KR101845904B1 - Mobile terminal and display apparatus for implementing parcel service goods with intuitive image - Google Patents

Abstract

Embodiments of the present invention relate to a mobile terminal and a display apparatus for realizing a delivery item with an intuitive image. The mobile terminal and the display apparatus provide a mechanism for arranging at least one image per item generated in an arrangement space of an arrangement space image to realize an item arrangement image and intuitively displaying the realized item arrangement image on a display screen of the display apparatus. Therefore, the mobile terminal and the display apparatus may reduce time for checking a missing delivery item or confirming the delivery item and ultimately shorten delivery time by checking a state of the item arrangement image (video) which is intuitively and realized often when loading the delivery item and/or delivering the delivery item.

Description

BACKGROUND OF THE INVENTION 1. Field of the Invention [0001] The present invention relates to a mobile terminal and a display device for realizing a courier product with an intuitive image.

BACKGROUND OF THE INVENTION 1. Field of the Invention [0001] The present invention relates to a mobile terminal and a display device, and more particularly, to a mobile terminal and a display device capable of efficiently detecting a state of a courier article.

In general, a large number of courier items are loaded on a courier vehicle. When courier articles are manually loaded on the courier vehicle and the courier goods are delivered using the SM terminal, I have managed to deliver and deliver goods in the form of recording.

However, in the case of loading a courier article on a courier vehicle, it is rare to individually check the article management information provided by the SM terminal and then load it. In other words, it is a common loading method to load goods in a random manner on a delivery vehicle while holding goods information.

In this case, there is a problem in that it is very difficult to find the courier goods when the courier goods loaded on the courier vehicle fall off during loading or are forgotten during delivery. This is caused by the fact that the state of the courier goods loaded on the courier vehicle is not known precisely.

Korean Patent Laid-Open Publication No. 2013-0039173, published on Apr. 19, 2013 Title: Apparatus and method for correcting a stereoscopic image by matching information.

Embodiments of the present invention have been made to solve the above-mentioned problems, and it is an object of the present invention to provide a mobile terminal and a display device for realizing a state of a courier article to be placed or placed in a courier vehicle with an intuitive image .

According to an aspect of the present invention, there is provided an article size recognition apparatus comprising: An article image generating unit for generating at least one courier article-specific image according to the recognized courier article size; A batch image generation unit for generating an article batch image by arranging the generated at least one courier article image in a batch space of a previously stored batch space image; And an image transmission unit for transmitting the generated product placement image to the display device in the arrangement space.

In one embodiment, the parcel delivery size may be transmitted from the goods classification system via the communication network or information entered via the user interface.

In one embodiment, the batch image generation unit may place the at least one per-article article-based image in the batch space based on the size of each courier article or the delivery order given to the courier article.

In one embodiment, the at least one courier article-specific image may be placed in the arrangement space prior to any one of the horizontal, vertical and height directions.

In one embodiment, the mobile terminal may further include a spatial image obtaining unit that is provided with the layout space image reflecting a substantial stack size from a display device disposed in the courier vehicle via a communication network.

In one embodiment, when the courier item of the image of at least one courier article disposed in the arrangement space has been delivered, the mobile terminal transmits a coupon delivery message input through the user interface Further comprising a delivering image mapping unit for mapping the image to an arbitrary first courier article image, and the image transmitting unit can further transmit the article batch image including the mapped completed message to the display apparatus.

In one embodiment, the mobile terminal is configured to transmit a delivery incomplete message via the user interface to the arbitrary first courier article image through the user interface when the courier article of the at least one courier article image disposed in the arrangement space is not yet distributed. 2 courier product image, and the image transmitting unit may further transmit the article batch image including the mapped completed message to the display device.

In one embodiment, the article batch image may have a 3D image form.

In one embodiment, the article placement image may have a mesh shape.

According to another aspect of the present invention, there is provided an article delivery system including an article size recognizing unit for recognizing a delivery article size; An article image generating unit for generating at least one courier article-specific image according to the recognized courier article size; A batch image generation unit for generating an article batch image by arranging the generated at least one courier article image in a batch space of a previously stored batch space image; And an image display unit displaying the generated product placement image on a display screen disposed on the exterior of the delivery vehicle.

In another embodiment, the parcel delivery size may be transmitted from the goods classification system via a communication network or information entered via a user interface.

In another embodiment, the batch image generation unit may arrange the at least one per-article article-based image in the batch space based on the size of each courier article or the delivery order given to the courier article.

