CN110458659B - Agricultural product management system based on B2B - Google Patents

Abstract

The invention provides a B2B-based agricultural product management system, which comprises: the user side is used for sending a service request to the management side based on the management platform; the cloud server is used for acquiring the service request and pushing the service request to the distribution end; the distribution end is used for purchasing pre-purchased agricultural products by a user of the distribution end based on the service request and distributing the pre-purchased agricultural products to the user end; the management terminal is used for calling related transaction data from a transaction tracing management library which stores service requests and purchase information and delivery information of users of the delivery terminals corresponding to the service requests one by one according to the service requests, transferring accounts to collection accounts of the corresponding delivery terminals based on preset settlement rules, purchasing and delivering agricultural products through the delivery terminals, achieving the purpose of conveniently managing the delivery terminals, and simultaneously integrating transaction information flows, fund flows and data flows of the user terminals and the delivery terminals into a whole based on the management terminal to achieve real tracing of the agricultural products.

Description

Agricultural product management system based on B2B

Technical Field

The invention relates to the technical field of agricultural product management, in particular to a B2B-based agricultural product management system.

Background

The yield of agricultural products in China is very large and ranks ten first in the world, and China is also a large population country and has a quite large total consumption amount of the agricultural products. Therefore, a business model for agricultural product transaction is applied, but a consumer purchases agricultural products on the internet, generally, the consumer directly orders the agricultural products from related stores, and the stores send the goods to cooperative logistics for distribution, but in the process, the logistics distribution party is inconvenient to manage.

Disclosure of Invention

The invention provides a B2B-based agricultural product management system, which is used for realizing the purpose of conveniently managing a distribution end by purchasing and distributing agricultural products by the distribution end.

The invention provides a B2B-based agricultural product management system, which comprises:

the user side is used for sending a service request to the management side based on the management platform, and the service request comprises: the shopping list of the user at the user side and the transaction payment information corresponding to the shopping list;

the cloud server is used for acquiring the service request sent by the user side based on a management platform and pushing the service request to the distribution side;

the distribution end is used for displaying the service request pushed by the cloud server to a user of the distribution end, and meanwhile, the user of the distribution end purchases pre-purchased agricultural products related to a shopping list in the service request of the user end from shops managed by the management end based on the service request, and delivers the purchased agricultural products to the user end;

the cloud server is further used for storing the service request of the user side and the purchase information and the distribution information of the user of the distribution end, which correspond to the service request one by one, in a transaction tracing management library;

and the management terminal is used for calling related transaction data from the transaction tracing management library according to the service request sent by the user terminal, and performing transfer operation to a corresponding collection account of the distribution terminal based on a preset settlement rule.

In one possible implementation manner, the user side includes:

the registration login module is used for establishing a personal information data linked list of the user at the user side before the user at the user side sends a service request to the management side, uploading the personal information data linked list to the cloud server and establishing a consumer database;

meanwhile, the user of the user side registers and logs in the management platform based on the registration and login module;

the query module is used for querying the delivery state of the user of the distribution end on the pre-purchased agricultural products which are purchased successfully by the user of the user end registered and logged in the management platform, wherein the delivery state comprises: a received order state, a delivery state, and a received state;

when the user of the distribution end processes a distribution state, the management platform sends the corresponding distribution state to the cloud server, and the cloud server pushes corresponding distribution state information to the user end.

In one possible implementation manner, the method further includes:

the issuing module is used for issuing a verification certificate to the user side based on the established personal information data linked list before the user of the user side registers and logs in the management platform based on the registration and logging module;

the verification module is used for sending a verification instruction to the user side according to the verification certificate issued by the issuing module, confirming whether verification information corresponding to the verification instruction is consistent with the verification certificate or not, and controlling the authorization module to work if the verification information is consistent with the verification certificate;

otherwise, sending a first alarm instruction to an alarm module;

and the authorization module is used for authorizing the user to register the authority of logging in the management platform when the verification information corresponding to the verification instruction is consistent with the verification certificate.

In one possible implementation manner, the method further includes:

the recording module is used for recording the access times of the user at the user side accessing the management platform within the preset time and the transaction times of the user at the user side on the management platform within the preset time;

the cloud server is further used for determining the preset welfare delivery time of the management platform according to the corresponding access times and transaction times recorded by the recording module and based on a pre-trained welfare delivery model.

In a possible implementation manner, the shop corresponding to the shop end includes:

the identification module is used for identifying the shopping list of the user side acquired by the distribution end and transmitting the identification result to the cloud server;

wherein the shopping list comprises: the pre-purchased agricultural product name and the pre-purchased weight corresponding to the pre-purchased agricultural product name are purchased by a user at the user side;

the device comprises a shooting module, a weighing module and a control module, wherein the shooting module is used for shooting agricultural products to be weighed to obtain a first agricultural product image;

the cloud server is further used for identifying the first agricultural product image obtained by the shooting module, judging whether a shopping list identification result obtained by the identification module is matched with the first agricultural product image identification result, and if not, sending a second alarm instruction to the alarm module;

if the agricultural products are matched, the weighing module is controlled to weigh the agricultural products to be weighed;

meanwhile, judging whether the weighing weight obtained by the weighing module is consistent with the pre-purchased weight of the agricultural product to be weighed or not, and if not, sending a third alarm instruction to an alarm module;

the alarm module is used for executing corresponding second alarm operation according to a second alarm instruction sent by the cloud server;

and the alarm module is used for executing corresponding third alarm operation according to the third alarm instruction sent by the cloud server.

