CN114898506B - Intelligent cabinet control system and control method - Google Patents

Abstract

An intelligent cabinet control system and control method, comprising: a controller is arranged in an intelligent cabinet with a plurality of storage boxes, a cabinet door is hinged on the front wall of each storage box, one side of the cabinet door is locked with the front wall of each storage box through an electronic lock, and each storage box is provided with a box number; the touch screen, the flash memory, the electronic lock and the mobile communication module I are connected with the controller, and the touch screen is embedded on the front wall of the intelligent cabinet; the intelligent cabinet has the advantages that the defects that in the prior art, the mode of taking and delivering the goods by the intelligent cabinet is single, diversified requirements cannot be met, and abnormal trends and untrustworthy interaction conditions of the first mobile communication module and the second mobile communication module which are connected with the intelligent cabinet are not monitored and judged when the information interaction between the controller of the intelligent cabinet and the background server is carried out are effectively avoided.

Description

Intelligent cabinet control system and control method

Technical Field

The application relates to the technical field of intelligent cabinet control, in particular to an intelligent cabinet control system and a control method.

Background

The intelligent cabinet, namely the intelligent express cabinet, can provide 24-hour self-service pickup service for users, so that the problem of 'last kilometer' seems to be effectively solved. In recent years, the advent of intelligent express cabinets (i.e., intelligent cabinets) has solved the pain points of end delivery time mismatch, inefficiency, with high costs and "contactless" security of express delivery. As a new solution of "last 100 meters", it becomes an industry new tuyere.

Under the existing intelligent cabinet system, the delivery goods can be taken away only through the goods taking code, the mode of taking away the delivery goods is single, and diversified requirements cannot be met.

In addition, after the customer takes the goods to be delivered through the goods taking code, the controller of the existing intelligent cabinet transmits the information of the goods to be delivered to the background server connected with the mobile communication module II through the mobile communication module I connected with the controller, so that the effect of backing up the goods in different places is achieved, then the background server transmits the information of the information received by taking the goods to the controller of the intelligent cabinet through the mobile communication module II, so that the effect of prompting that the information of the goods to be taken is received is achieved, in practical application, the mobile communication module I and the mobile communication module II are often far apart, fluctuation occurs frequently in mobile communication signals, so that interception is necessary to be carried out on the information interaction condition of interaction between the mobile communication module I and the mobile communication module II, the interception of the mobile communication module I and the mobile communication module II is generally not smooth in an instant interaction, and the interception of abnormal trend and unreliable interaction condition of the mobile communication module I and the mobile communication module II is not judged.

Disclosure of Invention

In order to solve the problems, the application provides an intelligent cabinet control system and a transmission method, which effectively avoid the defects that in the prior art, the intelligent cabinet is single in delivery way, cannot meet diversified requirements, and has no interception and judgment on abnormal trend and unreliable interaction conditions of a first mobile communication module and a second mobile communication module which are connected with the intelligent cabinet when the information interaction between a controller of the intelligent cabinet and a background server is carried out.

In order to overcome the defects in the prior art, the application provides a solution of an intelligent cabinet control system and a transmission method, which comprises the following steps:

an intelligent cabinet control system, comprising:

a controller is arranged in an intelligent cabinet with a plurality of storage boxes, a cabinet door is hinged on the front wall of each storage box, one side of the cabinet door is locked with the front wall of each storage box through an electronic lock, and each storage box is provided with a box number;

the touch screen, the flash memory, the electronic lock and the mobile communication module I are connected with the controller, and the touch screen is embedded on the front wall of the intelligent cabinet;

the controller establishes a channel between the mobile communication modules II which are connected with the background server together through the mobile communication modules;

the background server establishes a channel between the mobile communication module II and the mobile communication module III connected with the interception server;

The flash memory stores an account number and a password of the courier.

The program running on the controller of the intelligent cabinet comprises a first transmission program and a first acquisition program;

the first transfer program is used for transferring the information of the goods to a background server for storage through a channel established between the first mobile communication module and the second mobile communication module;

the first acquisition program is used for acquiring the index information of the mobile communication module I when the mobile communication module I is positioned to transmit and receive the interaction conditions of the two types, and transmitting the index information to the mobile communication module II through the mobile communication module I;

the program running on the background server comprises a first collecting program, a first interception program and a second obtaining program;

the first receiving program is used for transmitting the information of the received goods to the controller of the intelligent cabinet through a channel established between the first mobile communication module and the second mobile communication module after receiving the information of the received goods;

the first interception program is used for obtaining the index information of the mobile communication module I when the mobile communication module I is positioned to transmit and receive the interaction conditions of the two types, and transmitting the index information to the mobile communication module II through the mobile communication module I;

the second acquisition program is used for acquiring index information of the mobile communication module when the mobile communication module is in interaction with the second interaction condition and transmitting the index information to the first interception program.

The first interception program is further configured to compare the interaction time index information of the second type interaction condition of the mobile communication module with the first critical amount set by the corresponding second type interaction condition, and identify the interaction time index information weaker than the first critical amount as abnormal interaction time index information and perform registration, and identify the interaction time index information better than the first critical amount as daily interaction time index information and perform registration;

the first interception program is further used for respectively calculating arithmetic mean values of the index information during daily interaction of the second class interaction conditions of all the first mobile communication modules received by the second mobile communication module, comparing the index information during daily interaction of each first mobile communication module received by the second mobile communication module with the corresponding arithmetic mean value, recognizing the index information during daily interaction of the first mobile communication module weaker than the arithmetic mean value as the index information during unreliable interaction, and executing registration.

The first interception program is further configured to compare the interaction time index information of the second class interaction condition of each mobile communication module one received by the second mobile communication module with the second critical amount set by the corresponding second class interaction condition, identify the interaction time index information weaker than the second critical amount as abnormal interaction time index information and perform registration, and identify the interaction time index information better than the second critical amount as daily interaction time index information and perform registration;

The first interception program is further used for respectively calculating arithmetic mean values of the index information during daily interaction of the second class interaction conditions of all the first mobile communication modules received by the second mobile communication module, comparing the index information during daily interaction of each first mobile communication module received by the second mobile communication module with the corresponding arithmetic mean value, recognizing the index information during daily interaction of the first mobile communication module weaker than the arithmetic mean value as the index information during unreliable interaction, and executing registration.

The first interception program is also used for transmitting the judged interactive index information to the third mobile communication module through the second mobile communication module.

The program running on the interception server comprises a centralized control interception program;

the centralized control interception program is used for executing interception judgment on the interaction condition of each mobile communication module II according to the interaction time index information of all mobile communication modules II, and executing interception judgment on the channel interaction condition of each mobile communication module I during the information interaction period between the controller of the intelligent cabinet and the background server according to the interaction time index information of all mobile communication modules I received by all mobile communication modules II.

The centralized control interception program is also used for extracting all daily interaction index information of the first type of interaction condition of the mobile communication module, calculating arithmetic mean number, comparing each daily interaction index information of the first type of interaction condition of the mobile communication module with corresponding arithmetic mean number, recognizing the daily interaction index information weaker than the arithmetic mean number as unreliable interaction index information, and executing registration;

The centralized control interception program is also used for extracting the daily interaction time index information of the first interaction condition of all the second mobile communication modules to calculate arithmetic mean value, comparing the daily interaction time index information of the first interaction condition of each second mobile communication module with the corresponding arithmetic mean value, recognizing the daily interaction time index information of the second mobile communication module which is weaker than the arithmetic mean value as unreliable interaction time index information, and executing registration.

A control method of an intelligent cabinet control system comprises the following steps:

step 1: the courier delivers goods to the intelligent cabinet, pops up a login interface by clicking a button marked with an 'courier entrance' on the touch screen, inputs an account number and a password configured for the courier on the login interface, and continuously jumps out of the first selection interface after checking;

step 2: the method comprises the steps that a box number of an idle storage box is selected on a first selection interface, an express delivery person selects the box number of the idle storage box on the first selection interface, then the storage box to which the box number belongs is opened, an express delivery person places a goods into the storage box and closes the storage box, then an input interface is popped up, the express delivery person inputs the mobile phone number, the picking-up code and the box number of the storage box of a smart phone of a customer to which the goods belongs on the input interface, so that the goods are stored in a flash memory, and a record is formed in a memory by the mobile phone number, the picking-up code and the box number of the storage box of the customer to which the goods belongs;

Step 3: then, the express personnel transmits goods taking information with a goods taking code to a smart phone of a customer to which the goods belongs;

step 4: after the customer looks up that the intelligent mobile phone receives the goods taking information, the customer arrives at the intelligent cabinet, clicks a button marked with 'I want to take' on the touch screen, and then pops up a second selection interface;

step 5: the client clicks a button marked with a piece taking code on a second selection interface, then pops up a second input interface, the client inputs a piece taking code on the second input interface, the client automatically opens a box door after checking, the client takes away the piece, the box door is closed after the client takes away the piece, a message of taking away the piece is transmitted to a background server for storage through a channel established between the first mobile communication module and the second mobile communication module, and the background server returns the message of taking away the piece to the controller of the intelligent cabinet through the channel established between the first mobile communication module and the second mobile communication module after receiving the message of taking away the piece;

step 6: when a customer cannot use a pickup code to pick up a commodity, scanning a two-dimensional code displayed on a touch screen by using scanning software in a smart phone to obtain a message of requesting to transmit a mobile phone number of the smart phone in the two-dimensional code, then transmitting the mobile phone number to the touch screen by the smart phone, and transmitting the mobile phone number to a controller of an intelligent cabinet by the touch screen;

