CN106686062B - Intelligent management and control system and method for aquatic product drug sampling and residue detection - Google Patents

Abstract

An aquatic product medicine sampling and residue detection intelligent management and control system and a method thereof are disclosed, wherein a first smart phone with a camera and a GPS module is attached to a first class of workers, a second smart phone with a camera and a GPS module is attached to a second class of workers, a server and a background computer end are provided; the first smart phone attached to the first type of staff and the second smart phone attached to the second type of staff are connected with the server through a network; the server is in communication connection with a background computer end, and the background computer end is also connected with a printer; the background computer end comprises respective name and password information of a first class of staff and an administrator, a login module for logging in the background computer end and a second information processing module; the method effectively overcomes the defects of insufficient intelligent functions of acquired data and high complexity of artificial signature in the prior art.

Description

Intelligent management and control system and method for aquatic product drug sampling and residue detection

Technical Field

The invention relates to the technical field of aquatic product management and control, in particular to an aquatic product drug sampling and residue detection intelligent management and control system and method.

Background

China is a big country for producing agricultural products and is also a big country for producing and using pesticides. In 2010, the total amount of aquatic products in China leaps the world first, wherein the total consumption of fresh water aquatic products accounts for more than 50% of the total consumption of aquatic products. However, with the development of agricultural large-scale production, the problem of pesticide residue of aquatic products for cultivation is increasingly prominent, and the problem becomes a hot spot problem for food safety concerned by international and domestic society.

The pesticide residue in the aquatic products generally comes from two aspects, one is that the pesticide is applied in the culture process to prevent and control epidemic diseases and insect pests of the aquatic products, and the other is that a large amount of pesticide applied in the environment flows into the culture water body along with rainwater showering. The variety of pesticides in the aquaculture water body is gradually increased, most pesticides have the characteristic of lipophilicity, and along with the action of biological enrichment and a food chain, the pesticides in the water body are enriched by aquatic products and accumulated through the food chain, so that the food safety of human beings is influenced. Strict pesticide residue limit standards are established in developed countries.

However, the existing means for detecting pesticide residues of aquatic products completely depend on manual work, so that the intelligent function of collected data is insufficient, and the complexity of manual signature is high.

Disclosure of Invention

In order to solve the problems, the invention provides an aquatic product drug sampling and residue detection intelligent management and control system and a method thereof, which effectively overcome the defects of insufficient intelligent functions of acquired data and high complexity of artificial signature in the prior art.

In order to overcome the defects in the prior art, the invention provides an intelligent management and control system for aquatic product drug sampling and residue detection and a solution of the intelligent management and control method, and the intelligent management and control system comprises the following specific steps:

the utility model provides an intelligent management and control system of aquatic products medicine sampling and residue detection, includes: the system comprises a first smart phone, a server and a background computer end, wherein the first smart phone is attached to a first class of workers and provided with a camera and a GPS module;

the first smart phone attached to the first type of staff is connected with the server through a network;

the server is in communication connection with a background computer end, and the background computer end is also connected with a printer;

the first smart phone comprises a first login module, a first phone App, information including a work number, a name and an identification number of a first type of staff affiliated to the first smart phone, an electronic form serving as a first sampling list, a first electronic signature tool and a first calculation expense module;

the server comprises a serial number generation module, a first information processing module and a database serving as a sample library to be detected;

the background computer end comprises respective name and password information of a first class of staff and an administrator, a login module for logging in the background computer end and a second information processing module.

The method of the aquatic product medicine sampling and residue detection intelligent management and control system comprises the following steps:

step 1: sampling on site, wherein the sampling on site is carried out by a first type of staff to a unit or an individual needing aquatic product drug residue detection, and the unit or the individual needing aquatic product drug residue detection is the detected party;

step 2: the method comprises the steps that a first type of staff starts a first login module to enter a login interface in the process of sampling aquatic products, the first type of staff inputs work numbers, names and identity card numbers on the login interface, the first login module compares the input work numbers, names and identity card numbers with the work numbers, names and identity card numbers of the first type of staff attached to a first smart phone respectively after the first type of staff inputs the work numbers, names and identity card numbers, and if the input work numbers, names and identity card numbers are consistent, the first mobile phone App is started;

and step 3: after the first mobile phone App is started, the first mobile phone App sends a request message for requesting a sample number to the server through a network, and after the server receives the request message for requesting the sample number, the server starts the number generation module to automatically generate a unique number and returns the unique number to the first mobile phone as the sample number recorded during sampling; and acquiring a sample number according to interaction with the server, wherein the operation must be carried out under the condition of a network, otherwise, the next operation cannot be carried out due to the fact that no network exists and data cannot be acquired, and the unique number is automatically generated by the server system and is consistent with the sample number recorded during sampling.

And 4, step 4: filling sampling information, wherein the filling sampling information is that the first mobile phone App automatically fills the returned sample number into the item of the first sampling list for inputting the sample number and opens the first sampling list, and then the first type of staff inputs the sample information into the item of the first sampling list for inputting the sampling information; and the first type of staff member inputs the information of the testee into the item of the first sampling list for inputting the information of the testee;

and 5: shooting records, wherein the shooting records are pictures of farmers, pond mouths for cultivating aquatic products and sampled samples by the first type of staff by using a camera of a first smart phone, and filling the shot pictures into items of a first sampling list for inputting picture information;

step 6: the method comprises the following steps of automatically calculating sampling cost, wherein the sampling cost is automatically calculated by starting a first calculation cost module of a first smart phone by a first type of staff to calculate the cost of a sample collected at this time and automatically filling the cost into an item of a first sampling list for inputting the sampling cost, and then paying the cost of the sampled sample to a farmer;

