KR101682276B1 - Method of automatic delivery service based on cloud, server performing the same and system performing the same - Google Patents

Abstract

The courier management server connected to the terminal of the courier article according to an embodiment of the present invention includes a database for storing information on courier articles and delivery information for each courier article, a plurality of courier articles associated with the courier article in the database, A route search unit for determining a delivery order of each of the plurality of delivery products based on the delivery information of each of the plurality of delivery products, and a route delivery unit for providing a delivery destination of the delivery product in accordance with the delivery order to the terminal of the courier article . Therefore, according to the present invention, the delivery order is determined based on the delivery information of each of the plurality of delivery items associated with the delivery person, and the delivery address of the delivery item is provided to the delivery person according to the delivery order, It is possible to deliver more courier goods per day by minimizing the complicated movement route due to the change of address, and to reduce the mileage cost, thereby reducing the fuel cost.

Description

TECHNICAL FIELD [0001] The present invention relates to a cloud-based courier delivery automation method, a server that executes the same, and a system that executes the same. [0002]

Embodiments of the present invention relate to a cloud-based courier delivery automation method, a server that executes the same, and a system that executes the same.

Generally, most courier service can not go to purchase goods directly. If you purchase through internet shopping mall or home shopping, you can deliver the goods to the customer's desired place. Such courier service will proceed according to the address information of the customer.

Courier articles are distributed to each courier article belonging to the courier company, and the courier article checks the delivery quantity and the delivery address per day, arrives at the delivery address, and delivers the courier product and completes the delivery.

To accomplish this, the courier manages the approximate location of the destination based on the geographical information of his / her experience, and confirms the navigation or written map and address of the building to arrive at the address of the customer and deliver the courier product And will complete the delivery.

In this case, even if the courier responsible for the delivery knows roughly the geographical information of the delivery area, there is a problem that it is difficult to grasp the route of the shortest distance in the entire travel route by repeatedly checking the navigation and the map, Depending on the selection, problems may arise such as moving to a remote destination with the nearest destination and then moving to the destination close to the first destination again. As a result, the movement distance and the movement time are increased, and the delivery is delayed.

In addition, in the case of a courier who is out of his / her own delivery area or does not understand the geographical information of the delivery area, there is a problem that the user is unable to consider the travel distance or travel route at the time of delivery, The customer may not be able to fill the quantity to be filled, and the customers who receive the product may inconvenience that the product is not received when the product is needed but the product is not received.

Also, courier drivers who are shipping based on the geographical information of existing addresses are also having difficulty in delivering because it is difficult to identify the street name address that is changed from 2014.

Korean Patent Laid-Open Publication No. 10-2013-0111801 relates to a route setting method for a plurality of stopping destinations. By setting an optimal route based on the route travel time between the stopping destinations and the route travel time from the departure place to the stopping place, It has been disclosed that, if a plurality of waypoints, regardless of the priority, should be passed from the departure point to the destination, such as the delivery of goods, the respective waypoints can be passed through the optimal route all at a minimum time without continuously inputting a destination or setting them There is.

However, in the case of the cited invention, the case where the route from the source to the destination does not need to be prioritized is required. Since the route calculation device is composed of one unit, and the input, calculation, setting and display are all performed in one unit However, it takes a lot of time to operate on the terminal, and since a high-end terminal is required to process a complicated operation, there arises a problem that the price of the terminal increases.

Korean Patent Publication No. 10-2013-0111801

The present invention determines a delivery order based on the delivery information of each of a plurality of delivery items associated with a delivery person and provides a delivery address of the delivery item to the delivery person in accordance with the delivery order, A cloud-based courier delivery automation method, a server for executing such a cloud-based courier delivery automation method, and a system for executing the same are provided so that a more complex courier route can be minimized, thereby reducing the mileage by reducing the travel distance .

In addition, the present invention determines the shipping order by determining the transportation distance as well as the moving distance between the delivery information of each of the plurality of delivery items associated with the delivery person, and provides the delivery destination of the delivery item to the courier in accordance with the order of delivery, It is an object of the present invention to provide a cloud-based courier delivery automation method capable of setting a delivery route, a server for executing the method, and a system for executing the same.

