KR102364975B1 - Delivery system, system for delivery management, apparatus and method for the same - Google Patents

Abstract

A delivery system, a delivery management system, a delivery management device, and a delivery management method, wherein the delivery system collects a plurality of deliverer terminals corresponding to each of a plurality of deliverers and information necessary for delivery, and based on the information required for delivery and a delivery management system for determining an optimal route through which a shipment will be delivered by combining at least one deliverer among a plurality of deliverers.

Description

DELIVERY SYSTEM, SYSTEM FOR DELIVERY MANAGEMENT, APPARATUS AND METHOD FOR THE SAME

It relates to a delivery system, a delivery management system, a delivery management device, and a delivery management method.

Conventionally, it is common for a buyer and a seller to transact with each other in the same area. In recent years, the number of cases in which buyers and sellers perform transactions remotely from each other is increasing for various reasons such as development of information and communication technology, activation of Internet transactions, development of various sales media such as home shopping, and expansion of residence or business areas. Accordingly, various types of delivery services are provided for product movement between a seller and a buyer located in remote locations from each other. However, the current delivery service such as courier takes a lot of time for delivery. For example, a product purchased online consumes an average of at least two days. Therefore, when urgent delivery is required, goods are delivered using other means, but there is a problem in that the customer is required to pay a considerable amount of cost.

On the other hand, a smart city acquires various data from various types of sensors located in a specific area, processes and processes the obtained various data using information and communication technology to manage assets and resources in the area, and Based on this, it means a city that can change and improve the life or environment in the region. A smart city can improve the living standards of citizens by providing various types of smart services to the citizens in the city. On the other hand, a smart city also requires a smart delivery service suitable for the smart city for smooth distribution of logistics inside and outside the smart city. However, with the current delivery service alone, it is very difficult to achieve a delivery service with the level of efficiency and suitability required by smart cities.

Republic of Korea Patent Publication 10-2015-0045724 (2013.10.21.)

The present invention aims to provide a delivery system, a delivery management system, a delivery management device, and a delivery management method that can reduce or minimize delivery costs and/or time required for delivery (hereinafter, delivery time) by enabling efficient delivery Make it the problem you want to solve.

In order to solve the above-described problems, a delivery system, a delivery management system, a delivery management device, and a delivery management method are provided.

The delivery system collects a plurality of deliverer terminals corresponding to each of the plurality of deliverers and information necessary for delivery, and combines at least one deliverer among the plurality of deliverers based on the information required for delivery to deliver the delivered product. It may include a shipping management system that determines the optimal route to be taken.

The delivery management system may transmit a delivery instruction to at least one of the plurality of deliverer terminals according to the optimal route.

The information necessary for the delivery may include at least one of information about a sender, information about a receiver, information about the plurality of deliverers, and environment information related to delivery.

The delivery management system may determine an optimal route based on the predicted traffic conditions using a machine learning process.

The delivery management system may perform payment for the at least one delivery company.

The delivery management system may determine the cost for the at least one delivery person using a block chain-based smart contract.

The delivery management system may distribute delivery routes between deliverers using a cloud sourcing model.

The delivery system is connected to at least one of a sender's terminal for sending the delivery, a receiver's terminal for receiving the delivery, and at least one of the sender's terminal and the recipient's terminal, It may further include at least one of the determined electronic transaction system.

The delivery management system may include one or more delivery management devices.

The delivery management system includes an information collection and processing unit that collects a large amount of information required for delivery, a delivery management unit that manages a plurality of deliverers, and at least one of the plurality of deliverers based on the information collected by the information collection and processing part. A delivery route management unit that determines an optimal delivery route by combining delivery providers may be included.

The delivery management system may further include a cost processing unit that determines a cost to be paid to each of the at least one deliverer included in the delivery route.

The cost processing unit may determine the cost to be paid to the at least one deliverer using a block chain-based smart contract.

The delivery route manager may determine an optimal route based on a traffic situation predicted using a machine learning process.

The deliverer manager may distribute delivery according to an optimal route to at least one delivery person using a crowdsourcing method.

The deliverer management unit, when a signal for completion of the delivery task is received from the terminal of the deliverer, may process payment of a delivery cost to the delivery person.

The delivery management device includes: an information collection and processing unit that collects a large amount of information necessary for delivery, a delivery management unit that manages a plurality of deliverers, and a delivery that determines an optimal delivery route by combining at least one deliverer among the plurality of deliverers It may include a path management unit.

The delivery management method includes the steps of requesting delivery, deriving an optimal delivery route in response to the delivery request, distributing a delivery route to at least one deliverer according to the derived optimal delivery route, and the at least one delivery It may include a step of transmitting a delivery instruction to the user's terminal.

The step of deriving an optimal delivery route in response to the delivery request may include predicting traffic conditions using a machine learning process and determining an optimal route based on the predicted traffic conditions.