In one possible implementation manner, during the process of purchasing the pre-purchased agricultural products on the shopping list of the user terminal,

the cloud server is further configured to, when the user of the distribution end purchases in the shop of the shop end according to the shopping list of the user end, push information of remaining pre-purchased agricultural products to the distribution end based on the recognition result of the recognized shopping list, and remind the user of the distribution end.

In one possible way of realisation,

the cloud server is further used for sending a confirmation instruction to the distribution end for a user of the distribution end to confirm when the weighing weight obtained by the weighing module is consistent with the pre-purchased weight of the agricultural product to be weighed;

and after the user at the dispensing end confirms the sent confirmation instruction, pushing the type and the corresponding weight of the pre-purchased agricultural products purchased by the user at the dispensing end according to the shopping list at the user end to the user at the user end.

In one possible implementation, the delivery end includes:

the payment module is used for conducting payment transaction to the shop corresponding to the shop end when a pre-purchased agricultural product is purchased in the shop corresponding to the corresponding shop end according to the shopping list of the user end, uploading the payment transaction information to the cloud server, and storing the payment transaction information in the transaction tracing management library;

wherein the payment transaction comprises: and completing any one or more of the quick payment transaction under the line and the quick payment bound with the bank card on the line through the NFC function.

In one possible way of realisation,

the distribution end can intelligently control a distribution route, so that the distribution cost is lowest during distribution, and the specific control steps are as follows;

step S1, first obtaining a set M of places to be distributed, where M is {1, 2, 3, … … n }, where 1 denotes a departure place, n denotes a total of n distribution places, and M virtual computation distributors are constructed and form a set L, where L is {1, 2, 3, … … M }, where M denotes an mth virtual computation distributor, and M < n;

step S2, calculating a delivery elicitor between any two delivery points by using the formula (1)

Wherein eta is_i,jDelivery location i and delivery locationA delivery heuristic between points J, J being a preset delivery insulation coefficient, V_i,jP is the heat conductivity coefficient of the delivery vehicle, S is the surface area of the compartment of the delivery vehicle, Δ T is the difference between the inside and outside temperatures of the compartment of the delivery vehicle, d_i,jThe distance between distribution points i and j is defined, Pe is the price of gasoline, B is the combustion value of gasoline, M is the fuel consumption of the vehicle per unit distance, i and j belong to a set M, and i is not equal to j;

distribution information amount t between arbitrary distribution point i and distribution point j at the same time_i,jIs 1;

step S3, randomly placing m virtual calculation distributors at n distribution points, each of which is at a different distribution point, performing first route planning of the virtual calculation distributors, and calculating the probability that the kth virtual calculation distributor selects from the current distribution point i to the next distribution point j by using formula (2):

wherein,

calculating for the kth virtual delivery site the probability, t, of the deliverer selecting from the current delivery site i to the next delivery site j_i,jIndicating the amount of information, η, between delivery location i and delivery location j_i,jA delivery heuristic is represented that is,

indicating that delivery site i can be reached directly and that the kth virtual computing deliverer has not reached the area and that the initial starting delivery site does not count delivery sites that have already been reached, t_i,uIndicating the amount of information, η, between delivery location i and delivery location u_i,uExpressing a distribution heuristic factor, wherein a is a preset information coefficient, the preset value is any number between 1 and 2, b is a preset heuristic coefficient, and the preset value is 2 to 5; j is all the locations in the set M except the current location i,i belongs to a set m and represents the current delivery position of the virtual computing deliverer;

step S4, setting the distribution point with the largest value among the probabilities of all the virtual calculation distributors selecting from the current distribution point i to the next distribution point j as the next distribution point of the virtual calculation distributor;

step S5, using formula (3) to t_i,jUpdating the value;

wherein w is a preset time loss coefficient and takes a value of 0-0.5, and z is_kTo adjust the amount of information, z_kThe value during the first route planning is the sum of the information quantity generated by the Kth virtual calculation distributor during the first distribution; lm_kFor the k-th virtual calculation of the total route, Pl, distributed by the distributor in the current route planning_i,jA set of virtual calculation distributors for selecting the distribution routes from the distribution site i to the distribution site j in step S4;

step S6, after all the distributors recalculate the formula (1), repeating step 4 and step 5, and performing distribution n times, the current route planning is completed, and then the sum of the information amounts generated by each virtual calculation distributor during the current route planning is calculated as the value of the adjustment information amount of the distributor during the next planning, and in the next planning process, the adjustment information amount z is calculated_kThe value of (a) is not changed;

