined.

The user identifier may refer to a user name, a communication number, a communication address or the like of the receiving user or the sending user, and if the article is an article in the online transaction platform, the user identifier may also refer to a user account number or the like on the online transaction platform.

The article identifier may be article information such as an article name that can be uniquely identified. In addition, in the online transaction scenario, the transaction order is correspondingly generated after the transaction of the article, and the article identification can also adopt the transaction order number.

In addition, when express packages carry out logistics transportation, the logistics company can respectively express the list number for each express package so as to track logistics information. The package identifier can be referred to as the express bill number.

302: and determining the state of the express package based on the parameter data of the at least one environmental parameter.

Optionally, the determining the status of the express package based on the parameter data of the at least one environmental parameter may specifically include:

judging whether the express package has abnormal transportation conditions or not based on the parameter data of the at least one environmental parameter, and if so, generating alarm prompt information; otherwise execution may proceed back to step 301.

The inventor finds that the express package is usually in a sealed package once being split, the inside of the express package can be exposed to the external environment, and certain environmental parameters in the express package can be changed once the express package is split, so that at least one environmental parameter of the express package can be detected, and the detected parameter data is sent to a server side, and the server side can judge whether the express package has the abnormal transportation condition or not based on the respective parameter data of the at least one environmental parameter, and then can generate alarm prompt information when the abnormal transportation condition exists, thereby realizing transportation monitoring of the express package and ensuring the transportation safety of articles.

In some embodiments, the receiving the parameter data of the at least one environmental parameter sent by the detection device includes:

receiving at least one parameter data obtained by detecting at least one environmental parameter and a device identifier sent by a detection device

The determining the status of the express package based on the parameter data of the at least one environmental parameter includes:

determining the express package based on the device identification;

and determining whether the express delivery has abnormal transportation conditions or not based on at least one parameter data of each of the at least one environment parameter.

Based on at least one parameter data of the at least one environmental parameter, judging whether the express package has abnormal transportation conditions or not has various implementation modes:

in one possible implementation manner, the determining, based on the at least one parameter data of each of the at least one environmental parameter, whether the express package has a transportation abnormality includes:

comparing at least one parameter data of each environmental parameter with the initial data of each environmental parameter respectively to obtain at least one abnormal data of each environmental parameter;

and judging whether the express package has abnormal transportation conditions or not based on at least one abnormal data of the at least one environment parameter.

The initial data of each environmental parameter may refer to parameter data when the express package is in an unpacking state.

The initial data may be parameter data obtained by detecting when the package placed article of the express package is packaged, and the detecting device is started initially.

Therefore, each parameter data of each environmental parameter is compared with the initial data thereof, and if the parameter data is different from the initial data, the data is abnormal data, so that at least one abnormal data of each environmental parameter can be obtained.

If the parameter data of the environmental parameters are different from the initial data, the package state of the express package is possibly damaged, the package state is possibly caused by people, and the articles are at risk of being stolen or damaged. Therefore, by combining at least one abnormal data of the at least one environmental parameter, whether the express package has abnormal transportation conditions can be judged.

In some embodiments, the determining whether the express package has a transportation abnormality based on the at least one abnormality data of the at least one environmental parameter may include:

judging whether the number of abnormal data with the same acquisition time is larger than a first preset number or not; if the number of the abnormal data with the same acquisition time is larger than a first preset number, determining that the express package has abnormal transportation conditions.

The first preset number may be 1, that is, if any environmental parameter has abnormal data, it may be determined that the express package has abnormal transportation conditions.

In some embodiments, if the express package has a transportation abnormality, generating the alarm prompt information includes:

if the express package has abnormal transportation conditions, taking the acquisition time with the abnormal data quantity larger than the first preset quantity as abnormal transportation time;

and generating alarm prompt information of the abnormal transportation time of the express package.

Based on the abnormal transportation time, the abnormal transportation condition of the express packages can be conveniently tracked when the express packages are in abnormal transportation, so that the goods can be searched or responsibility can be determined.

The number of the plurality of abnormal data may be greater than the first preset number of acquisition time, that is, a plurality of abnormal transportation events exist, an alarm prompt message may be correspondingly generated for each abnormal transportation event, and the alarm prompt message including a plurality of abnormal transportation time may be generated.

In another possible implementation, at least one parameter data of each environmental parameter is acquired continuously;

the determining whether the express package in the express package has abnormal transportation based on the at least one parameter data of the at least one environmental parameter may include:

Comparing at least one parameter data of each environmental parameter with initial data of each environmental parameter respectively, and determining at least one abnormal data of each environmental parameter and a data change characteristic of the at least one abnormal data;

and judging whether the express package has abnormal transportation conditions or not based on the data change characteristics of the at least one environmental parameter.

Because the express package needs to be transferred for many times in the transportation process, the express package may have abrasion conditions, such as when the environmental parameter is the gas concentration of the specific gas, the express package is in a sealed state and is filled with the specific gas when initially configured, the gas concentration in the express package may also change due to abrasion in the transportation process, but the concentration change rule is different from the concentration change rule when the express package is immediately switched from the sealed state to the unpacked state, and other environmental parameters are similar, so that whether the express package has abnormal transportation conditions can be determined by calculating the data change characteristic of each environmental parameter and combining the data change characteristic of the at least one environmental parameter.

In some embodiments, the data change characteristic may be a data change rate;

The determining whether the express package in the express package has abnormal transportation conditions based on the data change characteristics of the at least one environmental parameter comprises:

judging whether the number of the environmental parameters with the data change rate larger than the preset rate is larger than a second preset number or not; and if the number of the environmental parameters with the data change rate larger than the preset rate is larger than the second preset number, determining that the express package has abnormal transportation conditions.

In an actual application, the second preset number may be 1, that is, if the data change rate of any environmental parameter is greater than the preset rate, it may be determined that the abnormal transportation condition exists in the express package.

If the data change rate of one environmental parameter is greater than the preset rate, the data of the environmental parameter is shown to change rapidly, and the data is likely to be caused by manually unpacking the express package.

If the data change rate of one environmental parameter is smaller than the preset rate, it indicates that the parameter data of the environmental parameter changes slowly, possibly due to the express package itself.