In addition, the present invention provides a cloud-based courier delivery automation method that allows a courier management server to save a time for grasping a travel route of a courier article because the courier management server sequentially transmits courier articles to the courier in accordance with the order of delivery, And a system for executing the same.

In addition, since the present invention delivers courier goods to the courier management server in real time, it can quickly deliver courier products to customers, thereby solving the customer inconvenience caused by the delay in delivery. A server for executing the cloud-based courier delivery automation method, and a system for executing the same.

The problems to be solved by the present invention are not limited to the above-mentioned problem (s), and another problem (s) not mentioned can be clearly understood by those skilled in the art from the following description.

In a preferred embodiment, a courier management server connected to a terminal of a courier article includes a database for storing information of the courier article and delivery information for each courier article, a plurality of courier articles associated with the courier article in the database, A route search unit for determining a delivery order of each of the plurality of delivery products based on the delivery information of each item, and a route delivery unit for providing a delivery destination of the delivery product to the terminal of the delivery article according to the delivery order.

The method of automating courier delivery, which is executed by a courier management server connected to a terminal of a courier, comprises the steps of: extracting a plurality of courier articles associated with the courier article from a pre-built database; Determining a delivery order of each of the plurality of delivery products based on the delivery order, and providing a delivery destination of the delivery product to the terminal of the courier article according to the delivery order.

Among the embodiments, the courier delivery automation system extracts a plurality of courier articles associated with courier articles from a pre-built database, and determines a coupon delivery order of each of the plurality of coupon articles based on the coupon information of each of the plurality of coupon articles A courier management server for providing a delivery destination of the delivery product in accordance with a delivery order, and a route guidance server for guiding the route to the destination when receiving the delivery destination of the delivery product from the delivery management server, And a terminal of a courier delivering the courier management server to receive the delivery destination of the next delivery item from the courier management server.

The details of other embodiments are included in the detailed description and the accompanying drawings.

BRIEF DESCRIPTION OF THE DRAWINGS The advantages and / or features of the present invention, and how to accomplish them, will become apparent with reference to the embodiments described in detail below with reference to the accompanying drawings. It should be understood, however, that the invention is not limited to the disclosed embodiments, but is capable of many different forms and should not be construed as limited to the embodiments set forth herein. Rather, these embodiments are provided so that this disclosure will be thorough and complete, To fully disclose the scope of the invention to those skilled in the art, and the invention is only defined by the scope of the claims. Like reference numerals refer to like elements throughout the specification.

According to the present invention, the delivery order is determined based on the delivery information of each of the plurality of delivery items associated with the delivery person, and the delivery address of the delivery item is provided to the delivery person according to the delivery order, It is possible to deliver more courier goods per day by minimizing the complicated movement route due to the change of address, and to reduce the mileage cost, thereby reducing the fuel cost.

In addition, according to the present invention, a transportation order is determined by not only a moving distance between the delivery information of each of a plurality of delivery items associated with a delivery person, but also a transportation order, So that an optimum delivery route can be set.

In addition, according to the present invention, since the courier management server sequentially transmits couriers to the courier in accordance with the courier delivery order, it is possible to save time for grasping the courier's travel route.

Further, according to the present invention, since the courier delivers the courier item to the destination coupon received in real time from the courier management server, it is possible to quickly deliver the coupon item to the customer, thereby solving the customer inconvenience caused by the delay in delivery, The efficiency and convenience of the system can be increased.

1 is a network diagram illustrating a cloud-based courier delivery automation system according to an embodiment of the present invention.
2 is a block diagram illustrating an internal structure of a delivery control server according to an embodiment of the present invention.
3 is a block diagram illustrating an internal structure of a terminal of a courier service according to an embodiment of the present invention.
FIG. 4 is a flowchart illustrating an embodiment of a cloud-based courier delivery automation method according to the present invention.
FIG. 5 is a flowchart illustrating a cloud-based courier delivery automation method according to another embodiment of the present invention.
FIG. 6 is an exemplary view illustrating a screen executed by a terminal of a courier article according to a cloud-based courier delivery automation method according to the present invention.

