JP2024012711A - Order entry device and method - Google Patents

Abstract

PROBLEM TO BE SOLVED: To make it possible to realize commodity delivery in a space with a small degree of freedom by a simpler method.

SOLUTION: A commodity is held. Delivery destination information is received that specifies a delivery point at a delivery destination for the commodity provided, in a one-by-one manner, in an area outside each desk of a delivery block including plural desks, the delivery destination being specified by reading a two-dimensional barcode containing information specifying the delivery destination. Route information corresponding to the delivery destination information is read out from a route storage unit that stores the route information corresponding to each piece of the delivery destination information. An own device is moved to the delivery point according to the route information.

SELECTED DRAWING: Figure 1

COPYRIGHT: (C)2024,JPO&INPIT

Description

The present invention relates to an unmanned delivery device, a delivery device, a delivery system, a method, and a program for delivering products to a delivery destination.

One method of delivering products is to use small unmanned aircraft. The main methods of controlling the flight of this small unmanned aircraft include autonomous flight and remote control.

For example, in the method described in Patent Document 1, a package is transported from a delivery source to a delivery destination using an unmanned flying vehicle that autonomously moves toward a destination.

In addition, in the method described in Patent Document 2, the system management center transmits a signal for controlling the flight direction to the radio control aircraft, thereby eliminating the difference in distance between the current flight point of the radio control aircraft and the destination point. to control the flight direction of the radio-controlled aircraft.

On the other hand, when products are delivered indoors using a small unmanned aircraft, the space in which the small unmanned aircraft can fly is narrower than when delivery is carried out outdoors. Furthermore, when delivering indoors, there is a desire to avoid overhead of other people, which may further reduce the degree of freedom of movement.

Japanese Patent Application Publication No. 2016-088675 Japanese Patent Application Publication No. 2007-305077

However, in the method described in Patent Document 1, the unmanned flying vehicle determines its own route and flies toward the delivery destination. Therefore, when used indoors, more advanced autonomous flight control is required to fly in a space with a small degree of freedom.

Furthermore, in the method described in Patent Document 2, a control signal is periodically transmitted from a system management center to a radio control device. Therefore, in order to fly a radio-controlled aircraft in a space with a small degree of freedom, more sophisticated movement control that takes into account the time lag between signal transmission and reception is required.

An object of the present invention is to provide an unmanned delivery device, a delivery device, a delivery system, a method, and a program that make it possible to realize product delivery in a space with a small degree of freedom in a simpler manner.

In order to solve the above-mentioned problem, the order input device of the present invention specifies one delivery point provided in an area outside each desk of a delivery area including a plurality of desks of a delivery destination. an order input section for transmitting order information including delivery address information and product information of the product to be delivered; and a delivery address information designation section for specifying the delivery address information by reading a two-dimensional barcode containing information specifying the delivery address. It is equipped with a section and a section.

In addition, the order input method of the present invention includes delivery destination information that specifies one delivery point provided in an area outside each desk of a delivery section including a plurality of desks of the delivery destination; Order information including product information of the product to be delivered is transmitted, and the delivery destination information is specified by reading a two-dimensional barcode containing information specifying the delivery destination.

With the unmanned delivery device, delivery device, delivery system, method, and program of the present invention, it becomes possible to realize product delivery in a space with a small degree of freedom in a simpler manner.

1 is a diagram showing a configuration example of an unmanned delivery device according to a first embodiment of the present invention. It is a figure showing an example of operation of an unmanned delivery device of a first embodiment of the present invention. It is a figure showing an example of composition of a delivery system of a second embodiment of the present invention. It is a figure showing an example of arrangement of a delivery system of a second embodiment of the present invention. It is a figure which shows the example of installation of the delivery point of 2nd embodiment of this invention. It is a figure showing an example of composition of an order input device of a second embodiment of the present invention. It is a figure showing an example of composition of a delivery device of a second embodiment of the present invention. It is a figure showing an example of operation of a delivery system of a second embodiment of the present invention. It is a figure showing an example of composition of a delivery system of a third embodiment of the present invention. It is a figure showing an example of composition of a delivery device of a third embodiment of the present invention. It is a figure showing an example of composition of an unmanned delivery device of a third embodiment of the present invention. It is a figure showing an example of operation of a delivery system of a third embodiment of the present invention. It is a figure showing an example of composition of a delivery system of a fourth embodiment of the present invention. It is a figure showing the example of composition of the order reception device of the fourth embodiment of the present invention. It is a figure showing an example of operation of a delivery system of a fourth embodiment of the present invention. It is a figure showing an example of operation of a delivery system of a fourth embodiment of the present invention. It is a figure showing an example of composition of a delivery system of a fifth embodiment of the present invention. It is a figure showing the example of composition of the order reception device of the fifth embodiment of the present invention. It is a figure showing an example of composition of an order input device of a fifth embodiment of the present invention. It is a figure showing an example of composition of a delivery device of a fifth embodiment of the present invention. It is a figure showing the example of composition of the unmanned delivery device of the fifth embodiment of the present invention. It is a figure showing an example of operation of a delivery system of a fifth embodiment of the present invention. It is a figure showing an example of operation of a delivery system of a fifth embodiment of the present invention. It is a figure showing an example of operation of a delivery system of a fifth embodiment of the present invention. It is a figure showing an example of operation of a delivery system of a fifth embodiment of the present invention. 1 is a diagram showing an example of a hardware configuration of each embodiment of the present invention. FIG.

[First embodiment]
A first embodiment of the present invention will be described.

FIG. 1 shows a configuration example of an unmanned delivery device 10 of this embodiment.

The unmanned delivery device 10 of this embodiment includes a delivery destination reception section 11, a movement control section 12, a product holding section 13, and a route storage section 14.

The delivery destination reception unit 11 is a part that receives delivery destination information that specifies the delivery point of the product delivery destination. The movement control unit 12 is a part that reads route information corresponding to delivery destination information from a route storage unit 14 that stores route information corresponding to each piece of delivery destination information, and moves its own device to a delivery point according to the route information. . The product holding section 13 is a part that holds products.

By configuring the unmanned delivery device 10 in this way, the unmanned delivery device 10 reads route information corresponding to the delivery destination information from the route storage unit 14 and moves the device to the delivery point according to the route information. Thereby, the unmanned delivery device 10 moves to the delivery point according to predetermined route information. Therefore, it becomes possible to realize product delivery in a space with a small degree of freedom using a simpler method.

Next, FIG. 2 shows an example of the operation of the unmanned delivery device 10 of this embodiment.

The delivery destination reception unit 11 receives delivery destination information that specifies the delivery point of the delivery destination (step S101). Next, the movement control unit 12 reads route information corresponding to the delivery destination information from the route storage unit 14 (step S102), and moves the own device to the delivery point according to the route information (step S103).

By operating in this way, the unmanned delivery device 10 reads route information corresponding to the delivery destination information from the route storage unit 14 and moves the device to the delivery point according to the route information. Therefore, it becomes possible to realize product delivery in a space with a small degree of freedom using a simpler method.

As explained above, in the first embodiment of the present invention, the unmanned delivery device 10 reads route information corresponding to the delivery destination information from the route storage unit 14, and moves the device to the delivery point according to the route information. . Thereby, the unmanned delivery device 10 moves to the delivery point according to predetermined route information. Therefore, it becomes possible to realize product delivery in a space with a small degree of freedom using a simpler method.