The delivery management method may further include performing payment for the at least one delivery service provider.

The delivery management method may further include determining a cost for the at least one deliverer using a block chain-based smart contract.

According to the above-described delivery system, delivery management system, delivery management device, and delivery management method, delivery costs and/or delivery time are reduced or minimized, thereby enabling efficient delivery to be obtained.

According to the above-described delivery system, delivery management system, delivery management device, and delivery management method, the number of participating deliverers and delivery methods can be determined by deriving and managing the optimal delivery route in real time through artificial intelligence based on big data. It is possible to make an appropriate decision, thereby optimizing the delivery cost and/or delivery time.

According to the above-described delivery system, delivery management system, delivery management device and delivery management method, a contract with a delivery company and its fulfillment can be automatically determined and processed with high reliability using a block chain-based smart contract. The effect that can be achieved can be obtained.

According to the above-described delivery system, delivery management system, delivery management device, and delivery management method, a crowdsourcing method is employed to enable shippers to more actively participate in delivery/delivery process, thereby improving the quality of the overall delivery/delivery service can be expected

According to the above-described delivery system, delivery management system, delivery management device, and delivery management method, it is possible to improve convenience and satisfaction of not only distributors (shippers, etc.) but also suppliers and consumers by intelligent delivery/delivery services. effect can be obtained.

1 is a schematic diagram of one embodiment of a delivery system;
2 is a block diagram of an embodiment of a delivery management device.
3 is a first diagram for explaining a process in which a delivery route is determined by a delivery management system.
4 is a second diagram for explaining a process in which a delivery route is determined by the delivery management system.
5 is a first diagram illustrating an embodiment of a delivery route determined by a delivery management system;
6 is a first diagram illustrating an embodiment of a delivery route determined by a delivery management system.
7 is a flowchart of an embodiment of a delivery management method.

In the following specification, the same reference numerals refer to the same components unless otherwise specified. A term to which a 'part' is added, used below, may be implemented in software or hardware, and according to an embodiment, a 'part' may be implemented as one part, or a single 'part' may be implemented with a plurality of parts. It is also possible

Throughout the specification, when it is said that a certain part is connected to another part, it may mean a physical connection or electrically connected according to a certain part and another part. In addition, when it is said that a part includes another part, this does not exclude another part other than the other part unless otherwise stated, and it means that another part may be further included according to the designer's choice do.

Terms such as first and second are used to distinguish one part from another, and unless otherwise specified, they do not mean sequential expressions. Also, the singular expression may include the plural expression unless the context clearly dictates otherwise.

Hereinafter, specific embodiments of a delivery system, a delivery management system, and a delivery management device will be described with reference to FIGS. 1 to 6 .

1 is a schematic diagram of one embodiment of a delivery system;

The delivery system 1 includes devices, facilities, means, methods, laws, organizations, institutions and / or other matching means. Here, the sender 11 includes, for example, a person who sends goods, such as a product seller, and the receiver 21 includes, for example, a person who receives the goods, such as a buyer. In addition, delivery can also be expressed as delivery, transmission, or delivery, and may include various actions performed according to or in addition to it.

The delivery system 1 performs physical actions (eg, delivery of goods between people) and/or logical systems (determination of delivery routes, decisions of deliverers, processing of payment for delivery, etc.) related to delivery. It can be implemented using

The delivery product means a product that can be delivered by the delivery system 1 , and may include, for example, various products such as products, cash, gift certificates, and/or mail. Here, the product may be a product that is sold or gifted, and may be a new product or a used product. Delivery may be delivered in the form of a package by means of a container or packaging, but is not limited thereto.

1, the delivery system 1 may include a delivery management system 100 and a terminal (308 in Figure 2) of a group of deliverers 300: 301, 304, 305, If necessary, it may further include at least one of the storage device 309 , the terminal 10 of the sender 11 , the terminal 20 of the recipient 21 , and the electronic transaction system 200 .

The delivery management system 100 is provided to manage an overall process related to delivery of a delivery. For example, the delivery management system 100 collects various types of information required for delivery, determines an optimal delivery route among several delivery routes, manages a delivery process, initiates delivery, or delivers a shipment of the recipient 21 . It is possible to check whether receipt has been received, and/or to process various operations such as a delivery contract with individual deliverers 300 : 301 , 304 , 305 , and 309 and payment of costs according to delivery completion.

The delivery management system 100 may include a delivery management device 110 . The delivery management device 110 may be implemented using an information processing device capable of arithmetic processing, such as a server computing device. The delivery management system 100 may include one delivery management device 110 , or may include two or more delivery management devices 100 . When two or more delivery management devices 110 are included, the two or more delivery management devices 110 are directly connected to each other or communicate with each other through an intranet or Internet network, so that the delivery management system 100 performs delivery management and It is provided to perform various related operations. Details of the delivery management device 100 will be described later.