In another embodiment, the at least one courier article-specific image may be placed in the arrangement space in either the horizontal, vertical or height direction.

In another embodiment, the display apparatus may further include a spatial image generating unit that generates the layout spatial image based on a substantial stack size.

In another embodiment, the display device displays the delivery completion message input through the user interface when the courier item of the image of at least one courier article arranged in the arrangement space is delivered, Further comprising a delivering image mapping unit for mapping an arbitrary first courier article image, wherein the image display unit can further display the article placement image including the mapped completed message on a display screen.

In another embodiment, when the courier article of any one of the courier article images in the images of at least one courier article disposed in the arrangement space is not yet distributed, the display device displays the arbitrary courier article, Further comprising a delivery incomplete image mapping unit for mapping the item delivery image to the second courier product image of the second courier delivery item, and the image display unit may further display the product placement image including the mapped incomplete message on the display screen.

In another embodiment, the article batch image may have a 3D image form.

In another embodiment, the article placement image may have a mesh shape.

In another embodiment, the display device may further include an article position obtaining section that obtains positional information and identification information of the courier article disposed in the courier vehicle from the at least one detecting sensor.

As described above, the embodiments of the present invention can confirm the state of the article arrangement image (image) imple- mented intuitively at the time of loading the courier article and / or delivering the courier article at the courier vehicle, And ultimately shorten the delivery time.

Further, the embodiments of the present invention indicate the completion of delivery for each intuitive article arrangement image (image), thereby eliminating the necessity of individually checking the delivery of the courier article and effectively operating the delivery schedule.

In addition, the embodiments of the present invention can arrange the courier goods in the courier vehicle according to the shipping order or the size of the courier goods, and can intuitively confirm the courier goods on the display screen, thereby greatly reducing the courier delivery time.

Further, the embodiments of the present invention have the effect of increasing the user-friendliness intuitiveness by displaying the finished product placement image in 3D or mesh image form.

The embodiments of the present invention are not limited to the above-mentioned effects, and other effects not mentioned can be clearly understood by those skilled in the art from the following description.

BRIEF DESCRIPTION OF THE DRAWINGS The accompanying drawings, which are included to provide a further understanding of the invention and are incorporated in and constitute a part of this specification, It is to be understood, however, that the technical features of the present invention are not limited to the specific drawings, and the features disclosed in the drawings may be combined with each other to constitute a new embodiment.
1 is a block diagram exemplarily showing an example of a system for implementing an intuitive image according to an embodiment.
2 is a block diagram exemplarily showing an example of a mobile terminal for implementing an intuitive image according to an embodiment.
3 is a block diagram exemplarily showing an example of a display device for implementing and displaying an intuitive image according to an embodiment.
4 is a block diagram exemplarily showing another example of a system for implementing an intuitive image according to an embodiment.
5 is a block diagram exemplarily showing another example of the display device according to the embodiment.
6 is a state diagram illustrating an exemplary display screen of a display device according to an embodiment.
7 is a state diagram illustrating an exemplary form of an intuitive article placement image according to an embodiment.

The scope of the present invention should not be construed as being limited by the embodiments described in the text, since the description of the present invention is only for the structural or functional description. In other words, since the embodiments can be variously modified and have various forms, the scope of the present invention should be understood to include equivalents capable of realizing technical ideas. Also, the purpose or effect of the present invention should not be construed as limiting the scope of the present invention, since it does not mean that a specific embodiment should include all or only such effect.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS A description will be given of a system, a mobile terminal, and a display device for implementing and displaying a courier article in a courier vehicle with an intuitive image as described in the following embodiments and claims.

≪ Embodiment of system >

1 is a block diagram exemplarily showing an example of a system for implementing an intuitive image according to an embodiment.

1, a system according to an embodiment may include a mobile terminal 100, an automatic goods classification system 200, 400, a display device 210, 300, and a map map server 220, 410 .

First, in one embodiment, the mobile terminal 100 collects article information on courier articles required for courier delivery from the automatic goods classification system 200 connected to the communication network, and transmits the coupon information to the courier vehicle 10 The state of the courier goods to be placed is implemented as an intuitive image and transmitted to the display device 210 connected to the communication network to display an intuitive image (image).