[Second embodiment]
Next, a second embodiment of the present invention will be described. In this embodiment, a specific example will be described in which a product is delivered to an orderer from a beverage vending machine installed on a floor in a building.

First, FIG. 3 shows an example of the configuration of the delivery system of this embodiment. The delivery system of this embodiment includes an unmanned delivery device 10, a delivery device 30, and an order input device 60.

The delivery system of this embodiment can be used in various situations, such as delivery from a beverage vending machine, delivery at a food court attached to a shopping mall, and delivery from a building entrance to a delivery destination within the building. is possible.

The order input device 60 is a device that inputs an order for a product to the delivery system by a user's operation. For example, it is possible to use a mobile terminal such as a smartphone as the order input device 60. In this embodiment, the order input device 60 connects to the Internet 120 through wireless or wired communication, and inputs order information (delivery request) to the delivery device 30 via the Internet 120.

The delivery device 30 is a device that receives a delivery request and delivers the product 121 to the unmanned delivery device 10. In this embodiment, the delivery device 30 is assumed to be a beverage vending machine. Further, in this embodiment, the delivery device 30 is connected to the Internet 120 through wireless or wired communication, and receives order input from the order input device 60 via the Internet 120.

The unmanned delivery device 10 is a device that delivers the product 121 to a delivery destination instructed by the delivery device 30. In this embodiment, it is assumed that the unmanned delivery device 10 is a small unmanned airplane, but it does not have to be an airplane and may be a vehicle that runs unmanned.

Next, FIG. 4 shows an example of the arrangement of the delivery system of this embodiment. In this embodiment, there is a delivery device 30 on a floor within a building, and the unmanned delivery device 10 delivers products 121 from the delivery device 30 to each delivery point on the same floor. The floor is divided into several delivery sections, and each delivery section has one delivery point. Further, in this embodiment, it is assumed that a two-dimensional barcode indicating a URL (Uniform Resource Locator) for accessing the delivery device 30 is pasted on the desk. Further, it is assumed that this URL includes delivery destination information indicating a delivery point.

Note that in order to safely deliver products even on a crowded floor, the delivery point may be covered with a cylinder of sufficient height as shown in FIG. 5 so as not to obstruct the landing of the unmanned delivery device 10.

Next, FIG. 6 shows a configuration example of the order input device 60. The order input device 60 of this embodiment includes an order input section 61 and a delivery destination information designation section 62.

The order input unit 61 is a part that transmits order information including delivery destination information that specifies the delivery point of the product delivery destination and product information of the product. The order input unit 61 of this embodiment transmits order information including the delivery destination information specified by the delivery destination information designation unit 62 to the delivery device 30.

The delivery destination information specifying section 62 is a section for specifying delivery destination information, that is, a section for specifying the delivery point of the product delivery destination.

The delivery destination information designation unit 62 of this embodiment reads the two-dimensional barcode on the desk by the user's operation, and the order input unit 61 accesses the read URL (including the delivery destination information) using any web browser. This allows access to the delivery device 30. Then, when the user performs an order operation on the Web browser, the order input unit 61 transmits order information including delivery destination information and product information.

Note that the method by which the delivery destination information specifying unit 62 specifies the delivery destination information is not limited to the above-mentioned method. For example, instead of the URL, a two-dimensional barcode indicating the delivery destination information itself may be read. Alternatively, a radio wave generator may be installed at each delivery point, and the delivery destination information of the delivery point with the strongest radio wave intensity may be selected. Alternatively, the user may be able to select a desired delivery point. Alternatively, the nearest delivery point may be selected based on the position information of the order input device 60.

Next, FIG. 7 shows a configuration example of the delivery device 30 of this embodiment. The delivery device 30 includes a delivery request receiving section 31, a holding control section 32, and a movement control information transmitting section 33.

The delivery request receiving unit 31 is a part that receives a delivery request including delivery destination information and product information. In the case of this embodiment, the order information transmitted from the order input device 60 corresponds to the delivery request.

The holding control unit 32 is a part that causes the unmanned delivery device 10 to hold the product 121 corresponding to the product information. In this embodiment, ordered beverages are loaded onto the unmanned delivery device 10 and held.

Methods for holding the product in the unmanned delivery device 10 include a method in which the holding control unit 32 has a robot arm and the robot arm loads the product on the unmanned delivery device 10, and a method in which the unmanned delivery device 10 is made to stand by at the product discharge port and held. A method may be considered in which the control unit 32 discharges the product onto the unmanned delivery device 10. Alternatively, a method may be considered in which the holding control unit 32 discharges the product to the discharge port, and the discharged product is manually loaded onto the unmanned delivery device 10.

The movement control information transmitting unit 33 is a part that transmits movement control information to the unmanned delivery device 10. The movement control information is information for controlling the movement of the unmanned delivery device 10, and is delivery destination information that specifies the delivery point of the product delivery destination, or route information to the delivery point. It is assumed that the movement control information transmitting unit 33 of this embodiment transmits delivery destination information as movement control information.

Next, a configuration example of the unmanned delivery device 10 of this embodiment will be described using FIG. 1.

The delivery destination reception unit 11 is a part that receives delivery destination information transmitted from the movement control information transmission unit 33 of the delivery device 30.

The route storage unit 14 is a part that stores route information corresponding to each delivery destination information (delivery point) used in the delivery system. The route information is information indicating the route from the delivery device 30 to the delivery point. Further, for example, a control program for moving the unmanned delivery device 10 along a route may be used as route information.

The movement control section 12 is a section that reads route information corresponding to the delivery destination information from the route storage section 14 and moves the own device to a delivery point according to the route information.

The product holding section 13 is a part that holds the product 121. In this embodiment, the product 121 held by the holding control unit 32 of the delivery device 30 is held.

By configuring the unmanned delivery device 10 in this way, the unmanned delivery device 10 reads out route information corresponding to the delivery destination information from the route storage unit 14, and moves its own device to the delivery point according to the route information. Thereby, the unmanned delivery device 10 moves to the delivery point according to predetermined route information. Therefore, it becomes possible to realize product delivery in a space with a small degree of freedom using a simpler method.

In addition, in this embodiment, it is possible to deliver products indoors, which has a small degree of freedom, so the time it takes for the orderer to go to the entrance of the building to pick up the product can be reduced, and the time it takes for delivery personnel to deliver products indoors can be reduced. Deployment becomes unnecessary.

Further, in this embodiment, since route information can be stored in the route storage unit 14, the person who sets the route information can set the route with safety in mind.

Furthermore, in this embodiment, a two-dimensional barcode is used to specify the delivery point. As a result, even if the floor layout changes, the delivery area can be changed flexibly by replacing the two-dimensional barcode.

Next, an example of the operation of the order input device 60, the delivery device 30, and the unmanned delivery device 10 of this embodiment will be described using FIG.

First, the user causes the delivery destination information designation section 62 of the order input device 60 to read the nearest two-dimensional barcode (step S201). Next, the order input unit 61 of the order input device 60 accesses the delivery device 30 by accessing the URL indicated by the two-dimensional barcode (step S202). Then, the delivery device 30 responds to the order input device 60 with information on products that can be provided at the delivery point indicated by the delivery destination information included in the URL, and the order input device 60 responds with information on products that can be ordered (order site). Display (step S203).

Next, when the orderer inputs information about the product they want delivered into the order site, the order input unit 61 of the order input device 60 sends order information (delivery request) including delivery destination information and product information to the delivery device 30. Transmit (step S204).