Hereinafter, embodiments of the present invention will be described in detail with reference to the accompanying drawings.

As used herein, the term "delivery" means a product that a courier must deliver to a customer.

As used herein, the term "suspended product" refers to a product that has not been delivered to the customer due to a lack of customer or a delay in delivery time.

1 is a network diagram illustrating a cloud-based courier delivery automation system according to an embodiment of the present invention.

Referring to FIG. 1, a cloud-based courier delivery automation system includes a courier management server 100 and a courier's terminal 200.

The courier management server 100 determines the delivery order according to the delivery information of the delivery commodity associated with the courier article, and provides it to the terminal 200 of the courier article.

The courier management server 100 can determine the delivery order of the delivery commodities by comparing the delivery information of the plurality of delivery commodities associated with the courier.

In one embodiment, the courier management server 100 may determine the delivery order to the next delivery item based on the closest distance based on the destination of the specific delivery item among the plurality of delivery articles associated with the courier article. At this time, the delivery service management server 100 can search the delivery route again according to the real-time traffic situation. The real-time traffic situation information may be provided from a traffic control server (not shown) or read from a pre-stored database (not shown).

The courier management server 100 can determine the delivery order by determining whether there is a pending product among the plurality of delivery goods associated with the courier article.

In one embodiment, the courier management server 100 may determine the shipping order for the pending merchandise and the shipping order for the remaining merchandise if there is a pending merchandise out of the plurality of delivery merchandise associated with the courier article. In this embodiment, the delivery management server 100 determines the delivery order for the remaining items based on the delivery destination for which the delivery of the held goods is terminated, or determines the delivery order for the remaining goods based on the position of the delivery person You can determine the shipping order for the item.

In another embodiment, if the courier management server 100 does not have a pending product among the plurality of courier articles associated with the courier article, the delivery order of the remaining courier items based on the courier article's delivery destination You can decide.

The courier management server 100 provides the delivery information of the delivery product to the terminal of the courier article according to the delivery order of the delivery product associated with the courier article.

In one embodiment, the delivery management server 100 determines the delivery order of the delivery items to be delivered by the delivery person during a specific period, and upon receiving the delivery completion message of the delivery items from the terminal 200 of the delivery person, Accordingly, if the delivery destination of the next delivery product is provided to the terminal 200 of the courier article, the terminal 200 of the courier article can guide the route to the delivery destination of the delivery article. At this time, the courier management server 100 may provide the delivery destination of the next delivery product to the terminal 200 of the courier article, and at the same time, provide the delivery guidance text message to the customer terminal preset by the customer. For example, the courier management server 100 may provide a delivery guidance text message that a courier is delivered to the customer's terminal 30 minutes later. In this embodiment, the courier management server 100 must transmit and receive data in real time with the terminal 200 of the courier.

In another embodiment, the delivery management server 100 collectively provides the delivery order of the delivery items to be delivered by the delivery person to the terminal 200 of the delivery person during a specific period (for example, during one day) The terminal 200 of the courier article can display a method of going to the destination of the next delivery item when the delivery of one delivery item is completed according to the order of delivery. In this embodiment, when the delivery order is changed due to a real-time traffic situation, the delivery management server 100 may provide a message to the terminal 200 of the courier article to notify the change of the delivery destination.

When the courier management server 100 receives the delivery completion message from the courier article terminal 200, it can change the delivery status of the corresponding delivery commodity among the plurality of delivery commodities to the finished commodity.

The courier management server 100 can change the delivery status of a corresponding delivery commodity to a hold commodity from a plurality of delivery commodities when receiving the delivery disable message of the specific delivery commodity from the courier article terminal 200.

When the courier management server 100 receives the job completion message from the courier article terminal 200, it can change the delivery status of the courier item that has not been delivered among the plurality of courier items to the coupon item.