Here, the article information is information necessary for identifying and collecting and delivering the courier goods, for example, information such as an article number, a bar code, a product name, a manufacturing date, a delivery date, a recipient address and a name, . ≪ / RTI > However, this is merely an example, and it is needless to say that this information can be added as far as it is necessary information related to collection and delivery of the courier goods.

In addition, the mobile terminal 100 according to an exemplary embodiment may be connected to a map map server 220 connected to a communication network, and may receive courier vehicle route information along with a map map.

In one embodiment, the automatic goods classification system 200, 400 is a system for classifying a courier article on a plurality of conveyors into a predetermined suit, for example, a scanner for identifying a courier item placed in a plurality of conveyers, (Also referred to as a "sorter device") for redirecting the delivered parcels and discharging the delivered parcels to the respective appointed suits, and information provided from the scanner and the direction switching device, such as suit codes, An article management server for collecting and processing information, and the like.

However, it should be understood that the above-described configurations are merely examples, and even if they are different from one manufacturer to another, they are within the scope of the automatic goods classification system 200 described above.

Such automatic goods classification systems 200 and 400 can be utilized by transmitting acquired or processed information, such as article information, to the mobile terminal 100 or the display device 300 described above.

In one embodiment, the display device 210 serves to display an intuitive image on the display screen, which is received from the mobile terminal 100 via the communication network, and displays an intuitive image on the display screen.

When an intuitive image is displayed on the display screen, the courier can intuitively confirm which courier items are loaded in the courier vehicle 10, and can quickly check the courier delivery time at the time of loading the courier goods and / So that it can be easily processed.

In addition, the display device 300 is connected to the automatic goods classification system 400 and the map map server 410 through the communication network without being connected to the mobile terminal 100, collects the information, It can also be implemented as an image and displayed on the display screen. This example will be discussed in more detail later in FIG.

Here, the above-described display device 210 may simply refer to a display panel having a display screen, or may include a display screen, an information transmission / reception module, a control module, and a storage unit.

Lastly, the map map servers 220 and 410 according to an exemplary embodiment of the present invention can transmit the position information and the map map of the delivery vehicle 10 to the mobile terminal 100 or the display device 300 And can be used to determine the dispatching order and route search of the delivery items.

On the other hand, the above-mentioned communication network can be configured regardless of its communication mode such as a wired network and a wireless network.

Hereinafter, various embodiments for realizing a state of a courier article in an intuitive image in the mobile terminal 100 and the display device 300 will be described in more detail.

<Embodiment of Mobile Terminal>

2 is a block diagram exemplarily showing an example of a mobile terminal for implementing an intuitive image according to an embodiment.

2, the mobile terminal 100 includes an article size recognizing unit 110, an article image generating unit 120, a spatial image obtaining unit 130, a batch image generating unit 140, A delivery completion image mapping unit 160, a delivery incomplete image mapping unit 170, a control unit 180, and a storage unit 190. [0033]

In one embodiment, the article size recognition unit 110 receives and recognizes the article information, the transportation route information, and the like from the automatic goods classification system through the communication network, or recognizes at least one article information, It can recognize immediately.

Here, the article information and / or the information on the waybill mentioned include the size of a courier item required in the embodiment. Accordingly, the article size recognizing unit 110 can extract the courier article size required to implement the courier article status as an image and recognize the courier article size from the article information and / or the courier information.

In one embodiment, the article image generating unit 120 can generate at least one intuitive article-by-article image according to the article size of the article delivered by the article size recognizing unit 110 described above using an image processor or the like have.

The mentioned image processor may be an algorithm for implementing the delivery article size as an actual 3D shape or an image in the form of a mesh or a device provided inside and / or outside the mobile terminal 100.

For example, when the image processor is located inside the mobile terminal 100, the article image generator 120 may include an image processor. Such an image processor is generally well known in the art, and a special technical solution will be omitted in this embodiment. In addition, the above-described image processor can be involved in each of the structures described below as described above.

In one embodiment, the spatial image acquiring unit 130 receives a layout space image reflecting a substantial stack size from the display device 210 disposed in the delivery vehicle 10 via the communication network, or receives the article information and / The image of the layout space may be provided.

However, the acquisition of the batch space image is not limited to the above-described example, and various examples are possible, for example, the image may be input in a state where it is already created through the user interface.

The placement space image mentioned may be different in size for each delivery vehicle 10 and may be image information in 3D form or mesh form. The thus obtained batch space image can be stored in the memory.