The delivery request reception unit 31 of the delivery device 30 receives the delivery request (order information), and the holding control unit 32 causes the unmanned delivery device 10 to hold the product 121 according to the product information (step S205). Then, the unmanned delivery device 10 holds the product 121 (step S206).

Next, the movement control information transmitting unit 33 of the delivery device 30 transmits the delivery destination information to the unmanned delivery device 10 (step S207). The unmanned delivery device 10 reads route information corresponding to the delivery destination information from the route storage unit 14 (step S208), and moves to the delivery point according to the read route information (step S209).

By operating in this way, the unmanned delivery device 10 reads route information corresponding to the delivery destination information from the route storage unit 14 and moves the device to the delivery point according to the route information. Therefore, it becomes possible to realize product delivery in a space with a small degree of freedom using a simpler method.

As explained above, in the second embodiment of the present invention, similarly to the first embodiment, the unmanned delivery device 10 reads route information corresponding to the delivery destination information from the route storage unit 14, and stores the route information. Move the own device to the delivery point according to the instructions. Thereby, the unmanned delivery device 10 moves to the delivery point according to predetermined route information. Therefore, it becomes possible to realize product delivery in a space with a small degree of freedom using a simpler method.

In addition, in this embodiment, it is possible to deliver products indoors, which has a small degree of freedom, so the time it takes for the orderer to go to the entrance of the building to pick up the product can be reduced, and the time it takes for delivery personnel to deliver products indoors can be reduced. Deployment becomes unnecessary.

Further, in this embodiment, since route information can be stored in the route storage unit 14, the person who sets the route information can set the route with safety in mind.

Furthermore, in this embodiment, a two-dimensional barcode is used to specify the delivery point. As a result, even if the floor layout changes, the delivery area can be changed flexibly by replacing the two-dimensional barcode.

[Third embodiment]
Next, a third embodiment of the present invention will be described. This embodiment is a method in which route information is read out by a delivery device rather than by an unmanned delivery device.

First, FIG. 9 shows an example of the configuration of the delivery system of this embodiment. The delivery system of this embodiment includes an order input device 60, a delivery device 40, and an unmanned delivery device 80. In the delivery system of this embodiment, the delivery device 30 of the delivery system of the second embodiment (FIG. 3) is replaced with a delivery device 40, and the unmanned delivery device 10 is replaced with an unmanned delivery device 80. The rest is the same as in FIG. 3.

Next, FIG. 10 shows a configuration example of the delivery device 40 of this embodiment. The delivery device 40 includes a delivery request receiving section 31, a holding control section 32, a movement control information transmitting section 33, and a route storage section 44.

The delivery device 40 has a configuration in which a route storage unit 44 is added to the delivery device 30 (FIG. 7). The route storage unit 44 is a part that stores route information corresponding to each piece of delivery destination information.

The movement control information transmitting unit 33 is a part that transmits movement control information related to movement control of the unmanned delivery device 80 to the unmanned delivery device 80. The movement control information transmitting unit 33 of this embodiment reads route information corresponding to the delivery destination information specified from the order input device 60 from the route storage unit 44 as movement control information, and transmits it to the unmanned delivery device 80.

The delivery request receiving unit 31 and the holding control unit 32 are the same as those of the delivery device 30, so their description will be omitted here.

Furthermore, since the configuration example of the order input device 60 is the same as that in the second embodiment (FIG. 6), the description thereof will be omitted.

Next, FIG. 11 shows a configuration example of the unmanned delivery device 80. The unmanned delivery device 80 includes a route information receiving section 81, a movement control section 12, and a product holding section 13. The unmanned delivery device 80 has a configuration in which the route storage section 14 is deleted from the unmanned delivery device 10 (FIG. 1), and the delivery destination receiving section 11 is replaced with a route information receiving section 81.

The route information receiving unit 81 is a part that receives route information from the delivery device 40. The movement control unit 12 then moves its own device according to the route information received by the route information reception unit 81. The product holding section 13 is the same as the unmanned delivery device 10, so a description thereof will be omitted.

By configuring the delivery device 40 and the unmanned delivery device 80 in this way, the delivery device 40 reads route information corresponding to the delivery destination information from the route storage unit 44 and transmits it to the unmanned delivery device 80. Then, the unmanned delivery device 80 moves itself to the delivery point according to the route information received from the delivery device 40. Thereby, the unmanned delivery device 80 moves to the delivery point according to predetermined route information. Therefore, it becomes possible to realize product delivery in a space with a small degree of freedom using a simpler method.

Further, in this embodiment, since route information can be stored in the route storage unit 44, the person who sets the route information can set the route with safety in mind.

Next, FIG. 12 shows an example of the operation of the order input device 60, unmanned delivery device 80, and delivery device 40 of this embodiment.

Since the steps up to step S206 in FIG. 12 are the same as those in FIG. 8, the explanation will be omitted here. In this embodiment, steps S210 to S212 are performed instead of steps S207 to S209 in FIG.

The delivery device 40 reads route information corresponding to the delivery destination information included in the delivery request from the route storage unit 44 (step S210). Then, route information is transmitted to the unmanned delivery device 80 (step S211). The unmanned delivery device 80 moves itself according to the received route information (step S212).

By operating in this way, the delivery device 40 reads route information corresponding to the delivery destination information from the route storage section 44 and transmits it to the unmanned delivery device 80. The unmanned delivery device 80 then moves itself to the delivery point according to the route information received from the delivery device 40. Therefore, it becomes possible to realize product delivery in a space with a small degree of freedom using a simpler method.

As described above, in the third embodiment of the present invention, the delivery device 40 reads route information corresponding to delivery destination information from the route storage unit 44 and transmits it to the unmanned delivery device 80. Then, the unmanned delivery device 80 moves itself to the delivery point according to the route information received from the delivery device 40. Thereby, the unmanned delivery device 80 moves to the delivery point according to predetermined route information. Therefore, it becomes possible to realize product delivery in a space with a small degree of freedom using a simpler method.

Further, in this embodiment, since route information can be stored in the route storage unit 44, the person who sets the route information can set the route with safety in mind.

[Fourth embodiment]
Next, a fourth embodiment of the present invention will be described. In this embodiment, the delivery device does not receive the order, but an order reception device 100 added to the delivery system receives the order. Note that the order reception device 100 can be added to the delivery system of the second embodiment (FIG. 3), but in this embodiment, the order reception device 100 is added to the delivery system of the third embodiment (FIG. 9). An example of adding the device 100 will be described.

First, FIG. 13 shows an example of the configuration of the delivery system of this embodiment. The delivery system of this embodiment includes an order input device 60, an order reception device 100, a delivery device 40, and an unmanned delivery device 80. The delivery system of this embodiment has a configuration in which an order reception device 100 is added to the delivery system of the third embodiment (FIG. 9).

The order reception device 100 is a device that receives order information from the order input device 60 and sends a delivery request to the delivery device 40. In the third embodiment, the order input device 60 directly sends order information to the delivery device 40, but in this embodiment, the order reception device 100 receives the order information and sends a delivery request to the delivery device 40. . The order receiving device 100 connects to the Internet 120 through wireless or wired communication. Further, in this embodiment, it is assumed that one order reception device 100 exists in the delivery system.

