KR102766228B1 - Online sales relay system capable of smart delivery classification - Google Patents

Abstract

According to one embodiment of the present invention, in an online sales relay system capable of smart delivery classification, when a product order is placed by a customer in an online market, order information is collected from an online market server, and a full order list including identification information of the customer who ordered the product, delivery address information, and quantity information is generated, and information on the deliverable quantity of each delivery company is received from a plurality of delivery companies that deliver the sold product, and the deliverable quantity is sequentially allocated to each delivery company in order of the highest deliverable quantity from the total order quantity, and based on base locations by region that are preset at regular intervals, a target base with the largest number of delivery addresses within a standard radius from each base location is designated as the base location of the delivery company with the largest deliverable quantity, and then delivery addresses are selected in order of distance from the base location in the amount of deliverable quantity and allocated to the corresponding delivery company, thereby increasing delivery efficiency.

Description

{ONLINE SALES RELAY SYSTEM CAPABLE OF SMART DELIVERY CLASSIFICATION}

The present invention relates to an online sales intermediary system, and more specifically, to a system installed in an intermediate distributor that sells products manufactured by a manufacturer in an online market or a closed mall, wherein, when a customer orders a product in an online market, order information is collected from an online market server, and a full order list including identification information of the customer who ordered the product, delivery address information, and quantity information is generated, and information on the deliverable quantity of each delivery company is received from a plurality of delivery companies that deliver the sold product, and the deliverable quantity is sequentially allocated to each delivery company in order of the highest deliverable quantity from the total order quantity, but a target base with the largest number of delivery addresses within a standard radius from each base location is designated as the base location of the delivery company with the largest deliverable quantity based on base locations set in advance at regular intervals, and then delivery addresses are selected in order of distance from the base location in the amount of deliverable quantity and allocated to the corresponding delivery company, thereby improving delivery efficiency.

Recently, as the method of purchasing products has gradually shifted from offline to online shopping malls, online sales platforms such as Coupang, Gmarket, and Naver Smart Store have been increasing. In addition, as online sales platforms have been increasing, it has become increasingly complicated for manufacturers to contract with each online sales platform to sell the products they manufacture.

Accordingly, there has been a growing trend of intermediary sales companies that act as intermediaries between manufacturers and online platforms, receive products from product manufacturers, and sell products on behalf of manufacturers on multiple online platforms.

In cases where manufacturers, who traditionally produce goods, and sales companies such as intermediate distributors that mediate the sale of goods are separated, manufacturers have the advantage of being able to focus solely on improving the quality and productivity of their goods. Therefore, it is expected that intermediate distributors that reduce the burden of sales on manufacturers will continue to emerge in the future, and collaboration between manufacturers and sales companies is expected to become more diverse and closer.

Meanwhile, the above-mentioned intermediaries are carrying out sales intermediation using their own sales methods, such as selling a large number of products at relatively low prices through events for a certain period of time as a sales strategy to increase sales volume, and it is expected that sales methods will become more innovative in order to secure a competitive edge over other companies.

However, as each intermediate distributor develops innovative sales methods as mentioned above, sales of products are expected to become more efficient. However, the delivery of products sold in this way is still being done by entrusting a specific quantity to a specific company, which has caused problems such as delayed delivery depending on the circumstances of the delivery company, resulting in lower customer satisfaction.

Republic of Korea Patent Registration No. 10-2153327

Accordingly, the purpose of the present invention is to provide an online sales relay system capable of smart delivery classification, which is a system installed in an intermediate distributor that sells products manufactured by a manufacturer in an online market or a closed mall, and when a product order is placed by a customer in an online market, order information is collected from an online market server, and a full order list including identification information of the customer who ordered the product, delivery address information, and quantity information is generated, and information on the deliverable quantity of each delivery company is received from a plurality of delivery companies that deliver the sold products, and the deliverable quantity is sequentially allocated to each delivery company in order of the highest deliverable quantity from the total order quantity, but based on the base locations by region that are preset at regular intervals, the target base with the largest number of delivery addresses within a standard radius from each base location is designated as the base location of the delivery company with the largest deliverable quantity, and then delivery addresses are selected in order of distance from the base location in the amount of deliverable quantity and allocated to the corresponding delivery company, thereby increasing delivery efficiency.