Therefore, the data change characteristics are determined by analyzing the data change characteristics of each environmental parameter, so that the erroneous judgment condition can be avoided, and the judgment accuracy is improved.

In some embodiments, if the express package has a transportation abnormality, generating the alarm prompt information may include:

if the express package has abnormal transportation conditions, taking the earliest acquisition time corresponding to all abnormal data as abnormal transportation time;

and generating alarm prompt information comprising the abnormal transportation time.

The first data may be all abnormal data corresponding to the at least one environmental parameter, and the earliest acquisition time is the occurrence time of the abnormal data different from the initial data, which indicates that the package is delivered immediately after the earliest acquisition time, so that the package can be used as the abnormal time for delivery.

In addition, it is convenient to determine in which areas the express package is abnormal. In certain embodiments, the method may further comprise:

receiving at least one piece of position information sent by the detection equipment;

optionally, the at least one location information may be sent to the server simultaneously with the parameter data of the at least one environmental parameter.

In addition, the device identifier can be also included in the simultaneous transmission of the at least one position information, so that the server side can determine that the express package is in the express package.

The generating the alarm prompt information including the transportation abnormal event may include:

determining a transportation abnormal region based on the position information corresponding to the transportation abnormal time;

and generating alarm prompt information based on the abnormal transportation time and the abnormal transportation area.

Alternatively, a geographical area constituted by one or more pieces of location information corresponding to one or more pieces of location time that are closest to or spaced apart from the transportation abnormality time by a certain period may be determined as the transportation abnormality area in combination with the location time of at least one piece of location information.

In addition, since the package is transferred to different sites during the transfer process, different logistics personnel are responsible for the transportation of the package, and in order to facilitate the responsibility tracking, in some embodiments, it may be further determined that the delivery time matches the abnormal transportation time, and/or that the responsibility area matches the target logistics personnel in the abnormal transportation area.

Optionally, the generating the alarm prompt information based on the abnormal transportation time and the abnormal transportation area may include:

and generating alarm prompt information based on the abnormal transportation time, the abnormal transportation area and the personnel identification of the target logistics personnel.

After the server generates the alarm prompt information, the alarm prompt information can be output so as to be convenient for monitoring personnel to check, and optionally, the alarm prompt information can be output through a display device and the like.

In addition, the recipient and/or sender may be notified.

Therefore, in some embodiments, after generating the alarm prompt message if the express package has a transportation abnormality, the method may further include:

and notifying a receiver or a sender based on the alarm prompt information.

The server side can pre-establish a corresponding relationship among the equipment identifier of the detection equipment, the package identifier of the express package and the user identifier of the user corresponding to the express package; the user identification may include a recipient identification and/or a sender identification, and may specifically refer to a communication account number or the like.

Therefore, optionally, after generating the alarm prompt message if the express package has a transportation abnormality, the method may further include:

searching the corresponding relation and determining the user identification corresponding to the equipment identification;

and sending the alarm prompt information to a user terminal corresponding to the user identifier.

The purpose of informing the user is achieved by sending the alarm prompt information to the user end corresponding to the user identifier.

In addition, in some embodiments, after the generating the alarm prompt message if the express package has a transportation abnormality, the method further includes:

determining logistics state information corresponding to the equipment identifier;

and updating the logistics state information based on the alarm prompt information.

Therefore, when the user looks up the logistics state information, the user can also know the alarm prompt information.

The server can also establish the corresponding relation between the equipment identifier and the package identifier, so that the package identifier corresponding to the equipment identifier can be searched, and the corresponding logistics state information of the package identifier can be obtained.

Since the parameter data of the at least one environmental parameter may be transmitted encrypted, in some embodiments, the receiving detection device transmitting the parameter data of the at least one environmental parameter comprises:

receiving parameter data of the at least one environment parameter after the detection device sends encryption;

decrypting to obtain parameter data of the at least one environmental parameter.

Wherein each environmental parameter may correspond to at least one parameter data. The detection device may encrypt each parameter data separately, or encrypt at least one parameter data of each environmental parameter as a whole, or encrypt all parameter data of each environmental parameter as a whole, which is not particularly limited in this application.

For convenience of understanding, in the following, the technical scheme of the application is described by taking an example that the at least one environmental parameter is a specific gas concentration, and the express package is in a sealed state and is filled with a specific gas in practical application.

As shown in the express package 401 in fig. 4, a detection device 402 is built in the express package 401, after the articles are packed into the express package 401, the express package is sealed, and a specific gas 403 with an initial concentration is filled, where the specific gas may specifically be an inert gas with no toxicity, no color, no smell, or the like. The express package may be provided with a specific interface for filling with gas. Those skilled in the art can understand that, the express package has a specific structure which is in a sealed state and can be filled with gas, and various possible realization modes can be realized, and the express package can be a packaging box.

The detection equipment starts the detection function, and continuously detects the gas concentration in the express package. The detection device may start the detection function in response to a start instruction, where the start instruction may be issued by any terminal connected to the detection device or a server connected to the detection device.

Of course, the detection device may further include a switch assembly, after the detection device is placed in the express package, the user triggers the switch assembly, and the detection device may start the detection function, so that in order to further improve accuracy, the detection device may restart the detection function after detecting a predetermined time of a touch operation on the switch assembly, so that the express package completes a packaging process within the predetermined time, that is, operations of placing an article, filling a specific gas with an initial concentration, and switching a sealing state.

The detection equipment can upload the detected gas concentration to the server in real time; in addition, because the detection device is small in size and limited in performance, if the gas concentration is uploaded in real time, the system performance can be affected, and because of the limitation of the network environment, the detection device can not be connected to the network in time. Therefore, the detection device may store the detected gas concentration first, and then send the accumulated at least one gas concentration to the server.

Wherein the detection device may establish a short-range communication connection with any one of the terminals, as shown in fig. 4, through which any one of the terminals 404 transmits at least one gas concentration obtained by the detection to the service terminal 405.