Furthermore, one or more delivery devices 40 may exist within the delivery system. The order receiving device 100 determines the delivery device 40 in charge of delivery according to the delivery destination information included in the order information received from the order input device 60, and transmits a delivery request to the delivery device 40. For example, if there are delivery devices 40 on different floors within a building, a delivery request is sent to the delivery device 40 on the floor where the delivery point of the delivery destination is located.

Next, FIG. 14 shows a configuration example of the order reception device 100 of this embodiment. The order receiving device 100 of this embodiment includes an order receiving section 101 and a delivery request transmitting section 102.

The order receiving unit 101 is a part that receives order information from the order input device 60. The delivery request transmitting unit 102 is a part that determines a delivery device 40 to perform delivery based on order information and sends a delivery request to the delivery device 40.

Note that the configuration examples of the order input device 60, the delivery device 40, and the unmanned delivery device 80 are the same as those in the third embodiment, so description thereof will be omitted.

By configuring the delivery device 40 in this way, the delivery device 40 reads route information corresponding to delivery destination information from the route storage unit 44 and transmits it to the unmanned delivery device 80. Then, the unmanned delivery device 80 moves itself to the delivery point according to the route information received from the delivery device 40. Thereby, the unmanned delivery device 80 moves to the delivery point according to predetermined route information. Therefore, it becomes possible to realize product delivery in a space with a small degree of freedom using a simpler method.

Furthermore, the order receiving device 100 of this embodiment determines the delivery device 40 that will perform the delivery based on the delivery destination information, and transmits a delivery request to the delivery device 40. Therefore, even if a plurality of delivery devices 40 exist in the delivery system, there is no need for the order input device 60 to specify the delivery device 40 to which the order information is to be transmitted.

Next, FIG. 15 shows an example of the operation of the order input device 60, order reception device 100, delivery device 40, and unmanned delivery device 80 of this embodiment.

First, the user causes the delivery destination information designation section 62 of the order input device 60 to read the nearest two-dimensional barcode (step S301). Next, the order input unit 61 of the order input device 60 accesses the order reception device 100 by accessing the URL indicated by the two-dimensional barcode (step S302). The order receiving device 100 then responds to the order input device 60 with information on products that can be provided at the delivery point indicated by the delivery destination information included in the URL, and the order input device 60 receives information on products that can be ordered (order site). is displayed (step S303).

Next, when the user inputs information about the product they want delivered into the order site, the order input unit 61 of the order input device 60 transmits order information including delivery destination information and product information to the order reception device 100 ( Step S304).

When the order reception unit 101 of the order reception device 100 receives the order information, the delivery request transmission unit 102 determines the delivery device 40 suitable for delivering to the delivery point indicated by the delivery destination information included in the order information. Then, a delivery request is sent to the delivery device 40 (step S305).

When the delivery request receiving unit 31 of the delivery device 40 receives the delivery request, the holding control unit 32 causes the unmanned delivery device 80 to hold the product 121 according to the product information (step S306). Thereby, the unmanned delivery device 80 holds the product 121 (step S307).

Next, the movement control information transmitting unit 33 of the delivery device 40 reads route information corresponding to the delivery destination information from the route storage unit 44 (step S308), and transmits the route information to the unmanned delivery device 80 (step S309). The unmanned delivery device 80 moves to the delivery point according to the received route information (step S310).

By operating in this way, the delivery device 40 reads route information corresponding to the delivery destination information from the route storage section 44 and transmits it to the unmanned delivery device 80. Then, the unmanned delivery device 80 moves itself to the delivery point according to the route information received from the delivery device 40. Thereby, the unmanned delivery device 80 moves to the delivery point according to predetermined route information. Therefore, it becomes possible to realize product delivery in a space with a small degree of freedom using a simpler method.

Note that FIG. 16 shows an example of the operation of the order input device 60, the order reception device 100, the delivery device 30, and the unmanned delivery device 10 when the order reception device 100 is added to the delivery system of the second embodiment (FIG. 3). It is.

Steps S301 to S307 are the same as those in FIG. 15, and steps S311 to S313 are performed instead of steps S308 to S310.

The delivery device 30 transmits the delivery destination information included in the delivery request to the unmanned delivery device 10 (step S311). Next, the unmanned delivery device 10 reads route information corresponding to the received delivery destination information from the route storage unit 14 (step S312). Then, the unmanned delivery device 10 moves to the delivery point according to the route information (step S313).

As described above, in the fourth embodiment of the present invention, the delivery device 40 reads route information corresponding to delivery destination information from the route storage unit 44 and transmits it to the unmanned delivery device 80. Then, the unmanned delivery device 80 moves itself to the delivery point according to the route information received from the delivery device 40. Thereby, the unmanned delivery device 80 moves to the delivery point according to predetermined route information. Therefore, it becomes possible to realize product delivery in a space with a small degree of freedom using a simpler method.

Furthermore, the order receiving device 100 of this embodiment determines the delivery device 40 that will perform the delivery based on the delivery destination information, and transmits a delivery request to the delivery device 40. Therefore, even if a plurality of delivery devices 40 exist in the delivery system, there is no need for the order input device 60 to specify the delivery device 40 to which the order information is to be transmitted.

[Fifth embodiment]
Next, a fifth embodiment of the present invention will be described. The present embodiment is a form in which a function is added to the first to fourth embodiments, in which the product is delivered after confirming whether the recipient is an authorized recipient at the time of product delivery.

First, FIG. 17 shows an example of the configuration of the delivery system of this embodiment. The delivery system of this embodiment includes an order input device 70, an order reception device 110, a delivery device 50, and an unmanned delivery device 20. In this embodiment, a case will be described in which the order receiving device 110 is provided in the delivery system, but a configuration without the order receiving device may be used as shown in FIGS. 3 and 9.

Next, FIG. 18 shows a configuration example of the order reception device 110 of this embodiment. The order reception device 110 includes an order reception section 101, a delivery request transmission section 102, an arrival notification processing section 113, and an authentication section 114. The order receiving device 110 has a configuration in which an arrival notification processing section 113 and an authentication section 114 are added to the order receiving device 100 (FIG. 14).

The arrival notification processing unit 113 is a part that receives an arrival notification indicating that the unmanned delivery device 20 has arrived at the delivery point from the delivery device 50 and transmits the arrival notification to the order input device 70.

The movement control unit 12 of the unmanned delivery device 20 moves the device to a delivery point according to route information. Therefore, the unmanned delivery device 20 can detect that it has arrived at the delivery point. When the unmanned delivery device 20 arrives at the delivery point, the arrival notification sending unit 25 of the unmanned delivery device 20 sends an arrival notification to the delivery device 50. Then, upon receiving the arrival notification from the unmanned delivery device 20, the arrival notification receiving unit 55 of the delivery device 50 transmits the arrival notification to the order reception device 110. In this way, the arrival notification processing unit 113 receives the arrival notification from the delivery device 50.

The order receiving unit 101 is a part that receives order information from the order input device 70. Further, upon receiving the order information, the order reception unit 101 of this embodiment transmits the first authentication information to the order input device 70. The first authentication information is information that uniquely identifies order information. For example, it is possible to use a two-dimensional barcode, character string, image information, etc. as the first authentication information.

The authentication unit 114 is a part that performs authentication based on the second authentication information received from the delivery device 50 and the first authentication information sent to the order input device 70, and sends the result to the delivery device 50. More specifically, when the second authentication information and the first authentication information match, the authentication unit 114 sends a message indicating that authentication is possible to the delivery device 50, and when they do not match, it sends a message that the authentication is not possible to the delivery device 50. .