The purposes of the present invention are not limited to the purposes mentioned above, and other purposes and advantages of the present invention which are not mentioned can be understood by the following description, and will be more clearly understood by the embodiments of the present invention. In addition, it will be easily understood that the purposes and advantages of the present invention can be realized by the means and combinations thereof indicated in the claims.

An online sales relay system capable of smart delivery classification according to the present invention comprises: an order collection unit that collects order information on target products ordered by customers during a specific target period in an online market server; an order list management unit that generates an entire order list including customer identification information, delivery address information, and quantity information of customers who ordered the target products for all orders placed during the target period when the target period expires; a base management unit that sets a plurality of bases spaced apart by a certain target distance by region, stores location information of each base, sets a target area with the target distance as a radius based on each base, and sets the base ranking of each base in order of the largest number of delivery address addresses in the target area when the target period expires; a delivery company quantity confirmation unit that transmits target delivery period information set for the target product to a plurality of delivery company servers installed in a plurality of delivery companies that deliver the target product after the target period expires, and collects the number of deliverable quantities that can be delivered from each delivery company server; and sets a delivery allocation ranking for each delivery company in order of the largest number of deliverable quantities, and ranks target products among the plurality of delivery companies in order of the highest delivery allocation ranking. The method may include: a delivery company selection unit for selecting at least one delivery company to which delivery of a product is requested; a delivery allocation unit for allocating target products, of which the first deliverable quantity reported by the first delivery company among the total delivery quantity, to the first delivery company located at the top in the delivery priority, among the first base quantity of target products that include a delivery address within the target area of the first base having the highest base priority, to the first delivery company; a delivery list management unit for classifying the delivery address allocated to each delivery company in the entire order list, creating a plurality of delivery lists, and transmitting the list to each delivery company; and a control unit for entering delivery company identification information in the entire order list by referencing the entire order list and delivery list generated by the order list management unit and the delivery list management unit, and transmitting the entire order list together with the delivery list assigned to each delivery company to a manufacturer server that manufactures the target products.

In addition, if the number of the first base quantity is greater than the first deliverable quantity, the delivery allocation unit may select the first deliverable quantity among the delivery address addresses included in the target area corresponding to the first base quantity in the order of the distance from the first base and allocate it to the first delivery company.

In addition, if the first base quantity is smaller than the first deliverable quantity, the delivery allocation unit may select the remaining quantity obtained by subtracting the first base quantity from the first deliverable quantity among the delivery address locations located in the target area of the closest adjacent base location to the first base in order of distance from the first base, and allocate it to the first delivery company.

In addition, the delivery allocation unit may allocate target products of the second deliverable quantity reported by the second delivery company among the total delivery quantity to the second delivery company located second in the delivery priority, and may allocate the second deliverable quantity among the second base quantity of target products that include a delivery address within the target area of the second base with the second highest base priority to the second delivery company.

In addition, the system further includes a delivery failure management unit that collects delivery completion information of target products assigned to each delivery company from each delivery company server, and calculates the number of failed deliveries by each delivery company within the target delivery period based on the delivery completion information, and the control unit calculates a delivery failure rate for each delivery company based on the number of failed deliveries calculated by the delivery failure management unit, and when receiving a deliverable quantity for target products ordered during the next target period from each delivery company, calculates an adjusted deliverable quantity by deducting an offset quantity corresponding to the delivery failure rate from the deliverable quantity, and can allocate target products equivalent to the adjusted deliverable quantity to each delivery company.

In addition, the control unit may lower the previous delivery allocation priority generated based on the number of deliverable items of the target delivery company by one level for a target delivery company among the selected delivery companies whose delivery failure rate exceeds a standard failure rate, so that the delivery quantity is allocated at a lower priority.