In practical application, express packages can pass through a plurality of transit stations in the logistics transportation process, and can be re-sorted by different logistics personnel, so that the express packages can reach one station every time, the logistics personnel can operate any terminal capable of being connected with a service end, establish short-distance communication connection with detection equipment, such as Bluetooth connection and the like, so as to obtain at least one gas concentration which is not uploaded by the detection equipment, and then send the at least one gas concentration which is not uploaded to the service end.

The server 405 may determine whether the delivery package has abnormal transportation within the detection time range of the at least one gas concentration based on the at least one gas concentration.

Of course, the detection device 402 may also send a device identifier indicating its identity, and may also perform positioning detection through the GPS positioning component, and send at least one piece of location information obtained by positioning in the detection time range of the at least one gas concentration to the server.

The server 405 may compare the at least one gas concentration with an initial concentration, where the initial concentration is the gas concentration of the package in a sealed state.

In an alternative manner, if the at least one gas concentration has a gas concentration different from the initial concentration, that is, a transportation abnormality exists in the collection time of the gas concentration, in addition, by combining the positioning time of at least one position information, the position information corresponding to the collection time of the gas concentration can be determined, so as to determine a transportation abnormality region, and further, the server 405 combines the transportation abnormality time and the transportation abnormality region, so as to generate an alarm prompt message;

alternatively, the server 405 may calculate the data change characteristic of the at least one gas concentration, if the data change characteristic changes suddenly, that is, indicates that the express package has a transportation abnormal condition, at this time, may use the earliest collection time in all abnormal concentrations different from the initial concentration in the at least one gas concentration as the transportation abnormal time, and combine the location time of the at least one location information to determine the location information corresponding to the collection time of the gas concentration, so as to generate the alarm prompt information including the transportation abnormal time and the transportation abnormal region.

The server 405 may send the alarm prompt information to a monitoring person, a receiving party or a sending party, so as to timely sense abnormal transportation conditions of the express packages, and make corresponding emergency measures by combining the alarm prompt information, so as to ensure the transportation safety of the articles.

In addition, the embodiment of the application further provides a detection device, as illustrated in fig. 5, where the detection device is at least partially disposed in the express package, and may include at least one detection component 501, a storage component 502, and a control component 503;

the storage component 501 stores one or more computer instructions; the one or more computer instructions are for the control component to call and execute;

the control component 503 is configured to:

detecting, by the at least one detection component 501, at least one environmental parameter within the express package;

and determining the state of the express package based on the parameter data of the at least one environmental parameter.

The detection apparatus of the embodiment shown in fig. 5 is different from the detection apparatus of the embodiment shown in fig. 1 in that the status of the snapshot package can be determined by itself based on the parameter data of at least one environmental parameter. The remainder may be found in the embodiment of fig. 1 and will not be described in detail herein.

The detection device determines the status of the express package based on the parameter data of the at least one environmental parameter, and the specific implementation manner of determining the status of the express package by the server based on the parameter data of the at least one environmental parameter in any of the above embodiments is the same and will not be described herein.

In some embodiments, the control component may determine, based on the parameter data of the at least one environmental parameter, whether the status of the express package is abnormal in transportation, specifically based on the parameter data of the at least one environmental parameter; and if the express package has abnormal transportation, generating alarm prompt information.

The specific implementation manner of generating the alarm prompt information by the detection device can be specifically referred to the specific implementation manner of generating the alarm prompt information by the server in any embodiment.

Optionally, the alarm prompt information may include abnormal transportation time and/or abnormal transportation area.

In some embodiments, if the express package has abnormal transportation, the control component may generate the alarm prompt information by:

if the express package has abnormal transportation conditions, determining abnormal transportation time;

and generating alarm prompt information comprising the abnormal transportation time.

Wherein the determination of the transit anomaly time may be as described in any of the embodiments above.

In some embodiments, the apparatus may further comprise a positioning component:

the control assembly is further configured to:

Positioning and detecting the express packages through the positioning assembly;

and if the express package has abnormal transportation conditions, the control component generates alarm prompt information comprising:

if the express package has abnormal transportation conditions, determining an abnormal transportation area of the express package based on positioning information;

and generating alarm prompt information comprising the abnormal transportation area.

The determination of the abnormal transportation area may be described in any of the above embodiments, and alternatively, may be that the position information corresponding to the abnormal transportation time is used as the abnormal transportation area.

Furthermore, as yet another embodiment, the detection device may further comprise a prompting component;

the control component is also used for triggering the prompt component to output the alarm prompt information.

As an alternative, the prompting component may include a light emitting component, such as an LED lamp, so that the control component triggers the prompting component to output the alarm prompting information may be:

and triggering the lighting assembly to light or flash (alternate on and off) based on the alarm prompt information.

As another alternative, the cue assembly may include a motor assembly.

The control component triggering the prompt component to output the alarm prompt information may be:

triggering the motor assembly to vibrate based on the alarm prompt information;

as another alternative, the prompting component may include a display component.

The control component triggering the prompt component to output the alarm prompt information may be:

based on the alarm prompt information, the display component is triggered to display the alarm prompt information, for example, the abnormal transportation time is displayed, so that a user can conveniently determine when the abnormal transportation starts to occur, and abnormal transportation areas can be displayed, so that the user can conveniently determine in which area the abnormal transportation occurs, and the like.

In the embodiment of the application, the detection equipment can detect the state of the express package through configuring the detection equipment on the express package, and can give an alarm when abnormal transportation conditions occur, so that the transportation safety of articles is ensured. And after the express package is delivered to the receiver, the receiver can determine whether the abnormal transportation condition and the like of the express package occur according to the alarm prompt information output by the detection equipment.

In some embodiments, the apparatus may also communicate with a component;

the control assembly is further configured to:

And establishing communication connection with the user equipment through the communication component, and providing the alarm prompt information to the user equipment.

Alternatively, the communication component may be a short-range communication component in particular.

Based on the detection device shown in fig. 5, the embodiment of the application further provides a processing method, as shown in fig. 6, which may include the following steps:

601: at least one environmental parameter within the express package is detected.

602: and determining the state of the express package based on the parameter data of the at least one environmental parameter.