Note that when authentication is performed by the delivery device 50 or the unmanned delivery device 20 instead of the order reception device 110, the authentication section 114 also sends the first authentication information to the delivery device 50, and the second authentication information. No reception or transmission of authentication results will be performed.

The delivery request transmitting unit 102 is the same as that in the fourth embodiment, so a description thereof will be omitted.

Next, FIG. 19 shows a configuration example of the order input device 70 of this embodiment. The order input device 70 includes an order input section 61, a delivery destination information designation section 62, an arrival notification reception section 73, an authentication information reception section 74, and an authentication information output section 75. The order input device 70 has a configuration in which an arrival notification receiving section 73, an authentication information receiving section 74, and an authentication information output section 75 are added to the order input device 60 (FIG. 6).

The arrival notification receiving unit 73 is a part that receives an arrival notification indicating that the unmanned delivery device 20 has arrived at the delivery point. In this embodiment, the arrival notification receiving unit 73 receives an arrival notification from the order receiving device 110.

The authentication information receiving unit 74 is a part that receives first authentication information. In this embodiment, the authentication information receiving unit 74 receives first authentication information from the order receiving device 110.

The authentication information output section 75 is a section that outputs first authentication information. For example, the authentication information output unit 75 displays the first authentication information on the order input device 70, or outputs the first authentication information to the unmanned delivery device 20 via wireless or wired communication.

Next, FIG. 20 shows a configuration example of the delivery device 50 of this embodiment. The delivery device 50 includes a delivery request receiving section 31, a holding control section 32, a movement control information transmitting section 33, an arrival notification receiving section 55, and an authentication section 56. The delivery device 50 has a configuration in which an arrival notification receiving section 55 and an authentication section 56 are added to the delivery device 30 (FIG. 7).

The delivery request receiving section 31, the holding control section 32, and the movement control information transmitting section 33 are the same as those in the second embodiment, so a description thereof will be omitted.

The arrival notification receiving unit 55 is a part that receives an arrival notification from the unmanned delivery device 20 indicating that the unmanned delivery device 20 has arrived at the delivery point. Further, when receiving the arrival notification, the arrival notification receiving unit 55 of this embodiment transmits the arrival notification to the order receiving device 110. In the case of a delivery system that does not have the order reception device 110, the arrival notification receiving unit 55 transmits the arrival notification to the order input device 70.

The authentication unit 56 is a part that authenticates the second authentication information. The authentication unit 56 of this embodiment receives the second authentication information from the unmanned delivery device 20, transmits the second authentication information to the order reception device 110, receives the authentication result from the order reception device 110, and receives the second authentication information from the unmanned delivery device 20. The authentication result is sent to the device 20. It is also possible to receive the first authentication information from the order reception device 110 in advance and compare the first authentication information and the second authentication information in the delivery device 50.

Next, FIG. 21 shows a configuration example of the unmanned delivery device 20 of this embodiment. The unmanned delivery device 20 includes a delivery destination reception section 11, a movement control section 12, a product holding section 13, a route storage section 14, an arrival notification transmission section 25, an authentication information input section 26, and an authentication section 27. The unmanned delivery device 20 has a configuration in which an arrival notification transmission section 25, an authentication information input section 26, and an authentication section 27 are added to the unmanned delivery device 10 (FIG. 1). Note that it is also possible to add the arrival notification transmitting section 25, the authentication information input section 26, and the authentication section 27 to the unmanned delivery device 80 (FIG. 11).

The delivery destination reception unit 11, movement control unit 12, and route storage unit 14 are the same as those of the unmanned delivery device 10, and therefore their descriptions will be omitted.

The arrival notification sending unit 25 is a part that sends an arrival notification to the delivery device 50 when the device itself arrives at the delivery point.

The authentication information input section 26 is a section that receives input of second authentication information. Methods for receiving the input of the second authentication information include, for example, capturing an image of the second authentication information, accepting the input of the second authentication information by the user using a touch panel, etc., and receiving the second authentication information by wireless communication. Possible methods include receiving the

The authentication unit 27 is a part that authenticates the second authentication information. Authentication methods include a method in which the unmanned delivery device 20 performs authentication, and a method in which authentication is requested to another device and the authentication result is received. In this embodiment, since the order receiving device 110 performs the authentication, the authentication unit 27 transmits the second authentication information to the delivery device 50 and receives the authentication result from the delivery device 50. When performing authentication using the unmanned delivery device 20, first authentication information is received in advance from the order reception device 110 via the delivery device 50, and the first authentication information and second authentication information are compared.

The product holding unit 13 is a part that holds the product and releases the product from being held when the authentication result indicates that the product can be authenticated.

By configuring the unmanned delivery device 20 in this way, the unmanned delivery device 20 reads route information corresponding to the delivery destination information from the route storage unit 14 and moves the device itself to the delivery point according to the route information. Thereby, the unmanned delivery device 10 moves to the delivery point according to predetermined route information. Therefore, it becomes possible to realize product delivery in a space with a small degree of freedom using a simpler method.

Further, in this embodiment, the order receiving device 110 transmits the first authentication information to the order input device 70, and the authentication result based on the second authentication information input to the unmanned delivery device 20 and the first authentication information. indicates that authentication is possible, the unmanned delivery device 20 releases the product from being held. Therefore, it is possible to reduce the possibility that the product will be delivered to a person other than the user of the order input device 70 to which the first authentication information was transmitted.

Further, in this embodiment, when the unmanned delivery device 20 arrives at the delivery point, an arrival notification is sent to the order input device 70. Therefore, the user of the order input device 70 can know that the ordered product has arrived at the arrival point.

Next, FIGS. 22 and 23 show operational examples of the order input device 70, order reception device 110, delivery device 50, and unmanned delivery device 20 of this embodiment.

First, the process up to transmitting order information from the order input device 70 to the order reception device 110 is the same as steps S301 to S304 in FIG. 16. In this embodiment, after order information is transmitted from the order input device 70 to the order reception device 110 (step S401 in FIG. 22), first authentication information is transmitted from the order reception device 110 to the order input device 70 (step S402). ).

Then, similarly to steps S305 to S313 in FIG. 16, the unmanned delivery device 20 moves itself to the delivery point.

Next, when the unmanned delivery device 20 arrives at the delivery point (step S403 in FIG. 23), the unmanned delivery device 20 transmits an arrival notification to the delivery device 50 (step S404). The delivery device 50 that has received the arrival notification transmits the arrival notification to the order reception device 110 (step S405). The order reception device 110 that received the arrival notification transmits the arrival notification to the order input device 70 (step S406).

When the order input device 70 receives the arrival notification, the order input device 70 outputs the first authentication information received in step S402 to the unmanned delivery device 20 that has arrived at the delivery point (step S407). For example, the user displays a two-dimensional barcode on the screen of the order input device 70 and causes the unmanned delivery device 20 to read it.

The unmanned delivery device 20 accepts the input first authentication information as second authentication information. Then, the unmanned delivery device 20 transmits the second authentication information to the delivery device 50 (step S408). The delivery device 50 that has received the second authentication information transmits the second authentication information to the order reception device 110 (step S409).

The order receiving device 110 that has received the second authentication information performs authentication based on the first authentication information transmitted in step S402 of FIG. 22 and the second authentication information received in step S409 of FIG. 23 (step S410). ). Then, the authentication result is transmitted to the delivery device 50 (step S411). The delivery device 50 that has received the authentication result transmits the authentication result to the unmanned delivery device 20 (step S412).