The delivery management system 100 may communicate with each other based on the terminal 308 of FIG. 2 and the network 90 of a group of deliverers 300 ( 301 , 304 , 305 , 309 ). Also, if necessary, the delivery management system 100 may communicate with at least one of the terminal 10 of the sender 11 and the terminal 20 of the receiver 21 through the network 90 .

The network 90 may be constructed by a wired communication network, a wireless communication network, or a combination thereof. Here, the wired communication network may be constructed using a cable, and the cable may be implemented using, for example, a pair cable, a coaxial cable, an optical fiber cable, or an Ethernet cable. The wireless communication network may be implemented using at least one of a short-range communication network and a telecommunication network. Here, the short-range communication network is, for example, Wi-Fi, Wi-Fi Direct, Zigbee, Bluetooth, Bluetooth Low Energy, CAN. It may be implemented using communication and/or Near Field Communication (NFC). The telecommunication network may be implemented based on a wired communication network, for example, a mobile communication standard such as 3GPP, 3GPP2, and/or WiMAX series.

The deliverer 300 serves to physically deliver the delivery or temporarily/non-temporarily store the delivery for delivery. Specifically, the deliverer 300 may include a vehicle 301 capable of driving on the road, for example, a truck, a taxi, a passenger car, a train, and/or a two-wheeled vehicle, and may also include an autonomous vehicle. ), a walking delivery person 304 who delivers the delivery on foot, and/or a bicycle delivery person 305 using a bicycle to deliver the delivery. The delivery person 300 may also include a ship or an aircraft (which may include a helicopter). In addition, the deliverer 300 may further include a storage device 309 for temporarily or non-temporarily storing the delivered goods. However, the delivery company 300 is not limited thereto. The deliverer 300 may include all of various types of devices or people that can participate for delivery.

The delivery person 300 may be a device owned by one or more specific logistics companies or an individual belonging thereto, or a device not owned by them or an individual not belonging to them.

The deliverer 300 may carry a terminal 308 for connecting the deliverer 300 and the delivery management system 100 . The terminal 308 of the deliverer 300 receives a delivery instruction from the delivery management system 100, receives various information required for delivery, and provides information to the delivery person 300, and/or information on delivery completion, etc. Various operations such as transmission to the delivery management system 100 may be performed.

The terminal 308 of the deliverer 300 may include an electronic device capable of performing calculation/processing by itself while communicating with the outside. For example, the terminal 308 of the deliverer 300 may include a smart phone, a tablet PC, a smart watch, a cellular phone, a desktop computer, a laptop computer, a head mounted display (HMD) device, a digital television, and a set top. Boxes, home appliances incorporating Internet of Things (IoT) technology (for example, refrigerators or washing machines), personal digital assistants (PDAs), navigation devices, self-communication modules and processors for arithmetic processing (e.g. electronic control) Vehicles with a built-in Electronic Controlling Unit (ECU), portable game consoles, electronic blackboards, electronic billboards, artificial intelligence sound reproduction devices, automated teller machines (ATMs), and many other substantially identically available vehicles It may include at least one of electronic devices (hereinafter referred to as a smart phone or a desktop computer, collectively including these terminal devices).

Specifically, for example, if the deliverer 300 is the vehicle 301 , the terminal 308 of the deliverer 300 may be a navigation device installed in the vehicle 301 , or a communication module and electronic control unit itself. It may be the vehicle 301 itself in which the unit ECU is installed. In addition, if the delivery person 300 is a walking delivery person 304 or a bicycle delivery person 305 , the delivery terminal 380 is one or more than one or two or more possessed by the walking delivery person 304 or the bicycle delivery person 305 . It may be a mobile device (eg, a tablet PC or a smart phone, etc.).

The storage device 309 means a device capable of temporarily or non-temporarily storing a shipment. For example, the storage device 309 may be a smart locker. The sender 100 or the deliverer 300 may put the delivered goods into the storage device 309 so that the deliverer 300 or another deliverer 300 may perform delivery. Also, the deliverer 300 or the receiver 21 may receive the delivery of the storage device 309 . The deliverer 300 that has received the delivery from the storage device 309 performs delivery of the received delivery. When the recipient 21 receives the delivery, the delivery is completed.

According to an exemplary embodiment, the storage device 309 may include a space in which a shipment is placed, a door formed on the front or upper surface of the space, and a locking device provided on the door, and the like.