Step 7: after the controller of the intelligent cabinet obtains the mobile phone number, the door is automatically opened after checking to enable a customer to take away the goods, the door is closed after the customer takes away the goods, the controller of the intelligent cabinet can transmit the information of taking away the goods to a background server for storage through a channel established between the mobile communication module I and the mobile communication module II, and the background server can transmit the information of receiving the information of taking away the goods back to the controller of the intelligent cabinet through the channel established between the mobile communication module I and the mobile communication module II after receiving the information of taking away the goods;

step 8: during the information interaction between the controller of the intelligent cabinet and the background server, interception is executed on the information interaction;

the step 8 specifically includes:

step 8-1: the first acquisition program running on the controller of the intelligent cabinet acquires the interactive index information of the first mobile communication module positioned at the second interaction state of transmitting and receiving, and transmits the interactive index information to the second mobile communication module through the first mobile communication module;

step 8-2: the mobile communication module II transmits the received interactive index information of the mobile communication module I to a interception program I running on a background server, and the obtained program II obtains the interactive index information of the mobile communication module II, which is used for transmitting and receiving the second-class interaction condition, and transmits the interactive index information to the interception program I;

Step 8-3: the first interception program executes interception judgment on the interaction condition of the second mobile communication module according to the received interaction time index information of the second mobile communication module, and executes interception judgment on the interaction condition of each first mobile communication module according to the interaction time index information of all the first mobile communication modules received by the second mobile communication module connected with the first interception program;

the first interception program executes interception judgment on the interaction condition of the second mobile communication module according to the received interaction index information of the second mobile communication module, and the method comprises the following steps: the interactive index information of the second class interactive condition of the mobile communication module is respectively compared with the critical quantity I set by the corresponding second class interactive condition, the interactive index information weaker than the critical quantity I is determined to be abnormal interactive index information and registration is carried out, and the interactive index information better than the critical quantity I is determined to be daily interactive index information and registration is carried out.

The first interception program executes interception judgment on the interaction condition of the second mobile communication module according to the received interaction index information of the second mobile communication module, and the method comprises the following steps: and respectively calculating arithmetic mean values of all the index information of the second class interaction conditions of the mobile communication module, comparing each index information of the second class interaction conditions of the mobile communication module with the corresponding arithmetic mean values, recognizing the index information of the second class interaction conditions weaker than the arithmetic mean values as the index information of the first class interaction conditions of the second class interaction conditions of the mobile communication module, and executing registration.

The first interception program executes interception judgment on the interaction condition of each first mobile communication module according to the interaction index information of all the first mobile communication modules received by the second mobile communication module, and the method comprises the following steps: and comparing the interactive index information of the second class interaction condition of each mobile communication module I received by the second mobile communication module with the critical quantity II set by the corresponding second class interaction condition respectively, wherein the interactive index information weaker than the critical quantity II is determined to be abnormal interactive index information and registration is performed, and the interactive index information better than the critical quantity II is determined to be daily interactive index information and registration is performed.

The first interception program executes interception judgment on the interaction condition of each first mobile communication module according to the interaction index information of all the first mobile communication modules received by the second mobile communication module, and the method further comprises the following steps: the arithmetic mean value is calculated for the daily interactive index information of the second class interactive condition of all the first mobile communication modules received by the second mobile communication module, the daily interactive index information of each first mobile communication module received by the second mobile communication module is compared with the corresponding arithmetic mean value, the daily interactive index information of the first mobile communication module weaker than the arithmetic mean value is identified as the unreliable interactive index information, and the registration is executed.

Step 8-4: the first interception program transmits the judged interactive index information to the third mobile communication module through the second mobile communication module;

step 8-5: the third mobile communication module transmits the received interactive index information to a centralized control interception program running on an interception server, the centralized control interception program executes interception judgment on the interactive condition of each second mobile communication module according to the interactive index information of all second mobile communication modules, and executes interception judgment on the channel interactive condition of each first mobile communication module in the information interaction period between the controller of the intelligent cabinet and the background server according to the interactive index information of all first mobile communication modules received by all second mobile communication modules.

The centralized control interception program executes interception judgment on the channel interaction condition of each mobile communication module I during the information interaction between the controller of the intelligent cabinet and the background server according to the interaction index information of all mobile communication modules I received by all mobile communication modules II, and the method comprises the following steps: the arithmetic mean number is calculated by extracting all the daily interactive index information of the first class of interaction conditions of the mobile communication module, each daily interactive index information of the first class of interaction conditions of the mobile communication module is compared with the corresponding arithmetic mean number, the daily interactive index information weaker than the arithmetic mean number is identified as the unreliable interactive index information, and the registration is executed.

The centralized control interception program executes interception judgment on the interaction condition of each mobile communication module II according to the interaction index information of all mobile communication modules II, and the method comprises the following steps: the arithmetic mean number is calculated by extracting the daily interactive index information of the first interactive condition of all the second mobile communication modules, the daily interactive index information of the first interactive condition of each second mobile communication module is compared with the corresponding arithmetic mean number, the daily interactive index information of the second mobile communication module which is weaker than the arithmetic mean number is identified as the unreliable interactive index information, and the registration is executed.

The index information during interaction comprises two index information such as frequency spectrum flatness and code rate during interaction, the number of mobile communication modules is u, the number of mobile communication modules is v, and both u and v are positive integers;

the index information of the mobile communication module II during the first interaction of the transmission and collection status is H (I) _j ，K _l )=[M1，N（I _j ，K _l ），O（I _j ，K _l ）]And H (I) _j ，K _l )=[M2，N（I _j ，K _l ），O（I _j ，K _l ）]The index information of the mobile communication module during the interaction of the transmission and collection status can be P (I) _j ，K _m )=[M1，N（I _j ，K _m ），O（I _j ，K _m ）]And P (I) _j ，K _m )=[M2，N（I _j ，K _m ），O（I _j ，K _m ）]L is a positive integer from one to u, m is a positive integer from one to v, j is a positive integer, I _j Is the local time point K for obtaining index information in interaction at the j th time _l And K is equal to _m The identification codes of the mobile communication module II and the mobile communication module I, H (I) _j ，K _l ) For the identification code K _l Mobile communication module II at time point I _j Index information, P (I) _j ，K _m ) For the identification code K _m Mobile communication module at time point I _j Index information during interaction; m1 and M2 are respectively transmission and collectionCondition, N (I) _j ，K _m ) To at time I _j The identification code is K _m The frequency spectrum flatness of the second mobile communication module, O (I _j ，K _m ) To at time I _j The identification code is K _m The interactive time code rate of the mobile communication module II; n (I) _j ，K _l ) To at time I _j The identification code is K _l Spectrum flatness of mobile communication module one of (1), O (I _j ，K _l ) To at time I _j The identification code is K _l The interactive time code rate of the mobile communication module I;

the first critical quantity comprises two types of transmission and collection, namely h1= [ n1, o1] and h1= [ n2, o2], wherein n1 and n2 are respectively the frequency spectrum flatness critical quantity of the mobile communication module II when the transmission and collection are performed under the interaction condition, and o1 and o2 are respectively the code rate critical quantity when the mobile communication module II when the transmission and collection are performed under the interaction condition; the critical quantity two types, namely p 1= [ n3, o3] and p 2= [ n4, o4], wherein n3 and n4 are respectively the critical quantity of the spectral flatness of the mobile communication module I when the interaction condition is transmission and the critical quantity of the spectral flatness of the mobile communication module I when the receiving is receiving, and o3 and o4 are respectively the critical quantity of the code rate when the interaction condition is transmission and the critical quantity of the code rate when the mobile communication module I when the receiving is interaction;

If the first interception procedure is to send the second mobile communication module and the second mobile communication module are to send the second mobile communication module to the first interception procedure, the second mobile communication module is to send the second mobile communication module _1l And E is connected with _2l The index information during the interaction between the transmission and the receiving of the second mobile communication module is E _1lm And E is connected with _2lm A plurality of; the first interception program compares the index information of the interaction time of the second class interaction condition of the second mobile communication module received by the first interception program with the critical quantity A set by the corresponding second class interaction condition respectively, namely E _1l The interactive index information of the transmission status of the second mobile communication module is respectively equal to h1= [ n1, o1]Comparison, E _2l The interactive index information of the receiving status of the second mobile communication module is respectively equal to h1= [ n2, o2]Comparing; interaction of the second class interaction status of each received mobile communication module I by the first interception program IThe time index information is respectively compared with the critical quantity two set by the corresponding two kinds of interaction conditions, namely E with the quantity m from one to v _1lm The interactive index information of the transmission status of the mobile communication module II with the accumulated value is respectively compared with p1, and the quantity of E from m to v is calculated _1lm The index information of the interaction time of the collection condition of the mobile communication module II with the accumulated value is respectively compared with p 2;