In some embodiments, the determining the status of the express package based on the parameter data of the at least one environmental parameter may include:

determining whether the express package has abnormal transportation conditions or not based on the parameter data of the at least one environmental parameter;

and if the express package has abnormal transportation, generating alarm prompt information.

In certain embodiments, the method may further comprise:

and outputting the alarm prompt information.

In certain embodiments, the method may further comprise:

establishing a communication connection with user equipment;

and providing the alarm prompt information to user equipment.

In some embodiments, if the express package has a transportation abnormality, generating the alarm prompt information includes:

if the express package has abnormal transportation conditions, determining abnormal transportation time;

and generating alarm prompt information comprising the abnormal transportation time.

In certain embodiments, the method may further comprise:

positioning and detecting the express package;

if the express package has abnormal transportation conditions, the generating of the alarm prompt information comprises the following steps:

if the express package has abnormal transportation conditions, determining an abnormal transportation area of the express package based on positioning information;

and generating alarm prompt information comprising the abnormal transportation area.

Fig. 7 is a schematic structural diagram of an embodiment of a processing device provided in this application, where the processing device may be implemented as the detection device shown in fig. 1 in a practical application, or a control component integrated in the detection device shown in fig. 1, and may be used as a function that may be implemented by the control component.

The processing apparatus may include:

a first detection module 701, configured to detect at least one environmental parameter in the express package;

and the sending module 702 is configured to send the parameter data of the at least one environmental parameter to a server, so that the server determines the status of the express package based on the parameter data of the at least one environmental parameter.

In some embodiments, the sending module may be specifically configured to send a device identifier and parameter data of the at least one environmental parameter to the server, so that the server determines the express package based on the device identifier; and determining the state of the express package based on the parameter data of the at least one environmental parameter.

In some embodiments, the sending module may be specifically configured to send at least one parameter data that is not uploaded by each of the at least one environmental parameter to a server.

In some embodiments, the sending module may be specifically configured to receive a communication connection request of any terminal, and establish a communication connection with any terminal; and transmitting at least one parameter data which is not uploaded by the at least one environment parameter to any terminal based on the communication connection, and transmitting the at least one parameter data which is not uploaded by the at least one environment parameter to a server by any terminal.

In some embodiments, the first detection module is further configured to detect and obtain initial data of at least one environmental parameter in the express package; and sending the initial data of the at least one environmental parameter to a server side so that the server side can determine whether the express package has abnormal transportation conditions or not based on the initial data of the at least one environmental parameter and the parameter data.

Wherein the at least one environmental parameter includes one or more of gas concentration, light intensity, and sound intensity;

when the at least one environmental parameter comprises gas concentration, the express package is in a sealed state and filled with specific gas.

In certain embodiments, further comprising:

the positioning module is used for positioning and detecting the express packages;

the sending module is further used for sending at least one piece of position information obtained through detection to a server side, so that when the server side determines that the express package has abnormal transportation conditions, the abnormal transportation area of the express package is determined based on the at least one piece of position information.

Optionally, the sending module may specifically obtain at least one piece of location information within a detection time range corresponding to at least one parameter data of each of the at least one environmental parameter, and send the at least one piece of location information to the server.

In some embodiments, the sending module may be specifically configured to encrypt the parameter data of the at least one environmental parameter; and sending the encrypted parameter data of the at least one environment parameter to a server.

The processing device shown in fig. 7 may perform the processing method shown in the embodiment shown in fig. 2, and its implementation principle and technical effects are not repeated. The specific manner in which the respective modules and units of the processing apparatus in the above embodiments perform operations has been described in detail in the embodiments related to the method, and will not be described in detail here.

In addition, the embodiment of the application further provides a computer readable storage medium, and a computer program is stored, and when the computer program is executed by a computer, the processing method of the embodiment shown in fig. 2 can be realized.

Fig. 8 is a schematic structural diagram of another embodiment of a processing apparatus according to an embodiment of the present application, where the apparatus may include:

a receiving module 801, configured to receive parameter data of at least one environmental parameter and sent by a detection device; wherein the detection equipment is at least partially arranged in the express package;

the first determining module 802 determines a status of the express package based on the parameter data of the at least one environmental parameter.

In some embodiments, the receiving module may be specifically configured to receive at least one parameter data obtained by detecting each of the device identifier and the at least one environmental parameter sent by the detecting device;

the first determining module may be specifically configured to determine the express package based on the device identifier;

determining whether the express package has abnormal transportation conditions or not based on at least one parameter data of each of the at least one environmental parameter;

and if the express package has abnormal transportation conditions, generating alarm prompt information.

In some embodiments, the first determining module may determine, based on at least one parameter data of each of the at least one environmental parameter, whether the express package has a transportation abnormality, by comparing at least one parameter data of each environmental parameter with initial data of each environmental parameter, respectively, to obtain at least one abnormality data of each environmental parameter; and judging whether the express package has abnormal transportation conditions or not based on at least one abnormal data of the at least one environment parameter.

Optionally, the first determining module determines, based on at least one abnormal data of each of the at least one environmental parameter, whether the express package has a transportation abnormal condition, including:

judging whether the number of abnormal data with the same acquisition time is larger than a first preset number or not; if the number of the abnormal data with the same acquisition time is larger than a first preset number, determining that the express package has abnormal transportation conditions;

the first determining module generates alarm prompt information if the express package has abnormal transportation conditions, and the alarm prompt information comprises: if the express package has abnormal transportation conditions, taking the acquisition time with the abnormal data quantity larger than the first preset quantity as abnormal transportation time; and generating alarm prompt information comprising the abnormal transportation time.

In certain embodiments, at least one parameter data for each environmental parameter is acquired continuously;

the first determining module determines whether the express package has abnormal transportation conditions based on at least one parameter data of the at least one environment parameter, specifically, compares the at least one parameter data of each environment parameter with initial data of each environment parameter, and determines at least one abnormal data of each environment parameter and data change characteristics of the at least one abnormal data; and judging whether the express package has abnormal transportation conditions or not based on the data change characteristics of the at least one environmental parameter.