In addition, the storage device 309 includes a communication module (eg, a communication chip, a communication terminal and/or an antenna, etc.) for communicating with an external device 110 and the like, and the overall operation of the storage device 300 . It may further include a processor for managing/controlling and a sensor capable of determining whether or not a shipment is put therein. In this case, the storage device 309 detects whether or not the delivery is put in, acquires information related to the delivery (eg, password of the locking device, input time, weight of delivery, receipt time, etc.), and communicates it It may be transmitted to the delivery management system 100 through the module. The delivery management system 100 may manage delivery and/or determine whether delivery is being performed properly based on the information transmitted from the storage device 309 . For example, the delivery management system 100 receives the storage start of the delivery and related information from the storage device 309, and sequentially transmits the information to the next deliverer 300 by transmitting the information to the next deliverer ( 300 ) may receive the shipment from the storage device 309 , or check whether the delivery is complete or the like.

The electronic transaction system 200 is connected to the terminal 10 of the sender 11 and the terminal 20 of the receiver 21 to perform a function of interconnecting the sender 11 and the receiver 21 . For example, the electronic transaction system 200 receives information about an article to be delivered (eg, an article to be sold) from the sender terminal 10 , and transmits it to the connected receiver terminal 20 to receive It may also assist (21) in determining what to ship (eg, what to buy). Accordingly, the delivery to be delivered under the management of the delivery management system 100 can be determined.

The electronic transaction system 200 may include, for example, an online sales site, an online marketplace system, a purchasing agency system, a management system of a logistics company, a delivery brokerage system, an Internet cafe, and/or a messenger system between individuals and the like. In addition, it may include various systems provided for the delivery of the shipment.

The electronic transaction system 200 may also perform mutual communication through the delivery management system 100 and the network 90 . In this case, an application programming interface (API) may be employed for connection between the delivery management system 100 and the electronic transaction system 200 . The electronic transaction system 200 transmits information about the shipment itself and information on the delivery itself to the delivery management system 100 so that the delivery management system 100 can manage the delivery of the shipment as a whole. may be Here, the information about the delivered product itself may include the item, appearance, shape, size, weight, easy to damage and/or dangerous material of the delivered product. The information on the delivery itself may include, for example, information on a shipping location, a receiving location, and/or urgency.

The terminal of the sender 11, that is, the sender terminal 10, is connected to at least one of the delivery management system 100 and the electronic transaction system 200 through a communication network, and is inputted by the sender 11 and/or in advance A set instruction, request, or information may be transmitted to these systems 100 and 200 . For example, the sender terminal 10 may transmit a delivery request for a delivered product to the delivery management system 100 , or may transmit information about a product to be sold to the electronic transaction system 200 . When information on a product to be sold is transmitted to the electronic transaction system 200 , the delivery request may be transmitted from the sender terminal 10 to the delivery management system 100 , or delivery management from the electronic transaction system 200 . may be transmitted to the system 100 .

The terminal of the recipient 21 , that is, the recipient terminal 20 , accesses the electronic transaction system 200 and receives a list of items that can be shipped (eg, products for sale), and the like, and the recipient 21 . According to an input of , or a predefined setting, information on an object to be received (eg, a product to be purchased) may be transmitted to the electronic transaction system 200 . Accordingly, the recipient 21 can purchase or receive a gift. In addition, the recipient terminal 20 may directly access the delivery management system 100 according to an embodiment, and may receive information on the current delivery status or expected delivery time from the delivery management system 100 or receive the delivery management system Information on delivery completion may be transmitted to ( 100 ).

The sender terminal 10 and/or the receiver terminal 20 may be implemented using a smart phone or a desktop computer in the same manner as the terminal 308 of the deliverer 300 described above.

Hereinafter, the delivery management device 110 of the delivery management system 100 will be described in detail with reference to FIG. 2 . Hereinafter, in order to avoid the complexity of the description, the delivery management system 100 includes one delivery management device 110 , and one delivery management device 110 includes various operations or functions of the delivery management system 100 . To be described with an example of performing the , this does not mean that the delivery management system 100 includes only one delivery management device 110 . According to an embodiment, the delivery management system 100 may include a plurality of different delivery management devices, and the plurality of different delivery management devices have respective operations, configurations, or functions of the delivery management device 110 to be described later. It may be provided to perform all or part of

2 is a block diagram of an embodiment of a delivery management device.

As shown in FIG. 2 , the delivery management device 110 may include a processor 115 . The processor 115 may control the overall operation of the delivery management device 110 , and may perform various arithmetic processing or control related to delivery. For example, the processor 115 collects various types of information related to delivery, performs a predetermined determination or generates predetermined data based on the collected information, manages overall delivery based on the determination or generated data, or , and/or may receive information or instructions from, and/or transmit information or instructions to, terminals 10 , 20 , 308 or storage device 309 .

The processor 115 may be designed to run an application stored in a storage medium (not shown) to perform a predefined operation, determination, processing and/or control operation. Here, the application stored in the storage medium may be previously created and stored by a designer, or may be acquired or updated through an electronic software distribution network accessible through a wired or wireless communication network.