The unmanned delivery device 20 receives the authentication result, and when the authentication result indicates that authentication is possible, releases the holding of the product and delivers the product to the orderer (step S413). Then, the unmanned delivery device 20 returns to the delivery device 50 (step S414).

Note that FIG. 24 shows an example of the operation when the delivery device 50 performs the authentication. The delivery device 50 receives the first authentication information from the order reception device 110 in advance, for example, along with the delivery request. Then, instead of steps S409 to S411 in FIG. 23, authentication is performed by the own device (step S415).

Further, FIG. 25 shows an example of the operation when the unmanned delivery device 20 performs the authentication. The unmanned delivery device 20 receives first authentication information from the order reception device 110 via the delivery device 50 in advance, for example, along with delivery destination information. Then, instead of steps S408 to S412 in FIG. 23, authentication is performed by the own device (step S416).

By operating in this way, the unmanned delivery device 20 reads route information corresponding to the delivery destination information from the route storage unit 14 and moves the device to the delivery point according to the route information. Therefore, it becomes possible to realize product delivery in a space with a small degree of freedom using a simpler method.

As explained above, in the fifth embodiment of the present invention, the unmanned delivery device 20 reads route information corresponding to the delivery destination information from the route storage unit 14, and moves the device to the delivery point according to the route information. . Thereby, the unmanned delivery device 10 moves to the delivery point according to predetermined route information. Therefore, it becomes possible to realize product delivery in a space with a small degree of freedom using a simpler method.

Further, in this embodiment, the order receiving device 110 transmits the first authentication information to the order input device 70, and the authentication result based on the second authentication information input to the unmanned delivery device 20 and the first authentication information. indicates that authentication is possible, the unmanned delivery device 20 releases the product from being held. Therefore, it is possible to reduce the possibility that the product will be delivered to a person other than the user of the order input device 70 to which the first authentication information was transmitted.

Further, in this embodiment, when the unmanned delivery device 20 arrives at the delivery point, an arrival notification is sent to the order input device 70. Therefore, the user of the order input device 70 can know that the ordered product has arrived at the arrival point.

[Hardware configuration example]
The unmanned delivery device (10, 20, 80), delivery device (30, 40, 50), order input device (60, 70), or order reception device (100, 110) in each embodiment of the present invention described above (hereinafter, An example of a hardware resource configuration for realizing an unmanned delivery device (such as an unmanned delivery device) using one information processing device (computer) will be described. Note that the unmanned delivery device or the like may be physically or functionally realized using at least two information processing devices. Further, the unmanned delivery device or the like may be realized as a dedicated device. Further, only a part of the functions of the unmanned delivery device or the like may be realized using the information processing device.

FIG. 26 is a diagram schematically showing an example of a hardware configuration of an information processing device that can implement an unmanned delivery device or the like according to each embodiment of the present invention. The information processing device 90 includes a communication interface 91, an input/output interface 92, an arithmetic unit 93, a storage device 94, a nonvolatile storage device 95, and a drive device 96.

The communication interface 91 is a communication means for the unmanned delivery device of each embodiment to communicate with an external device by wire and/or wirelessly. Note that when an unmanned delivery device or the like is implemented using at least two information processing devices, these devices may be connected to each other via the communication interface 91 so that they can communicate with each other.

The input/output interface 92 is a man-machine interface such as a keyboard as an example of an input device and a display as an output device.

The arithmetic unit 93 is an arithmetic processing unit such as a general-purpose CPU (Central Processing Unit) or a microprocessor. The arithmetic device 93 can, for example, read various programs stored in the nonvolatile storage device 95 into the storage device 94 and execute processing according to the read programs.

The storage device 94 is a memory device such as a RAM (Random Access Memory) that can be referenced by the arithmetic device 93, and stores programs, various data, and the like. Storage device 94 may be a volatile memory device.

The nonvolatile storage device 95 is a nonvolatile storage device such as a ROM (Read Only Memory) or a flash memory, and is capable of storing various programs, data, and the like.

The drive device 96 is, for example, a device that processes reading and writing of data to and from a recording medium 97, which will be described later.

The recording medium 97 is any recording medium capable of recording data, such as an optical disk, a magneto-optical disk, or a semiconductor flash memory.

Each embodiment of the present invention configures an unmanned delivery device etc. using the information processing device 90 illustrated in FIG. This may be realized by supplying.

In this case, the embodiment can be realized by having the computing device 93 execute a program supplied to the unmanned delivery device or the like. Further, it is also possible to configure some, but not all, functions of the unmanned delivery device etc. with the information processing device 90.

Further, the program may be recorded on the recording medium 97 and stored in the non-volatile storage device 95 as appropriate during the shipping stage or operation stage of the unmanned delivery device or the like. In this case, the above-mentioned program may be supplied by installing it into an unmanned delivery device using an appropriate jig at the manufacturing stage or operation stage before shipping. Further, as the method for supplying the program, a general procedure such as a method of downloading the program from an external source via a communication line such as the Internet may be adopted.

The embodiments described above are preferred embodiments of the present invention, and various modifications can be made without departing from the gist of the present invention.

Part or all of the above embodiments may be described as in the following additional notes, but are not limited to the following.

(Additional note 1)
a delivery destination reception unit that receives delivery destination information that specifies the delivery point of the product delivery destination;
a movement control unit that reads route information corresponding to the delivery destination information from a route storage unit that stores the route information corresponding to each of the delivery destination information, and moves the own device to the delivery point according to the route information;
An unmanned delivery device comprising: a product holding section that holds the product.

(Additional note 2)
The unmanned delivery device according to appendix 1, further comprising: an arrival notification sending unit that sends an arrival notification when the device arrives at the delivery point.

(Additional note 3)
an authentication information input section that accepts input of second authentication information;
an authentication unit that authenticates the second authentication information;
Furthermore,
The unmanned delivery device according to appendix 1 or 2, wherein the product holding unit releases the holding of the product when the result of the authentication indicates that authentication is possible.

(Additional note 4)
The unmanned delivery device according to appendix 3, wherein the authentication unit performs the authentication by transmitting the second authentication information and receiving the result of the authentication of the second authentication information.

(Appendix 5)
The unmanned delivery device according to appendix 3, wherein the authentication unit receives first authentication information and performs the authentication based on the first authentication information and the second authentication information.

(Appendix 6)
a delivery request reception unit that receives a delivery request including delivery destination information that specifies a delivery point of the delivery destination and product information of the product to be delivered;
a holding control unit that causes the unmanned delivery device to hold the product corresponding to the product information;
A delivery device comprising: a movement control information transmitter that transmits movement control information related to movement control to the delivery point to the unmanned delivery device.

(Appendix 7)
The delivery device according to appendix 6, further comprising: an arrival notification receiving unit that receives an arrival notification from the unmanned delivery device indicating that the unmanned delivery device has arrived at the delivery point, and transmits the arrival notification. .

(Appendix 8)
Supplementary note 6 or the like, further comprising: an authentication unit that receives second authentication information from the unmanned delivery device, authenticates the second authentication information, and transmits a result of the authentication to the unmanned delivery device. Delivery device according to appendix 7.

(Appendix 9)
The delivery device according to appendix 8, wherein the authentication unit performs the authentication by transmitting the second authentication information and receiving the result of the authentication of the second authentication information.