Alternatively, the data change characteristic may be a data change rate;

the first determining module determines whether the express package has abnormal transportation conditions based on the data change characteristics of the at least one environmental parameter, specifically, whether the number of the environmental parameters with the data change rate being greater than a preset rate is greater than a second preset number; and if the number of the environmental parameters with the data change rate larger than the preset rate is larger than the second preset number, determining that the express package has abnormal transportation conditions.

In some embodiments, if the express package has a transportation abnormality, the first determining module may generate the alarm prompt information specifically by using the earliest acquisition time corresponding to all abnormal data as the transportation abnormality time if the express package has the transportation abnormality; and generating alarm prompt information comprising the abnormal transportation time.

In some embodiments, the receiving module is further configured to receive at least one location information sent by the detecting device;

the first alarm module generating the alarm prompt information including the abnormal transportation time may specifically determine an abnormal transportation area based on the position information corresponding to the abnormal transportation time; and generating alarm prompt information comprising the abnormal transportation time and the abnormal transportation area.

In certain embodiments, the apparatus further comprises:

a personnel identification module for determining a target logistics personnel whose delivery time matches the abnormal transportation time and/or whose responsibility area matches the abnormal transportation area;

the first determining module generates alarm prompt information comprising the abnormal transportation time and the abnormal transportation area, specifically generates alarm prompt information comprising the abnormal transportation time, the abnormal transportation area and the personnel identification of the target logistics personnel.

In some embodiments, the apparatus may further comprise:

the relation establishing module is used for pre-establishing the corresponding relation among the equipment identifier of the detection equipment, the package identifier of the express package and the user identifier of the user corresponding to the express package;

the output module is used for searching the corresponding relation and determining the user identification corresponding to the equipment identification; and sending the alarm prompt information to a user terminal corresponding to the user identifier.

In some embodiments, the apparatus may further comprise:

the updating module is used for determining the logistics state information corresponding to the equipment identifier; and updating the logistics state information based on the alarm prompt information.

In some embodiments, the receiving module may be specifically configured to receive the device identifier sent by the detecting device and at least one parameter data of each of the at least one environmental parameter after encryption; decrypting to obtain at least one parameter data of each of the at least one environmental parameter.

The processing device shown in fig. 8 may perform the processing method shown in the embodiment shown in fig. 3, and its implementation principle and technical effects are not repeated. The specific manner in which the respective modules and units of the processing apparatus in the above embodiments perform operations has been described in detail in the embodiments related to the method, and will not be described in detail here.

In one possible design, the processing device of the embodiment shown in fig. 8 may be implemented as a server, which may include a storage component 901 and a processing component 902, as shown in fig. 9;

the storage component 901 stores one or more computer instructions for execution by the processing component 902.

The processing component 902 is configured to:

receiving parameter data of at least one environmental parameter sent by the detection equipment; wherein, the detection equipment is at least partially arranged in the express package corresponding to the package identifier;

and determining the state of the express package based on the parameter data of the at least one environmental parameter.

Wherein the processing component 902 may include one or more processors to execute computer instructions to perform all or part of the steps of the methods described above. Of course, the processing component may also be implemented as one or more Application Specific Integrated Circuits (ASICs), digital Signal Processors (DSPs), digital Signal Processing Devices (DSPDs), programmable Logic Devices (PLDs), field Programmable Gate Arrays (FPGAs), controllers, microcontrollers, microprocessors or other electronic elements for executing the methods described above.

The storage component 901 is configured to store various types of data to support operations at a server. The memory component may be implemented by any type or combination of volatile or nonvolatile memory devices such as Static Random Access Memory (SRAM), electrically erasable programmable read-only memory (EEPROM), erasable programmable read-only memory (EPROM), programmable read-only memory (PROM), read-only memory (ROM), magnetic memory, flash memory, magnetic or optical disk.

Of course, the server may also implement other components necessary for its functions, such as input/output interfaces, communication components, etc., which are not described herein.

The embodiment of the application further provides a computer readable storage medium, and a computer program is stored, and when the computer program is executed by a computer, the processing method of the embodiment shown in fig. 3 can be implemented.

Fig. 10 is a schematic structural diagram of still another embodiment of a processing apparatus provided in this embodiment, where the processing apparatus may be implemented in a practical application as the detecting device shown in fig. 4, or a control component integrated in the detecting device shown in fig. 4, and may serve as a function that may be implemented by the control component.

The processing apparatus may include:

a second detection module 1001, configured to detect at least one environmental parameter in the express package;

a second determining module 1002, configured to determine a status of the express package based on the parameter data of the at least one environmental parameter.

In some embodiments, the second determining module may be specifically configured to determine, based on the parameter data of the at least one environmental parameter, whether a transportation abnormality occurs in the express package; and if the express package has abnormal transportation, generating alarm prompt information.

In some embodiments, the apparatus may further comprise:

a connection establishment module for establishing a communication connection with the user equipment; and providing the alarm prompt information to user equipment.

In some embodiments, the second determining module generates the alarm prompt information if the express package has abnormal transportation conditions, including: if the express package has abnormal transportation conditions, determining abnormal transportation time; and generating alarm prompt information comprising the abnormal transportation time.

In some embodiments, the apparatus may further comprise:

the positioning module is used for positioning and detecting the express packages;

The second determining module generates alarm prompt information if the express package has abnormal transportation conditions, and the alarm prompt information comprises: if the express package has abnormal transportation conditions, determining an abnormal transportation area of the express package based on positioning information; and generating alarm prompt information comprising the abnormal transportation area.

In addition, the embodiment of the application further provides a computer readable storage medium, and a computer program is stored, and when the computer program is executed by a computer, the processing method of the embodiment shown in fig. 5 can be realized.

In addition, the check out test set that this application embodiment provided can place in express delivery parcel, of course also can be with express delivery parcel's packing carton structure as an organic whole.

Therefore, still the embodiment of the application also provides a packing box, and the packing box is used for packing articles to form express packages.

The package may include a case for receiving an article and a detection device as shown in fig. 1 or fig. 4 disposed in the case.

It will be clear to those skilled in the art that, for convenience and brevity of description, specific working procedures of the above-described systems, apparatuses and units may refer to corresponding procedures in the foregoing method embodiments, which are not repeated herein.