The processor 115 is, for example, a central processing unit (CPU, Central Processing Unit), a microcontroller unit (MCU), a microcomputer (Micom, Micro Processor), an application processor (AP, Application Processor), electronic It may include a control unit (ECU) and/or other electronic devices capable of processing various calculations and generating control signals. These devices can be implemented using, for example, one or more semiconductor chips and related components.

According to an embodiment, the processor 115 may include a delivery management unit 120 , a control unit 130 , and an interface unit 140 . These 120, 130, and 140 may be physically and/or logically separated.

The delivery management unit 120 collects and processes at least one piece of information necessary for delivery, determines a delivery route, and/or performs various processing related to the delivery person 300 to manage and/or control delivery. It can handle various necessary tasks.

The delivery management unit 120 may include an information collection and processing unit 122 , a delivery route management unit 124 , a cost processing unit 126 , and a deliverer management unit 128 , according to an embodiment.

The information collection and processing unit 122 may collect necessary information and classify/process the collected information into an easy-to-process form.

For example, the information collection and processing unit 122 may collect and process data related to at least one of the sender 11 , the receiver 12 , and the deliverer 300 . For example, the information collection and processing unit 122 may collect information on the location of at least one of the sender 11 , the receiver 12 , and the deliverer 300 . The positions of these 11 , 12 , and 300 may include predefined positions, previously used positions, and/or real-time positions.

Also, the information collection and processing unit 122 may collect environmental information related to delivery and the like. Environmental information related to delivery may include, for example, information about the road itself (such as whether it is one-way or not), information about road traffic conditions (such as congestion or loss information), information related to weather and/or public transport (bus arrival time or subway arrival time information, delay information, etc.), etc. may be included. These information may include historical information or may include real-time information.

The information collected by the information collection and processing unit 122 may be a large amount of data, that is, big data. In this case, the information collection and processing unit 122 may process the collection and processing of information using various techniques or methods prepared for processing big data. Here, the big data may consist of a large amount of information transmitted in real time from each of the various participants 11 , 21 , and 300 and/or acquired in real time through other Internet networks. Big data can be characterized by three V models: scale (volume, large amounts of data), variety (variety of different types of data), and velocity (velocity, the speed of streaming data). Using such big data, prediction of necessary situations such as traffic volume, derivation of an optimal route, and/or learning of various types of artificial intelligence algorithms can be performed more appropriately and best.

The delivery route management unit 124 may optimize a delivery route of a delivery product. When at least one of the sender 11 and the receiver 12 selects a delivery method, the delivery route management unit 124 may derive an optimized delivery route in response thereto. Specifically, the delivery route management unit 124 may determine an optimal delivery route based on the information collected, classified, or processed by the information collection and processing unit 122 . For example, the delivery route management unit 124 may predict a user's request or road traffic situation based on the above-described information, and may search and derive an optimal route based on the predicted bar.

The optimal delivery route may be a route that takes the least time, a route that requires the least cost, or a route that is determined in consideration of both time and cost. In addition, the optimal delivery route may be a route separately defined as optimal in advance by a user (eg, the sender 11 or the receiver 12 ) or a designer. In addition, the optimal delivery route may include only one deliverer 300 , or may include a plurality of deliverers 300 . That is, the delivery route management unit 124 determines the delivery route using only one delivery person 300 (eg, one delivery delivery person 304 on foot) so that one delivery person 300 performs delivery alone. Alternatively, a plurality of deliverers 300 sequentially deliver shipments by combining a plurality of deliverers (300, for example, a delivery truck 301 and a walking deliverer 304, etc.) to determine a delivery route. you can make it do

According to an embodiment, the delivery route management unit 124 may use a machine learning process to derive such an optimal route. Here, the machine learning process is, for example, a multilayer perceptron (MLN), a deep neural network (DNN), a convolutional neural network (CNN), a recurrent neural network (RNN) , it may be to use at least one of a convolutional recurrent neural network (CRNN), a deep belief network (DBN), and a deep Q-networks. In more detail, the delivery route management unit 124 may predict a road traffic situation based on a machine learning process and determine an optimal route based on the prediction result. In this case, the delivery route management unit 124 may determine an expected delivery time for each delivery person 300 based on the prediction result, and determine an optimal delivery route based on this.

In addition, the delivery route management unit 124, based on the derived delivery route, between the terminal 308 or the storage device 309 of the deliverer 300 (eg, a logistics company or an individual who wants to participate in delivery) You can also manage communications.

The cost processing unit 126 may handle cost processing and distribution issues for one or a plurality of deliverers 300 participating in delivery. If a plurality of deliverers 300 participate in the delivery, the cost processing unit 126 may determine a share to be paid to each delivery person 300 in the overall delivery fee. Accordingly, the cost processing unit 126 may handle the problem of distribution of the delivery fee for each delivery person 300 . According to an embodiment, the cost processing unit 126 may use a smart contract (which may be denoted as a smart contract) in order to process the share to be distributed to the plurality of deliverers 300 . Here, the smart contract may be implemented based on block chain technology.