In one embodiment, the batch image generation unit 140 arranges at least one per-article-by-article image generated by the above-described article image generation unit 120 in the layout space of the layout space image stored in the above- You can create a batch image. Preferably, the generated intuitive article arrangement image is in the form of a 3D image or a mesh image. In consideration of space efficiency, at least one per article of courier article may be arranged in a layout space of the layout space image.

Here, the technique of arranging images of at least one courier article in the arrangement space may take various forms.

For example, the batch image generation unit 140 according to the embodiment may arrange at least one per-courier article image in the layout space based on each courier item size obtained previously or the shipping order given to the courier item .

The mentioned order of shipment may be processed using the information transmitted and received between the batch image generating unit 140 and the map map server 220 and / or the batch image generating unit 140 and the automatic goods classification system 200 Information.

For example, the batch image generation unit 140 receives the position information and the map map of the courier vehicle 10 or the mobile terminal 100 from the map map server 220, It is possible to map the positional information of the delivery vehicle 10 or the mobile terminal 100 to the map map, and then determine the order of delivery (delivery algorithm) in which the delivery distance between the source and destination is short.

However, the above-described order of shipment may be determined in various orders, such as not being based on the delivery distance, and also being determined in the order preferred by the courier.

In one embodiment, the image transmitting unit 150 may transmit the intuitive article batch image generated by the above-described batch image generating unit 140 to the display device 210 via the communication network.

Accordingly, the display device 210 can display the intuitive article arrangement image provided from the image transmission unit 150 in the form of a 2D or 3D or a mesh image on the display screen.

In this case, the courier article can load the courier article on the courier vehicle 10 while viewing the intuitive article arrangement image displayed on the display screen. As described above, when the courier goods are loaded on the courier vehicle 10, it is possible to check the intuitive article arrangement state of various 3D or mesh images by adjusting the mobile terminal 100 during delivery or departure, It can be helpful.

In addition, in terms of layout efficiency, at least one per-article-by-article image may be arranged in the layout space of the layout space image with priority to either the horizontal, vertical, or height directions.

That is, when there is a requested article to be arranged in any one of the horizontal, vertical and height directions of the article of the article among the delivery articles, considering the arrangement of the image of the article, It can be arranged in the layout space of the layout space image with priority in one direction.

In one embodiment, the delivery complete image mapping unit 160 is configured so that the courier article of any of the at least one courier article images arranged in the layout space of the layout space image stored in the memory described above is delivered , It is possible to map the delivery completion message inputted through the user interface to an arbitrary first courier product image.

In this case, the image transmitting unit 150 described above may further transmit the intuitive article batch image including the mapped completed message to the display device 210 via the communication network.

In one embodiment, the delivery imperfect image mapping unit 170 is configured so that the courier item of any of the at least one courier article images disposed in the layout space of the batch space image stored in the memory described above is not yet delivered (If not yet distributed), a delivery incomplete message may be mapped to the optional second courier article image via the user interface.

In this case, the above-described image transmitting unit 150 may further transmit the intuitive article batch image including the completed mapped message to the display device 210 through the communication network.

Accordingly, the courier can intuitively and frequently check the delivery status of the courier goods through the intuitive article batch image confirmation including the completion message and / or the incomplete message displayed on the display screen of the display device 210.

The control unit 180 includes the article size recognizing unit 110, the article image generating unit 120, the spatial image obtaining unit 130, the batch image generating unit 140, the image transmitting unit 150, The delivery complete image mapping unit 160 and the delivery imperfect image mapping unit 170 as well as the storage unit 190 and the image processor and the user interface described above.

In addition, the product size recognizing unit 110, the product image generating unit 120, the spatial image obtaining unit 130, the batch image generating unit 140, the image transmitting unit 150, the delivery complete image mapping unit 160 And the delivery imperfect image mapping unit 170 may be part of the control unit 180. [

Finally, the storage unit 190 according to one embodiment includes an article size recognition unit 110, an article image generation unit 120, a spatial image acquisition unit 130, a batch image generation unit 140, an image transmission unit 150, the delivery completed image mapping unit 160, the delivery imperfect image mapping unit 170, and the control unit 180, and if there is a request from the above-mentioned configuration, . &Lt; / RTI &gt;

Such a storage 190 may include at least one memory, which may include various types of storage media.

&Lt; Embodiment of display device >

3 is a block diagram exemplarily showing an example of a display device for implementing and displaying an intuitive image according to an embodiment.