and 7: the electronic signature is used for starting a first electronic signature tool of a first smart phone to enable the farmer to sign first, enabling the first type of staff to sign, and filling the signature of the farmer and the signature of the first type of staff into an item of a first sampling list for inputting the electronic signature;

and 8: the method comprises the steps that address position positioning is carried out, wherein a first type of staff starts a GPS module of a first smart phone to carry out positioning to obtain position information of the first smart phone and fills the position information into an item of a first sampling list, wherein the item is used for inputting positioning information;

and step 9: then, under the condition that the network is not communicated, the first mobile phone App stores the first sampling list;

under the condition that network communication is normal, the first mobile phone App stores a first sampling list in the first smart mobile phone and then sends the first sampling list to the server, so that the first information processing module stores the first sampling list as a submitted sampling list in a sample to-be-detected library, and before the first sampling list is sent to the server, the first information processing module takes the sample number of the first sampling list as the identifier of the uncommitted sampling list;

step 10: the first class of working personnel starts a login module of the background computer end for logging in the background computer end to input names and passwords of the working personnel, then the login module for logging in the background computer end compares the input names and passwords with the names and passwords of the first class of working personnel in the background computer end respectively, if the input names and passwords are consistent with the names and passwords of the first class of working personnel in the background computer end, the second information processing module can enter the background computer end to start a second information processing module, so that the second information processing module sends a message for requesting sampling list information to the server through a network, and the first information processing module of the server sends the identification of the sampling list which is not submitted by the first class of working personnel, the submitted sampling list and the distributed sampling list to the background computer end, the distributed sampling list is a sampling list submitted by a first type of staff, is distributed to a second type of staff for the sampling list to be detected and is stored in a server;

when the identification of the uncommitted sampling list, the distributed sampling list or the submitted sampling list which is sent to the background computer end needs to be printed, the first type of staff member prints the sampling list through a printer connected with the background computer end;

when the sampling cost in the distributed sampling list or the sampling cost in the submitted sampling list which is sent to the background computer end needs to be printed, the first type of staff member prints the sampling cost through a printer connected with the background computer end;

step 11: the administrator starts a login module of the background computer end for logging in the background computer end to input the name and the password of the administrator, then the login module of the background computer end respectively compares the input name and the password with the name and the password of the administrator in the background computer end, if the input name and the password are consistent with the name and the password of the administrator in the background computer end, the administrator can enter the background computer end to start a second information processing module, so that the second information processing module sends a message requesting for sampling list information to the server through a network, and the first information processing module of the server sends the identification of all sampling lists which are not submitted by a first type of staff, the submitted sampling lists and the distributed sampling lists to the background computer end;

therefore, the administrator can check the identification of the sampling list which is not submitted by the first type of staff and sent to the background computer end or the submitted sampling list.

The sampling list in the sampling lists stored in the first smart phone can be modified.

The first type of staff starts a login module of the background computer end for logging in the background computer end to input the name and the password of the first type of staff in a WEB login mode.

The invention finally realizes the function of intellectualization of aquatic product residue detection, and has the advantages of high efficiency and convenience of electronic signature.

Drawings

Fig. 1 is a schematic connection diagram of an intelligent management and control system for aquatic product drug sampling and residue detection according to the present invention;

Detailed Description

The invention will be further explained with reference to the drawings.

According to the attached figure 1, the aquatic product drug sampling and residue detection intelligent management and control system comprises: the system comprises a first smart phone, a server and a background computer end, wherein the first smart phone is attached to a first class of workers and provided with a camera and a GPS module;

the first smart phone attached to the first type of staff is connected with the server through a network;

the server is in communication connection with a background computer end, and the background computer end is also connected with a printer;

the first smart phone comprises a first login module, a first phone App, information including a work number, a name and an identification number of a first type of staff affiliated to the first smart phone, an electronic form serving as a first sampling list, a first electronic signature tool and a first calculation expense module;

the server comprises a serial number generation module, a first information processing module and a database serving as a sample library to be detected;

the background computer end comprises respective name and password information of a first class of staff and an administrator, a login module for logging in the background computer end and a second information processing module.

The first type of staff is only responsible for sampling the residual aquatic product medicines.

The first sampling sheet includes an entry for inputting a sample number, an entry for inputting sampling information, an entry for inputting subject information, an entry for inputting picture information, an entry for inputting a sampling fee, an entry for inputting an electronic signature, an entry for inputting positioning information, and an entry for inputting a detection result.

The sampling information comprises information such as a sample name, a sample specification, a sampling place, a sample producing area, an authentication condition, a sample length which can be manually input, an individual weight, a sampling quantity and a sampling base number; the information of the detected party comprises information of the name, the address, the legal person of the unit and the contact information of the detected unit or the personal which can be selected or manually input.

The method of the aquatic product medicine sampling and residue detection intelligent management and control system comprises the following steps:

step 1: sampling on site, wherein the sampling on site is carried out by a first type of staff to a unit or an individual needing aquatic product drug residue detection, and the unit or the individual needing aquatic product drug residue detection is the detected party;

step 2: the method comprises the steps that a first type of staff starts a first login module to enter a login interface in the process of sampling aquatic products, the first type of staff inputs work numbers, names and identity card numbers on the login interface, the first login module compares the input work numbers, names and identity card numbers with the work numbers, names and identity card numbers of the first type of staff attached to a first smart phone respectively after the first type of staff inputs the work numbers, names and identity card numbers, and if the input work numbers, names and identity card numbers are consistent, the first mobile phone App is started;

and step 3: after the first mobile phone App is started, the first mobile phone App sends a request message for requesting a sample number to the server through a network, and after the server receives the request message for requesting the sample number, the server starts the number generation module to automatically generate a unique number and returns the unique number to the first mobile phone as the sample number recorded during sampling; and acquiring a sample number according to interaction with the server, wherein the operation must be carried out under the condition of a network, otherwise, the next operation cannot be carried out due to the fact that no network exists and data cannot be acquired, and the unique number is automatically generated by the server system and is consistent with the sample number recorded during sampling.