The deliverer management unit 128 may manage the deliverers 300 , select the deliverers 300 to participate in delivery, or perform payment processing for them.

Specifically, for example, the deliverer management unit 128 distributes all or part of the delivery to one or more specific deliverers 300 based on a result of the determination of the delivery route by the delivery route management unit 124 . can do. In this case, the one or more deliverers 300 may be selected some deliverers 300 (eg, 316 , 321 , 334 of FIG. 4 ) among a plurality of registered deliverers 300 .

According to an embodiment, the deliverer management unit 128 may be designed to divide and distribute a delivery task to a plurality of deliverers 300 by employing a crowdsourcing method in order to obtain optimal delivery. Crowdsourcing not only lowers investment in logistics companies, but also provides benefits such as flexibility in supply and versatile use of certain assets, such as vehicles.

In addition, the delivery manager 128 may perform a payment processing according to the completion of the delivery task. Specifically, for example, when the deliverer 300 who has completed delivery inputs delivery completion to the deliverer terminal 308 , the deliverer terminal 308 transmits it to the delivery management device 110 . When a signal for completion of delivery is received from the deliverer terminal 308 and it is determined that the condition according to the contract has been achieved according to the received signal, the cost processing unit 126 sends the delivery cost payment to the deliverer 300 will be processed Payment may be made immediately, after a certain amount of time has elapsed, or after delivery has ended. Payment for delivery costs may be performed through account transfer or the like. The cost may be paid through common physical currency and/or may be paid using digital currency (which may include virtual currency such as cryptocurrency).

The control unit 130 may be provided to manage the information collection and processing unit 122 , the delivery route management unit 124 , the cost processing unit 126 , and/or the deliverer management unit 128 , and to control communication between them. In addition, the control unit 130 connects the delivery management unit 120 and the interface unit 140 to each other, so that the sender terminal 10 , the recipient terminal 20 , the deliverer terminal 308 , the storage device 309 and/or Information received from an external device (not shown, for example, a traffic condition information acquisition system, etc.) capable of providing various information is delivered to the delivery management unit 120 , and/or each delivery person 300 delivers To transmit information (for example, information about the next delivery performer or information on delivery location, etc.) or instructions necessary for the You may. Here, the instructions or information required for delivery may be determined based on the determined optimal route.

The interface unit 140 may provide the processor 115 and an external device (that is, the sender terminal 10, the receiver terminal 20, the deliverer terminal 308, the storage device 309, and/or various information. may mediate the exchange of information between external devices, etc.) For example, the interface unit 140 may transmit information on whether to distribute and information on a delivery route to the distributor terminal 308 based on the result of distribution by the distributor management unit 128 . . The interface unit 140 may be implemented in the form of a web site or the like. In this case, the sender terminal 10 , the receiver terminal 20 , and/or the delivery terminal 308 may access the interface unit 140 using a typical Internet browser or a hybrid app.

An embodiment of a process in which an optimal delivery route is selected by the delivery management system 100 will be described in more detail.

FIG. 3 is a first diagram illustrating a process in which a delivery route is determined by the delivery management system, and FIG. 4 is a second diagram illustrating a process in which a delivery route is determined by the delivery management system. FIG. 5 is a first diagram illustrating an embodiment of a delivery route determined by the delivery management system, and FIG. 6 is a first diagram illustrating an embodiment of a delivery route determined by the delivery management system.

In response to the request of the recipient 21 , the sender 11 may determine to deliver the delivery and transmit it to the delivery management system 100 . The delivery management system 100 may determine the delivery location of the sender 11 and the receipt location of the receiver 21 and derive an optimized route. In this case, the optimal route may be derived using a group of deliverers 300 ( 311 to 336 ) capable of participating in delivery as shown in FIGS. 3 and 4 . A group of deliverers 311 - 336 includes, for example, delivery trucks 311 , 321 , 331 , passenger vehicles 312 , 322 , 332 , driverless vehicles 313 , 323 , 333 , and walking deliverers ( 314 , 324 , 334 , bicycle deliverers 315 , 325 , 335 , and/or storage devices 316 , 326 , 336 , and the like. The optimal route may be determined based on a group of deliverers 311 to 336 that can participate in delivery.

Specifically, the delivery management system 100 is, as shown in FIG. 4 , the location of each of the storage devices 316 , 326 , 336 , and a delivery person who can participate in delivery (eg, a delivery truck 321 , a passenger vehicle). (312, 322), bike delivery (325) and walking delivery (334), etc.), their (312, 321, 322, 325, 334) each, their (312, 321, 322, 325, 334) It is possible to periodically or aperiodically acquire/collect various information for route determination, such as information on the location of the . Such information may be collected in real time.