step S7, starting a new primary route plan for the virtual computing distributor, setting the initial distribution position of the virtual computing distributor as the last distribution position when the new route plan is finished, keeping the values of all parameters unchanged, repeating the step S6, drawing the distribution route maps of all the virtual computing distributors at the same time, judging whether the distribution route maps of all the distributors are consistent, outputting the route map if the distribution route maps are consistent, operating the step S8, and repeating the step S7 if the distribution route maps are inconsistent;

in step S7, the outputted route map is used as the final distribution route, and the distribution point is designated by 1 as the starting point in the distribution.

Additional features and advantages of the invention will be set forth in the description which follows, and in part will be obvious from the description, or may be learned by practice of the invention. The objectives and other advantages of the invention will be realized and attained by the structure particularly pointed out in the written description and claims hereof as well as the appended drawings.

The technical solution of the present invention is further described in detail by the accompanying drawings and embodiments.

Drawings

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

fig. 1 is a schematic structural diagram of a B2B-based agricultural product management system according to an embodiment of the present invention.

Detailed Description

The preferred embodiments of the present invention will be described in conjunction with the accompanying drawings, and it will be understood that they are described herein for the purpose of illustration and explanation and not limitation.

The invention provides a B2B-based agricultural product management system, as shown in FIG. 1, comprising:

the user side is used for sending a service request to the management side based on the management platform, and the service request comprises: the method comprises the steps that a shopping list of a user at a user side and transaction payment information corresponding to the shopping list are obtained;

the cloud server is used for acquiring a service request sent by the user side based on the management platform and pushing the service request to the distribution side;

the distribution end is used for displaying the service request pushed by the cloud server to a user of the distribution end, and meanwhile, the user of the distribution end purchases pre-purchased agricultural products related to a shopping list in the service request of the user end in shops managed by the related management end based on the service request, and meanwhile, delivers the purchased pre-purchased agricultural products to the user end;

the cloud server is also used for storing the service requests of the user sides and the purchase information and the distribution information of the users of the distribution ends, which correspond to the service requests one by one, into a transaction tracing management library;

and the management terminal is used for calling related transaction data from the transaction tracing management library according to the service request sent by the user terminal, and performing transfer operation to a collection account of the corresponding distribution terminal based on a preset settlement rule.

Preferably, the dispensing end comprises:

the payment module is used for conducting payment transaction to the shop corresponding to the shop end when purchasing pre-purchased agricultural products in the shop corresponding to the corresponding shop end according to the shopping list of the user end, uploading payment transaction information to the cloud server, and storing the payment transaction information in the transaction tracing management library;

wherein the payment transaction comprises: and completing any one or more of the quick payment transaction under the line and the quick payment bound with the bank card on the line through the NFC function.

The management end, the user end or the distribution end includes, but is not limited to, an electronic device such as a mobile phone, a notebook, a desktop computer, etc.

The shopping list comprises at least one agricultural product and the purchase-required weight corresponding to the agricultural product, and the purchase-required weight can be selected by the user according to different purchase weights set by the management terminal, so that the user at the user terminal is prevented from randomly operating the purchase-required weight, and the possibility of maliciously ordering is reduced.

The management platform is similar to shopping platforms such as Taobao and Techthys;

the transaction payment information in the service request is obtained after the user at the user side pays the pre-purchased agricultural products at the first price;

the method comprises the steps that a user at a distribution end purchases pre-purchased agricultural products related to a shopping list in a service request of a user end in a shop at a shop end managed by a related management end based on the service request, and the pre-purchased agricultural products which are purchased successfully are distributed to the user end at the same time.

The management terminal cooperates with a certain bank, a business handling network of the bank is arranged in the market, the shop terminal sets an account and handles a settlement card at the bank network, the business settlement is mainly based on card swiping of a POS machine, the distribution terminal carries out mobile payment by using an account number bound with the bank card, when the transaction is completed, the transaction amount is divided into the management terminal account, the management platform automatically calculates the amount of money which the management terminal should take in according to a preset settlement rule, and the management platform pays the shop terminal the difference of the total amount of the income of the business minus the amount of the income which the management terminal should take in.

The store side is managed by the management side, and when the distribution side purchases and pays in the store corresponding to the store side, the payment amount is directly paid to the management side.