The apparatus embodiments described above are merely illustrative, wherein the elements illustrated as separate elements may or may not be physically separate, and the elements shown as elements may or may not be physical elements, may be located in one place, or may be distributed over a plurality of network elements. Some or all of the modules may be selected according to actual needs to achieve the purpose of the solution of this embodiment. Those of ordinary skill in the art will understand and implement the present invention without undue burden.

From the above description of the embodiments, it will be apparent to those skilled in the art that the embodiments may be implemented by means of software plus necessary general hardware platforms, or of course may be implemented by means of hardware. Based on this understanding, the foregoing technical solution may be embodied essentially or in a part contributing to the prior art in the form of a software product, which may be stored in a computer readable storage medium, such as ROM/RAM, a magnetic disk, an optical disk, etc., including several instructions for causing a computer device (which may be a personal computer, a server, or a network device, etc.) to execute the method described in the respective embodiments or some parts of the embodiments.

Finally, it should be noted that: the above embodiments are only for illustrating the technical solution of the present application, and are not limiting thereof; although the present application has been described in detail with reference to the foregoing embodiments, it should be understood by those of ordinary skill in the art that: the technical scheme described in the foregoing embodiments can be modified or some technical features thereof can be replaced by equivalents; such modifications and substitutions do not depart from the spirit and scope of the corresponding technical solutions.

Claims (38)

1. A processing method applied to a detection device, comprising:

detecting at least one environmental parameter in the express package;

the parameter data of the at least one environmental parameter is sent to a server side, so that the server side can determine the state of the express package based on the parameter data of the at least one environmental parameter;

the sending the parameter data of the at least one environmental parameter to the server includes:

receiving a communication connection request of any terminal and establishing communication connection with any terminal; the any one of the terminals comprises a handheld device configured by any one of the operators;

Based on the communication connection, at least one parameter data which is not uploaded by the at least one environment parameter is sent to any terminal, and the at least one parameter data which is not uploaded by the at least one environment parameter is sent to a server by any terminal;

the method further comprises the steps of:

detecting and obtaining initial data of at least one environmental parameter in the express package;

and sending the initial data of the at least one environmental parameter to a server side so that the server side can determine whether the express package has abnormal transportation conditions or not based on the initial data of the at least one environmental parameter and the parameter data.

2. The method of claim 1, wherein the sending the parameter data of the at least one environmental parameter to the server comprises:

transmitting the equipment identifier and the parameter data of the at least one environmental parameter to the server side so that the server side can determine the express package based on the equipment identifier;

and determining the state of the express package based on the parameter data of the at least one environmental parameter.

3. The method of claim 1, wherein the at least one environmental parameter comprises one or more of gas concentration, light intensity, and sound intensity;

When the at least one environmental parameter comprises gas concentration, the express package is in a sealed state and filled with specific gas.

4. The method as recited in claim 1, further comprising:

positioning and detecting the express package;

and sending at least one piece of position information obtained through detection to a server side, so that when the server side determines that the express package has abnormal transportation conditions, a transportation abnormal area of the express package is determined based on the at least one piece of position information.

5. The method of claim 1, wherein the sending the parameter data of the at least one environmental parameter to the server comprises:

encrypting the parameter data of the at least one environmental parameter;

and sending the encrypted parameter data of the at least one environment parameter to a server.

6. The detection equipment is characterized by being at least partially arranged in an express package and comprising at least one detection component, a storage component, a communication component and a control component;

the storage component stores one or more computer instructions; the one or more computer instructions are for the control component to call and execute;

The control assembly is used for:

detecting at least one environmental parameter within the express package by the at least one detection component;

triggering the communication component to send the parameter data of the at least one environmental parameter to a server side so that the server side can determine the state of the express package based on the parameter data of the at least one environmental parameter;

the triggering of the communication component by the control component to send the parameter data of the at least one environmental parameter to the server specifically comprises the following steps:

establishing a communication connection with any one of the user terminals through the communication component based on a communication connection request of any one of the terminals; the any one of the terminals comprises a handheld device configured by any one of the operators;

based on the communication connection, at least one parameter data which is not uploaded by the at least one environment parameter is sent to any terminal, and the at least one parameter data which is not uploaded by the at least one environment parameter is sent to a server by any terminal;

the control assembly is further configured to:

detecting and obtaining initial data of at least one environmental parameter in the express package;

and sending the initial data of the at least one environmental parameter to a server side so that the server side can determine whether the express package has abnormal transportation conditions or not based on the initial data of the at least one environmental parameter and the parameter data.

7. The device according to claim 6, wherein the control component triggers the communication component to send parameter data of the at least one environmental parameter to a server, in particular triggers the communication component to send a device identification and parameter data of the at least one environmental parameter to the server for the server to determine the express package based on the device identification; and determining the state of the express package based on the parameter data of the at least one environmental parameter.

8. The apparatus of claim 6, wherein the communication component comprises a short-range communication component;

the control component establishes a communication connection with any one of the user terminals through the communication component based on the communication connection request of any one of the terminals, including:

and establishing communication connection with any one terminal through the short-distance communication component based on the communication connection request of the any one terminal.

9. The apparatus of claim 6, wherein the control component is further configured to save parameter data for the at least one environmental parameter to the storage component;

the control component sending the at least one parameter data that is not uploaded by the at least one environmental parameter to the server comprises:

At least one parameter data which are not uploaded by the at least one environmental parameter in the storage component are sent to a server;

the control assembly is further configured to:

and deleting the parameter data uploaded by the at least one environmental parameter from the storage component.

10. The apparatus of claim 6, wherein the at least one environmental parameter comprises one or more of gas concentration, light intensity, and sound intensity;

the at least one detection component includes one or more of a gas concentration sensor to detect a gas concentration, a light sensor to detect a light intensity, and a sound sensor to detect a sound intensity.

11. The apparatus of claim 6, further comprising a positioning assembly;

the control assembly is further configured to:

positioning and detecting the express package by utilizing the positioning component;

and sending at least one piece of position information obtained through detection to a server through the communication component, so that when the server determines that the express package has abnormal transportation conditions, a transportation abnormal area of the express package is determined based on the at least one piece of position information.