3, the display apparatus 300 includes an article size recognizing unit 310, an article image generating unit 320, a spatial image generating unit 330, a layout image generating unit 340, A display unit 350, a delivery completed image mapping unit 360, a delivery imperfect image mapping unit 370, a control unit 380, and a storage unit 390.

First, in one embodiment, the article size recognizing unit 310 receives and recognizes the article information, the transportation route information, and the like from the automatic goods classification system 400 through the communication network, or receives at least one article information , And information on the waybill can be immediately recognized.

Here, the article information and / or the information on the waybill mentioned include the size of a courier item required in the embodiment. Accordingly, the article size recognizing unit 110 can extract the courier article size required to implement the courier article status as an image and recognize the courier article size from the article information and / or the courier information.

In one embodiment, the article image generating unit 320 can generate at least one intuitive article-by-article image matching the article size of the article delivered by the article size recognizing unit 310 described above using an image processor or the like have.

The mentioned image processor may be an algorithm built into or / or external to the display device 300 for implementing the delivered article size as an image in real 3D or mesh form.

For example, when the image processor is inside the display device 300, the product image generator 320 may include an image processor. Such an image processor is generally well known in the art, and a special technical solution will be omitted in this embodiment. In addition, the above-described image processor can be involved in each of the structures described below as described above.

In an embodiment, the spatial image generating unit 330 may receive a substantial stack size, which is a space in which a parcel delivery amount is loaded, through a user interface, and generate a layout space image based on the substantial stack size.

The actual load size mentioned means the actual inner space size of the courier vehicle 10 on which the courier load is loaded, and the generated layout space image based on the layout space is used as a layout space for the virtual courier load to be displayed on the display screen It can mean.

Such a layout space image can be generated by adjusting the ratio of the actual internal space size and stored in the memory.

In one embodiment, the batch image generation unit 340 arranges at least one per-article-by-article image generated by the above-described article image generation unit 320 in the layout space of the layout space image stored in the above- You can create a batch image.

Preferably, the generated intuitive article arrangement image is in the form of a 3D image or a mesh image. In consideration of space efficiency, at least one per-article article may be arranged in the arrangement space.

Here, the technique of arranging images of at least one courier article in the arrangement space may take various forms.

For example, the batch image generation unit 340 according to the embodiment may arrange at least one per courier article image in the batch space based on each courier article size obtained previously or the shipping order given to the courier article .

The mentioned order of delivery may be processed using the information transmitted and received between the batch image generating unit 340 and the map map server 410 and / or the batch image generating unit 140 and the automatic goods classification system 200 Information.

For example, the batch image generating unit 340 receives the positional information and the map map of the delivery vehicle 30 from the map map server 410, receives the address information of the courier vehicle 10 After mapping the location information to the map map, it is possible to determine the order of delivery (delivery algorithm) for the shortest distance between the departure point and the destination point obtained through the route search.

However, the above-described order of shipment may be determined in various orders, such as not being based on the delivery distance, and also being determined in the order preferred by the courier.

In addition, in terms of layout efficiency, at least one per-article-by-article image may be arranged in the layout space of the layout space image with priority to either the horizontal, vertical, or height directions.

In one embodiment, the image display unit 350 can display the intuitive article placement image generated by the placement image generation unit 340 described above on a display screen disposed on the exterior of the delivery vehicle 10.

Accordingly, the intuitive article arrangement image provided from the image display unit 350 can be displayed on the display screen in 2D, 3D, or a mesh image form.

In this case, the courier article can load the courier article on the courier vehicle 10 while viewing the intuitive article arrangement image displayed on the display screen. As described above, when a courier item is loaded on the courier vehicle 10, the intuitive article arrangement state of various 3D or mesh image types can be checked during delivery or departure by adjusting through a user interface, which is very useful for courier delivery and management .

In one embodiment, the shipping complete image mapping unit 360 is configured to map any one of the at least one courier article images disposed in the layout space of the layout space image provided by the above- The delivery completion message input through the user interface may be mapped to an arbitrary first courier product image.

In this case, the above-described image display unit 350 can further display the intuitive article arrangement image including the mapped completion message on the display screen disposed on the exterior of the delivery vehicle 10.

In one embodiment, the delivery imperfect image mapping unit 370 maps any one of the at least one courier article images placed in the layout space of the layout space image provided by the above-described spatial image obtaining unit 130 If the courier article of the article image is not yet delivered (if not yet distributed), the delivery incomplete message may be mapped to an arbitrary second courier article image via the user interface.