According to one embodiment of the present invention, in an online sales relay system capable of smart delivery classification, when a product order is placed by a customer in an online market, order information is collected from an online market server, and a full order list including identification information of the customer who ordered the product, delivery address information, and quantity information is generated, and information on the deliverable quantity of each delivery company is received from a plurality of delivery companies that deliver the sold product, and the deliverable quantity is sequentially allocated to each delivery company in order of the highest deliverable quantity from the total order quantity, and based on base locations by region that are preset at regular intervals, a target base with the largest number of delivery addresses within a standard radius from each base location is designated as the base location of the delivery company with the largest deliverable quantity, and then delivery addresses are selected in order of distance from the base location in the amount of deliverable quantity and allocated to the corresponding delivery company, thereby increasing delivery efficiency.

In addition to the effects described above, specific effects of the present invention are described below together with specific matters for carrying out the invention.

FIG. 1 illustrates a network configuration of an online sales relay system capable of smart delivery classification according to one embodiment of the present invention.
FIG. 2 is a detailed block diagram of an online sales relay system capable of smart delivery classification according to one embodiment of the present invention.
FIG. 3 is an example diagram of setting a base location in an online sales relay system capable of smart delivery classification according to one embodiment of the present invention.
FIG. 4 is an example diagram of a change in allocation of delivery address between adjacent base locations in an online sales relay system capable of smart delivery classification according to one embodiment of the present invention.

Hereinafter, the operating principle of the present invention will be described in detail with reference to the attached drawings. In the following description of the present invention, if it is judged that a specific description of a known function or configuration may unnecessarily obscure the gist of the present invention, the detailed description thereof will be omitted. In addition, the terms described below are terms defined in consideration of the functions in the present invention, and these may vary depending on the intention or custom of the user or operator. Therefore, the definitions should be made based on the contents throughout this specification.

FIG. 1 illustrates a network configuration of an online sales relay system capable of smart delivery classification according to one embodiment of the present invention.

First, the manufacturer server (130) may be a server installed in a manufacturer that manufactures products that can be sold through an online market, etc. by an intermediate distributor operating the online sales relay system (110) of the present invention.

Such manufacturers may be companies that manufacture various products with high public recognition, such as childcare products, electronic products, accessories, etc., as well as general daily necessities, such as airtight containers, etc. In addition, when such manufacturers receive order details information sold through various online markets, etc. from intermediate distributors with which they have entered into a contract according to one embodiment of the present invention, they may provide the quantity of products included in the order details information to the intermediate distributor or a delivery company contracted with the intermediate distributor, thereby allowing them to sell the manufactured products.

The manufacturer server (130) is a server installed in the manufacturer as described above, and is connected to the online sales relay system (110) of the intermediate distributor according to the embodiment of the present invention through a wired/wireless communication network, and can receive product sales information, such as an order list of products sold by the intermediate distributor through an online market, etc., and provide products corresponding to the order list to the intermediate distributor.

Meanwhile, an intermediate distributor may directly receive a certain quantity of products sold in an online market, etc. from the manufacturer and deliver the products to customers who have purchased them through a delivery company, etc., or may use an online sales relay system (110) to transmit an order list to a delivery company server (140) of a pre-contracted delivery company through a wired or wireless communication network, thereby having the delivery company receive the products directly from the manufacturer and deliver them to customers.

Accordingly, when the manufacturer server (130) receives an order list from the online sales relay system (110) according to a method selected according to one embodiment of the present invention, it provides the quantity of products corresponding to the order list to an intermediate distributor operating the system or a delivery company set to deliver products in the order list.

Accordingly, manufacturers can sell their products more easily through intermediary distributors without having to sell them directly, thereby reducing the manpower and costs required to sell products.

Next, the delivery company server (140) may be a server installed in a delivery company that delivers products sold by an intermediate distribution company operating the online sales relay system (110) of the present invention through an online market, etc., to customers who have purchased the products.