And 4, step 4: filling sampling information, wherein the filling sampling information is that the first mobile phone App automatically fills the returned sample number into the item of the first sampling list for inputting the sample number and opens the first sampling list, and then the first type of staff inputs the sample information into the item of the first sampling list for inputting the sampling information; and the first type of staff member inputs the information of the testee into the item of the first sampling list for inputting the information of the testee;

and 5: shooting records, wherein the shooting records are pictures of farmers, pond mouths for cultivating aquatic products and sampled samples by the first type of staff by using a camera of a first smart phone, and filling the shot pictures into items of a first sampling list for inputting picture information;

step 6: the method comprises the following steps of automatically calculating sampling cost, wherein the sampling cost is automatically calculated by starting a first calculation cost module of a first smart phone by a first type of staff to calculate the cost of a sample collected at this time and automatically filling the cost into an item of a first sampling list for inputting the sampling cost, and then paying the cost of the sampled sample to a farmer;

and 7: the electronic signature is used for starting a first electronic signature tool of a first smart phone to enable the farmer to sign first, enabling the first type of staff to sign, and filling the signature of the farmer and the signature of the first type of staff into an item of a first sampling list for inputting the electronic signature;

and 8: the method comprises the steps that address position positioning is carried out, wherein a first type of staff starts a GPS module of a first smart phone to carry out positioning to obtain position information of the first smart phone and fills the position information into an item of a first sampling list, wherein the item is used for inputting positioning information;

and step 9: then, under the condition that the network is not communicated, the first mobile phone App stores the first sampling list;

under the condition that network communication is normal, the first mobile phone App stores a first sampling list in the first smart mobile phone and then sends the first sampling list to the server, so that the first information processing module stores the first sampling list as a submitted sampling list in a sample to-be-detected library, and before the first sampling list is sent to the server, the first information processing module takes the sample number of the first sampling list as the identifier of the uncommitted sampling list;

step 10: the first class of working personnel starts a login module of the background computer end for logging in the background computer end to input names and passwords of the working personnel, then the login module for logging in the background computer end compares the input names and passwords with the names and passwords of the first class of working personnel in the background computer end respectively, if the input names and passwords are consistent with the names and passwords of the first class of working personnel in the background computer end, the second information processing module can enter the background computer end to start a second information processing module, so that the second information processing module sends a message for requesting sampling list information to the server through a network, and the first information processing module of the server sends the identification of the sampling list which is not submitted by the first class of working personnel, the submitted sampling list and the distributed sampling list to the background computer end, the distributed sampling list is a sampling list submitted by a first type of staff, is distributed to a second type of staff for the sampling list to be detected and is stored in a server;

when the identification of the uncommitted sampling list, the distributed sampling list or the submitted sampling list which is sent to the background computer end needs to be printed, the first type of staff member prints the sampling list through a printer connected with the background computer end;

when the sampling cost in the distributed sampling list or the sampling cost in the submitted sampling list which is sent to the background computer end needs to be printed, the first type of staff member prints the sampling cost through a printer connected with the background computer end;

step 11: the administrator starts a login module of the background computer end for logging in the background computer end to input the name and the password of the administrator, then the login module of the background computer end respectively compares the input name and the password with the name and the password of the administrator in the background computer end, if the input name and the password are consistent with the name and the password of the administrator in the background computer end, the administrator can enter the background computer end to start a second information processing module, so that the second information processing module sends a message requesting for sampling list information to the server through a network, and the first information processing module of the server sends the identification of all sampling lists which are not submitted by a first type of staff, the submitted sampling lists and the distributed sampling lists to the background computer end;

therefore, the administrator can check the identification of the sampling list which is not submitted by the first type of staff and sent to the background computer end or the submitted sampling list.

The sampling list in the sampling lists stored in the first smart phone can be modified.

The first type of staff starts a login module of the background computer end for logging in the background computer end to input the name and the password of the first type of staff in a WEB login mode.

The invention finally realizes the function of intellectualization of aquatic product residue detection, and has the functions of high efficiency and convenience of electronic signature.

In addition, the second information processing module of the background computer sends a message requesting for sampling list information to the server through the network, and the first information processing module of the server sends the identification of all sampling lists which are not submitted by the first type of staff or the second type of staff, the distributed sampling lists and the submitted sampling lists to the background computer, the messages for requesting the information of the sampling lists, the identifications of the uncommitted sampling lists, the distributed sampling lists and the submitted sampling lists are transmitted and sent between the background computer end and the server in the form of message messages, when the message is transmitted in the form of message, the problems of message loss and messy sequence of message acquisition often occur, and the message transmission between the background computer end and the server is in failure, and the message can not be normally acquired.