Sequentially, the delivery management system 100 may determine an optimal route using the acquired/collected information. More specifically, the delivery management system 100 combines at least one storage device 316 , 326 , 336 and/or at least one deliverer 321 , 322 , 325 , 334 based on the collected information, One or more shipping routes may be determined. In this case, one or two or more delivery routes may include one or several delivery steps C1 to C3 as shown in FIG. 5 . Each delivery step ( C1 to C3 ) may be performed by different deliverers ( 311 to 336 ). Sequentially, the delivery management system 100 may determine an optimal delivery route by selecting any one delivery route from among these determined one or more delivery routes according to a predefined bar.

Accordingly, as shown in FIGS. 5 and 6 , a delivery route from the sender 11 to the receiver 12 can be determined. For example, the delivery route may be such that the sender 11 stores the shipment in a storage device 316 relatively adjacent to the sender 11 (first step, C1), and sequentially, the delivery truck 321 stores the shipment in the storage device 316 relatively close to the sender 11 . After receiving the shipment of 316 and delivering the shipment (the second step, C2), after the delivery truck 321 delivers the shipment to the walking delivery person 334 at a predefined point (second step, C2) Step 3, C3), it may be determined that the on foot delivery person 334 delivers the shipment to the final recipient 21 . In addition, the driving route of the delivery truck 321 may also be determined. For example, a detour road R1 with a smooth traffic situation may be determined as the driving route of the delivery truck 321 instead of the shortest distance or the road R2 that is in a congested state.

Once the delivery route is determined, the delivery management system 100 directs delivery to the selected deliverers (ie, the storage unit 316 , the delivery truck 321 , and the walking deliverer 334 ) and the deliverers 316 , 321 , 334 . ) provides information necessary to perform the delivery (eg, the type of delivery, the password of the storage device 316, the location of receiving the delivery or delivery location, etc.) and instructing the delivery to be performed. . In addition, the delivery management system 100 may receive delivery-related information (eg, information on a current location or delivery completion or the like) from the selected deliverers 316 , 321 , and 334 . Delivery information may be delivered to the deliverer 321 or 334 who will sequentially perform delivery through the terminal 308 of the deliverer 321 or 334 . Also, the delivery management system 100 may transmit information about delivery to the sender 11 and/or the recipient 21 so that the sender 11 and/or the recipient 21 can check the real-time delivery status. The delivery management system 100 may pay a price to the deliverers 316 , 321 , and 334 participating in delivery when the individual delivery steps C1 to C3 are completed or the overall delivery is completed. In this case, as described above, a smart contract technology based on block chain technology may be used, and accordingly, each of the deliverers 316 , 321 , 334 receives a share according to the delivery.

Hereinafter, an embodiment of a delivery management method will be described with reference to FIG. 7 .

7 is a flowchart of an embodiment of a delivery management method.

Referring to FIG. 7 , first, it is determined to deliver a delivery according to the intention of at least one of a sender and a receiver (S50), and accordingly, delivery of the delivery may be requested through a network or the like (S52). Specifically, for example, a recipient (eg, a buyer) may decide to purchase a shipment (eg, a product) presented by a sender (eg, a seller) through an electronic transaction system such as an online marketplace. A delivery method of the delivery product may be sequentially determined. The delivery method may be determined according to a recipient's selection or the like. The determination is communicated to the delivery management system through the online marketplace, and/or directly from the sender or recipient to the delivery management system.

The delivery management system derives an optimal delivery route (S54). In detail, the delivery management system may collect information about a shipper, a recipient, and/or a shipper and various information necessary for delivery, and determine a delivery route based on the collected information. Various information necessary for delivery may be obtained before the delivery request is received, and/or may be obtained after the delivery request is received. The information necessary for delivery may include, for example, information on a road or traffic condition on which delivery will be performed, information related to weather and/or public transportation, and the like. The optimal delivery route derivation may be performed based on a machine learning process as described above.

All or part of the optimal delivery route may be distributed to each at least one deliverer. In other words, a delivery route is established according to one or a combination of two or more deliverers. In this case, the distribution processing of the delivery route may be implemented based on crowd sourcing.

When the optimal delivery route is derived, the delivery management system may transmit a delivery instruction to the terminals of each deliverer included in the optimal delivery route so that each delivery person performs delivery (S56). In this case, information about the shipment, the receiving location of the shipment, the arrival destination of the shipment, and/or the information on the physical delivery path, etc. may also be delivered to each deliverer.

One or more deliverers perform delivery according to the instructions so that delivery of the delivery can be performed according to the determined optimal route (S58). When a plurality of deliverers are included on the route, each deliverer sequentially delivers the deliveries, thereby performing delivery of the deliveries.