This delivery server (140) is connected to an online sales relay system according to one embodiment of the present invention through a wired or wireless communication network, receives a delivery quantity from the online sales relay system, and receives a delivery list including a delivery address and customer identification information for the allocated delivery quantity.

As above, the delivery list received from the delivery company server (140) can be delivered to the delivery person in charge of the delivery company, and accordingly, the delivery person in charge visits the logistics warehouse of the manufacturer where the product is located or the logistics warehouse of an intermediate distributor, etc., loads the product, and then delivers the product to the delivery address included in the delivery list.

Meanwhile, when the delivery company server (140) receives a request for information on the quantity of deliverable goods from the online sales relay system according to an embodiment of the present invention, it provides the quantity of deliverable goods, which is information on the quantity of goods that can be delivered to the relevant delivery company within the delivery period, to the online sales relay system (110) through the current delivery company's delivery person information and vehicle information, etc., so that the online sales relay system can appropriately allocate delivery based on the circumstances of each delivery company.

The online sales intermediary system (110) may be a system installed in an intermediate distribution company that sells products of a manufacturer on behalf of the manufacturer who manufactures the product according to one embodiment of the present invention.

This online sales intermediary system (110) displays and sells products of manufacturers with whom an intermediary sales contract has been concluded in online markets such as Coupang, Gmarket, and Naver Smart Store, and then collects order information (customer identification information, purchase quantity, delivery address, etc.) of the products sold from the online market server (120).

Next, the online sales relay system (110) creates an order list using the order information collected from the online market server as described above, and then transmits the list to the manufacturer server (130) that will ship the product, and transmits a delivery list created based on the order list to the delivery company server (140) that will deliver the product to the customer, so that the product sold in the online market, etc. is delivered to the customer.

At this time, an intermediate distributor with an online sales relay system (110) installed may, in accordance with a contract with the manufacturer, ship a certain quantity of products from the manufacturer and temporarily store them in a logistics warehouse operated by the intermediate distributor and then provide them to the delivery company. After the sale of the products is completed, a certain quantity of products may be shipped from the manufacturer at once so that the products can be provided to the delivery company without operating a separate logistics warehouse.

In addition, the online sales relay system (110) may, when selling a manufacturer's product, sell a specific target product for a certain target period in an online market, for example, through an event, and when the target period ends, allocate the products sold during the target period to multiple delivery companies so that they are delivered within the target delivery period.

At this time, the online sales relay system (110) allocates the entire delivery volume of the sold target products to multiple delivery companies, requests and collects the number of deliverable products within the target delivery period for each delivery company, and distributes the delivery volume according to the number of deliverable products, thereby enabling all sold products to be delivered within the target delivery period promised to the customer, thereby increasing customer satisfaction and enhancing competitiveness compared to other companies.

That is, the online sales relay system sets the locations of multiple bases (150, 160) spaced apart from each other by a certain target distance in each region of the country, sets a target area (152, 162) with the target distance as a radius based on the location of each base, calculates the number of delivery addresses located in each target area after the target period ends, and sets the priority of each base (150, 160) in order of the number of delivery addresses. For example, referring to FIG. 1, the base with reference number 150 can be set as the first base (150) with the highest priority.

Next, the online sales relay system (110) may set the delivery company that reported the highest number of deliverable items within the target delivery period as the first delivery company, give priority to assigning a delivery address included in the target area of the first base (150), and assign a delivery address included in the target area (162) of the second base with the second largest number of delivery addresses to the second delivery company in the next ranking. At this time, the priority of each base is not fixed, but when a sales event for the next target product starts and the target period, which is the sales period for the target product, ends, the priority of each base may change depending on a change in the delivery address of the customer who ordered the product.

By setting base locations as above and assigning bases to each delivery company based on the number of deliverable items, we can increase the delivery efficiency of the delivery company and increase the success rate of product delivery within the target delivery period.

FIG. 2 is a detailed block diagram of an online sales relay system capable of smart delivery classification according to one embodiment of the present invention.