In this case, the above-described image display unit 350 can further display the intuitive article arrangement image including the completed mapped message on the display screen disposed on the exterior of the delivery vehicle 10. [

Accordingly, the courier can intuitively and frequently check the delivery status of the courier goods through the intuitive article batch image confirmation including the completion message and / or the incomplete message displayed on the display screen of the display device 300.

The control unit 380 includes the article size recognizing unit 310, the article image generating unit 320, the spatial image generating unit 330, the batch image generating unit 340, the image displaying unit 350, Not only the delivery completion image mapping unit 360 and the delivery imperfect image mapping unit 370 but also further controls the storage unit 390 and the image processor and / or the user interface described above.

In addition, the article size recognizing unit 310, the article image generating unit 320, the spatial image generating unit 330, the batch image generating unit 340, the image displaying unit 350, the delivering image mapping unit 360, And the delivery imperfect image mapping unit 370 may be part of the control unit 180. [

Finally, the storage unit 390 according to one embodiment includes the article size recognition unit 310, the article image generation unit 320, the spatial image generation unit 330, the layout image generation unit 340, The delivery completion image mapping unit 360, the delivery incomplete image mapping unit 370, and the control unit 380. Further, when there is a request from the above-mentioned configuration, Processing function.

In the above description, the state of the courier goods is implemented in the mobile terminal 100 or the display device 300 and displayed on the display screen of the display devices 210 and 300 before the courier goods are placed on the courier vehicle. Hereinafter, The implementation of the state of the courier article on the display device or the mobile terminal after being placed in the courier vehicle will be described.

<Other Embodiments of System>

4 is a block diagram exemplarily showing another example of a system for implementing an intuitive image according to an embodiment.

Referring to FIG. 4, a system according to one embodiment may include a display device 500, an automatic goods classification system 600, and a sensing sensor 610.

In one embodiment, the display device 500 is connected to the automatic goods classification system 600 through a communication network, collects the information, and implements the delivered article state as an intuitive image and displays it on the display screen.

At this time, the display device 500 can arrange the state of the corresponding courier article in the courier arrangement space in an intuitive image based on the positional information of the courier article sensed from the electrically connected sensing sensor 610.

In one embodiment, the automatic goods classification system 600 is a system for sorting courier articles placed on a plurality of conveyors into a predetermined suit, for example, a scanner for identifying a courier item placed in a plurality of couriers and a courier (Also referred to as a "sorter device") for redirecting an article and discharging it to each predetermined suit, and information provided from the scanner and the direction switching device, such as a suit code, article classification code information and the above- An article management server for collecting and processing articles, and the like.

However, it should be understood that the above-described configurations are merely examples, and even if they are different from one manufacturer to another, they are within the scope of the automatic goods classification system 600 described above.

Such an automatic goods classification system 600 can be utilized by transferring acquired or processed information, such as article information, to the above-described display apparatus 500. [

Finally, the detection sensor 610 is installed in the arrangement space of the courier vehicle 20 to detect the positional information of each courier article to be loaded and / or the identification information of the courier article when the courier article is loaded into the arrangement space do.

The sensing sensor 610 may be at least one of an infrared ray sensor, a position sensor, a gyro sensor, an image sensor, a motion sensor, and an angular velocity sensor. However, It can be a well-known sensor.

Thus, if an intuitive image is displayed on the display screen, the courier can intuitively confirm which courier goods are loaded in the courier vehicle 20, and can check the courier delivery time when loading courier goods and / Can be processed quickly and easily.

<Other Embodiments of Display Device>

5 is a block diagram exemplarily showing another example of the display device according to the embodiment.

5, a display device 500 according to an exemplary embodiment of the present invention includes an article position obtaining unit 510, an article size recognizing unit 520, An image display unit 560, a delivery completed image mapping unit 570, a delivery imperfect image mapping unit 580, a control unit 585, and a storage unit 560. [ 590 &lt; / RTI &gt;

Here, the article size recognizing unit 520, the article image generating unit 530, the spatial image generating unit 540, the image displaying unit 560, the delivery complete image mapping unit 570, the delivery incomplete image mapping unit 580, The control unit 585, and the storage unit 590 perform the same or very similar functions as those of the corresponding configurations of FIG. 3 described above, so that their descriptions will be omitted.