When the index information at the time of interaction is weaker than the corresponding critical amount information, abnormal registration is performed by adding an abnormal sign before the index information at the time of interaction, and the index information at the time of abnormal interaction of the transmission and collection conditions of the second mobile communication module and the first mobile communication module is H (I) _j ，K _l )=[J，M1，N（I _j ，K _l ），O（I _j ，K _l ）]、H(I _j ，K _l )=[J，M2，N（I _j ，K _l ），O（I _j ，K _l ）]、P(I _j ，K _m )=[J，M1，N（I _j ，K _m ），O（I _j ，K _m ）]And P (I) _j ，K _m )=[J，M2，N（I _j ，K _m ），O（I _j ，K _m ) J is an anomaly; in addition, the index information of the mobile communication module II and the mobile communication module I during the daily interaction of the transmission and collection status is H (I) _j ，K _l )=[K，M1，N（I _j ，K _l ），O（I _j ，K _l ）]、H(I _j ，K _l )=[K，M2，N（I _j ，K _l ），O（I _j ，K _l ）]、P(I _j ，K _m )=[K，M1，N（I _j ，K _m ），O（I _j ，K _m ）]And P (I) _j ，K _m )=[K,M2，N（I _j ，K _m ），O（I _j ，K _m ) K is a daily sign;

if the first interception program performs abnormal judgment, the obtained index information of the mobile communication module II in the process of acquiring the daily interaction of the transmission and collection conditions is F respectively _1l And F is equal to _2l Obtaining a mobile communication module II to collect a mobile communicationThe index information during the daily interaction of the transmission and collection conditions of the first module is F respectively _1lm And F is equal to _2lm A plurality of;

the index information of all the daily interaction of the second class interaction conditions of the second mobile communication module received by the first interception program respectively calculates arithmetic mean, namely F _1l The index information calculates the average number of daily transmission arithmetic during daily interaction, and F is calculated by _2l Calculating the arithmetic mean of daily collection by index information during daily interaction; here, the daily transmission arithmetic mean number and the daily collection arithmetic mean number are ph1= [ pn1, po1, respectively ]And ph1= [ pn2, po2 ]]Pn1 and po1 are F in the transmission state _1l The arithmetic mean of the frequency spectrum flatness of the index information and the arithmetic mean of the code rate at the time of daily interaction are F of the receiving conditions, pn2 and po2 are respectively _2l Arithmetic mean of the spectrum flatness of the index information and arithmetic mean of the code rate of the interaction in daily interaction;

the first interception program calculates arithmetic mean value of the index information of the second class interaction condition of all the first mobile communication modules received by the first mobile communication module, namely the number of E from one to v _1lm The index information of the accumulated value during daily interaction calculates the daily transmission arithmetic mean number, and the number is E from one to v _2lm The index information of the accumulated value during daily interaction calculates the daily collection arithmetic mean; the daily transfer arithmetic mean and the daily collection arithmetic mean are pp1= [ pn3, po3]And pp2= [ pn4, po4 ]]Pn3 and po3 are E in the number m from one to v, respectively _1lm The arithmetic mean of the spectrum flatness of the index information at the time of daily interaction and the arithmetic mean of the code rate at the time of interaction of the accumulated values, pn4 and po4 are E with the number m from one to v respectively _1lm The arithmetic mean of the spectrum flatness of the index information and the arithmetic mean of the code rate of the interaction in daily interaction of the accumulated values;

When the index information is weaker than the corresponding arithmetic mean number in daily interaction, an unreliable sign is additionally arranged in front of the daily index information to replace the daily sign so as to execute unreliable registration, and the index information is divided in the unreliable interaction of the transmission and collection conditions of the mobile communication module II and the mobile communication module IOther than H (I) _j ，K _l )=[G，M1，N（I _j ，K _l ），O（I _j ，K _l ）]、H(I _j ，K _l )=[G，M2，N（I _j ，K _l ），O（I _j ，K _l ）]、P(I _j ，K _m )=[G，M1，N（I _j ，K _m ），O（I _j ，K _m ）]And P (I) _j ，K _m )=[G,M2，N（I _j ，K _m ），O（I _j ，K _m ) G is an untrusted symbol;

if the first interception program executes the unreliable judgment, the finally obtained index information during daily interaction of the transmission and collection conditions of the second mobile communication module is G respectively _1l And G _2l The obtained index information during daily interaction of the transmission and collection conditions of the first mobile communication module of the second mobile communication module collection is G respectively _1lm And G _2lm A plurality of;

the centralized control interception program extracts all daily interactive index information of one type of interaction condition of a mobile communication module I to calculate arithmetic mean, namely the index information has the same K for all daily interactive index information with the quantity of one in the transmission condition _m The daily transmission arithmetic mean value is calculated by the index information during all daily interactions, and the index information during all daily interactions under the charge condition with the number of two has the same K _m The index information is calculated to calculate the arithmetic mean value of daily charge when all daily interactions are performed, the value of one is G from m to v _1lm After accumulation, TG is obtained _1l Then for TG from l to u _1l The accumulated values; the value of two is G from m to v _2lm After accumulation, TG is obtained _2l Then for TG from l to u _2l The accumulated values;

the centralized control interception program extracts the daily interaction index information of one type of interaction conditions of all the second mobile communication modules to calculate arithmetic mean.

The beneficial effects of the invention are as follows:

according to the steps 1 to 7, the method for diversifying the mode of taking and delivering the goods by the intelligent cabinet can be achieved; and during the information interaction between the controller of the intelligent cabinet and the background server, the first mobile communication module can also execute information interaction between the second mobile communication modules of the plurality of site programs, and the centralized control interception program executes average comparison of index information of a common source through all daily interaction time index information of one type of interaction conditions of the first mobile communication modules, which are received by the second mobile communication modules connected with different background servers, so as to execute more accurate unreliable judgment on the index information of one type of interaction condition channels of the first mobile communication modules, and find out the unreliable conditions in the channels for information interaction of the second type of interaction conditions of the first mobile communication modules. The centralized control interception program performs more accurate unreliable judgment on the index information during daily interaction of the second mobile communication module through performing data centralized average comparison on the index information during daily interaction of the second mobile communication module in the first interaction condition, so as to more accurately find out the interaction unreliable condition in the second interaction condition of the second mobile communication module.

The intelligent cabinet has the advantages that the defects that in the prior art, the mode of taking and delivering the goods by the intelligent cabinet is single, diversified requirements cannot be met, and abnormal trends and untrustworthy interaction conditions of the first mobile communication module and the second mobile communication module which are connected with the intelligent cabinet are not monitored and judged when the information interaction between the controller of the intelligent cabinet and the background server is carried out are effectively avoided.

Drawings

Fig. 1 is a schematic diagram of the program of the present invention running on the controller of the intelligent cabinet.

Fig. 2 is a schematic diagram of the configuration of a program of the present invention running on a background server.

Fig. 3 is a schematic diagram of the structure of the program of the present invention running on the listening server.

Fig. 4 is a flowchart of steps 1 to 4 of the present invention.

Fig. 5 is a flowchart of steps 5 to 8 of the present invention.

Fig. 6 is a flowchart of steps 8-1 to 8-5 of the present invention.

Detailed Description

The present application will be described in detail with reference to the accompanying drawings and examples.

As shown in fig. 1-6, the intelligent cabinet control system comprises:

a controller is arranged in an intelligent cabinet with a plurality of storage boxes, a cabinet door is hinged on the front wall of each storage box, one side of the cabinet door is locked with the front wall of each storage box through an electronic lock, and each storage box is provided with a box number;

The touch screen, the flash memory, the electronic lock and the mobile communication module I are connected with the controller, and the touch screen is embedded on the front wall of the intelligent cabinet;

the controller establishes a channel between the mobile communication modules II which are connected with the background server together through the mobile communication modules;

the background server establishes a channel between the mobile communication module II and the mobile communication module III connected with the interception server;

the flash memory stores an account number and a password of the courier. The intelligent cabinet is an intelligent express cabinet. The controller can be a single chip microcomputer, and the mobile communication module I, the mobile communication module II and the mobile communication module III can be 4G modules or 5G modules.

The program running on the controller of the intelligent cabinet comprises a first transmission program and a first acquisition program;

the first transfer program is used for transferring the information of the goods to a background server for storage through a channel established between the first mobile communication module and the second mobile communication module;

the first acquisition program is used for acquiring the index information of the mobile communication module I when the mobile communication module I is positioned to transmit and receive the interaction conditions of the two types, and transmitting the index information to the mobile communication module II through the mobile communication module I;

the program running on the background server comprises a first collecting program, a first interception program and a second obtaining program;

The first receiving program is used for transmitting the information of the received goods to the controller of the intelligent cabinet through a channel established between the first mobile communication module and the second mobile communication module after receiving the information of the received goods;

the first interception program is used for obtaining the index information of the mobile communication module I when the mobile communication module I is positioned to transmit and receive the interaction conditions of the two types, and transmitting the index information to the mobile communication module II through the mobile communication module I;

the second acquisition program is used for acquiring index information of the mobile communication module when the mobile communication module is in interaction with the second interaction condition and transmitting the index information to the first interception program.