The terminal 200 of the courier article is a terminal held by the courier delivering the courier article to the customer. For example, the terminal 200 of a courier is a terminal having a central processing unit and a memory unit, such as a PC, a tablet PC, a smart phone and the like.

The terminal 200 of the courier article accesses or maintains communication with the courier management server 100 in the process of delivering the coupon to the customer. In one embodiment, the terminal 200 of the courier article may load at least a portion of the courier-use application for connecting to the courier management server 100. For example, at least some of the operations for completing the delivery of the first shipment item and reporting the delivery completion to the courier management server 100 by pressing the delivery completion button are performed in the terminal 200 of the courier article for quick processing . In the case of this embodiment, the terminal 200 of the courier article can provide the calculation result of the banking engine provided to itself to the courier management server 100.

Here, when the home delivery service application receives the delivery destination for a specific delivery product from the delivery control server 100, the application automatically executes the location guidance device (e.g., navigation) to guide the route to the delivery destination, When the delivery of the delivery commodity is completed and the customer's signature is input or the delivery completion button, the non-delivery button, the job completion button, and the like are pressed, it is provided to the delivery control server 100 through the terminal 200 of the delivery service article.

FIG. 2 is a block diagram illustrating a courier management server according to an embodiment of the present invention. Referring to FIG.

2, the parcel delivery management server 100 includes a database 110, a route search unit 120, a route delivery unit 130, and a delivery status management unit 140.

In the database 110, information of the delivery commodity, delivery information, and delivery status are stored for each courier. The information of the delivery item may include the type of the delivery item, the address of the sales person, the address of the sales person, and the delivery information may include the name, address, and telephone number of the customer. Commodities, and the like.

The route searching unit 120 reads the delivery information of the plurality of delivery goods associated with the courier article in the database 110 and determines the delivery order based on the delivery information of each of the plurality of delivery products. At this time, the route search unit 120 can determine the delivery order for the remaining products after determining the delivery order for the pending product, if there is a pending product among the plurality of delivery articles associated with the courier article.

First, the route searching unit 120 divides each of a plurality of delivery products into a plurality of delivery products based on each delivery information.

In one embodiment, the path search unit 120 arranges a plurality of n-dimensional local clusters on an n-dimensional coordinate system, arranges a delivery destination of the delivery commodity on the n-dimensional coordinate system as destination coordinates, Clustering of the destination coordinates of each of the clusters of the n-dimensional region based on the distance between the coordinates can divide each of the plurality of delivery products by region. At this time, the regional clusters may be composed of the unit, the unit, the beginning, etc., and the regional clusters may be arranged in the center coordinates of the corresponding region on the n-dimensional coordinate.

For example, in the case where the two-dimensional coordinate system is arranged on the n-dimensional coordinate system, the path search unit 120 calculates the distance between the first destination coordinate system and the upper- The distance between the first destination coordinate and the second closest cluster is calculated and the first destination can be determined by clustering the first destination coordinates into clusters corresponding to the closest distance. That is, if the distance between the first delivery site coordinate and the upper-bound first cluster is shorter than the distance between the first delivery site coordinate and the upper-second bundle cluster, the first delivery site can be determined as the upper-bound one.

Then, the route search unit 120 determines the delivery order of each of the delivery commodities based on the respective delivery information of the plurality of delivery commodities divided into regions.

In one embodiment, the route search unit 120 displays the destination of each delivery commodity on the coordinate system and calculates the distance between the coordinates of a specific destination (for example, the destination where the courier article first visits) and the coordinates of the other destination And the distance-based delivery order can be determined in the order of the closest distance. For example, the distances of the second destination and the third destination are calculated on the basis of the first destination, the order of the third destination is determined to be second nearest to the first destination, The ranking can be determined to be three.

Then, the route search unit 120 can determine the traffic situation reference delivery rank based on the real-time traffic condition of the route that travels to another destination based on the specific destination.