And the management terminal is used for calling related transaction data from the transaction tracing management library according to the service request sent by the user terminal, and performing transfer operation to a collection account of the corresponding distribution terminal based on a preset settlement rule. The preset settlement rule may be that after the user terminal performs transaction payment to the management terminal, the management terminal automatically deducts a preset percentage of platform management fees from the transaction payment amount of the user terminal, and transfers all the remaining amounts to the distribution terminal, for example, when the platform management fees are a single result, the proportion of the platform management fees deducted by the management terminal is 5% of the total price of purchased commodities paid by the user of the user terminal, and the remaining amounts deducted from the platform management fees are all distributed to the distribution terminal, for example, when the user of the user terminal purchases 20 jin tomatoes from the management platform by 100 yuan, the distribution terminal receives order distribution information at this time, purchases 20 jin tomatoes from the shop terminal by 70 yuan, and distributes the purchased 20 jin tomatoes to the user of the user terminal, in the process, the distribution terminal first performs pad payment on 70 yuan spent by the purchased 20 jin tomatoes, secondly, distributing the purchased tomatoes of 20 jin to a user at a user end; and when the order information shows that the user at the user side receives the goods, the management side confirms account receivable to the user side, and after settlement is completed according to a preset settlement rule, the management side deducts 5-yuan platform management fee and pays the residual 95-yuan account to the delivery side. The agricultural product distribution device has the advantage that the reliability of agricultural product distribution at the distribution end can be improved through the padding.

The preset settlement rule can also be a settlement rule between the management end and the user end, the preset settlement rule can be a settlement according to month/season/year, and the management end performs transfer operation on a collection account of the corresponding delivery end after receiving money from the user end according to the preset settlement rule.

The transaction tracing management library is a basic parameter provided for the convenience of the management end to transfer the money to the collection account of the distribution end.

The user side can also directly purchase corresponding pre-purchased agricultural products from the shop side according to the self demand, and the management platform records the purchasing process. The system has the advantages that the system is convenient to monitor the quantity of the agricultural products in the shop and realizes effective management.

In one embodiment, the user terminal can also transmit the corresponding shopping list to the dispensing terminal by telephone, handwriting, photo, etc. to arrange for purchase by the user of the dispensing terminal.

The user side can also carry out service request without a management end platform, and other modes are adopted, for example, a shopping list is transmitted to the distribution end through WeChat, the user of the distribution end actually purchases the shop at the shop end and completes distribution, the user of the distribution end uploads the information related to the purchased agricultural products to the cloud server according to the shopping list, and then the distribution information and the settlement information are automatically generated by the system.

The beneficial effects of the above technical scheme are: the agricultural products are purchased and distributed by the distribution end, and the purpose of conveniently managing the distribution end is achieved.

The embodiment of the invention provides an agricultural product management system based on B2B, and a user side comprises:

the system comprises a registration login module, a cloud server and a consumer database, wherein the registration login module is used for establishing a personal information data linked list of a user at a user side before the user at the user side sends a service request to a management side, uploading the personal information data linked list to the cloud server and establishing the consumer database;

meanwhile, the user of the user side registers and logs in the management platform based on the registration and login module;

the query module is used for a user registered to a user side logging in the management platform to query the distribution state of the user at the distribution end on the purchased agricultural products successfully, and the distribution state comprises the following steps: a received order state, a delivery state, and a received state;

when a user of the distribution end processes a distribution state, the management platform sends the corresponding distribution state to the cloud server, and the cloud server pushes corresponding distribution state information to the user end.

The personal information data linked list comprises but is not limited to names, identification cards, telephones, addresses and the like, and has the advantages that: by inputting the relevant information of the user, the information of the user can be more transparent.

The beneficial effect of above-mentioned scheme is: the login module is set for providing the user with the use authority on the management platform, and the query module is set for facilitating the query of the user at the user side.

The embodiment of the invention provides an agricultural product management system based on B2B, which further comprises:

the issuing module is used for issuing a verification certificate to the user side based on the established personal information data linked list before the user of the user side registers to the management platform based on the registration module;

the verification module is used for sending a verification instruction to the user side according to the verification certificate issued by the issuing module, confirming whether verification information corresponding to the verification instruction is consistent with the verification certificate or not, and controlling the authorization module to work if the verification information is consistent with the verification certificate;

otherwise, sending a first alarm instruction to an alarm module;

and the authorization module is used for authorizing the user to register the authority of logging in the management platform when the verification information corresponding to the verification instruction is consistent with the verification certificate.

The alarm module can be one or a combination of a voice alarm and a light alarm based on a user side; and the corresponding first alarm instruction may be a verification failure instruction.

The beneficial effects of the above technical scheme are: the user can be conveniently managed by authorizing the authority of registering the user to log in the management platform.

The embodiment of the invention provides an agricultural product management system based on B2B, which further comprises:

the recording module is used for recording the access times of the user at the user side accessing the management platform within the preset time and the transaction times of the user at the user side on the management platform within the preset time;

and the cloud server is also used for determining the preset welfare delivery time of the management platform according to the corresponding access times and transaction times recorded by the recording module and based on a pre-trained welfare delivery model.

The preset time can be a preset interval time period of the management platform, such as 8:00-10:00 at night;

the access times and transaction times can be total access times and total transaction times of the management platform in 8:00-10:00 nights.

The pre-trained welfare delivery model can be acquired after convolutional deep learning based on the neural network, and the method has the advantage of improving the accuracy of acquiring the preset welfare delivery time.