The first interception program is further configured to compare the interaction time index information of the second type interaction condition of the mobile communication module with the first critical amount set by the corresponding second type interaction condition, and identify the interaction time index information weaker than the first critical amount as abnormal interaction time index information and perform registration, and identify the interaction time index information better than the first critical amount as daily interaction time index information and perform registration;

the first interception program is further used for respectively calculating arithmetic mean values of the index information during daily interaction of the second class interaction conditions of all the first mobile communication modules received by the second mobile communication module, comparing the index information during daily interaction of each first mobile communication module received by the second mobile communication module with the corresponding arithmetic mean value, recognizing the index information during daily interaction of the first mobile communication module weaker than the arithmetic mean value as the index information during unreliable interaction, and executing registration.

The first interception program is further configured to compare the interaction time index information of the second class interaction condition of each mobile communication module one received by the second mobile communication module with the second critical amount set by the corresponding second class interaction condition, identify the interaction time index information weaker than the second critical amount as abnormal interaction time index information and perform registration, and identify the interaction time index information better than the second critical amount as daily interaction time index information and perform registration;

the first interception program is further used for respectively calculating arithmetic mean values of the index information during daily interaction of the second class interaction conditions of all the first mobile communication modules received by the second mobile communication module, comparing the index information during daily interaction of each first mobile communication module received by the second mobile communication module with the corresponding arithmetic mean value, recognizing the index information during daily interaction of the first mobile communication module weaker than the arithmetic mean value as the index information during unreliable interaction, and executing registration.

The first interception program is also used for transmitting the judged interactive index information to the third mobile communication module through the second mobile communication module.

The program running on the interception server comprises a centralized control interception program;

the centralized control interception program is used for executing interception judgment on the interaction condition of each mobile communication module II according to the interaction time index information of all mobile communication modules II, and executing interception judgment on the channel interaction condition of each mobile communication module I during the information interaction period between the controller of the intelligent cabinet and the background server according to the interaction time index information of all mobile communication modules I received by all mobile communication modules II.

The centralized control interception program is also used for extracting all daily interaction index information of the first type of interaction condition of the mobile communication module, calculating arithmetic mean number, comparing each daily interaction index information of the first type of interaction condition of the mobile communication module with corresponding arithmetic mean number, recognizing the daily interaction index information weaker than the arithmetic mean number as unreliable interaction index information, and executing registration;

the centralized control interception program is also used for extracting the daily interaction time index information of the first interaction condition of all the second mobile communication modules to calculate arithmetic mean value, comparing the daily interaction time index information of the first interaction condition of each second mobile communication module with the corresponding arithmetic mean value, recognizing the daily interaction time index information of the second mobile communication module which is weaker than the arithmetic mean value as unreliable interaction time index information, and executing registration.

The control method of the intelligent cabinet control system comprises the following steps:

step 1: the courier delivers goods to the intelligent cabinet, pops up a login interface by clicking a button marked with an 'courier entrance' on the touch screen, inputs an account number and a password configured for the courier on the login interface, and continuously jumps out of the first selection interface after checking;

The checking method is as follows: after the express personnel inputs the account number and the password configured for the express personnel on the login interface, the touch screen transmits the input account number and the password to the controller, and then the controller compares the input account number and the password with the account number and the password in the flash memory respectively, and if the account number and the password are consistent after being compared, the check is correct.

Step 2: the method comprises the steps that a box number of an idle storage box is selected on a first selection interface, an express delivery person selects the box number of the idle storage box on the first selection interface, then the storage box to which the box number belongs is opened, an express delivery person places a goods into the storage box and closes the storage box, then an input interface is popped up, the express delivery person inputs the mobile phone number, the picking-up code and the box number of the storage box of a smart phone of a customer to which the goods belongs on the input interface, so that the goods are stored in a flash memory, and a record is formed in a memory by the mobile phone number, the picking-up code and the box number of the storage box of the customer to which the goods belongs;

the method comprises the steps that a box number of an idle storage box is arranged on a selection interface I, an express person selects the box number of the idle storage box on the selection interface I, a touch screen transmits the selected box number to a controller after selection, the controller controls an electronic lock on the storage box to be opened according to the storage box to which the box number belongs, then the storage box to which the box number belongs is opened, the express person places goods into the storage box and closes the storage box, the electronic lock transmits a closing signal to the controller, the controller obtains the closing signal and controls the touch screen to pop out of an input interface, the express person inputs the mobile phone number of a smart phone of a customer to which the goods belongs, a picking code and the box number of the storage box on the input interface, the mobile phone number of the smart phone of the customer to which the goods belongs, the picking code and the box number of the storage box are transmitted to the controller, and the controller stores the mobile phone number of the smart phone of the customer to which the goods belongs, the picking code and the box number of the storage box in a flash memory, and the picking code is a unique identifier of the goods set by the express person for the customer.

Step 3: then, the express personnel transmits goods taking information with a goods taking code to a smart phone of a customer to which the goods belongs;

the goods taking information comprises the position of the intelligent cabinet, a goods taking code and the box number of the goods.

Step 4: after the customer looks up that the intelligent mobile phone receives the goods taking information, the customer arrives at the intelligent cabinet, clicks a button marked with 'I want to take' on the touch screen, and then pops up a second selection interface;

step 5: the client clicks a button marked with a piece taking code on a second selection interface, then pops up a second input interface, the client inputs a piece taking code on the second input interface, the client automatically opens a box door after checking, the client takes away the piece, the box door is closed after the client takes away the piece, a message of taking away the piece is transmitted to a background server for storage through a channel established between the first mobile communication module and the second mobile communication module, and the background server returns the message of taking away the piece to the controller of the intelligent cabinet through the channel established between the first mobile communication module and the second mobile communication module after receiving the message of taking away the piece;

the client clicks a button marked with a piece taking code on a second selection interface, then pops up a second input interface, the client inputs the piece taking code on the second input interface, then the touch screen transmits the input piece taking code to the controller of the intelligent cabinet, the controller finds out a record that the piece taking code is consistent with the input piece taking code in the flash memory according to the input piece taking code, so that the electronic lock on the storage box is controlled to be opened by the controller according to the storage box which the box number in the record belongs to after the verification is correct, then the storage box which the box number belongs to is opened, the box door is automatically opened to enable the client to take the goods, the box door is closed after the client takes the goods, the electronic lock transmits a closing signal to the controller, the controller of the intelligent cabinet transmits a message of the taken goods to the background server through a channel established between the first mobile communication module and the second mobile communication module to be stored, and after the information of the taken goods is returned by the background server, the information of the taken-off intelligent cabinet is transmitted to the storage box through the channel established between the first mobile communication module and the second mobile communication module, and the information of the taken-off controller of the goods is received by the intelligent cabinet.

Step 6: when a customer cannot use a pickup code to pick up a commodity, scanning a two-dimensional code displayed on a touch screen by using scanning software in a smart phone to obtain a message of requesting to transmit a mobile phone number of the smart phone in the two-dimensional code, then transmitting the mobile phone number to the touch screen by the smart phone, and transmitting the mobile phone number to a controller of an intelligent cabinet by the touch screen;

step 7: after the controller of the intelligent cabinet obtains the mobile phone number, the door is automatically opened after checking to enable a customer to take away the goods, the door is closed after the customer takes away the goods, the controller of the intelligent cabinet can transmit the information of taking away the goods to a background server for storage through a channel established between the mobile communication module I and the mobile communication module II, and the background server can transmit the information of receiving the information of taking away the goods back to the controller of the intelligent cabinet through the channel established between the mobile communication module I and the mobile communication module II after receiving the information of taking away the goods;

the controller finds a record that the mobile phone number of the smart mobile phone is consistent with the received mobile phone number in the flash memory according to the mobile phone number, so that the controller checks that the record is correct, the controller controls the electronic lock on the storage box to be opened according to the storage box to which the box number belongs in the record is incorrect, then the storage box to which the box number belongs is opened, the box door is automatically opened to enable a customer to take away the goods, the box door is closed after the customer takes away the goods, the electronic lock transmits a closing signal to the controller, the controller of the smart cabinet transmits a message of taking away the goods to the background server for storage through a channel established between the first mobile communication module and the second mobile communication module, and the background server also transmits the information of the message of taking away the goods back to the controller of the smart cabinet through the channel established between the first mobile communication module and the second mobile communication module after the message of taking away the goods is received, and the information of the message of taking away the goods is transmitted back to the controller of the smart cabinet. The controller of the intelligent cabinet transmits the information of the goods taken to the background server for storage through the channel established between the first mobile communication module and the second mobile communication module, and the background server also transmits the information of the goods taken back to the controller of the intelligent cabinet through the channel established between the first mobile communication module and the second mobile communication module after receiving the information of the goods taken back, so that information interaction between the controller of the intelligent cabinet and the background server is formed.

Step 8: during the information interaction between the controller of the intelligent cabinet and the background server, interception is executed on the information interaction;

the step 8 specifically includes:

step 8-1: the first acquisition program running on the controller of the intelligent cabinet acquires the interactive index information of the first mobile communication module positioned at the second interaction state of transmitting and receiving, and transmits the interactive index information to the second mobile communication module through the first mobile communication module;

the interactive index information is index information having an identification code of the local time point and the first mobile communication module, and can include more than one type of index information representing whether the interaction is good or bad, such as SINR, interactive code rate, spectrum flatness, or RSRQ. The local time point is the time point when the interception program obtains the index information of interaction, and the identification code of the first mobile communication module is a character string which is preset and is distinguished for the other mobile communication modules together with the mobile communication module.