Finally, the route searching unit 120 can determine the delivery order according to the distance reference delivery rank and the traffic situation reference delivery rank of each of the plurality of delivery products. For example, if the distance-based delivery rank is 1 and the traffic situation-based delivery rank is 1, the delivery order of the delivery item can be determined to be 1.

For another example, if the distance-based delivery order is 2, the traffic situation-based delivery order is 1, the distance-based delivery order is 1, and the traffic situation-based delivery order is 2, You can decide by number. At this time, when the order of the shipment is the same, the order of shipment can be determined based on any one of the distance standard delivery order and the traffic standard delivery order.

The delivery status management unit 140 manages the delivery statuses of each of the plurality of delivery products assigned to the courier.

When the delivery status management unit 140 receives the delivery completion message of the specific delivery commodity from the terminal 200 of the courier, the delivery status management unit 140 may change the delivery status of the corresponding delivery commodity among the plurality of delivery commodities to the finished product and store the same in the database 110 .

When the delivery status management unit 140 receives the delivery disabled message of the specific delivery product from the terminal 200 of the courier, the delivery status management unit 140 may change the delivery status of the corresponding delivery product among the plurality of delivery products to the stored product and store the changed delivery product in the database 110 .

When the delivery status management unit 140 receives the job completion message from the terminal 200 of the courier, the delivery status management unit 140 may change the delivery status of the delivery commodity that has not been delivered among the plurality of delivery commodities to the reserved commodity and store them in the database 110.

The route forwarding unit 130 provides the delivery destination of the delivery product to the terminal 200 of the courier article according to the delivery order of the delivery product associated with the courier article.

In one embodiment, when the route delivery unit 130 receives the delivery completion message of the specific delivery item from the terminal 200 of the delivery person, the route delivery unit 130 provides the delivery destination of the next delivery item to the terminal 200 of the delivery person .

In one embodiment, when the route delivery unit 130 receives the delivery completion message of the last delivery item from among the held items, the route delivery unit 130 transmits the delivery item of the first delivery item among the remaining items (for example, It is possible to provide the courier service terminal 200 with the courier service.

3 is a block diagram illustrating an internal structure of a terminal of a courier service according to an embodiment of the present invention.

3, the terminal 200 of the courier article includes a communication unit 210, a display unit 220, a task management unit 230, a navigation unit 240, a memory 250, and a control unit 260 .

The communication unit 210 transmits and receives data between the courier management server (FIGS. 1 and 100) and the courier article terminal (FIGS. 1 and 200).

The display unit 220 displays and outputs information processed by the terminal 200 of the courier. For example, the display unit 220 may simultaneously display a task related window (including a delivery completion button, a non-deliverable button, a sign area of the customer, etc.) of a courier and a guidance window to guide the courier, When a window is clicked or dragged, the corresponding window can be displayed on the entire screen. In this process, when the entire screen is clicked or dragged, two windows can be displayed at the same time.

The display unit 220 may include at least one of a liquid crystal display, a thin film transistor liquid crystal display, an organic light emitting diode, a flexible display, and a 3D display One can be included.

Some of these displays may be transparent or light transmissive so that they can be seen through. This can be referred to as a transparent display. A typical example of the transparent display is a transparent LCD or the like. The rear structure of the display unit 220 may also be a light transmissive structure. With this structure, the user can view objects located behind the terminal body through the area occupied by the display unit 220 of the terminal body.

The display unit 220 may be connected to a display unit 220 and a touch sensor 230. The display unit 220 may include a touch sensor, It can also be used as an input device. The touch sensor may have the form of, for example, a touch film, a touch sheet, a touch pad, or the like.

The touch sensor may be configured to convert a change in a pressure applied to a specific portion of the display unit 220 or a capacitance generated in a specific portion of the display unit 220 to an electrical input signal. The touch sensor can be configured to detect not only the position and area to be touched but also the pressure at the time of touch.

If there is a touch input to the touch sensor, the corresponding signal is sent to the touch controller. The touch controller processes the signal and then transmits the corresponding data to the controller 260. Thus, the control unit 260 can know which area of the display unit 220 is touched or the like.