However, the following description will focus on the article position obtaining unit 510 and the layout image generating unit 550 which are somewhat different from those of the display device 300 of FIG. 3 described above.

In one embodiment, the article location obtaining section 510 can obtain location information and identification information of the courier article disposed in the courier vehicle 20 from at least one detecting sensor 610.

In one embodiment, the batch image generation unit 550 generates at least one per-article-by-article image generated by the article image generation unit 530 in a layout space of the layout space image generated by the spatial image generation unit 540 The intuitive article arrangement image can be generated by disposing based on the position information and the identification information obtained by the article position acquiring section 510 described above.

Preferably, the generated intuitive article arrangement image is in the form of a 3D image or a mesh image. In consideration of space efficiency, at least one per-article article may be arranged in the arrangement space.

In addition, in terms of layout efficiency, at least one per-article-by-article image may be arranged in the layout space of the layout space image with priority to either the horizontal, vertical, or height directions.

Accordingly, the image display unit 560 can display the intuitive article arrangement image generated by the placement image generation unit 550 described above on the display screen disposed on the exterior of the delivery vehicle 20.

In the mentioned display screen, the intuitive article arrangement image provided from the image display section 560 can be displayed in the form of a 2D or 3D or a mesh image.

In this case, the courier article can load the courier article on the courier vehicle 20 while viewing the intuitive article arrangement image displayed on the display screen. As described above, when a courier item is loaded on the courier vehicle 20, the intuitive article arrangement state in various 3D or mesh image form can be checked during delivery or departure by adjusting through the user interface, which is very useful for courier delivery and management .

On the other hand, an example in which the state of the courier article is implemented in the mobile terminal after the courier article is arranged in the courier vehicle will be omitted. However, as can be seen from the embodiment of FIG. 2, it can be seen that functions such as the above-described article position obtaining section 510 and the batch image generating section 550 can be sufficiently performed if they relate to a mobile terminal, A description thereof will be omitted.

Hereinafter, how the intuitive article arrangement image is displayed on the display screen of the display apparatuses 210, 300, and 500 and how the intuitive article arrangement image is formed will be described below as an example.

<Example of display screen>

6 is a state diagram illustrating an exemplary display screen of a display device according to an embodiment.

6, a display screen 25 of a display device 210, 300, or 500 according to an embodiment is displayed on a display screen 25 in which a courier item is to be loaded (placed) on a courier vehicle, It is possible to display the layout space 30 and display the status of the courier article in which the intuitive article arrangement images 40 and 50 corresponding to the actual courier articles are arranged with respective unique article information Can be displayed.

Like this, among the intuitive article arrangement images 40 and 50 corresponding to the actual articles delivered on the display screen, reference numeral 40 indicates an intuitive article arrangement image including a delivery completion message (not shown) May indicate an intuitive article placement image, including an incomplete delivery incomplete message (not shown).

Thus, in this embodiment, by displaying the intuitive article arrangement image corresponding to the actual courier article on the display screen, the courier article intuitively displays the image state of each courier article at the time of loading the courier product or at the time of delivery at the courier vehicle By confirming through the screen, it is possible to have a variety of advantages such as greatly reducing the delivery and delivery time of the courier goods.

&Lt; Embodiment of 3D image form >

7 is a state diagram illustrating an exemplary form of an intuitive article placement image according to an embodiment.

Referring to FIG. 7, the display screen 25 of the display device according to the embodiment displays an intuitive article placement image 40 including a delivery completion message (not shown) in a completed state, and a delivery incomplete message An intuitive article arrangement image 50 including a plurality of images (not shown) may be implemented in the form of a 3D image and placed in the arrangement space 30. [

Thus, when the intuitive article arrangement images 40 and 50 are displayed on the display screen 25 in the form of a 3D image, the courier is intuitive, very easy to check the condition of the courier article in three dimensions, .

While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, it will be understood by those of ordinary skill in the art that various changes in form and detail may be made therein without departing from the spirit and scope of the invention as defined by the following claims And changes may be made without departing from the spirit and scope of the invention.