Step 8-2: the mobile communication module II transmits the received interactive index information of the mobile communication module I to a interception program I running on a background server, and the obtained program II obtains the interactive index information of the mobile communication module II, which is used for transmitting and receiving the second-class interaction condition, and transmits the interactive index information to the interception program I;

Step 8-3: the first interception program executes interception judgment on the interaction condition of the second mobile communication module according to the received interaction time index information of the second mobile communication module, and executes interception judgment on the interaction condition of each first mobile communication module according to the interaction time index information of all the first mobile communication modules received by the second mobile communication module connected with the first interception program;

in the present application, the first interception program performs interception judgment on the interaction condition of the second mobile communication module according to the received interaction time index information of the second mobile communication module, where the interception judgment includes the following steps: the interactive index information of the second class interactive condition of the mobile communication module is respectively compared with the critical quantity I set by the corresponding second class interactive condition, the interactive index information weaker than the critical quantity I is determined to be abnormal interactive index information and registration is carried out, and the interactive index information better than the critical quantity I is determined to be daily interactive index information and registration is carried out.

Preferably, in the present application, the first interception program performs interception and judgment on the interaction condition of the second mobile communication module according to the received interaction time index information of the second mobile communication module, where the interception and judgment includes the following steps: and respectively calculating arithmetic mean values of all the index information of the second class interaction conditions of the mobile communication module, comparing each index information of the second class interaction conditions of the mobile communication module with the corresponding arithmetic mean values, recognizing the index information of the second class interaction conditions weaker than the arithmetic mean values as the index information of the first class interaction conditions of the second class interaction conditions of the mobile communication module, and executing registration.

The first interception program performs abnormal and unreliable judgment on the index information during the interaction of the second class interaction condition of the mobile communication module through setting the critical quantity comparison and the index information alternate average comparison at the first outlet, so that the interaction abnormal and unreliable condition of the second class interaction condition of the mobile communication module can be more completely detected on the background server side.

In the present application, the first interception program performs interception judgment on the interaction status of each first mobile communication module according to the interaction index information of all the first mobile communication modules received by the second mobile communication module, including the following methods: and comparing the interactive index information of the second class interaction condition of each mobile communication module I received by the second mobile communication module with the critical quantity II set by the corresponding second class interaction condition respectively, wherein the interactive index information weaker than the critical quantity II is determined to be abnormal interactive index information and registration is performed, and the interactive index information better than the critical quantity II is determined to be daily interactive index information and registration is performed.

Preferably, in the present application, the first interception program performs interception judgment on the interaction status of each first mobile communication module according to the interaction index information of all the first mobile communication modules received by the second mobile communication module, and further includes the following steps: the arithmetic mean value is calculated for the daily interactive index information of the second class interactive condition of all the first mobile communication modules received by the second mobile communication module, the daily interactive index information of each first mobile communication module received by the second mobile communication module is compared with the corresponding arithmetic mean value, the daily interactive index information of the first mobile communication module weaker than the arithmetic mean value is identified as the unreliable interactive index information, and the registration is executed.

The first interception program performs abnormal-to-unreliable judgment on the index information of the second class interaction condition of all the first mobile communication modules received by the second mobile communication module through setting critical quantity comparison and common index information concentration average comparison, and can more completely find out the abnormal-to-unreliable condition of the second class interaction condition of each mobile communication module with the second mobile communication module interaction on the background server side.

Step 8-4: the first interception program transmits the judged interactive index information to the third mobile communication module through the second mobile communication module;

step 8-5: the third mobile communication module transmits the received interactive index information to a centralized control interception program running on an interception server, the centralized control interception program executes interception judgment on the interactive condition of each second mobile communication module according to the interactive index information of all second mobile communication modules, and executes interception judgment on the channel interactive condition of each first mobile communication module in the information interaction period between the controller of the intelligent cabinet and the background server according to the interactive index information of all first mobile communication modules received by all second mobile communication modules.

In the application, the centralized control interception program executes interception judgment on the channel interaction condition of each first mobile communication module in the information interaction period between the controller of the intelligent cabinet and the background server according to the interaction time index information of all first mobile communication modules received by all second mobile communication modules, and the method comprises the following steps: the arithmetic mean number is calculated by extracting all the daily interactive index information of the first class of interaction conditions of the mobile communication module, each daily interactive index information of the first class of interaction conditions of the mobile communication module is compared with the corresponding arithmetic mean number, the daily interactive index information weaker than the arithmetic mean number is identified as the unreliable interactive index information, and the registration is executed.

During the information interaction between the controller of the intelligent cabinet and the background server, the first mobile communication module can also execute information interaction between the second mobile communication modules of the plurality of site programs, and the centralized control interception program executes average comparison of index information of a common source through all daily interaction time index information of one type of interaction conditions of the first mobile communication module received by the second mobile communication modules connected with different background servers, so as to execute more accurate unreliable judgment on the daily interaction time index information of one type of interaction condition channels of the first mobile communication module, and find out the unreliable conditions in the channels for information interaction of the second type of interaction conditions of the first mobile communication module.

In the application, the centralized control interception program executes interception judgment on the interaction condition of each mobile communication module II according to the interaction index information of all mobile communication modules II, and the method comprises the following steps: the arithmetic mean number is calculated by extracting the daily interactive index information of the first interactive condition of all the second mobile communication modules, the daily interactive index information of the first interactive condition of each second mobile communication module is compared with the corresponding arithmetic mean number, the daily interactive index information of the second mobile communication module which is weaker than the arithmetic mean number is identified as the unreliable interactive index information, and the registration is executed.

The centralized control interception program performs more accurate unreliable judgment on the index information during daily interaction of the second mobile communication module through performing data centralized average comparison on the index information during daily interaction of the second mobile communication module in the first interaction condition, so as to more accurately find out the interaction unreliable condition in the second interaction condition of the second mobile communication module.

That is, when the interactive index information includes more than two types of index information, the critical amount information also includes more than two corresponding critical amounts, and only when one index information in the interactive index information is weaker than the corresponding critical amount in the corresponding critical amount information, the interactive index information is determined to be weaker than the corresponding critical amount; when more than two types of index information in the index information are not weaker than the corresponding critical amount in the corresponding critical amount information only in the interaction, the method can determine that the index information in the interaction is better than the corresponding critical amount data.

The arithmetic mean is obtained by respectively calculating arithmetic mean values of index information in index information during daily interaction, and when the index information during daily interaction has a high zero crossing value obtained by subtracting the corresponding arithmetic mean value from the index information during the daily interaction or the high obtained by subtracting the corresponding arithmetic mean value is higher than a preset critical value, the index information during daily interaction is determined to be weaker than the corresponding arithmetic mean value.

The method and the system can execute monitoring judgment of a plurality of layers on the index information during interaction of the first mobile communication module and the second mobile communication module, and are favorable for integrally and accurately detecting abnormal and unreliable conditions in interaction between the controller of the intelligent cabinet and the background server.

In the application, the index information during interaction comprises two index information such as frequency spectrum flatness and code rate during interaction, the number of mobile communication modules II is u, the number of mobile communication modules I is v, and both u and v are positive integers;

the index information of the mobile communication module II during the first interaction of the transmission and collection status is H (I) _j ，K _l )=[M1，N（I _j ，K _l ），O（I _j ，K _l ）]And H (I) _j ，K _l )=[M2，N（I _j ，K _l ），O（I _j ，K _l ）]The index information of the mobile communication module during the interaction of the transmission and collection status can be P (I) _j ，K _m )=[M1，N（I _j ，K _m ），O（I _j ，K _m ）]And P (I) _j ，K _m )=[M2，N（I _j ，K _m ），O（I _j ，K _m ）]L is a positive integer from one to u, m is a positive integer from one to v, j is a positive integer, I _j Is the book for obtaining index information in interaction at the j th timeTime of the ground, K _l And K is equal to _m The identification codes of the mobile communication module II and the mobile communication module I, H (I) _j ，K _l ) For the identification code K _l Mobile communication module II at time point I _j Index information, P (I) _j ，K _m ) For the identification code K _m Mobile communication module at time point I _j Index information during interaction; m1 and M2 are the transfer and collection conditions, N (I) _j ，K _m ) To at time I _j The identification code is K _m The frequency spectrum flatness of the second mobile communication module, O (I _j ，K _m ) To at time I _j The identification code is K _m The interactive time code rate of the mobile communication module II; n (I) _j ，K _l ) To at time I _j The identification code is K _l Spectrum flatness of mobile communication module one of (1), O (I _j ，K _l ) To at time I _j The identification code is K _l The interactive time code rate of the mobile communication module I;

the first critical quantity comprises two types of transmission and collection, namely h1= [ n1, o1] and h1= [ n2, o2], wherein n1 and n2 are respectively the frequency spectrum flatness critical quantity of the mobile communication module II when the transmission and collection are performed under the interaction condition, and o1 and o2 are respectively the code rate critical quantity when the mobile communication module II when the transmission and collection are performed under the interaction condition; the critical quantity two types, namely p 1= [ n3, o3] and p 2= [ n4, o4], wherein n3 and n4 are respectively the critical quantity of the spectral flatness of the mobile communication module I when the interaction condition is transmission and the critical quantity of the spectral flatness of the mobile communication module I when the receiving is receiving, and o3 and o4 are respectively the critical quantity of the code rate when the interaction condition is transmission and the critical quantity of the code rate when the mobile communication module I when the receiving is interaction;