When the delivery completion button is pressed in the business related window of the courier article displayed through the display unit 220 or the sign of the customer is inputted, the business management unit 230 transmits a delivery completion message to the courier management server 100 through the communication unit 210 And provides a delivery disable message to the delivery server 100 through the communication unit 210 when the unavailable button is pressed. If the delivery button is pressed, a delivery completion message is provided to the delivery server 100.

The navigation unit 240 is automatically executed when the delivery destination of the delivery product is received through the communication unit 210, and guides the route through the display unit 220 to the delivery destination of the delivery product.

The memory 250 may store a program for the operation of the controller 260 and temporarily store input / output data (e.g., a phone book, a message, a still image, a moving picture, etc.). The memory 250 may store data related to vibrations and sounds of various patterns output upon touch input on the touch screen.

In addition, the memory 250 may store a courier-use application.

The memory 250 may be a flash memory type, a hard disk type, a multimedia card micro type, a card type memory (e.g., SD or XD memory), a RAM At least one of a random access memory (RAM), a static random access memory (SRAM), a read-only memory (ROM), an electrically erasable programmable read-only memory (EEPROM), a programmable read- Type storage medium.

The control unit 260 typically controls the overall operation of the terminal 200 of the courier.

FIG. 4 is a flowchart illustrating an embodiment of a cloud-based courier delivery automation method according to the present invention.

Referring to FIG. 4, the courier management server 100 extracts a plurality of courier articles associated with the courier article from the pre-built database (step S410). The delivery control server 100 determines the delivery order of each of the plurality of delivery products based on the delivery information of each of the plurality of delivery products (step S411). The courier management server 100 provides the delivery address to the terminal of the courier article in accordance with the delivery order (step S412), and not shown in FIG. 4, but provides the delivery guidance text message to the customer terminal preset by the customer.

Upon receiving the delivery destination of the delivery product from the delivery control server 100, the terminal 200 of the delivery service article guides the route to the delivery destination (step S420). After delivering the delivery item to the customer, the courier article terminal 200 transmits a delivery completion message to the delivery control server 100 (step S430) when a sign is input from the customer or a delivery completion button is input by the courier article.

When the courier management server 100 receives the delivery completion message from the terminal 200 of the courier, the courier management server 100 provides the delivery coupon of the next courier article to the terminal 200 of the courier article according to the delivery order (step S440).

FIG. 5 is a flowchart illustrating a cloud-based courier delivery automation method according to another embodiment of the present invention.

Referring to FIG. 5, the delivery service management server 100 provides the delivery destination to the terminal of the courier service according to the delivery order (step S510). Upon receiving the delivery destination of the delivery product from the delivery management server 100, the terminal 200 of the delivery service article guides the route to the delivery destination (step S520). The terminal 200 of the delivery engineer can not deliver the delivery product to the customer due to the absence of the customer and can transmit the delivery disabled message to the delivery control server 100 when the delivery disabled button is inputted by the delivery engine article (step S530).

The delivery management server 100 changes the delivery status of the delivery commodity to a reserved commodity and stores it in the database (step S540).

The courier management server 100 extracts a plurality of delivery items associated with the courier article from the database at the start of the business (step S550). The courier management server 100 determines a delivery order for the held goods (step S560).

When the courier management server 100 receives the delivery completion message for the delivery commodity to be delivered last among the held commodities from the terminal 200 of the courier (step S570), the delivery control server 100 transmits the delivery completion message Or the delivery order for the remaining products is determined based on the position of the courier article after the delivery of the held product is completed (step S580). The delivery management server 100 provides the delivery destination of the delivery product to the terminal 200 of the courier article according to the delivery order (step S590).

FIG. 6 is an exemplary view illustrating a screen executed by a terminal of a courier article according to a cloud-based courier delivery automation method according to the present invention.

6, an execution screen executed by the terminal 200 of the courier is divided into two parts. An execution screen of the position guiding device (e.g., navigation) is displayed on the first screen 610, On the second screen 620, a task management screen is displayed. In the embodiment of FIG. 6, the first screen and the second screen are simultaneously displayed in the horizontal direction, and the first screen and the second screen may be simultaneously displayed in the vertical direction. Also, the order of the first screen and the second screen can be changed.