The beneficial effects of the above technical scheme are: by determining the preset welfare delivery time, the consumption of the user is stimulated, and the income of the management platform is further improved.

The embodiment of the invention provides an agricultural product management system based on B2B,

the shop corresponding to the shop end comprises:

the identification module is used for identifying the shopping list of the user side acquired by the distribution end and transmitting the identification result to the cloud server;

wherein, shopping list includes: the method comprises the following steps that a user at a user side needs to purchase a pre-purchased agricultural product name and a pre-purchased weight corresponding to the pre-purchased agricultural product name;

the device comprises a shooting module, a weighing module and a control module, wherein the shooting module is used for shooting agricultural products to be weighed to obtain a first agricultural product image;

the cloud server is further used for identifying the first agricultural product image obtained by the shooting module, judging whether a shopping list identification result obtained by the identification module is matched with the first agricultural product image identification result or not, and if not, sending a second alarm instruction to the alarm module;

if the agricultural products are matched, the weighing module is controlled to weigh the agricultural products to be weighed;

meanwhile, judging whether the weighing weight obtained by the weighing module is consistent with the pre-purchased weight of the agricultural product to be weighed or not, and if not, sending a third alarm instruction to the alarm module;

the alarm module is used for executing corresponding second alarm operation according to a second alarm instruction sent by the cloud server;

and the alarm module is used for executing corresponding third alarm operation according to the third alarm instruction sent by the cloud server.

For the above embodiment, for example: the shopping list is as follows:

pre-purchased agricultural products	Tomato fruit	Broccoli (Broccoli)	Potato
				Weight (D)	3kg	5kg	2kg

The agricultural product to be weighed is shot to obtain a first agricultural product image, for example, when the first agricultural product image is identified as an eggplant and the identification result is not matched with the identification result of the shopping list, a second alarm instruction is sent to an alarm module arranged on a delivery end, wherein the second alarm instruction can be, for example, an instruction for mismatching the agricultural product with the shopping list; for example, when the first agricultural product image is identified as tomatoes and the identification result is matched with the identification result of the shopping list, the weighing module is controlled to weigh the tomatoes, and meanwhile, if the weighed weight obtained by the weighing module is inconsistent with the pre-purchased weight of the tomatoes, a third alarm instruction is sent to an alarm module arranged on the distribution terminal, wherein the third alarm instruction can be, for example, a tomato weight inconsistency instruction.

It should be noted that, when the weighing weight obtained by the weighing module is inconsistent with the pre-purchase weight of the agricultural product to be weighed, the actual purchase weight confirmed by the user at the dispensing end should be used as the standard.

The beneficial effects of the above technical scheme are: through treating the agricultural product of weighing and discerning and weighing, can effectually acquire the agricultural product of purchasing in advance, remind the user of distribution end through alarm module simultaneously, be convenient for effectively supervise discernment and weighing process.

The embodiment of the invention provides an agricultural product management system based on B2B,

in the process of purchasing the pre-purchased agricultural products on the shopping list of the user terminal,

and the cloud server is also used for pushing the information of the residual pre-purchased agricultural products to the distribution end based on the identification result of the identified shopping list and reminding the user of the distribution end in the process that the user of the distribution end purchases in the shop of the shop end according to the shopping list of the user end.

For example, based on the above table, after the user at the delivery end only purchases tomatoes, the shopping list information of corresponding broccoli and potatoes is pushed to the delivery end for display, so that the user at the delivery end is prompted to purchase, and omission is avoided.

The beneficial effects of the above technical scheme are: the shopping list is convenient for the user at the distribution end to effectively process, and the integrity of the purchased agricultural products is improved.

The embodiment of the invention provides an agricultural product management system based on B2B,

the cloud server is further used for sending a confirmation instruction to the distribution end for a user of the distribution end to confirm when the weighing weight obtained by the weighing module is consistent with the pre-purchased weight of the agricultural product to be weighed;

and after the user at the dispensing end confirms the sent confirmation instruction, pushing the type and the corresponding weight of the pre-purchased agricultural products purchased by the user at the dispensing end according to the shopping list at the user end to the user at the user end.

The confirmation instruction may be, for example, the delivery end, and based on the confirmation interface of the management platform, displays "please confirm that the agricultural product has been purchased", and "confirms", and when the user of the delivery end clicks "confirm", pushes the user of the delivery end to purchase the agricultural product.

The beneficial effects of the above technical scheme are: through the confirmation instruction, the user at the dispensing end can be effectively confirmed to purchase the agricultural product, and meanwhile, the user at the user end can conveniently carry out real-time supervision.