Finally, the recipient receives the shipment from the final deliverer (S60). Accordingly, the delivery is completed.

According to an embodiment, when the delivery is completed, the cost for delivery may be paid to one or more delivery providers participating in the delivery (S62). In this case, the distribution of delivery costs can also be handled using a blockchain-based smart contract. According to an embodiment, it is also possible that a cost is paid to each distributor whenever delivery by each distributor is completed. The cost may be paid using real money or digital money.

All or part of the delivery management method according to the above-described embodiment may be implemented in the form of a program that can be driven by a computer device. Here, the program may include program instructions, data files, and data structures alone or in combination. The program may be designed and manufactured using machine code or high-level language code. The program may be specially designed to implement the above-described method, or may be implemented using various functions or definitions that are known and available to those skilled in the art of computer software. Also, here, the computer device may be implemented including a processor or memory that enables the function of the program to be realized, and may further include a communication device if necessary.

A program for implementing the above-described delivery management method may be recorded in a computer-readable recording medium. The computer-readable recording medium includes, for example, a magnetic disk storage medium such as a hard disk or a floppy disk, a magnetic tape, an optical recording medium such as a compact disk or DVD, a magneto-optical recording medium such as a floppy disk, and a ROM. , a semiconductor storage device such as a RAM or a flash memory, and the like, may include various types of hardware devices capable of storing a specific program executed in response to a computer call.

Although various embodiments of the delivery system, the delivery management system, the delivery management device, and the delivery management method have been described above, the delivery management system, the delivery management device, and the delivery management method are not limited to the above-described embodiments. Various devices or methods that can be implemented by a person skilled in the art by modifying and modifying based on the above-described embodiment may also be determined as the above-described delivery system, delivery management system, delivery management device and delivery management method. For example, the described techniques are performed in an order different from the described method, and/or the described components of the system, structure, apparatus, circuit, etc., are combined or combined in a different form than the described method, or other components or Even if it is replaced or substituted by an equivalent, it may be an embodiment of the above-described delivery system, delivery management system, delivery management apparatus, and delivery management method.

1: delivery system 10: sender terminal
11: sender 20; Recipient terminal
21: Recipient 100: Delivery management system
110: delivery management device 115: processor
120: delivery management unit 122: information collection and processing unit
124: delivery route management unit 126: contract processing unit
128: delivery management unit 130: delivery control unit
199: interface unit 200: electronic transaction system
300: deliverer 308: deliverer terminal
319: storage device

Claims (17)

a plurality of deliverer terminals corresponding to each of the plurality of deliverers; and
A delivery management system that collects information necessary for delivery and determines an optimal route through which a delivery will be delivered by combining at least one shipper among a plurality of delivery providers based on the information required for delivery; and
The delivery management system is
an information collection and processing unit that collects a large amount of information necessary for delivery;
A delivery management unit that manages a plurality of deliverers; and
and a delivery route management unit configured to determine an optimal delivery route by combining at least one delivery person among the plurality of delivery providers based on the information collected by the information collection and processing part,
The information collection and processing unit
It collects information about the road itself, which is environmental information related to delivery, information on road traffic conditions including road congestion and congestion information, and public transportation-related information including bus arrival time, subway arrival time and delay information, and delivers Machining to optimize the path,
The delivery management department
Distribution according to the optimal route to at least one delivery company using the crowdsourcing method, and the delivery person is a device not owned by a logistics company or an individual not belonging to a logistics company, etc.;
The delivery management system is
Receives at least one shipment-related information selected from the group including item, appearance, shape, size, weight, breakageability, and dangerous goods of the shipment from the electronic transaction system,
The delivery route management unit
An optimized route is derived by a delivery method selected by at least one of a sender and a receiver in consideration of the delivery-related information, and the optimized route is a route that takes the least time or a route that takes the least cost, and the optimized route A delivery system, wherein the route is a route by one deliverer or includes routes by a plurality of deliverers. delete The method of claim 1,
The information required for delivery includes at least one of information about a sender, information about a receiver, information about the plurality of deliverers, and environment information related to delivery. 4. The method of claim 3,
The delivery management system is a delivery system that determines an optimal route based on a predicted traffic situation using a machine learning process. The method of claim 1,
The delivery management system is a delivery system that performs payment for the at least one delivery person. 6. The method of claim 5,
The delivery management system is a delivery system that determines the cost for the at least one delivery person using a block chain-based smart contract. The method of claim 1,
The delivery system is
the sender's terminal for sending the shipment;
a terminal of a recipient receiving the shipment; and
an electronic transaction system connected to at least one of the terminal of the sender and the terminal of the recipient, the electronic transaction system for determining a shipment to be delivered by the distributor; A delivery system further comprising at least one of: The method of claim 1,
The delivery management system includes one or more delivery management devices. delete delete delete delete delete delete delete delete delete

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