The second information processing module of the background computer sends a message requesting for sampling list information to the server through a network, and the first information processing module of the server sends identifiers of all sampling lists which are not submitted by a first type of staff, allocated sampling lists and submitted sampling lists to the background computer, and the message requesting for the sampling list information, the identifiers of the uncommitted sampling lists, the allocated sampling lists and the submitted sampling lists are transmitted and sent between the background computer and the server in a message form, and the transmission process comprises the following steps:

step 1: firstly, a time length statistic module and a counting variable with an initial value of 0 are respectively configured in the background computer end and the server, the background computer end and the server transmit a request message towards a party acquiring the message and transmit a response message responding to the request message towards the party transmitting the message through the background computer end and the party transmitting the message in the server, so as to realize the establishment of a message channel between the background computer end and the server, wherein the request message comprises an error checking code, a message domain for identification and any code; the message comprises a message domain for identification, a message serial number, an arbitrary code and an error checking code;

step 2: determining whether a message needs to be transmitted, if so, turning to the step 3, and if not, turning to the step 5;

and step 3: transmitting a message;

and 4, step 4: transmitting an inquiry message to realize condition retrieval, wherein the inquiry message comprises an arbitrary code and an error checking code;

and 5: transmitting a message for maintaining a message channel to realize the maintenance of the message channel, wherein the message for maintaining the message channel comprises a message serial number, an arbitrary code and an error checking code;

the step 1 comprises the following steps:

step 1-1: under the condition that the request message is not transmitted, the step 1-2 is carried out; if the request message is transmitted, the step 1-3 is carried out;

step 1-2: setting the number of the repeated transmission request messages as the preset number of the highest repeated transmission request messages, and confirming the request messages;

step 1-3: transmitting the request message, and carrying out time length statistics after the request message is transmitted by a synchronous operation time length statistics module;

step 1-4: confirming whether a message domain used for identification in the request message is acquired or not, and if the message domain used for identification is acquired, turning to the step 1-6; if the message domain for identification is not obtained, the step 1-5 is carried out;

step 1-5: determining whether the time length statistics of the time length statistics module reaches the set time length, if the time length statistics of the time length statistics module reaches the set time length, terminating the time length statistics of the time length statistics module and reducing the number of the repeated transmission request messages by one, and then turning to the step 1-1 to carry out, if the time length does not reach the set time length, turning to the step 1-4 to carry out;

step 1-6: checking the error of the request message by the error checking code in the request message, and if no error is checked, executing the step 1-7; if an error is detected, the method goes to the step 1-4;

step 1-7: counting the time length of the termination time length counting module, and setting the number of the repeated transmission request messages as the preset number of the highest repeated transmission request messages;

step 1-8: and performing decoding determination on the request message.

The process of confirming the transmission request packet in step 1-2 includes the following steps:

step 1-2-1: checking the request message;

step 1-2-2: determining whether the request message is matched with the adopted communication standard, and if so, turning to the step 1-3; if not, transmitting the message of the removed message channel to terminate the maintenance of the message channel;

the steps 1-8 comprise the following steps:

step 1-8-1: determining whether any codes in the request message are the same or not when any codes in the request message are transmitted at the same time, and if yes, turning to the step 1-8-2; if not, the running time length counting module carries out time length counting and then the step 1-4 is carried out;

step 1-8-2: determining whether the response message is acquired or not, and if the response message is acquired, turning to the step 2; if the response message is not acquired, the running time counting module carries out time counting and then the step 1-4 is carried out;

the step 3 comprises the following steps:

step 3-1: transmitting message messages, and carrying out time length statistics by a synchronous operation time length statistics module;

step 3-2: determining whether the message domain used for identification in the message is obtained or not, if the message domain used for identification in the message is obtained, turning to the step 1-6 for execution, and if the message domain used for identification in the message is not obtained, turning to the step 1-5 for execution;

step 3-3: determining whether the time length statistics performed by the time length statistics module reaches the preset time length, if the preset time length is reached, terminating the time length statistics performed by the time length statistics module and turning to the step 3-8 to perform, and if the preset time length is not reached, turning to the step C-2 to perform;

step 3-4: utilizing the error checking code in the message to check the error of the message, if no error is checked, turning to the step 3-5, and if an error is checked, turning to the step 3-2;

step 3-5: the termination time length counting module carries out time length counting;

step 3-6: decoding and determining the message;

step 3-7: determining whether a response message for responding the message is obtained or not, if the response message for responding the message is obtained, switching to the step 4, and if the response message for responding the message is not obtained, switching to the step 3-8;

step 3-8: transmitting an interception message for interception to carry out interception, wherein the interception message for interception comprises an arbitrary code, an error checking code and a message serial number;

the steps 3-6 comprise the following steps:

step 3-6-1: determining whether any code in the message is the same as any code of the different request messages, if so, switching to the step 3-6-2, and if not, switching to the step 3-8;

step 3-6-2: determining whether the message contains a message serial number or not, and if the message contains the message serial number, switching to the step 3-6-3; if no message serial number exists, the step 3-8 is carried out;

step 3-6-3: determining whether the message serial number in the message is wrong, and if so, turning to the step 3-8; if no error exists, the step 3-6-4 is carried out;

step 3-6-4: determining whether the message is a message or not, if the message is a message, turning to the step 3-6-5, and if the message is not a message, turning to the step 3-7;

step 3-6-5: increasing one counting variable of a party acquiring the message;

determining whether the message serial number in the message is wrong or not according to the standard that whether the counting variable of the party acquiring the message is equal to the message serial number of the acquired message or not;

the steps 3-8 comprise the following steps:

step 3-8-1: transmitting an interception message for interception, and determining the interception message and checking errors by using error checking codes in the interception message in sequence by the party acquiring the interception message;

step 3-8-2: determining whether any code of the intercepted message used for interception is the same as any code of the different request messages, and if so, turning to the step 3-8-3; if not, starting a time length counting module to carry out time length counting and turning to the step 3-8-1 to carry out;

step 3-8-3: determining whether the intercepted message for interception has a message serial number, if so, turning to the step 3-8-4; if not, starting a time length counting module to carry out time length counting and turning to the step 3-8-1 to carry out;

step 3-8-4: determining whether the message serial number in the intercepted message is wrong, if not, turning to the step 3-8-5; if the time is wrong, starting a time counting module to carry out time counting and turning to the step 3-8-1 to carry out;