FIG. 3 is an example diagram of setting a base location in an online sales relay system capable of smart delivery classification according to one embodiment of the present invention.

FIG. 4 is an example diagram of a change in allocation of delivery address between adjacent base locations in an online sales relay system capable of smart delivery classification according to one embodiment of the present invention.

Hereinafter, the operation of an online sales relay system capable of smart delivery classification according to an embodiment of the invention will be described in detail with reference to FIGS. 2 to 4.

First, referring to FIG. 2, an online sales relay system (110) capable of smart delivery classification according to one embodiment of the present invention may include a communication unit (220), an order collection unit (222), an order list management unit (224), a base management unit (226), a delivery company quantity confirmation unit (110), a delivery company selection unit (250), a delivery allocation unit (254), a delivery list management unit (256), a delivery management unit (258), etc.

The communication unit (220) performs data transmission and reception necessary to perform operations according to an embodiment of the present invention with a manufacturer server (130), an online market server (120), a delivery company server (140), etc., which are connected through a wired/wireless communication network under the control of the control unit (290).

The order collection unit (222) collects order information on target products ordered by customers during a specific target period from the online market server.

At this time, a specific target period may refer to a limited period of time during which a large number of customers can purchase a certain quantity of goods agreed to be sold by an intermediate distributor operating an online sales relay system through a contract with a manufacturer, but is not limited thereto. At this time, an online market may refer to an online open market known to a large number of customers, such as Coupang, Gmarket, or Naver Smart Store, and a target product may refer to a specific quantity of goods secured by an intermediate distributor through a contract with a manufacturer among various products such as daily necessities such as Lock & Lock, childcare products, and electronic products.

When the target period expires, the order list management unit (224) creates a full order list including customer identification information, delivery address information, and quantity information of customers who ordered the target product for all orders placed during the target period.

The base management unit (226) sets multiple bases (150, 160) spaced apart by a certain target distance for each region as shown in Fig. 1, and stores the location information of each base. In addition, it sets a target area (152, 162) with the target distance as a radius based on each base, and when the target period, which is the selling period for the target product in the online market, expires, it sets the base ranking of each base in order of the largest number of delivery addresses within the target area.

That is, if the base management unit (226) determines that the delivery address for ordering the target product is most distributed in the target area formed by the base of reference number 150, for example, as shown in FIG. 1, the base management unit (226) can set the base of reference number 150 as the first base (150) with the highest base ranking, and in the same manner, set the base of reference number 160 as the second base (160).

After the target period ends, the delivery company quantity confirmation unit (250) transmits target delivery period information set for the target product to multiple delivery company servers (140) installed in multiple delivery companies that deliver the target product, and collects the number of deliverable quantities that can be delivered for the target product within the target delivery period from each delivery company server.

At this time, the target delivery period information may be a schedule set by an intermediate distributor operating an online sales relay system (110) according to the present invention in consideration of the manufacturer's product production schedule, product shipment availability schedule, and status information of the delivery company, but is not limited thereto.

That is, the delivery company quantity confirmation unit (250) provides the above target delivery period information to multiple delivery company servers (140) with which a contract has been made in advance to confirm how much quantity each delivery company can deliver within the target delivery period, and allocates the quantity that can be delivered to the delivery company, thereby minimizing the possibility of delivery failure within the target delivery period, thereby increasing customer satisfaction.

The delivery company selection unit (252) sets the delivery allocation priority for each delivery company in order of the largest number of deliverable items, and selects at least one delivery company from among multiple delivery companies in order of the highest delivery allocation priority to request delivery of the target product.

That is, if, for example, a delivery company reports the number of deliverable items within a target period as 100, delivery company B reports 80, etc., and other delivery companies report the number of deliverable items as less than 80, the delivery company selection unit (252) can set delivery company A as the first delivery company with the highest delivery allocation priority, as shown in Fig. 1, and set delivery company B as the second delivery company with the second highest delivery allocation priority.