The embodiment of the invention provides an agricultural product management system based on B2B,

the distribution end can intelligently control a distribution route, so that the distribution cost is lowest during distribution, and the specific control steps are as follows;

step S1, first obtaining a set M of places to be distributed, where M is {1, 2, 3, … … n }, where 1 denotes a departure place, n denotes a total of n distribution places, and M virtual computation distributors are constructed and form a set L, where L is {1, 2, 3, … … M }, where M denotes an mth virtual computation distributor, and M < n;

step S2, calculating a delivery elicitor between any two delivery points by using the formula (1)

Wherein eta is_i,jA delivery heuristic between delivery site i and delivery site J, J being a preset delivery insulation coefficient, V_i,jP is the heat conductivity coefficient of the delivery vehicle, S is the surface area of the compartment of the delivery vehicle, Δ T is the difference between the inside and outside temperatures of the compartment of the delivery vehicle, d_i,jThe distance between distribution points i and j is defined, Pe is the price of gasoline, B is the combustion value of gasoline, M is the fuel consumption of the vehicle per unit distance, i and j belong to a set M, and i is not equal to j;

distribution information amount t between arbitrary distribution point i and distribution point j at the same time_i,jIs 1;

wherein J has the unit of (Kcal/(m)²H ℃)) in units of M, the value of M represents the oil consumption per meter, the value of J is related to the thickness of the vehicle compartment and the deterioration degree of the box body, and the smaller the J, the worse the heat preservation performance of the vehicle body is.

The distribution heuristic calculated by using the formula (1) is that when the reciprocal of the distribution cost is lower, the distribution heuristic is larger, the distribution cost is higher, the distribution heuristic is smaller, and when the distribution heuristic is calculated, not only the oil consumption cost is considered according to the route, but also the agricultural products need to be distributed at low temperature in the distribution process because the distribution is the distribution of the agricultural products and the freshness of the agricultural products is considered, and the distribution temperature cost is also controlled in consideration of the distribution price.

Step S3, randomly placing m virtual calculation distributors at n distribution points, each of which is at a different distribution point, performing first route planning of the virtual calculation distributors, and calculating the probability that the kth virtual calculation distributor selects from the current distribution point i to the next distribution point j by using formula (2):

wherein,

calculating for the kth virtual delivery site the probability, t, of the deliverer selecting from the current delivery site i to the next delivery site j_i,jIndicating the amount of information, η, between delivery location i and delivery location j_i,jA delivery heuristic is represented that is,

indicating that delivery site i can be reached directly and that the kth virtual computing deliverer has not reached the area and that the initial starting delivery site does not count delivery sites that have already been reached, t_i,uIndicating the amount of information, η, between delivery location i and delivery location u_i,uExpressing a distribution heuristic factor, wherein a is a preset information coefficient, the preset value is any number between 1 and 2, b is a preset heuristic coefficient, and the preset value is 2 to 5; j is all the places except the current place i in the set M, and i belongs to the set M and represents the current distribution position of the virtual calculation distributor;

step S4, setting the distribution point with the largest value among the probabilities of all the virtual calculation distributors selecting from the current distribution point i to the next distribution point j as the next distribution point of the virtual calculation distributor;

step S5, using formula (3) to t_i,jUpdating the value;

wherein w is a preset time loss coefficient and takes a value of 0-0.5, and z is_kTo adjust the amount of information, z_kThe value during the first route planning is the sum of the information quantity generated by the Kth virtual calculation distributor during the first distribution; lm_kFor the k-th virtual calculation of the total route, Pl, distributed by the distributor in the current route planning_i,jFor the virtual calculation distribution selected from the distribution point i to the distribution point j as the distribution route in step S4A set of carriers;

Lm_kfor example, the 3 rd virtual computing dispatcher has dispatched on a trip of (1,7,6), and he at dispatch time t_1,7Is 4, t_7,6A value of 9 then the sum of the amount of information that the third dispenser has currently generated is 4+9 to 13,

step S6, after all the distributors recalculate the formula (1), repeating step 4 and step 5, and performing distribution n times, the current route planning is completed, and then the sum of the information amounts generated by each virtual calculation distributor during the current route planning is calculated as the value of the adjustment information amount of the distributor during the next planning, and in the next planning process, the adjustment information amount z is calculated_kThe value of (a) is not changed;

step S7, starting a new primary route plan for the virtual computing distributor, setting the initial distribution position of the virtual computing distributor as the last distribution position when the new route plan is finished, keeping the values of all parameters unchanged, repeating the step S6, drawing the distribution route maps of all the virtual computing distributors at the same time, judging whether the distribution route maps of all the distributors are consistent, outputting the route map if the distribution route maps are consistent, operating the step S8, and repeating the step S7 if the distribution route maps are inconsistent;

the paths are consistent, only the graphs formed by the paths need to be consistent, and the paths do not need to be arranged consistently, for example, if the path graphs drawn by the running paths (1-5-4-3-2-1) and (3-2-1-5-4-3) are consistent, the paths are consistent.

In step S7, the outputted route map is used as the final distribution route, and the distribution point is designated by 1 as the starting point in the distribution.