step 3-8-5: determining whether the message is acquired or not, and if the message is acquired, turning to the step 3-8-6; if the message is not acquired, the step 3-8-7 is carried out;

step 3-8-6: increasing one counting variable of a party acquiring the message;

step 3-8-7: determining whether the previous message is obtained or not, and if the previous message is obtained, turning to the step 4; if the previous message is not acquired, the step 3-1 is carried out;

determining whether the message serial number in the intercepted message is wrong or not according to the standard that whether the counting variable of the party acquiring the intercepted message is equal to the message serial number of the acquired intercepted message or not;

the step 4 comprises the following steps:

step 4-1: transmitting the inquiry message, and determining the acquired inquiry message and checking errors by using error checking codes in the inquiry message in sequence by the party acquiring the inquiry message;

step 4-2: determining whether the random codes in the inquiry message are the same as the random codes of the different request messages, and if so, turning to the step 4-3; if not, starting a time length counting module to carry out time length counting and turning to the step 4-1 to carry out;

step 4-3: determining whether the transmitted inquiry message is an inquiry message or a message, if the transmitted inquiry message is the inquiry message or the message, turning to the step 4-4 to carry out, and if the transmitted inquiry message or the message is not the inquiry message or the message, transmitting a message for removing a message channel to terminate the maintenance of the message channel;

step 4-4: determining whether the transmitted inquiry message is an inquiry message, if so, turning to the step 4-5; if the message is not the inquiry message, increasing one counting variable of the party acquiring the message, and then transmitting a response message for responding the message to the party transmitting the message;

and 4-5: determining whether the transmission of the response message for responding the message fails, and if not, turning to the step 5; if the failure occurs, go to step 4-6;

and 4-6: determining whether the message in the message is lost, if so, transmitting the message of removing the message channel to terminate the maintenance of the message channel; if the time length is not lost, starting a time length counting module to carry out time length counting and turning to the step 4-1 to carry out;

the step 5 comprises the following steps:

step 5-1: transmitting the message of the message keeping channel, and determining the message of the message keeping channel and carrying out error checking by using the error checking code in the message of the message keeping channel in sequence by the party acquiring the message of the message keeping channel;

step 5-2: determining whether any code in the message of the message channel is the same as any code of the request message, and if so, turning to the step 5-3; if not, starting a time length counting module to carry out time length counting, and turning to the step 5-1 to carry out the time length counting after the time length counting reaches two seconds;

step 5-3: determining whether a message serial number exists in a message of a message channel, if so, turning to the step 5-4, if not, starting a time length counting module to count time length, and turning to the step 5-1 after the time length reaches two seconds;

step 5-4: determining whether the message serial number in the message of the message channel is wrong, and if not, turning to the step 5-5; if the time is wrong, starting a time counting module to carry out time counting, and turning to the step 5-1 to carry out the time counting after the time counting reaches two seconds;

step 5-5: determining whether the message is acquired or not, and if the message is acquired, turning to the step 5-6; if the message is not acquired, starting a duration counting module to carry out duration counting, and turning to the step 5-1 after the duration counting reaches two seconds;

and 5-6: increasing one counting variable of a party acquiring the message;

and 5-7: determining whether a message needs to be transmitted, if so, turning to the step 3; if not, transmitting a response message for responding the message to the party transmitting the message;

the criterion for determining whether the packet sequence number in the packet of the keep packet channel is incorrect is whether the count variable of the party acquiring the packet of the keep packet channel is equal to the acquired packet sequence number of the packet of the keep packet channel.

The arbitrary code is used as a mark when the server transmits a request message towards a party acquiring the message and transmits a response message responding to the request message towards the party transmitting the message from the party acquiring the message, the arbitrary code in the first transmission of the server is used as a mark, the mark is contained in the message transmitted between the background computer end and the server after the first transmission of the server, and the mark is used for determining whether the currently adopted background computer end is a background computer end used when the currently adopted background computer end transmits the request message towards the party acquiring the message from the party transmitting the message and the response message responding to the request message towards the party transmitting the message from the party acquiring the message from the party transmitting the message.

The method can improve the message transmission performance of the background computer end and the server, is more convenient for workers, has good stability during transmission, and can efficiently prevent the transmission from not reaching a stable state.

The sampling information includes information such as a sample number, a sample name, a sampling type, a sampling place, a sampling time, or a body length and a body weight of the sample; the information of the detected party comprises information such as the name of the detected unit, a communication address or a contact person.

The method for calculating the cost of the sampled sample is that a system administrator sets unit prices and maximum limit prices of different aquatic product varieties and different specifications in a background management system. The system obtains the specific cost of the sample by multiplying the unit price of the corresponding variety specification by the sampling weight according to the sample information filled by the staff, and if the specific cost exceeds the maximum limit price, the maximum limit price is taken as the cost of the sample.

In addition, in the step 3, the sample number is obtained according to the interaction with the server, the operation must be carried out under the condition of a network, otherwise, the next operation cannot be carried out due to the fact that no network exists and data cannot be obtained, the unique number is automatically generated by the server system, and the unique number is consistent with the sample number recorded during sampling.

In addition, the first type of staff can only see the information of the sampling list which is not submitted, submitted and distributed.