(Appendix 10)
The delivery device according to appendix 8, wherein the authentication unit receives first authentication information and performs the authentication based on the first authentication information and the second authentication information.

(Appendix 11)
The delivery device according to any one of appendices 6 to 10, wherein the movement control information is the delivery destination information.

(Appendix 12)
The movement control information is route information corresponding to the delivery destination information,
Supplementary notes 6 to Supplementary notes, characterized in that the movement control information transmitting unit acquires the route information corresponding to the delivery destination information from a route storage unit that stores the route information corresponding to each piece of the delivery destination information. 10. The delivery device according to any one of 10.

(Appendix 13)
an order input section for transmitting order information including delivery destination information identifying a delivery point of the delivery destination and product information of the product to be delivered;
An order input device comprising: a delivery destination information designation section for specifying the delivery destination information.

(Appendix 14)
The delivery destination information specifying unit acquires image information including the delivery destination information, selects the delivery destination information based on the radio wave intensity from a radio wave generator installed at the delivery point, and acquires the location information of its own device. The order according to appendix 13, characterized in that the delivery destination information is specified by one or more of the following methods: selecting the delivery destination information based on the above, or having the user select the delivery destination information. Input device.

(Appendix 15)
The order input device according to appendix 13 or 14, wherein the order input unit further receives information about the products that can be ordered.

(Appendix 16)
The order input device according to any one of attachments 13 to 15, further comprising: an arrival notification receiving unit that receives an arrival notification indicating that the product has arrived at the delivery point.

(Appendix 17)
an authentication information receiving unit that receives first authentication information corresponding to the order information;
The order input device according to any one of attachments 13 to 16, further comprising: an authentication information output unit that outputs the first authentication information.

(Appendix 18)
an order reception unit that receives order information including delivery destination information specifying a delivery point of the delivery destination and product information of the product to be delivered from an order input device;
An order receiving device comprising: a delivery request transmitting unit that transmits a delivery request including the delivery destination information and the product information to a delivery device corresponding to the delivery destination information.

(Appendix 19)
Supplementary Note 18, further comprising: an arrival notification processing unit that receives an arrival notification from the delivery device indicating that the product has arrived at the delivery point, and transmits the arrival notification to the order input device. Order reception device.

(Additional note 20)
The order receiving device according to appendix 18 or 19, further comprising: an authentication unit that transmits first authentication information corresponding to the order information when the order information is received.

(Additional note 21)
The authentication unit further performs authentication based on the first authentication information and the second authentication information when receiving second authentication information from the delivery device, and sends the result of the authentication to the delivery device. The order receiving device according to appendix 20, characterized in that the order receiving device transmits an order.

(Additional note 22)
The order receiving device according to appendix 20, wherein the authentication unit further transmits the first authentication information to the delivery device.

(Additional note 23)
The delivery device according to any one of appendices 6 to 11,
an order input device according to any one of appendices 13 to 17;
The unmanned delivery device;
The delivery request is the order information,
A delivery system characterized in that the unmanned delivery device is the unmanned delivery device according to any one of Supplementary Notes 1 to 5.

(Additional note 24)
The delivery device described in Appendix 12,
an order input device according to any one of appendices 13 to 17;
The unmanned delivery device;
The delivery system, wherein the delivery request is the order information.

(Additional note 25)
The delivery device according to any one of appendices 6 to 11,
The unmanned delivery device;
an order reception device according to any one of appendices 18 to 22;
and the order input device;
The delivery request reception unit of the delivery device receives the delivery request transmitted from the delivery request transmission unit of the order reception device,
A delivery system characterized in that the unmanned delivery device is the unmanned delivery device according to any one of Supplementary Notes 1 to 5.

(Additional note 26)
The delivery device described in Appendix 7,
The unmanned delivery device;
an order reception device according to any one of appendices 18 to 22;
and the order input device;
The delivery system, wherein the delivery request reception unit of the delivery device receives the delivery request transmitted from the delivery request transmission unit of the order reception device.

(Additional note 27)
hold the goods,
Accepting delivery destination information specifying the delivery point of the delivery destination of the product,
The device reads route information corresponding to the delivery destination information from a route storage unit that stores the route information corresponding to each of the delivery destination information, and moves its own device to the delivery point according to the route information. Unmanned delivery method.

(Additional note 28)
The unmanned delivery method according to appendix 27, characterized in that when the own device arrives at the delivery point, it transmits an arrival notification.

(Additional note 29)
Accept the input of the second authentication information,
authenticating the second authentication information;
The unmanned delivery method according to appendix 27 or 28, characterized in that when the result of the authentication indicates that authentication is possible, the holding of the product is released.

(Additional note 30)
The unmanned delivery method according to appendix 29, wherein the authentication is performed by transmitting the second authentication information and receiving the result of the authentication of the second authentication information.

(Appendix 31)
The unmanned delivery method according to appendix 29, characterized in that first authentication information is received, and the authentication is performed based on the first authentication information and the second authentication information.

(Appendix 32)
accept delivery requests that include delivery destination information identifying the delivery point of the delivery destination and product information of the products to be delivered;
causing an unmanned delivery device to hold the product corresponding to the product information;
A delivery method comprising transmitting movement control information regarding movement control to the delivery point to the unmanned delivery device.

(Appendix 33)
33. The delivery method according to appendix 32, further comprising receiving an arrival notification from the unmanned delivery device indicating that the unmanned delivery device has arrived at the delivery point, and transmitting the arrival notification.

(Appendix 34)
Supplementary note 32 or 33, characterized in that the second authentication information is received from the unmanned delivery device, the second authentication information is authenticated, and the result of the authentication is transmitted to the unmanned delivery device. Shipping method.

(Appendix 35)
35. The delivery method according to appendix 34, wherein the authentication is performed by transmitting the second authentication information and receiving the result of the authentication of the second authentication information.

(Appendix 36)
The delivery method according to appendix 34, characterized in that first authentication information is received, and the authentication is performed based on the first authentication information and the second authentication information.

(Additional note 37)
The delivery method according to any one of attachments 32 to 36, wherein the movement control information is the delivery destination information.

(Appendix 38)
The movement control information is route information corresponding to the delivery destination information,
The delivery according to any one of appendices 32 to 36, wherein the route information corresponding to the delivery destination information is acquired from a route storage unit that stores the route information corresponding to each of the delivery destination information. Method.

(Appendix 39)
submit order information including delivery address information identifying the delivery point of the delivery destination and product information of the products to be delivered;
An order input method characterized by specifying the delivery destination information.

(Additional note 40)
Obtaining image information including the delivery destination information; Selecting the delivery destination information based on the radio wave intensity from a radio wave generator installed at the delivery point; Selecting the delivery destination information based on the location information of the own device. 39. The order input method according to appendix 39, wherein the designation of the delivery destination information is performed by one or more of the following methods: 1.

(Appendix 41)
The order input method according to appendix 39 or 40, further comprising receiving information on the products that can be ordered.

(Additional note 42)
The order input method according to any one of appendices 39 to 41, further comprising receiving an arrival notification indicating that the product has arrived at the delivery point.

(Appendix 43)
receiving first authentication information corresponding to the order information;
The order input method according to any one of appendices 39 to 42, characterized in that the first authentication information is output.