Has the advantages that: (1) by utilizing the technology, the optimal problem can be selected on the basis of considering the distribution cost, and the shortest route is not independently selected;

(2) the distribution cost not only considers the oil consumption cost according to the distance, but also aims at the distribution of agricultural products and the temperature control cost generated for ensuring the freshness of the agricultural products;

(3) there are originally n | for the distribution lines of n different distribution sites! The optimal distribution route can be determined by a small amount of calculation according to the amount of information retained by the technology.

(4) After multiple times of line optimization, all distributors used for simulation experiments unify the lines and then determine the final line, so that the result is not obtained accidentally, but is obtained after the joint optimization of a large number of virtual calculation distributors.

It will be apparent to those skilled in the art that various changes and modifications may be made in the present invention without departing from the spirit and scope of the invention. Thus, if such modifications and variations of the present invention fall within the scope of the claims of the present invention and their equivalents, the present invention is also intended to include such modifications and variations.

Claims (8)

1. A B2B-based agricultural product management system, comprising:

the user side is used for sending a service request to the management side based on the management platform, and the service request comprises: the shopping list of the user at the user side and the transaction payment information corresponding to the shopping list;

the cloud server is used for acquiring the service request sent by the user side based on a management platform and pushing the service request to the distribution side;

the distribution end is used for displaying the service request pushed by the cloud server to a user of the distribution end, and meanwhile, the user of the distribution end purchases pre-purchased agricultural products related to a shopping list in the service request of the user end from shops managed by the management end based on the service request, and delivers the purchased agricultural products to the user end;

the cloud server is further used for storing the service request of the user side and the purchase information and the distribution information of the user of the distribution end, which correspond to the service request one by one, in a transaction tracing management library;

the management terminal is used for calling related transaction data from the transaction tracing management library according to the service request sent by the user terminal, and performing transfer operation to a corresponding collection account of the distribution terminal based on a preset settlement rule;

the distribution end can intelligently control a distribution route, so that the distribution cost is lowest during distribution, and the specific control steps are as follows;

step S1, first obtaining a set M of places to be distributed, where M is {1, 2, 3, … … n }, where 1 denotes a departure place, n denotes a total of n distribution places, and M virtual computation distributors are constructed and form a set L, where L is {1, 2, 3, … … M }, where M denotes an mth virtual computation distributor, and M < n;

step S2, calculating a delivery elicitor between any two delivery points by using the formula (1)

Wherein eta is_i,jA delivery heuristic between delivery site i and delivery site J, J being a preset delivery insulation coefficient, V_i,jP is the heat conductivity coefficient of the delivery vehicle, S is the surface area of the compartment of the delivery vehicle, Δ T is the difference between the inside and outside temperatures of the compartment of the delivery vehicle, d_i,jThe distance between distribution points i and j is defined, Pe is the price of gasoline, B is the combustion value of gasoline, M is the fuel consumption of the unit distance of the vehicle, i and j belong to a set M, and i is not equal to j;

distribution information amount t between arbitrary distribution point i and distribution point j at the same time_i,jIs 1;

step S3, randomly placing m virtual calculation distributors at n distribution points, each of which is at a different distribution point, performing first route planning of the virtual calculation distributors, and calculating the probability that the kth virtual calculation distributor selects from the current distribution point i to the next distribution point j by using formula (2):

wherein,

calculating for the kth virtual delivery site the probability, t, of the deliverer selecting from the current delivery site i to the next delivery site j_i,jIndicating the amount of information, η, between delivery location i and delivery location j_i,jA delivery heuristic is represented that is,

indicating that delivery site i can be reached directly and that the kth virtual computing deliverer has not reached the area and that the initial starting delivery site does not count delivery sites that have already been reached, t_i,uIndicating the amount of information, η, between delivery location i and delivery location u_i,uExpressing a distribution heuristic factor, wherein a is a preset information coefficient, the preset value is any number between 1 and 2, b is a preset heuristic coefficient, and the preset value is 2 to 5; j is all the places except the current place i in the set M, i belongs to the set M and represents the current distribution position of the virtual calculation distributor;

step S4, setting the distribution point with the largest value among the probabilities of all the virtual calculation distributors selecting from the current distribution point i to the next distribution point j as the next distribution point of the virtual calculation distributor;

step S5, using formula (3) to t_i,jUpdating the value of (c);

wherein w is a preset time loss coefficient and takes a value of 0-0.5, and z is_kTo adjust the amount of information, z_kThe value during the first route planning is the sum of the information quantity generated by the Kth virtual calculation distributor during the first distribution; lm_kTotal distributed by the k-th virtual calculation distributor in the current line planningDistance, Pl_i,jA set of virtual calculation distributors for selecting the distribution routes from the distribution site i to the distribution site j in step S4;

step S6, after all the distributors recalculate the formula (1), repeating step 4 and step 5, and performing distribution n times, the current route planning is completed, and then the sum of the information amounts generated by each virtual calculation distributor during the current route planning is calculated as the value of the adjustment information amount of the distributor during the next planning, and in the next planning process, the adjustment information amount z is calculated_kThe value of (a) is not changed;

step S7, starting a new primary route plan for the virtual computing distributor, setting the initial distribution position of the virtual computing distributor as the last distribution position when the new route plan is finished, keeping the values of all parameters unchanged, repeating the step S6, drawing the distribution route diagrams of all the virtual computing distributors at the same time, judging whether the distribution route diagrams of all the distributors are consistent, outputting the distribution route diagrams if the distribution route diagrams are consistent, operating the step S8, and repeating the step S7 if the distribution route diagrams are inconsistent;

in step S8, the output distribution route map is used as the final distribution route, and the distribution point denoted by reference numeral 1 is used as the starting point in the distribution.