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

Claims (1)

1. The utility model provides an intelligent management and control system of aquatic products medicine sampling and residue detection which characterized in that includes: the system comprises a first smart phone, a server and a background computer end, wherein the first smart phone is attached to a first class of workers and provided with a camera and a GPS module;

the first smart phone attached to the first type of staff is connected with the server through a network;

the server is in communication connection with a background computer end, and the background computer end is also connected with a printer;

the first smart phone comprises a first login module, a first phone App, information including a work number, a name and an identification number of a first type of staff affiliated to the first smart phone, an electronic form serving as a first sampling list, a first electronic signature tool and a first calculation expense module;

the server comprises a serial number generation module, a first information processing module and a database serving as a sample library to be detected;

the background computer end comprises respective name and password information of a first class of staff and an administrator, a login module for logging in the background computer end and a second information processing module;

the first type of staff is only responsible for sampling the residual aquatic product medicines;

the first sampling list comprises an item for inputting a sample number, an item for inputting sampling information, an item for inputting information of a detected party, an item for inputting picture information, an item for inputting sampling expense, an item for inputting an electronic signature, an item for inputting positioning information and an item for inputting a detection result;

the sampling information comprises information such as a sample name, a sample specification, a sampling place, a sample producing area, an authentication condition, a sample length which can be manually input, an individual weight, a sampling quantity and a sampling base number; the information of the detected party comprises information such as the name, the address, the unit legal person and the contact information of a detected unit or person which can be selected or manually input;

the intelligent management and control system for aquatic product drug sampling and residue detection executes the following steps:

step 1: sampling on site, wherein the sampling on site is carried out by a first type of staff to a unit or an individual needing aquatic product drug residue detection, and the unit or the individual needing aquatic product drug residue detection is the detected party;

step 2: the method comprises the steps that a first type of staff starts a first login module to enter a login interface in the process of sampling aquatic products, the first type of staff inputs work numbers, names and identity card numbers on the login interface, the first login module compares the input work numbers, names and identity card numbers with the work numbers, names and identity card numbers of the first type of staff attached to a first smart phone respectively after the first type of staff inputs the work numbers, names and identity card numbers, and if the input work numbers, names and identity card numbers are consistent, the first mobile phone App is started;

and step 3: after the first mobile phone App is started, the first mobile phone App sends a request message for requesting a sample number to the server through a network, and after the server receives the request message for requesting the sample number, the server starts the number generation module to automatically generate a unique number and returns the unique number to the first smart phone as the sample number recorded during sampling; acquiring a sample number according to interaction with a server, wherein the operation must be carried out under the condition of a network, otherwise, the next operation cannot be carried out due to the fact that no network exists and data cannot be acquired, and a unique number is automatically generated by a server system and is consistent with the sample number recorded during sampling;

and 4, step 4: filling sampling information, wherein the filling sampling information is that the first mobile phone App automatically fills the returned sample number into the item of the first sampling list for inputting the sample number and opens the first sampling list, and then the first type of staff inputs the sample information into the item of the first sampling list for inputting the sampling information; and the first type of staff member inputs the information of the testee into the item of the first sampling list for inputting the information of the testee;

and 5: shooting records, wherein the shooting records are pictures of farmers, pond mouths for cultivating aquatic products and sampled samples by the first type of staff by using a camera of a first smart phone, and filling the shot pictures into items of a first sampling list for inputting picture information;

step 6: the method comprises the following steps of automatically calculating sampling cost, wherein the sampling cost is automatically calculated by starting a first calculation cost module of a first smart phone by a first type of staff to calculate the cost of a sample collected at this time and automatically filling the cost into an item of a first sampling list for inputting the sampling cost, and then paying the cost of the sampled sample to a farmer;

and 7: the electronic signature is used for starting a first electronic signature tool of a first smart phone to enable the farmer to sign first, enabling the first type of staff to sign, and filling the signature of the farmer and the signature of the first type of staff into an item of a first sampling list for inputting the electronic signature;

and 8: the method comprises the steps that address position positioning is carried out, wherein a first type of staff starts a GPS module of a first smart phone to carry out positioning to obtain position information of the first smart phone and fills the position information into an item of a first sampling list, wherein the item is used for inputting positioning information;

and step 9: then, under the condition that the network is not communicated, the first mobile phone App stores the first sampling list;

under the condition that network communication is normal, the first mobile phone App stores a first sampling list in the first smart mobile phone and then sends the first sampling list to the server, so that the first information processing module stores the first sampling list as a submitted sampling list in a sample to-be-detected library, and before the first sampling list is sent to the server, the first information processing module takes the sample number of the first sampling list as the identifier of the uncommitted sampling list;

step 10: the first class of working personnel starts a login module of the background computer end for logging in the background computer end to input names and passwords of the working personnel, then the login module for logging in the background computer end compares the input names and passwords with the names and passwords of the first class of working personnel in the background computer end respectively, if the input names and passwords are consistent with the names and passwords of the first class of working personnel in the background computer end, the second information processing module can enter the background computer end to start a second information processing module, so that the second information processing module sends a message for requesting sampling list information to the server through a network, and the first information processing module of the server sends the identification of the sampling list which is not submitted by the first class of working personnel, the submitted sampling list and the distributed sampling list to the background computer end, the distributed sampling list is a sampling list submitted by a first type of staff, is distributed to a second type of staff for carrying out sampling list to be detected and is stored in a server;

when the identification of the uncommitted sampling list, the distributed sampling list or the submitted sampling list which is sent to the background computer end needs to be printed, the first type of staff member prints the sampling list through a printer connected with the background computer end;

when the sampling cost in the distributed sampling list or the sampling cost in the submitted sampling list which is sent to the background computer end needs to be printed, the first type of staff member prints the sampling cost through a printer connected with the background computer end;

step 11: the administrator starts a login module of the background computer end for logging in the background computer end to input the name and the password of the administrator, then the login module of the background computer end respectively compares the input name and the password with the name and the password of the administrator in the background computer end, if the input name and the password are consistent with the name and the password of the administrator in the background computer end, the administrator can enter the background computer end to start a second information processing module, so that the second information processing module sends a message requesting for sampling list information to the server through a network, and the first information processing module of the server sends the identification of all sampling lists which are not submitted by a first type of staff, the submitted sampling lists and the distributed sampling lists to the background computer end;