The terminal 200 of the courier article can display the corresponding screen on the entire screen when any one screen is clicked or dragged by the courier article. In this process, when the entire screen is clicked or dragged, two screens can be displayed at the same time. For example, when the entire screen is clicked or dragged in the process of displaying the first screen 610 on the entire screen, the terminal 200 of the courier article can simultaneously display two screens.

Upon receiving the delivery destination for a specific delivery product from the delivery management server 100, the terminal 200 of the delivery service article automatically executes the location guidance device and displays a route to the delivery destination on the first screen 610. At the same time, the terminal 200 of the courier article displays information (for example, address, telephone number, etc.) about the delivery commodity on the second screen 620.

The second screen 620 includes a sign input button, a delivery completion button, a non-deliverable button, a job completion button, and the like, which can receive a customer's signature.

While the present invention has been described in connection with what is presently considered to be practical exemplary embodiments, it is to be understood that the invention is not limited to the disclosed embodiments. Therefore, the scope of the present invention should not be limited to the described embodiments, but should be determined by the scope of the appended claims and equivalents thereof.

While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, it is to be understood that the invention is not limited to the disclosed exemplary embodiments, but, on the contrary, Modification is possible. Accordingly, the spirit of the present invention should be understood only in accordance with the following claims, and all equivalents or equivalent variations thereof are included in the scope of the present invention.

100: Home delivery management server
110: Database
120: Path search section
130:
140: Delivery status manager
200: terminal of courier article
210:
220:
230:
240:
250: Memory
260:

Claims (15)