2. The management system according to claim 1, wherein said user side comprises:

the registration login module is used for establishing a personal information data linked list of the user at the user side before the user at the user side sends a service request to the management side, uploading the personal information data linked list to the cloud server and establishing a consumer database;

meanwhile, the user of the user side registers and logs in the management platform based on the registration and login module;

the query module is used for querying the delivery state of the user of the distribution end on the pre-purchased agricultural products which are purchased successfully by the user of the user end registered and logged in the management platform, wherein the delivery state comprises: a received order state, a delivery state, and a received state;

when the user of the distribution end processes a distribution state, the management platform sends the corresponding distribution state to the cloud server, and the cloud server pushes corresponding distribution state information to the user end.

3. The management system of claim 2, further comprising:

the issuing module is used for issuing a verification certificate to the user side based on the established personal information data linked list before the user of the user side registers and logs in the management platform based on the registration and logging module;

the verification module is used for sending a verification instruction to the user side according to the verification certificate issued by the issuing module, confirming whether verification information corresponding to the verification instruction is consistent with the verification certificate or not, and controlling the authorization module to work if the verification information is consistent with the verification certificate;

otherwise, sending a first alarm instruction to an alarm module;

and the authorization module is used for authorizing the user of the user side to register the authority for logging in the management platform when the verification information corresponding to the verification instruction is consistent with the verification certificate.

4. The management system of claim 1, further comprising:

the recording module is used for recording the access times of the user at the user side accessing the management platform within the preset time and the transaction times of the user at the user side on the management platform within the preset time;

the cloud server is further used for determining the preset welfare delivery time of the management platform according to the corresponding access times and transaction times recorded by the recording module and based on a pre-trained welfare delivery model.

5. The management system according to claim 1, wherein the shop-side corresponding shop includes:

the identification module is used for identifying the shopping list of the user side acquired by the distribution end and transmitting an identification result to the cloud server;

wherein the shopping list comprises: the pre-purchased agricultural product name and the pre-purchased weight corresponding to the pre-purchased agricultural product name are purchased by a user at the user side;

the device comprises a shooting module, a weighing module and a control module, wherein the shooting module is used for shooting agricultural products to be weighed to obtain a first agricultural product image;

the cloud server is further used for identifying the first agricultural product image obtained by the shooting module, judging whether a shopping list identification result obtained by the identification module is matched with the first agricultural product image identification result, and if not, sending a second alarm instruction to the alarm module;

if the agricultural products are matched, the weighing module is controlled to weigh the agricultural products to be weighed;

meanwhile, judging whether the weighing weight obtained by the weighing module is consistent with the pre-purchased weight of the agricultural product to be weighed or not, and if not, sending a third alarm instruction to an alarm module;

the alarm module is used for executing corresponding second alarm operation according to a second alarm instruction sent by the cloud server;

and the alarm module is used for executing corresponding third alarm operation according to the third alarm instruction sent by the cloud server.

6. The management system according to claim 5, wherein in the process of purchasing pre-purchased agricultural products on the shopping list of the user terminal,

the cloud server is further configured to, when the user of the distribution end purchases in the shop of the shop end according to the shopping list of the user end, push information of remaining pre-purchased agricultural products to the distribution end based on the recognition result of the recognized shopping list, and remind the user of the distribution end.

7. The management system of claim 5,

the cloud server is further used for sending a confirmation instruction to the distribution end for a user of the distribution end to confirm when the weighing weight obtained by the weighing module is consistent with the pre-purchased weight of the agricultural product to be weighed;

and after the user at the dispensing end confirms the sent confirmation instruction, pushing the type and the corresponding weight of the pre-purchased agricultural products purchased by the user at the dispensing end according to the shopping list at the user end to the user at the user end.

8. The management system of claim 1, wherein the distribution end comprises:

the payment module is used for conducting payment transaction to the shop corresponding to the shop end when a pre-purchased agricultural product is purchased in the shop corresponding to the corresponding shop end according to the shopping list of the user end, uploading the payment transaction information to the cloud server, and storing the payment transaction information in the transaction tracing management library;

wherein the payment transaction comprises: and completing any one of the quick payment transaction under the line and the quick payment bound with the bank card on the line through the NFC function.

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