10, 20: courier vehicle 25: display screen
30: Arrangement space 40,50: Condition of delivery goods
100: mobile terminal 200, 400, 600: automatic goods classification system
210, 300, 500: display device 220, 410: map map server
610: Detection sensor 110, 310, 520:
120, 320, 530: an article image generating unit 130:
140, 340, 550: batch image generation unit 150:
160, 360: Shipment completion image mapping unit 170, 370: Delivery incomplete image mapping unit
180, 380, 585: Control unit 190,
350,560: image display unit 330,540: spatial image generation unit
510: goods position acquiring unit

Claims (19)

An article size recognizing unit for recognizing the size of the deliveries;
An article image generating unit for generating at least one per-article-by-article image according to the recognized size of the delivered article;
A batch image generating unit for arranging the images of the at least one courier article in a layout space of the pre-stored batch space images to generate an article batch image; And
An image transmission unit for transmitting the generated product placement image to a display device of the arrangement space;
Wherein when a courier article of an arbitrary first courier article image is delivered from at least one courier article image disposed in the arrangement space, a delivery completion message inputted through a user interface is mapped to the arbitrary first courier article image A delivery complete image mapping unit;
Lt; / RTI &gt;
The batch image generation unit generates,
Placing at least one courier article-specific image in the arrangement space based on a shipping order given to the courier item,
The order of delivery is,
The location information of the delivery vehicle provided by the map map server and the addressee address of the delivery article are mapped to the map map and the delivery distance between the departure point and the destination point obtained through the route search is determined in the shortest sequence,
Wherein the image transmission unit comprises:
And further transmits the product placement image including the mapped delivery completion message to the display device.

The method according to claim 1,
The size of the courier goods,
Characterized in that the information is information transmitted from an automatic goods classification system through a communication network or inputted through a user interface. delete The method according to claim 1,
Wherein the at least one courier article-
Is arranged in the arrangement space with preference to any one of the horizontal, vertical and height directions. The method according to claim 1,
A spatial image obtaining unit that receives a layout space image reflecting a substantial stack size from a display device disposed on a delivery vehicle through a communication network;
Further comprising: delete The method according to claim 1,
A delivery incomplete message is mapped to the arbitrary first courier article image through the user interface when the courier article of any one of the courier article images arranged in the arrangement space is not distributed. An image mapping unit,
Wherein the image transmission unit comprises:
And further transmits the goods placement image including the mapped completed delivery incomplete message to the display device.
A method according to any one of claims 1 to 7,
Characterized in that the article arrangement image has a 3D image form.
A method according to any one of claims 1 to 7,
Wherein the article arrangement image has a mesh form.
An article size recognizing unit for recognizing the size of the deliveries;
An article image generating unit for generating at least one per-article-by-article image according to the recognized size of the delivered article;
A batch image generating unit for arranging the images of the at least one courier article in a layout space of the pre-stored batch space images to generate an article batch image; And
An image display unit for displaying the generated product placement image on a display screen disposed on the exterior of the delivery vehicle;
Wherein when a courier article of an arbitrary first courier article image is delivered from at least one courier article image disposed in the arrangement space, a delivery completion message inputted through a user interface is mapped to the arbitrary first courier article image A delivery complete image mapping unit;
Lt; / RTI &gt;
The batch image generation unit generates,
Placing an image of said at least one courier article in said arrangement space based on a shipping order given to said courier article,
The order of delivery is,
The location information of the delivery vehicle provided by the map map server and the addressee address of the delivery goods are mapped to the map map and the delivery distance between the start point and the destination point obtained through the route search is determined in the shortest sequence.
The image display unit includes:
Further displaying on the display screen an article placement image including the mapped completed delivery completion message.
11. The method of claim 10,
The size of the courier goods,
Characterized in that the information is information which is transmitted from an automatic goods classification system through a communication network or inputted through a user interface. delete 11. The method of claim 10,
Wherein the at least one courier article-
Wherein the display device is arranged in the arrangement space with preference to any one of the horizontal, vertical and height directions. 11. The method of claim 10,
A spatial image generation unit for generating the layout space image based on a substantial stack size;
And a display device. delete 11. The method of claim 10,
And mapping a delivery incomplete message input through the user interface to the arbitrary first courier article image when the courier article of any one of the courier article images arranged in the arrangement space is not yet distributed Further comprising: a delivery incomplete image mapping unit,
The image display unit includes:
Further displaying on the display screen an article placement image including the mapped complete shipping incomplete message.
The method according to any one of claims 10 to 16,
Characterized in that the article arrangement image has a 3D image form.
The method according to any one of claims 10 to 16,
Wherein the article arrangement image has a mesh shape.
11. The method of claim 10,
An article position obtaining section for obtaining positional information and identification information of a courier article disposed in the delivery vehicle from at least one sensor;
And a display device.

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