If the first interception procedure is to send the second mobile communication module and the second mobile communication module are to send the second mobile communication module to the first interception procedure, the second mobile communication module is to send the second mobile communication module _1l And E is connected with _2l The index information during the interaction between the transmission and the receiving of the second mobile communication module is E _1lm And E is connected with _2lm A plurality of; the first interception program collects the second class interaction condition of the second mobile communication moduleThe index information is compared with the critical quantity set by the corresponding second-class interaction condition, namely E _1l The interactive index information of the transmission status of the second mobile communication module is respectively equal to h1= [ n1, o1]Comparison, E _2l The interactive index information of the receiving status of the second mobile communication module is respectively equal to h1= [ n2, o2]Comparing; the first interception program compares the index information of the second class interaction condition of each received mobile communication module I with the critical quantity two set by the corresponding second class interaction condition respectively, namely E with the quantity m from one to v _1lm The interactive index information of the transmission status of the mobile communication module II with the accumulated value is respectively compared with p1, and the quantity of E from m to v is calculated _1lm The index information of the interaction time of the collection condition of the mobile communication module II with the accumulated value is respectively compared with p 2;

When the index information at the time of interaction is weaker than the corresponding critical amount information, abnormal registration is performed by adding an abnormal sign before the index information at the time of interaction, and the index information at the time of abnormal interaction of the transmission and collection conditions of the second mobile communication module and the first mobile communication module is H (I) _j ，K _l )=[J，M1，N（I _j ，K _l ），O（I _j ，K _l ）]、H(I _j ，K _l )=[J，M2，N（I _j ，K _l ），O（I _j ，K _l ）]、P(I _j ，K _m )=[J，M1，N（I _j ，K _m ），O（I _j ，K _m ）]And P (I) _j ，K _m )=[J，M2，N（I _j ，K _m ），O（I _j ，K _m ) J is an anomaly; in addition, the index information of the mobile communication module II and the mobile communication module I during the daily interaction of the transmission and collection status is H (I) _j ，K _l )=[K，M1，N（I _j ，K _l ），O（I _j ，K _l ）]、H(I _j ，K _l )=[K，M2，N（I _j ，K _l ），O（I _j ，K _l ）]、P(I _j ，K _m )=[K，M1，N（I _j ，K _m ），O（I _j ，K _m ）]And P (I) _j ，K _m )=[K,M2，N（I _j ，K _m ），O（I _j ，K _m ) K is a daily sign;

if the first interception program performs abnormal judgment, the obtained index information of the mobile communication module II in the process of acquiring the daily interaction of the transmission and collection conditions is F respectively _1l And F is equal to _2l The obtained index information during daily interaction of the transmission and collection conditions of the first mobile communication module of the second mobile communication module collection is F respectively _1lm And F is equal to _2lm A plurality of;

the index information of all the daily interaction of the second class interaction conditions of the second mobile communication module received by the first interception program respectively calculates arithmetic mean, namely F _1l The index information calculates the average number of daily transmission arithmetic during daily interaction, and F is calculated by _2l Calculating the arithmetic mean of daily collection by index information during daily interaction; here, the daily transmission arithmetic mean number and the daily collection arithmetic mean number are ph1= [ pn1, po1, respectively ]And ph1= [ pn2, po2 ]]Pn1 and po1 are F in the transmission state _1l The arithmetic mean of the frequency spectrum flatness of the index information and the arithmetic mean of the code rate at the time of daily interaction are F of the receiving conditions, pn2 and po2 are respectively _2l Arithmetic mean of the spectrum flatness of the index information and arithmetic mean of the code rate of the interaction in daily interaction;

the first interception program calculates arithmetic mean value of the index information of the second class interaction condition of all the first mobile communication modules received by the first mobile communication module, namely the number of E from one to v _1lm The index information of the accumulated value during daily interaction calculates the daily transmission arithmetic mean number, and the number is E from one to v _2lm The index information of the accumulated value during daily interaction calculates the daily collection arithmetic mean; the daily transfer arithmetic mean and the daily collection arithmetic mean are pp1= [ pn3, po3]And pp2= [ pn4, po4 ]]Pn3 and po3 are E in the number m from one to v, respectively _1lm The arithmetic mean of the spectrum flatness of the index information at the time of daily interaction and the arithmetic mean of the code rate at the time of interaction of the accumulated values, pn4 and po4 are E with the number m from one to v respectively _1lm The arithmetic mean of the spectrum flatness of the index information and the arithmetic mean of the code rate of the interaction in daily interaction of the accumulated values;

When the index information is weaker than the corresponding arithmetic mean number in daily interaction, the unreliable sign is added in front of the daily index information to replace the daily sign so as to execute unreliable registration, and the index information in the unreliable interaction of the transmission and collection conditions of the mobile communication module II and the mobile communication module I is H (I) _j ，K _l )=[G，M1，N（I _j ，K _l ），O（I _j ，K _l ）]、H(I _j ，K _l )=[G，M2，N（I _j ，K _l ），O（I _j ，K _l ）]、P(I _j ，K _m )=[G，M1，N（I _j ，K _m ），O（I _j ，K _m ）]And P (I) _j ，K _m )=[G,M2，N（I _j ，K _m ），O（I _j ，K _m ) G is an untrusted symbol;

if the first interception program executes the unreliable judgment, the finally obtained index information during daily interaction of the transmission and collection conditions of the second mobile communication module is G respectively _1l And G _2l The obtained index information during daily interaction of the transmission and collection conditions of the first mobile communication module of the second mobile communication module collection is G respectively _1lm And G _2lm A plurality of;

the centralized control interception program extracts all daily interactive index information of one type of interaction condition of a mobile communication module I to calculate arithmetic mean, namely the index information has the same K for all daily interactive index information with the quantity of one in the transmission condition _m The daily transmission arithmetic mean value is calculated by the index information during all daily interactions, and the index information during all daily interactions under the charge condition with the number of two has the same K _m The index information is calculated to calculate the arithmetic mean value of daily charge when all daily interactions are performed, the value of one is G from m to v _1lm After accumulation, TG is obtained _1l Then for TG from l to u _1l The accumulated values; the value of two is G from m to v _2lm After accumulation, getTG _2l Then for TG from l to u _2l The accumulated values;

the centralized control interception program extracts the index information of the first class interaction condition of all the second mobile communication modules to calculate the arithmetic mean, namely G from one to u _1l The index information of the accumulated value during daily interaction calculates the daily transmission arithmetic mean number, and the number of the index information is G from one to u _2l The accumulated value is calculated to obtain the arithmetic mean value of daily charge.

While the present application has been described above by way of illustration of embodiments, it will be understood by those skilled in the art that the present disclosure is not limited to the embodiments described above, and that various changes, modifications and substitutions may be made without departing from the scope of the present application.

Claims (9)

1. An intelligent cabinet control system, characterized by comprising:

a controller is arranged in an intelligent cabinet with a plurality of storage boxes, a cabinet door is hinged on the front wall of each storage box, one side of the cabinet door is locked with the front wall of each storage box through an electronic lock, and each storage box is provided with a box number;

the touch screen, the flash memory, the electronic lock and the mobile communication module I are connected with the controller, and the touch screen is embedded on the front wall of the intelligent cabinet;

The controller establishes a channel between the mobile communication modules II which are connected with the background server together through the mobile communication modules;

the background server establishes a channel between the mobile communication module II and the mobile communication module III connected with the interception server;

the flash memory stores an account number and a password of the courier;

the program running on the controller of the intelligent cabinet comprises a first transmission program and a first acquisition program;

the first transfer program is used for transferring the information of the goods to a background server for storage through a channel established between the first mobile communication module and the second mobile communication module;

the first acquisition program is used for acquiring the index information of the mobile communication module I when the mobile communication module I is positioned to transmit and receive the interaction conditions of the two types, and transmitting the index information to the mobile communication module II through the mobile communication module I;

the program running on the background server comprises a first collecting program, a first interception program and a second obtaining program;

the first receiving program is used for transmitting the information of the received goods to the controller of the intelligent cabinet through a channel established between the first mobile communication module and the second mobile communication module after receiving the information of the received goods;

The first interception program is used for obtaining the index information of the mobile communication module I when the mobile communication module I is positioned to transmit and receive the interaction conditions of the two types, and transmitting the index information to the mobile communication module II through the mobile communication module I;

the second acquisition program is used for acquiring index information of the mobile communication module when the mobile communication module is used for transmitting and receiving interaction conditions of the two types and transmitting the index information to the first interception program;

the first interception program is further configured to compare the interaction time index information of the second type interaction condition of the mobile communication module with the first critical amount set by the corresponding second type interaction condition, and identify the interaction time index information weaker than the first critical amount as abnormal interaction time index information and perform registration, and identify the interaction time index information better than the first critical amount as daily interaction time index information and perform registration;

the first interception program is further used for respectively calculating arithmetic mean values of the index information during daily interaction of the second class interaction conditions of all the first mobile communication modules received by the second mobile communication module, comparing the index information during daily interaction of each first mobile communication module received by the second mobile communication module with the corresponding arithmetic mean value, recognizing the index information during daily interaction of the first mobile communication module weaker than the arithmetic mean value as the index information during unreliable interaction, and executing registration.