12. The apparatus of claim 6, further comprising an encryption chip;

the control component sending the parameter data of the at least one environmental parameter to the server comprises:

encrypting the parameter data of the at least one environmental parameter by using the encryption chip;

and sending the encrypted parameter data of the at least one environment parameter to a server.

13. The processing method is applied to a server and is characterized by comprising the following steps:

receiving parameter data of at least one environmental parameter sent by any terminal; the detection equipment is used for receiving a communication connection request of any terminal, establishing communication connection with any terminal and sending at least one parameter data which is not uploaded by each of the at least one environment parameter to any terminal based on the communication connection, wherein the detection equipment is at least partially arranged in an express package; the any one of the terminals comprises a handheld device configured by any one of the operators;

determining the state of the express package based on the parameter data of the at least one environmental parameter;

the determining the status of the express package based on the parameter data of the at least one environmental parameter includes:

Receiving initial data of at least one environmental parameter;

and determining whether the express package has abnormal transportation conditions or not based on the initial data of the at least one environmental parameter and the parameter data.

14. The method of claim 13, wherein receiving parameter data for at least one environmental parameter transmitted by a detection device comprises:

receiving at least one parameter data obtained by detecting each of the equipment identifier and at least one environmental parameter sent by the detection equipment;

the determining the status of the express package based on the parameter data of the at least one environmental parameter includes:

determining the express package based on the device identification;

determining whether the express package has abnormal transportation conditions or not based on at least one parameter data of each of the at least one environmental parameter;

and if the express package has abnormal transportation conditions, generating alarm prompt information.

15. The method of claim 14, wherein the determining whether the express package has a shipping anomaly based on the at least one parameter data for each of the at least one environmental parameter comprises:

comparing at least one parameter data of each environmental parameter with the initial data of each environmental parameter respectively to obtain at least one abnormal data of each environmental parameter;

And judging whether the express package has abnormal transportation conditions or not based on at least one abnormal data of the at least one environment parameter.

16. The method of claim 15, wherein the determining whether the express package has a shipping anomaly based on the at least one anomaly data for each of the at least one environmental parameter comprises:

judging whether the number of abnormal data with the same acquisition time is larger than a first preset number or not; if the number of the abnormal data with the same acquisition time is larger than a first preset number, determining that the express package has abnormal transportation conditions;

if the express package has abnormal transportation conditions, the generating of the alarm prompt information comprises the following steps:

if the express package has abnormal transportation conditions, taking the acquisition time with the abnormal data quantity larger than the first preset quantity as abnormal transportation time;

and generating alarm prompt information comprising the abnormal transportation time.

17. The method of claim 14, wherein at least one parameter data for each environmental parameter is acquired continuously;

the determining whether the express package has abnormal transportation conditions based on the at least one parameter data of the at least one environmental parameter respectively comprises:

Comparing at least one parameter data of each environmental parameter with initial data of each environmental parameter respectively, and determining at least one abnormal data of each environmental parameter and a data change characteristic of the at least one abnormal data;

and judging whether the express package has abnormal transportation conditions or not based on the data change characteristics of the at least one environmental parameter.

18. The method of claim 17, wherein the data change is characterized by a data change rate;

the determining whether the express package in the express package has abnormal transportation conditions based on the data change characteristics of the at least one environmental parameter comprises:

judging whether the number of the environmental parameters with the data change rate larger than the preset rate is larger than a second preset number or not; and if the number of the environmental parameters with the data change rate larger than the preset rate is larger than the second preset number, determining that the express package has abnormal transportation conditions.

19. The method of claim 17, wherein generating the alert message if the express package has a shipping anomaly comprises:

if the express package has abnormal transportation conditions, taking the earliest acquisition time corresponding to all abnormal data as abnormal transportation time;

And generating alarm prompt information comprising the abnormal transportation time.

20. The method as recited in claim 19, further comprising:

receiving at least one piece of position information sent by the detection equipment;

the generating the alarm prompt information comprising the transportation abnormal event comprises the following steps:

determining a transportation abnormal region based on the position information corresponding to the transportation abnormal time;

and generating alarm prompt information comprising the abnormal transportation time and the abnormal transportation area.

21. The method as recited in claim 20, further comprising:

determining a target logistics personnel of which the delivery time is matched with the abnormal transportation time and/or the responsibility area is matched with the abnormal transportation area;

the generating the alarm prompt information of the abnormal transportation time and the abnormal transportation area comprises the following steps:

and generating alarm prompt information comprising the abnormal transportation time, the abnormal transportation area and the personnel identification of the target logistics personnel.

22. The method as recited in claim 14, further comprising:

pre-establishing a corresponding relation among the equipment identifier of the detection equipment, the package identifier of the express package and the user identifier of the user corresponding to the express package;

If the express package has abnormal transportation conditions, after generating alarm prompt information, the method further comprises the following steps:

searching the corresponding relation and determining the user identification corresponding to the equipment identification;

and sending the alarm prompt information to a user terminal corresponding to the user identifier.

23. The method as recited in claim 14, further comprising:

determining logistics state information corresponding to the equipment identifier;

and updating the logistics state information based on the alarm prompt information.

24. The method of claim 13, wherein receiving parameter data for at least one environmental parameter transmitted by a detection device comprises:

receiving the encrypted parameter data of the at least one environment parameter sent by the detection equipment;

decrypting to obtain parameter data of the at least one environmental parameter.

25. A processing method applied to a detection device, comprising:

detecting at least one environmental parameter in the express package;

determining whether the express package has abnormal transportation conditions or not based on the parameter data of the at least one environmental parameter;

if the express package has abnormal transportation conditions, generating alarm prompt information;

Wherein, the determining whether the abnormal transportation condition occurs to the express package based on the parameter data of the at least one environmental parameter includes:

receiving a communication connection request of any terminal and establishing communication connection with any terminal; the any one of the terminals comprises a handheld device configured by any one of the operators;

based on the communication connection, at least one parameter data which is not uploaded by the at least one environment parameter is sent to any terminal, and the at least one parameter data which is not uploaded by the at least one environment parameter is sent to a server by any terminal so that the server can determine whether the express package has abnormal transportation or not based on the parameter data of the at least one environment parameter;

the method further comprises the steps of:

detecting and obtaining initial data of at least one environmental parameter in the express package;

and sending the initial data of the at least one environmental parameter to a server side so that the server side can determine whether the express package has abnormal transportation or not based on the initial data of the at least one environmental parameter and the parameter data.