(Appendix 44)
Receive order information from an order input device, including delivery destination information that specifies the delivery point of the delivery destination and product information of the product to be delivered;
An order receiving method comprising: transmitting a delivery request including the delivery destination information and the product information to a delivery device corresponding to the delivery destination information.

(Additional note 45)
45. The order receiving method according to appendix 44, further comprising: receiving an arrival notification indicating that the product has arrived at the delivery point from the delivery device, and transmitting the arrival notification to the order input device.

(Appendix 46)
The order acceptance method according to appendix 44 or 45, characterized in that when the order information is received, first authentication information corresponding to the order information is transmitted.

(Additional note 47)
Furthermore, when second authentication information is received from the delivery device, authentication is performed based on the first authentication information and the second authentication information, and the result of the authentication is transmitted to the delivery device. The order acceptance method described in Appendix 46.

(Additional note 48)
The order receiving method according to appendix 46, further comprising transmitting the first authentication information to the delivery device.

(Additional note 49)
to the computer,
A delivery destination reception function that accepts delivery destination information that specifies the delivery point of the product delivery destination;
a movement control function that reads route information corresponding to the delivery destination information from a route storage unit that stores the route information corresponding to each of the delivery destination information, and moves the own device to the delivery point according to the route information;
An unmanned delivery program characterized by realizing the following: a product holding function for holding the product.

(Additional note 50)
49. The unmanned delivery program according to appendix 49, characterized in that the computer further causes a computer to implement an arrival notification sending function of sending an arrival notification when the own device arrives at the delivery point.

(Appendix 51)
a authentication information input function that accepts input of second authentication information;
an authentication function that authenticates the second authentication information;
further realized by computers,
The unmanned delivery program according to appendix 49 or 50, wherein the product holding function cancels the holding of the product when the result of the authentication indicates that authentication is possible.

(Appendix 52)
The unmanned delivery program according to appendix 51, wherein the authentication function performs the authentication by transmitting the second authentication information and receiving the result of the authentication of the second authentication information.

(Appendix 53)
The unmanned delivery program according to appendix 51, wherein the authentication function receives first authentication information and performs the authentication based on the first authentication information and the second authentication information.

(Appendix 54)
to the computer,
a delivery request reception function that accepts a delivery request including delivery destination information that specifies the delivery point of the delivery destination and product information of the product to be delivered;
a holding control function that causes the unmanned delivery device to hold the product corresponding to the product information;
and a movement control information transmitting function of transmitting movement control information related to movement control to the delivery point to the unmanned delivery device.

(Appendix 55)
Supplementary note 54, characterized in that the computer further implements an arrival notification receiving function of receiving an arrival notification from the unmanned delivery device indicating that the unmanned delivery device has arrived at the delivery point, and transmitting the arrival notification. shipping program.

(Appendix 56)
The present invention is characterized in that the computer further implements an authentication function of receiving second authentication information from the unmanned delivery device, authenticating the second authentication information, and transmitting a result of the authentication to the unmanned delivery device. Delivery program described in Appendix 54 or Appendix 55.

(Appendix 57)
57. The delivery program according to appendix 56, wherein the authentication function performs the authentication by transmitting the second authentication information and receiving the result of the authentication of the second authentication information.

(Appendix 58)
57. The delivery program according to appendix 56, wherein the authentication function receives first authentication information and performs the authentication based on the first authentication information and the second authentication information.

(Appendix 59)
The delivery program according to any one of attachments 54 to 58, wherein the movement control information is the delivery destination information.

(Additional note 60)
The movement control information is route information corresponding to the delivery destination information,
Supplementary notes 54 to 54, characterized in that the movement control information transmission function acquires the route information corresponding to the delivery destination information from a route storage unit that stores the route information corresponding to each piece of the delivery destination information. 58. The delivery program according to any one of 58.

(Additional note 61)
to the computer,
an order entry function that sends order information including delivery destination information that identifies the delivery point of the delivery destination and product information of the products to be delivered;
and a delivery destination information designation function for specifying the delivery destination information.

(Appendix 62)
The delivery destination information specification function includes acquiring image information including the delivery destination information, selecting the delivery destination information based on the radio wave intensity from a radio wave generator installed at the delivery point, and selecting the delivery destination information based on the location information of the own device. The order according to appendix 61, characterized in that the delivery destination information is specified by one or more of the following methods: selecting the delivery destination information based on the above, or having the user select the delivery destination information. Input program.

(Additional note 63)
The order input program according to appendix 61 or 62, wherein the order input function further receives information about the products that can be ordered.

(Additional note 64)
The order input program according to any one of appendices 61 to 63, further causing the computer to implement an arrival notification receiving function of receiving an arrival notification indicating that the product has arrived at the delivery point.

(Appendix 65)
an authentication information receiving function that receives first authentication information corresponding to the order information;
The order input program according to any one of appendices 61 to 64, further comprising: an authentication information output function of outputting the first authentication information.

(Appendix 66)
to the computer,
an order reception function that receives order information from an order input device, including delivery destination information that specifies the delivery point of the delivery destination and product information of the product to be delivered;
An order reception program that implements the following: a delivery request sending function that sends a delivery request including the delivery destination information and the product information to a delivery device corresponding to the delivery destination information.

(Appendix 67)
Supplementary note 66, characterized in that the computer further implements an arrival notification processing function of receiving an arrival notification from the delivery device indicating that the product has arrived at the delivery point, and transmitting the arrival notification to the order input device. The order acceptance program described in .

(Appendix 68)
The order reception program according to appendix 66 or 67, further causing the computer to implement an authentication function of transmitting first authentication information corresponding to the order information when the order information is received.

(Appendix 69)
The authentication function further performs authentication based on the first authentication information and the second authentication information when receiving second authentication information from the delivery device, and sends the result of the authentication to the delivery device. The order reception program according to appendix 68, characterized in that the order reception program transmits.

(Additional note 70)
69. The order reception program according to appendix 68, wherein the authentication function further transmits the first authentication information to the delivery device.

10, 20, 80 unmanned delivery device 11 delivery destination reception unit 12 movement control unit 13 product holding unit 14 route storage unit 25 arrival notification transmission unit 26 authentication information input unit 27 authentication unit 30, 40, 50 delivery device 31 delivery request reception unit 32 Holding control unit 33 Movement control information transmitting unit 44 Route storage unit 55 Arrival notification receiving unit 56 Authentication unit 60, 70 Order input device 61 Order input unit 62 Delivery destination information designation unit 73 Arrival notification receiving unit 74 Authentication information receiving unit 75 Authentication Information output section 81 Route information reception section 100, 110 Order reception device 101 Order reception section 102 Delivery request transmission section 113 Arrival notification processing section 114 Authentication section 120 Internet 121 Product 90 Information processing device 91 Communication interface 92 Input/output interface 93 Arithmetic device 94 Storage device 95 Nonvolatile storage device 96 Drive device 97 Recording medium

Claims (2)

Sending order information including delivery destination information and product information of the product to be delivered, which specifies delivery points provided in areas outside each of the delivery destination's desks in a delivery section including a plurality of desks. an order input section;
a delivery destination information designation unit that specifies the delivery destination information by reading a two-dimensional barcode that includes information specifying the delivery destination;
Order entry device. The computer is
Sending delivery destination information that specifies delivery points provided in areas outside of each of the delivery compartments including a plurality of desks at the delivery destination, and order information including product information of the products to be delivered. ,
An order input method in which the delivery destination information is specified by reading a two-dimensional barcode containing information specifying the delivery destination.

Images