2. The intelligent cabinet control system according to claim 1, wherein the first interception program is further configured to compare the interaction time index information of the second type of interaction condition of each of the first mobile communication modules received by the second mobile communication module with the second critical amount set by the corresponding second type of interaction condition, respectively, identify the interaction time index information weaker than the second critical amount as abnormal interaction time index information and perform registration, and identify the interaction time index information better than the second critical amount as daily interaction time index information and perform registration;

the first interception program is further used for respectively calculating arithmetic mean values of the index information during daily interaction of the second class interaction conditions of all the first mobile communication modules received by the second mobile communication module, comparing the index information during daily interaction of each first mobile communication module received by the second mobile communication module with the corresponding arithmetic mean value, recognizing the index information during daily interaction of the first mobile communication module weaker than the arithmetic mean value as the index information during unreliable interaction, and executing registration.

3. The intelligent cabinet control system according to claim 1, wherein the first interception program is further configured to transmit the evaluated interactive index information to the third mobile communication module via the second mobile communication module.

4. The intelligent cabinet control system of claim 1, wherein the program running on the listening server comprises a centralized listening program;

the centralized control interception program is used for executing interception judgment on the interaction condition of each mobile communication module II according to the interaction time index information of all mobile communication modules II, and executing interception judgment on the channel interaction condition of each mobile communication module I during the information interaction period between the controller of the intelligent cabinet and the background server according to the interaction time index information of all mobile communication modules I received by all mobile communication modules II;

the centralized control interception program is also used for extracting all daily interaction index information of the first type of interaction condition of the mobile communication module, calculating arithmetic mean number, comparing each daily interaction index information of the first type of interaction condition of the mobile communication module with corresponding arithmetic mean number, recognizing the daily interaction index information weaker than the arithmetic mean number as unreliable interaction index information, and executing registration;

the centralized control interception program is also used for extracting the daily interaction time index information of the first interaction condition of all the second mobile communication modules to calculate arithmetic mean value, comparing the daily interaction time index information of the first interaction condition of each second mobile communication module with the corresponding arithmetic mean value, recognizing the daily interaction time index information of the second mobile communication module which is weaker than the arithmetic mean value as unreliable interaction time index information, and executing registration.

5. The control method of the intelligent cabinet control system is characterized by comprising the following steps of:

step 1: the courier delivers goods to the intelligent cabinet, pops up a login interface by clicking a button marked with an 'courier entrance' on the touch screen, inputs an account number and a password configured for the courier on the login interface, and continuously jumps out of the first selection interface after checking;

step 2: the method comprises the steps that a box number of an idle storage box is selected on a first selection interface, an express delivery person selects the box number of the idle storage box on the first selection interface, then the storage box to which the box number belongs is opened, an express delivery person places a goods into the storage box and closes the storage box, then an input interface is popped up, the express delivery person inputs the mobile phone number, the picking-up code and the box number of the storage box of a smart phone of a customer to which the goods belongs on the input interface, so that the goods are stored in a flash memory, and a record is formed in a memory by the mobile phone number, the picking-up code and the box number of the storage box of the customer to which the goods belongs;

step 3: then, the express personnel transmits goods taking information with a goods taking code to a smart phone of a customer to which the goods belongs;

step 4: after the customer looks up that the intelligent mobile phone receives the goods taking information, the customer arrives at the intelligent cabinet, clicks a button marked with 'I want to take' on the touch screen, and then pops up a second selection interface;

Step 5: the client clicks a button marked with a piece taking code on a second selection interface, then pops up a second input interface, the client inputs a piece taking code on the second input interface, the client automatically opens a box door after checking, the client takes away the piece, the box door is closed after the client takes away the piece, a message of taking away the piece is transmitted to a background server for storage through a channel established between the first mobile communication module and the second mobile communication module, and the background server returns the message of taking away the piece to the controller of the intelligent cabinet through the channel established between the first mobile communication module and the second mobile communication module after receiving the message of taking away the piece;

step 6: when a customer cannot use a pickup code to pick up a commodity, scanning a two-dimensional code displayed on a touch screen by using scanning software in a smart phone to obtain a message of requesting to transmit a mobile phone number of the smart phone in the two-dimensional code, then transmitting the mobile phone number to the touch screen by the smart phone, and transmitting the mobile phone number to a controller of an intelligent cabinet by the touch screen;

step 7: after the controller of the intelligent cabinet obtains the mobile phone number, the door is automatically opened after checking to enable a customer to take away the goods, the door is closed after the customer takes away the goods, the controller of the intelligent cabinet can transmit the information of taking away the goods to a background server for storage through a channel established between the mobile communication module I and the mobile communication module II, and the background server can transmit the information of receiving the information of taking away the goods back to the controller of the intelligent cabinet through the channel established between the mobile communication module I and the mobile communication module II after receiving the information of taking away the goods;

Step 8: during the information interaction between the controller of the intelligent cabinet and the background server, interception is executed on the information interaction;

the step 8 specifically includes:

step 8-1: the first acquisition program running on the controller of the intelligent cabinet acquires the interactive index information of the first mobile communication module positioned at the second interaction state of transmitting and receiving, and transmits the interactive index information to the second mobile communication module through the first mobile communication module;

step 8-2: the mobile communication module II transmits the received interactive index information of the mobile communication module I to a interception program I running on a background server, and the obtained program II obtains the interactive index information of the mobile communication module II, which is used for transmitting and receiving the second-class interaction condition, and transmits the interactive index information to the interception program I;

step 8-3: the first interception program executes interception judgment on the interaction condition of the second mobile communication module according to the received interaction time index information of the second mobile communication module, and executes interception judgment on the interaction condition of each first mobile communication module according to the interaction time index information of all the first mobile communication modules received by the second mobile communication module connected with the first interception program;

step 8-4: the first interception program transmits the judged interactive index information to the third mobile communication module through the second mobile communication module;

Step 8-5: the third mobile communication module transmits the received interactive index information to a centralized control interception program running on an interception server, the centralized control interception program executes interception judgment on the interactive condition of each second mobile communication module according to the interactive index information of all second mobile communication modules, and executes interception judgment on the channel interactive condition of each first mobile communication module in the information interaction period between the controller of the intelligent cabinet and the background server according to the interactive index information of all first mobile communication modules received by all second mobile communication modules.

6. The control method of the intelligent cabinet control system according to claim 5, wherein the first interception program performs interception judgment on the interaction condition of the second mobile communication module according to the received interaction index information of the second mobile communication module, comprising the following steps: comparing the interactive index information of the second class interactive condition of the mobile communication module with the first critical quantity set by the corresponding second class interactive condition respectively, wherein the interactive index information weaker than the first critical quantity is determined as abnormal interactive index information and registration is executed, and the interactive index information better than the first critical quantity is determined as daily interactive index information and registration is executed;

The first interception program executes interception judgment on the interaction condition of the second mobile communication module according to the received interaction index information of the second mobile communication module, and the method comprises the following steps: and respectively calculating arithmetic mean values of all the index information of the second class interaction conditions of the mobile communication module, comparing each index information of the second class interaction conditions of the mobile communication module with the corresponding arithmetic mean values, recognizing the index information of the second class interaction conditions weaker than the arithmetic mean values as the index information of the first class interaction conditions of the second class interaction conditions of the mobile communication module, and executing registration.

7. The control method of the intelligent cabinet control system according to claim 5, wherein the first interception program performs interception judgment on the interaction status of each first mobile communication module according to the interaction time index information of all first mobile communication modules received by the second mobile communication module, comprising the following steps: comparing the interactive index information of the second class interaction condition of each mobile communication module I received by the mobile communication module II with a critical quantity II set by the corresponding second class interaction condition respectively, wherein the interactive index information weaker than the critical quantity II is determined to be abnormal interactive index information and registration is executed, and the interactive index information better than the critical quantity II is determined to be daily interactive index information and registration is executed;

The first interception program executes interception judgment on the interaction condition of each first mobile communication module according to the interaction index information of all the first mobile communication modules received by the second mobile communication module, and the method further comprises the following steps: the arithmetic mean value is calculated for the daily interactive index information of the second class interactive condition of all the first mobile communication modules received by the second mobile communication module, the daily interactive index information of each first mobile communication module received by the second mobile communication module is compared with the corresponding arithmetic mean value, the daily interactive index information of the first mobile communication module weaker than the arithmetic mean value is identified as the unreliable interactive index information, and the registration is executed.

8. The control method of the intelligent cabinet control system according to claim 5, wherein the centralized control interception program performs interception and evaluation on channel interaction conditions of each mobile communication module one during information interaction between the controller of the intelligent cabinet and the background server according to the interaction time index information of all mobile communication modules one received by all mobile communication modules two, comprising the following steps: extracting all daily interactive index information of the first type of interaction condition of the mobile communication module, calculating arithmetic mean number, comparing each daily interactive index information of the first type of interaction condition of the mobile communication module with corresponding arithmetic mean number, recognizing the daily interactive index information weaker than the arithmetic mean number as unreliable interactive index information, and executing registration;

The centralized control interception program executes interception judgment on the interaction condition of each mobile communication module II according to the interaction index information of all mobile communication modules II, and the method comprises the following steps: the arithmetic mean number is calculated by extracting the daily interactive index information of the first interactive condition of all the second mobile communication modules, the daily interactive index information of the first interactive condition of each second mobile communication module is compared with the corresponding arithmetic mean number, the daily interactive index information of the second mobile communication module which is weaker than the arithmetic mean number is identified as the unreliable interactive index information, and the registration is executed.