therefore, the administrator can check the identification of the sampling list which is not submitted by the first type of staff and is sent to the background computer end or the submitted sampling list;

the sampling list in the samples stored in the first smart phone can be modified;

the first class of workers starts a login module of the background computer end for logging in the background computer end to input names and passwords of the first class of workers in a WEB login mode; the method for calculating the cost of the sampled sample is that the number is multiplied by the unit price of water, summer flower and seeds, when the calculation result does not exceed the highest sampling cost, the calculation result cost is selected, and if the calculation result does not exceed the highest sampling cost, the highest sampling cost is selected;

the second information processing module of the background computer sends a message requesting for sampling list information to the server through a network, and the first information processing module of the server sends identifiers of all sampling lists which are not submitted by a first type of staff, allocated sampling lists and submitted sampling lists to the background computer, and the message requesting for the sampling list information, the identifiers of the uncommitted sampling lists, the allocated sampling lists and the submitted sampling lists are transmitted and sent between the background computer and the server in a message form, and the transmission process comprises the following steps:

step 1: firstly, a time length statistic module and a counting variable with an initial value of 0 are respectively configured in the background computer end and the server, the background computer end and the server transmit a request message towards a party acquiring the message and transmit a response message responding to the request message towards the party transmitting the message through the background computer end and the party transmitting the message in the server, so as to realize the establishment of a message channel between the background computer end and the server, wherein the request message comprises an error checking code, a message domain for identification and any code; the message comprises a message domain for identification, a message serial number, an arbitrary code and an error checking code;

step 2: determining whether a message needs to be transmitted, if so, turning to the step 3, and if not, turning to the step 5;

and step 3: transmitting a message;

and 4, step 4: transmitting an inquiry message to realize condition retrieval, wherein the inquiry message comprises an arbitrary code and an error checking code;

and 5: transmitting a message for maintaining a message channel to realize the maintenance of the message channel, wherein the message for maintaining the message channel comprises a message serial number, an arbitrary code and an error checking code;

the intelligent management and control system for aquatic product drug sampling and residue detection comprises the following steps of:

step 1-1: under the condition that the request message is not transmitted, the step 1-2 is carried out; if the request message is transmitted, the step 1-3 is carried out;

step 1-2: setting the number of the repeated transmission request messages as the preset number of the highest repeated transmission request messages, and confirming the request messages;

step 1-3: transmitting the request message, and carrying out time length statistics after the request message is transmitted by a synchronous operation time length statistics module;

step 1-4: confirming whether a message domain used for identification in the request message is acquired or not, and if the message domain used for identification is acquired, turning to the step 1-6; if the message domain for identification is not obtained, the step 1-5 is carried out;

step 1-5: determining whether the time length statistics of the time length statistics module reaches the set time length, if the time length statistics of the time length statistics module reaches the set time length, terminating the time length statistics of the time length statistics module and reducing the number of the repeated transmission request messages by one, and then turning to the step 1-1 to carry out, if the time length does not reach the set time length, turning to the step 1-4 to carry out;

step 1-6: checking the error of the request message by the error checking code in the request message, and if no error is checked, executing the step 1-7; if an error is detected, the method goes to the step 1-4;

step 1-7: counting the time length of the termination time length counting module, and setting the number of the repeated transmission request messages as the preset number of the highest repeated transmission request messages;

step 1-8: decoding and determining the request message;

the process of confirming the transmission request packet in step 1-2 includes the following steps:

step 1-2-1: checking the request message;

step 1-2-2: determining whether the request message is matched with the adopted communication standard, and if so, turning to the step 1-3; if not, transmitting the message of the removed message channel to terminate the maintenance of the message channel;

the steps 1-8 comprise the following steps:

step 1-8-1: determining whether any code in the request message is the same as any code of the request message during transmission, and if so, turning to the step 1-8-2; if not, the running time length counting module carries out time length counting and then the step 1-4 is carried out;

step 1-8-2: determining whether the response message is acquired or not, and if the response message is acquired, turning to the step 2; if the response message is not acquired, the running time counting module carries out time counting and then the step 1-4 is carried out;

the step 3 comprises the following steps:

step 3-1: transmitting message messages, and carrying out time length statistics by a synchronous operation time length statistics module;

step 3-2: determining whether the message domain used for identification in the message is obtained or not, if the message domain used for identification in the message is obtained, turning to the step 1-6 for execution, and if the message domain used for identification in the message is not obtained, turning to the step 1-5 for execution;

step 3-3: determining whether the time length statistics performed by the time length statistics module reaches the preset time length, if the preset time length is reached, terminating the time length statistics performed by the time length statistics module and turning to the step 3-8 to perform, and if the preset time length is not reached, turning to the step 3-2 to perform;

step 3-4: utilizing the error checking code in the message to check the error of the message, if no error is checked, turning to the step 3-5, and if an error is checked, turning to the step 3-2;

step 3-5: the termination time length counting module carries out time length counting;

step 3-6: decoding and determining the message;

step 3-7: determining whether a response message for responding the message is obtained or not, if the response message for responding the message is obtained, switching to the step 4, and if the response message for responding the message is not obtained, switching to the step 3-8;

step 3-8: transmitting an interception message for interception to carry out interception, wherein the interception message for interception comprises an arbitrary code, an error checking code and a message serial number;

the steps 3-6 comprise the following steps:

step 3-6-1: determining whether any code in the message is the same as any code of the different request messages, if so, switching to the step 3-6-2, and if not, switching to the step 3-8;