A courier management server connected to a terminal of a courier article,
A database for storing information on delivery products and delivery information for each courier;
Extracting a plurality of delivery products associated with the courier article from the database and determining a delivery order of each of the plurality of delivery products based on the delivery information of each of the plurality of delivery products;
Providing a delivery destination of the delivery product to the terminal of the courier article in accordance with the delivery order and receiving the delivery completion message from the terminal of the courier article, sequentially delivering the delivery destination of the next delivery article to the terminal of the courier article in real- A path delivery unit for providing the path; And
Upon receiving the undeliverable message of the specific delivery item from the terminal of the courier article, the delivery status of the corresponding delivery item is changed to the hold item among the plurality of delivery items,
And a delivery status management unit for receiving the job completion message from the terminal of the courier article and changing the status of the delivery commodity for which delivery has not been completed to the stored commodity and storing the status in the database,
The path search unit
Dividing each of a plurality of delivery products into a plurality of delivery products based on respective delivery information,
Determining the delivery order in descending order of distance based on each of the delivery information calculated on the basis of the distance between the specific delivery destination and the other delivery destination,
Based on the real-time traffic situation of the route that travels to another destination based on the specific destination,
Determining a destination according to the distance-based delivery order and the traffic situation-based delivery order of each of the plurality of delivery items,
If the order of shipment of the plurality of delivery items is the same, the order of delivery is determined based on any one of the distance standard delivery order and the traffic standard delivery order,
If there is a pending product, determines a delivery order for the pending product and, based on the position of the courier article after the delivery of the pending delivery item or the delivery of the pending product, Determine the order,
The path-
And when a delivery completion message of a product to be delivered last among the held products is received, the delivering destination of the first delivery product searched by the route search unit is provided to the terminal of the courier article. delete The method according to claim 1,
The path search unit
dimensional coordinate system, arranging a plurality of clusters in the n-dimensional area on the n-dimensional coordinate system as destinations of the delivery commodity, arranging n-dimensional clusters on the n-dimensional coordinate system, And clustering destination coordinates of each of the clusters by region to divide each of the plurality of delivery products by region
Home delivery management server. delete delete A courier delivery automation method executed by a courier management server connected to a terminal of a courier article,
Extracting a plurality of delivery items associated with the courier article from an established database;
Determining a delivery order of each of the plurality of delivery products based on delivery information of each of the plurality of delivery products; And
Providing a delivery destination of the delivery product to the terminal of the courier article according to the delivery order;
Transmitting a delivery completion message when delivery of the delivery product is completed;
When receiving the delivery completion message, sequentially providing the delivery destination of the next delivery item to the terminal of the delivery article in real time according to the delivery order;
Transmitting a non-deliverable message if the delivery item can not be delivered to the customer; And
And changing the delivery status of the non-deliverable product to a hold product,
The step of determining the delivery order of each of the plurality of delivery products
Dividing each of a plurality of delivery products into a plurality of delivery products based on respective delivery information;
Displaying each of the delivery destinations of the delivery product on a coordinate system and determining a delivery order in descending order of distance based on the calculated delivery information of the distance between the specific delivery destination and the other delivery destination;
Determining a traffic situation reference delivery order based on a real time traffic situation of a route that travels to another destination based on the specific destination;
Determining a destination according to the distance-based delivery order and the traffic situation-based delivery order of each of the plurality of delivery items,
Determining a delivery order based on any one of a distance reference delivery order and a traffic standard delivery order when a plurality of delivery products have the same order of delivery;
Determining a delivery order of the pending product when the pending product exists among the plurality of delivery items and determining a position of the courier article after the delivery of the pending delivery product or the delivery of the pending product is completed Determining a shipping order for the remaining items based on the order;
Providing a delivery destination of the first delivery item searched by the route search unit among the remaining items upon receiving the delivery completion message of the goods delivered last among the held items, to the terminal of the courier article; ≪ RTI ID = 0.0 >
How to automate courier delivery. delete The method according to claim 6,
Dividing each of the plurality of delivery products by region includes:
arranging a plurality of clusters for each of the n-dimensional regions on the n-dimensional coordinate system and arranging the delivery destination of the delivery commodity on the n-dimensional coordinate system as the destination coordinates; And
And dividing each of the plurality of delivery products by region by performing clustering of the destination coordinates to each of the n-dimensional region clusters based on the distance between the plurality of n-dimensional region clusters and the destination sheet coordinates
How to automate courier delivery. delete delete The method comprising the steps of: extracting a plurality of delivery items associated with a courier article from a pre-built database; determining a delivery order of each of the plurality of delivery items based on delivery information of each of the plurality of delivery items; A delivery control server for providing the delivery address of the goods in real time; And
When the delivery destination of the delivery product is received from the delivery management server, the delivery route is guided to the delivery destination and a delivery completion message is provided to the delivery management server when the delivery of the delivery product is completed, And a terminal of the courier who receives the coupon,
The courier management server
Dividing each of a plurality of delivery products into a plurality of delivery products based on respective delivery information,
Determining the delivery order in descending order of distance based on each of the delivery information calculated on the basis of the distance between the specific delivery destination and the other delivery destination,
Based on the real-time traffic situation of the route that travels to another destination based on the specific destination,
Determining a destination according to the distance-based delivery order and the traffic situation-based delivery order of each of the plurality of delivery items,
If the order of shipment of the plurality of delivery items is the same, the order of delivery is determined based on any one of the distance standard delivery order and the traffic standard delivery order,
Upon receiving a delivery completion message from the terminal of the courier article, changing the delivery status of the delivery commodity among the plurality of delivery commodities to the finished commodity and receiving a delivery disable message of the specific delivery commodity from the terminal of the courier article, Changing the delivery status to a hold product and receiving a job completion message from the terminal of the courier article, changing the delivery status of the delivery item that has not been delivered among the plurality of delivery items to the hold item,
Determining a delivery order of the pending product when the pending product exists among the plurality of delivery items and determining a position of the courier article after the delivery of the pending delivery product or the delivery of the pending product is completed Determining a shipping order for the remaining items based on the criteria,
And when a delivery completion message of a product to be delivered last among the held products is received, a delivery destination of the first delivery product searched by the route search unit among the remaining products is provided to the terminal of the courier article
Cloud based courier delivery automation system. delete delete delete delete

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