9. The control method of the intelligent cabinet control system according to claim 5, wherein the index information during interaction includes two index information such as spectrum flatness and code rate during interaction, two mobile communication modules are u, one mobile communication module is v, and both u and v are positive integers;

the index information of the mobile communication module II during the first interaction of the transmission and collection status is H (I) _j ，K _l )＝[M1，N(I _j ，K _l )，O(I _j ，K _l )]And H (I) _j ，K _l )＝[M2，N(I _j ，K _l )，O(I _j ，K _l )]The index information of the mobile communication module during the interaction of the transmission and collection status can be P (I) _j ，K _m )＝[M1，N(I _j ，K _m )，O(I _j ，K _m )]And P (I) _j ，K _m )＝[M2，N(I _j ，K _m )，O(I _j ，K _m )]L is a positive integer from one to u, m is a positive integer from one to v, j is a positive integer, I _j Is the local time point K for obtaining index information in interaction at the j th time _l And K is equal to _m The identification codes of the mobile communication module II and the mobile communication module I, H (I) _j ，K _l ) For the identification code K _l Mobile communication module II at time point I _j Index information, P (I) _j ，K _m ) For the identification code K _m Mobile communication module at time point I _j Index information during interaction; m1 and M2 are the transfer and collection conditions, N (I) _j ，K _m ) To at time I _j The identification code is K _m The frequency spectrum flatness of the second mobile communication module, O (I _j ，K _m ) To at time I _j The identification code is K _m The interactive time code rate of the mobile communication module II; n (I) _j ，K _l ) To at time I _j The identification code is K _l Spectrum flatness of mobile communication module one of (1), O (I _j ，K _l ) To at time I _j The identification code is K _l The interactive time code rate of the mobile communication module I;

the first critical quantity comprises two types of transmission and collection, namely h1= [ n1, o1] and h1= [ n2, o2], wherein n1 and n2 are respectively the frequency spectrum flatness critical quantity of the mobile communication module II when the transmission and collection are performed under the interaction condition, and o1 and o2 are respectively the code rate critical quantity when the mobile communication module II when the transmission and collection are performed under the interaction condition; the two types of the critical quantity comprise transmission and collection, namely p1= [ n3, o3] and p2= [ n4, o4] respectively, wherein n3 and n4 are respectively the frequency spectrum flatness critical quantity of the mobile communication module I when the transmission and collection are carried out, and o3 and o4 are respectively the code rate critical quantity when the transmission is carried out and the mobile communication module I when the transmission is carried out;

If the first interception procedure is to send the second mobile communication module and the second mobile communication module are to send the second mobile communication module to the first interception procedure, the second mobile communication module is to send the second mobile communication module _1l And E is connected with _2l The index information during the interaction between the transmission and the receiving of the second mobile communication module is E _1lm And E is connected with _2lm A plurality of; the first interception program compares the index information of the interaction time of the second class interaction condition of the second-class communication module with the critical quantity set by the corresponding second-class interaction condition, namely E _1l Transfer shape of second mobile communication moduleThe index information is respectively compared with h1 during the interaction of conditions, E _2l The index information of the second mobile communication module in the interaction of the receiving status is respectively compared with x 2; the first interception program compares the index information of the second class interaction condition of each received mobile communication module I with the critical quantity two set by the corresponding second class interaction condition respectively, namely E with the quantity m from one to v _1lm The interactive index information of the transmission status of the mobile communication module II with the accumulated value is respectively compared with p1, and the quantity of E from m to v is calculated _1lm The index information of the interaction time of the collection condition of the mobile communication module II with the accumulated value is respectively compared with p 2;

When the index information at the time of interaction is weaker than the corresponding critical amount information, abnormal registration is performed by adding an abnormal sign before the index information at the time of interaction, and the index information at the time of abnormal interaction of the transmission and collection conditions of the second mobile communication module and the first mobile communication module is H (I) _j ，

K _l )＝[J，M1，N(I _j ，K _l )，O(I _j ，K _l )]、H(I _j ，K _l )＝[J，M2，

N(I _j ，K _l )，O(I _j ，K _l )]、P(I _j ，K _m )＝[J，M1，N(I _j ，K _m )，

O(I _j ，K _m )]And P (I) _j ，K _m )＝[J，M2，N(I _j ，K _m )，O(I _j ，K _m ) J is

An abnormal marking; in addition, the index information of the mobile communication module II and the mobile communication module I during the daily interaction of the transmission and collection status is H (I) _j ，K _l )＝[K，M1，N(I _j ，K _l )，O(I _j ，K _l )]、H(I _j ，K _l )＝[K，M2，N(I _j ，K _l )，O(I _j ，K _l )]、P(I _j ，K _m )＝[K，M1，N(I _j ，K _m )，O(I _j ，K _m )]And P (I) _j ，

K _m )＝[K,M2，N(I _j ，K _m )，O(I _j ，K _m ) K is a daily sign;

if the first interception program performs abnormal judgment, the obtained index information of the mobile communication module II in the process of acquiring the daily interaction of the transmission and collection conditions is F respectively _1l And F is equal to _2l The obtained index information during daily interaction of the transmission and collection conditions of the first mobile communication module of the second mobile communication module collection is F respectively _1lm And F is equal to _2lm A plurality of;

the index information of all the daily interaction of the second class interaction conditions of the second mobile communication module received by the first interception program respectively calculates arithmetic mean, namely F _1l The index information calculates the average number of daily transmission arithmetic during daily interaction, and F is calculated by _2l Calculating the arithmetic mean of daily collection by index information during daily interaction; here, the daily transmission arithmetic mean number and the daily collection arithmetic mean number are ph1= [ pn1, po1, respectively ]And ph1= [ pn2, po2 ]]Pn1 and o1 are F of the transmission condition, respectively _1l Arithmetic mean of spectral flatness of index information at daily interaction and arithmetic mean of code rate at interaction, pn2 is po2 and is F of receiving condition _2l Arithmetic mean of the spectrum flatness of the index information and arithmetic mean of the code rate of the interaction in daily interaction;

the first interception program calculates arithmetic mean value of the index information of the second class interaction condition of all the first mobile communication modules received by the first mobile communication module, namely the number of E from one to v _1lm The index information of the accumulated value during daily interaction calculates the daily transmission arithmetic mean number, and the number is E from one to v _2lm The index information of the accumulated value during daily interaction calculates the daily collection arithmetic mean; the daily transfer arithmetic mean and the daily collection arithmetic mean are pp1= [ pn3, po3]And pp2= [ pn4, po4 ]]Pn3 and po3 are E in the number m from one to v, respectively _1lm The arithmetic mean of the spectrum flatness of the index information at the time of daily interaction and the arithmetic mean of the code rate at the time of interaction of the accumulated values, pn4 and po4 are E with the number m from one to v respectively _1lm Daily interactive index information of accumulated value The arithmetic mean of the rest spectrum flatness and the arithmetic mean of the code rate during interaction;

when the index information is weaker than the corresponding arithmetic mean number in daily interaction, the unreliable sign is added in front of the daily index information to replace the daily sign so as to execute unreliable registration, and the index information in the unreliable interaction of the transmission and collection conditions of the mobile communication module II and the mobile communication module I is H (I) _j ，K _l )＝[G，M1，N(I _j ，K _l )，O(I _j ，K _l )]、H(I _j ，

K _l )＝[G，M2，N(I _j ，K _l )，O(I _j ，K _l )]、P(I _j ，K _m )＝[G，M1，

N(I _j ，K _m )，O(I _j ，K _m )]And P (I) _j ，K _m )＝[G,M2，N(I _j ，K _m )，

O(I _j ，K _m ) G is an untrusted symbol;

if the first interception program executes the unreliable judgment, the finally obtained index information during daily interaction of the transmission and collection conditions of the second mobile communication module is G respectively _1l And G _2l The obtained index information during daily interaction of the transmission and collection conditions of the first mobile communication module of the second mobile communication module collection is G respectively _1lm And G _2lm A plurality of;

the centralized control interception program extracts all daily interactive index information of one type of interactive condition of one mobile communication module to calculate arithmetic mean, namely G from one to v for the number of m _1lm TG obtained after accumulation _1l Then for TG with the number of l from one to u _1l The accumulated values have the same K _m The index information calculates the average number of daily transfer arithmetic when all daily interactions are performed, the number of pairs is G from m to v _2lm TG obtained after accumulation _2l Then for TG with the number of l from one to u _2l The accumulated values have the same K _m The index information is calculated to calculate the arithmetic mean of daily collection;

the centralized control interception program extracts the index information of the first class interaction condition of all the second mobile communication modules to calculate the arithmetic mean, namely G from one to u _1l The index information of the accumulated value during daily interaction calculates the daily transmission arithmetic mean number, and the number of the index information is G from one to u _2l The arithmetic mean of the daily collection is calculated by the accumulated values.

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