step 3-6-2: determining whether the message contains a message serial number or not, and if the message contains the message serial number, switching to the step 3-6-3; if no message serial number exists, the step 3-8 is carried out;

step 3-6-3: determining whether the message serial number in the message is wrong, and if so, turning to the step 3-8; if no error exists, the step 3-6-4 is carried out;

step 3-6-4: determining whether the message is a message, if so, turning to the step 3-6-5, and if not, turning to the step 3-7;

step 3-6-5: increasing one counting variable of a party acquiring the message;

determining whether the message serial number in the message is wrong or not according to the standard that whether the counting variable of the party acquiring the message is equal to the message serial number of the acquired message or not;

the steps 3-8 comprise the following steps:

step 3-8-1: transmitting an interception message for interception, and determining the interception message and checking errors by using error checking codes in the interception message in sequence by the party acquiring the interception message;

step 3-8-2: determining whether any code of the intercepted message used for interception is the same as any code of the different request messages, and if so, turning to the step 3-8-3; if not, starting a time length counting module to carry out time length counting and turning to the step 3-8-1 to carry out;

step 3-8-3: determining whether the intercepted message for interception has a message serial number, if so, turning to the step 3-8-4; if not, starting a time length counting module to carry out time length counting and turning to the step 3-8-1 to carry out;

step 3-8-4: determining whether the message serial number in the intercepted message is wrong, if not, turning to the step 3-8-5; if the time is wrong, starting a time counting module to carry out time counting and turning to the step 3-8-1 to carry out;

step 3-8-5: determining whether the message is acquired or not, and if the message is acquired, turning to the step 3-8-6; if the message is not acquired, the step 3-8-7 is carried out;

step 3-8-6: increasing one counting variable of a party acquiring the message;

step 3-8-7: determining whether the previous message is obtained or not, and if the previous message is obtained, turning to the step 4; if the previous message is not acquired, the step 3-1 is carried out;

determining whether the message serial number in the intercepted message is wrong or not according to the standard that whether the counting variable of the party acquiring the intercepted message is equal to the message serial number of the acquired intercepted message or not;

the step 4 comprises the following steps:

step 4-1: transmitting the inquiry message, and determining the acquired inquiry message and checking errors by using error checking codes in the inquiry message in sequence by the party acquiring the inquiry message;

step 4-2: determining whether the random codes in the inquiry message are the same as the random codes of the different request messages, and if so, turning to the step 4-3; if not, starting a time length counting module to carry out time length counting and turning to the step 4-1 to carry out;

step 4-3: determining whether the transmitted inquiry message is an inquiry message or a message, if the transmitted inquiry message is the inquiry message or the message, turning to the step 4-4 to carry out, and if the transmitted inquiry message or the message is not the inquiry message or the message, transmitting a message for removing a message channel to terminate the maintenance of the message channel;

step 4-4: determining whether the transmitted inquiry message is an inquiry message, if so, turning to the step 4-5; if the message is not the inquiry message, increasing one counting variable of the party acquiring the message, and then transmitting a response message for responding the message to the party transmitting the message;

and 4-5: determining whether the transmission of the response message for responding the message fails, and if not, turning to the step 5; if the failure occurs, go to step 4-6;

and 4-6: determining whether the message in the message is lost, if so, transmitting the message of removing the message channel to terminate the maintenance of the message channel; if the time length is not lost, starting a time length counting module to carry out time length counting and turning to the step 4-1 to carry out;

the step 5 comprises the following steps:

step 5-1: transmitting the message of the message keeping channel, and determining the message of the message keeping channel and carrying out error checking by using the error checking code in the message of the message keeping channel in sequence by the party acquiring the message of the message keeping channel;

step 5-2: determining whether any code in the message of the message channel is the same as any code of the request message, and if so, turning to the step 5-3; if not, starting a time length counting module to carry out time length counting, and turning to the step 5-1 to carry out the time length counting after the time length counting reaches two seconds;

step 5-3: determining whether a message serial number exists in a message of a message channel, if so, turning to the step 5-4, if not, starting a time length counting module to count time length, and turning to the step 5-1 after the time length reaches two seconds;

step 5-4: determining whether the message serial number in the message of the message channel is wrong, and if not, turning to the step 5-5; if the time is wrong, starting a time counting module to carry out time counting, and turning to the step 5-1 to carry out the time counting after the time counting reaches two seconds;

step 5-5: determining whether the message is acquired or not, and if the message is acquired, turning to the step 5-6; if the message is not acquired, starting a duration counting module to carry out duration counting, and turning to the step 5-1 after the duration counting reaches two seconds;

and 5-6: increasing one counting variable of a party acquiring the message;

and 5-7: determining whether a message needs to be transmitted, if so, turning to the step 3; if not, transmitting a response message for responding the message to the party transmitting the message;

determining whether the message serial number in the message of the message holding channel is wrong or not, wherein the counting variable of the party acquiring the message of the message holding channel is not equal to the acquired message serial number of the message holding channel;

when the server transmits a request message towards a party acquiring the message and transmits a response message responding to the request message towards a party transmitting the message, the server transmits any code in the first transmission as a mark, the message transmitted between the background computer end and the server after the first transmission of the server contains the mark, and the mark is used for determining whether the currently adopted background computer end transmits the request message towards the party acquiring the message and the background computer end adopted when the party acquiring the message transmits the response message responding to the request message towards the party transmitting the message;

in addition, in the step 3, a sample number is obtained according to interaction with the server, the operation must be carried out under the condition of a network, otherwise, data cannot be obtained due to no network, and the next operation cannot be carried out, wherein the unique number is automatically generated by the server system and is consistent with the sample number recorded during sampling;

in addition, the first type of staff can only see the information of the sampling list which is not submitted, submitted and distributed.

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