The delivery allocation unit (254) allocates the target product of the first deliverable quantity reported by the first delivery company among the total delivery quantity to the first delivery company located at the top in the delivery ranking, and as shown in FIG. 1, the first deliverable quantity among the first base quantity of the target product including the delivery address within the target area (152) of the first base (150) with the highest base ranking is allocated to the first delivery company.

In addition, if the number of the first base quantity is greater than the first deliverable quantity, the delivery allocation unit (254) may select the first deliverable quantity among the delivery address addresses included in the target area corresponding to the first base quantity in the order of the distance from the first base and allocate it to the first delivery company.

In addition, if the first base quantity is smaller than the first deliverable quantity, the delivery allocation unit (254) selects the remaining quantity by subtracting the first base quantity from the first deliverable quantity among the delivery addresses located in the target area (162) of the closest adjacent base (160) to the first base in the order of distance from the first base (150) and allocates it to the first delivery company.

That is, when the number of first deliverable items is 9 as shown in FIGS. 3 and 4, and the number of first base items included in the target area (152) of the first base (150) is 7, and thus the number of first base items is smaller than the number of first deliverable items, the delivery allocation unit (254) can assign the first delivery address (190) and the second delivery address (192) that are located in the target area (160) of the second base (160), which is an adjacent base, to the first delivery company.

In addition, the delivery allocation unit (254) may allocate the target product of the second deliverable quantity reported by the second delivery company among the total delivery quantity to the second delivery company located second in the delivery priority, but may allocate the second deliverable quantity among the second base quantity of the target product including the delivery address within the target area (162) of the second base (160) with the second highest base priority to the second delivery company.

The delivery list management department (256) classifies the delivery addresses assigned to each delivery company from the entire order list, creates multiple delivery lists, and sends them to each delivery company.

The delivery failure management unit (258) collects delivery completion information of target products assigned to each delivery company from each delivery company server (140), and calculates the number of failed deliveries made by each delivery company within the target delivery period based on the delivery completion information.

The control unit (290) controls the overall operation of the online sales relay system according to a pre-stored operation program.

In addition, the control unit (290) refers to the entire order list and delivery list generated by the order list management unit and the delivery list management unit according to one embodiment of the present invention, enters delivery company identification information on the entire order list, and transmits the entire order list together with the delivery list assigned to each delivery company to the manufacturer server that manufactures the target product.

In addition, the control unit calculates the delivery failure rate for each delivery company based on the number of failed items produced by the delivery failure management unit, and when receiving the number of deliverable items for target products ordered during the next target period from each delivery company, calculates an adjusted deliverable item quantity by deducting an offset item quantity corresponding to the delivery failure rate from the number of deliverable items, and allocates target products equivalent to the adjusted deliverable item quantity to each delivery company.

In addition, the control unit lowers the previous delivery allocation priority generated based on the number of deliverable items of the target delivery company by one level for the target delivery company among the selected delivery companies whose delivery failure rate exceeds the standard failure rate, so that the delivery quantity is allocated at a lower priority.

As described above, in one embodiment of the present invention, in an online sales intermediary system capable of smart delivery classification, which is installed in an intermediate distributor that sells products manufactured by a manufacturer in an online market or a closed mall, when a product order is placed by a customer in the online market, order information is collected from an online market server, and a full order list including identification information of the customer who ordered the product, delivery address information, and quantity information is generated, and information on the deliverable quantity of each delivery company is received from a plurality of delivery companies that deliver the sold product, and the deliverable quantity is sequentially allocated to each delivery company in order of the highest deliverable quantity from the total order quantity, and based on the base locations by region that are preset at regular intervals, a target base with the largest number of delivery addresses within a standard radius from each base location is designated as the base location of the delivery company with the largest deliverable quantity, and then delivery addresses are selected in order of distance from the base location in the order of the deliverable quantity and allocated to the corresponding delivery company, thereby increasing delivery efficiency.