26. The method as recited in claim 25, further comprising:

And outputting the alarm prompt information.

27. The method as recited in claim 25, further comprising:

establishing a communication connection with user equipment;

and providing the alarm prompt information to user equipment.

28. The method of claim 25, wherein generating the alert message if the express package is in a shipping anomaly comprises:

if the express package has abnormal transportation conditions, determining abnormal transportation time;

and generating alarm prompt information comprising the abnormal transportation time.

29. The method as recited in claim 25, further comprising:

positioning and detecting the express package;

if the express package has abnormal transportation conditions, the generating of the alarm prompt information comprises the following steps:

if the express package has abnormal transportation conditions, determining an abnormal transportation area of the express package based on positioning information;

and generating alarm prompt information comprising the abnormal transportation area.

30. The detection equipment is characterized by being at least partially arranged in an express package and comprising at least one detection component, a storage component and a control component;

the storage component stores one or more computer instructions; the one or more computer instructions are for the control component to call and execute;

The control assembly is used for:

detecting at least one environmental parameter within the express package by the at least one detection component;

determining whether the express package has abnormal transportation conditions or not based on the parameter data of the at least one environmental parameter;

if the express package has abnormal transportation conditions, generating alarm prompt information;

wherein the control component determining whether the express package has abnormal transportation based on the parameter data of the at least one environmental parameter comprises:

receiving a communication connection request of any terminal and establishing communication connection with any terminal; the any one of the terminals comprises a handheld device configured by any one of the operators;

based on the communication connection, at least one parameter data which is not uploaded by the at least one environment parameter is sent to any terminal, and the at least one parameter data which is not uploaded by the at least one environment parameter is sent to a server by any terminal so that the server can determine whether the express package has abnormal transportation or not based on the parameter data of the at least one environment parameter;

the control assembly is further configured to:

Detecting and obtaining initial data of at least one environmental parameter in the express package;

and sending the initial data of the at least one environmental parameter to a server side so that the server side can determine whether the express package has abnormal transportation or not based on the initial data of the at least one environmental parameter and the parameter data.

31. The apparatus of claim 30, further comprising a prompting component;

the control assembly is further configured to:

triggering the prompt component to output the alarm prompt information.

32. The apparatus of claim 31, wherein the cue assembly comprises one or more of a light assembly, a motor assembly, and a display assembly;

the control component triggering the prompt component to output the alarm prompt information comprises:

based on the alarm prompt information, one or more of the following operations are executed:

triggering the lighting assembly to light; triggering the motor assembly to vibrate;

and triggering the display component to display the alarm prompt information.

33. The apparatus of claim 30, further comprising a positioning assembly:

the control assembly is further configured to:

positioning and detecting the express packages through the positioning assembly;

And if the express package has abnormal transportation conditions, the control component generates alarm prompt information comprising:

if the express package has abnormal transportation conditions, determining an abnormal transportation area of the express package based on positioning information;

and generating alarm prompt information comprising the abnormal transportation area.

34. The apparatus of claim 30, further comprising a communication component;

the control assembly is further configured to:

and establishing communication connection with the user equipment through the communication component, and providing the alarm prompt information to the user equipment.

35. A processing apparatus, comprising:

the first detection module is used for detecting at least one environmental parameter in the express package;

the sending module is used for sending the parameter data of the at least one environment parameter to the server side so that the server side can determine the state of the express package based on the parameter data of the at least one environment parameter;

the sending module is specifically configured to receive a communication connection request of any one terminal, and establish communication connection with any one terminal; based on the communication connection, at least one parameter data which is not uploaded by the at least one environment parameter is sent to any terminal, and the at least one parameter data which is not uploaded by the at least one environment parameter is sent to a server by any terminal; the any one of the terminals comprises a handheld device configured by any one of the operators;

The first detection module is further used for detecting and obtaining initial data of at least one environmental parameter in the express package; and sending the initial data of the at least one environmental parameter to a server side so that the server side can determine whether the express package has abnormal transportation conditions or not based on the initial data of the at least one environmental parameter and the parameter data.

36. A processing apparatus, comprising:

the receiving module is used for receiving the parameter data of at least one environment parameter sent by any terminal; the detection equipment is used for receiving a communication connection request of any one terminal, establishing communication connection with any one terminal and sending at least one parameter data which is not uploaded by each of the at least one environment parameter to any one terminal based on the communication connection, wherein the detection equipment is at least partially arranged in an express package; the any one of the terminals comprises a handheld device configured by any one of the operators;

the first determining module is used for determining the state of the express package based on the parameter data of the at least one environmental parameter;

the first determining module is specifically configured to receive initial data of at least one environmental parameter; and determining whether the express package has abnormal transportation conditions or not based on the initial data of the at least one environmental parameter and the parameter data.

37. A server, comprising a processing component and a storage component;

the storage component stores one or more computer instructions; the one or more computer instructions are to be invoked for execution by the processing component;

the processing assembly is configured to:

receiving parameter data of at least one environmental parameter sent by any terminal; the detection equipment is used for receiving a communication connection request of any one terminal, establishing communication connection with any one terminal and sending at least one parameter data which is not uploaded by each of the at least one environment parameter to any one terminal based on the communication connection, wherein the detection equipment is at least partially built in an express package; the any one of the terminals comprises a handheld device configured by any one of the operators;

determining the state of the express package based on the parameter data of the at least one environmental parameter;

the determining the status of the express package based on the parameter data of the at least one environmental parameter includes:

receiving initial data of at least one environmental parameter;

and determining whether the express package has abnormal transportation conditions or not based on the initial data of the at least one environmental parameter and the parameter data.

38. A package comprising a case for containing an article and a detection device according to any one of claims 6 to 12 and 30 to 34 disposed in the case.

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