Although the present invention has been described with reference to the drawings as examples, it is obvious that the present invention is not limited to the embodiments and drawings disclosed in this specification, and that various modifications can be made by those skilled in the art within the scope of the technical idea of the present invention. In addition, even if the effects according to the configuration of the present invention were not explicitly described while describing the embodiments of the present invention, it is natural that the effects predictable by the corresponding configuration should also be recognized.

220: Communications Department 222: Order Collection Department
224: Order List Management Department 226: Base Management Department
250: Delivery company quantity confirmation section 252: Delivery company selection section
254: Delivery Assignment Department 256: Delivery List Management Department
258: Delivery failure management department

Claims (6)

As an online sales relay system capable of smart delivery classification,
An order collection unit that collects order information on target products ordered by customers during a specific target period on an online market server,
An order list management unit that creates a full order list including customer identification information, delivery address information, and quantity information of customers who ordered target products for all orders placed during the target period when the above target period expires;
A base management unit that sets multiple bases spaced apart by a certain target distance for each region, stores the location information of each base, sets a target area with the target distance as a radius based on each base, and sets the base ranking of each base in order of the largest number of delivery addresses within the target area when the target period expires.
After the above target period expires, the target delivery period information set for the target product is transmitted to multiple delivery company servers installed in multiple delivery companies that deliver the target product, and a delivery company quantity confirmation unit collects the number of deliverable items that can be delivered within the target delivery period from each delivery company server;
A delivery service selection section that sets the delivery allocation order for each delivery service provider in order of the largest number of deliverable items, and selects at least one delivery service provider from among multiple delivery services providers in order of the highest delivery allocation order to request delivery of the target product;
A delivery allocation unit that allocates the target product of the first deliverable quantity reported by the first delivery company among the total delivery quantity to the first delivery company that is ranked highest in the delivery priority, and allocates the first deliverable quantity among the first base quantity of target products that include a delivery address within the target area of the first base with the highest base ranking to the first delivery company;
A delivery list management unit that classifies the delivery addresses assigned to each delivery company from the entire order list above, creates multiple delivery lists, and sends them to each delivery company;
A control unit that refers to the entire order list and delivery list generated by the above order list management unit and the above delivery list management unit, enters delivery company identification information on the entire order list, and transmits the entire order list together with the delivery list assigned to each delivery company to the manufacturer server that manufactures the target product;
It includes a delivery failure management unit that collects delivery completion information of target products assigned to each delivery company from each delivery company server and calculates the number of failed deliveries made by each delivery company within the target delivery period based on the delivery completion information.
The above delivery allocation department is,
If the above first base quantity is greater than the first deliverable quantity, the first deliverable quantity is selected in the order of the distance from the first base among the delivery address included in the target area corresponding to the first base quantity and assigned to the first delivery company.
The above delivery allocation department is,
If the above first base quantity is less than the first deliverable quantity, the remaining quantity is selected by subtracting the first base quantity from the first deliverable quantity among the delivery address located in the target area of the closest adjacent base location to the first base and allocated to the first delivery company.
The above delivery allocation department is,
The second delivery company, which is ranked second in the delivery priority, is allocated the target product with the second deliverable quantity reported by the second delivery company among the total delivery quantity, but the second deliverable quantity among the second base quantity of the target product that includes the delivery address within the target area of the second base with the second highest base ranking is allocated to the second delivery company.
The above control unit,
Based on the number of failed items produced by the above delivery failure management department, the delivery failure rate for each delivery company is calculated, and when the number of deliverable items for target products ordered during the next target period is received from each delivery company, the number of target products that can be delivered is reduced by the offset number of items corresponding to the delivery failure rate from the number of deliverable items to calculate the adjusted deliverable items, and the target products are allocated for delivery to each delivery company in the amount of the adjusted deliverable items.
The above control unit,
For target carriers among the above-mentioned selected carriers whose delivery failure rate exceeds the standard failure rate,
An online sales relay system capable of smart delivery classification that lowers the previous delivery allocation priority generated based on the deliverable quantity of the above target delivery company by one level, so that the delivery quantity is allocated at a lower priority. delete delete delete delete delete