KR20160116372A - Merchandizing system for three dimentional randered contents using smart phone application - Google Patents

Abstract

The present invention relates to a three-dimensional rendering of content using a smartphone application and a networked rendering server, and an apparatus for rendering a rendered content. After the corrected or photographed images are rendered in 3D and corrected, if necessary, they can be printed on 3D printers after correction and post-processed after commercialization and package delivery at local shops.

Description

[0001] The present invention relates to a merchandising system for three-dimensional rendered content using a smartphone application,

The present invention relates to a merchandising system for three-dimensionally rendered content using a smartphone application.

In particular, the present invention is characterized in that, prior to shooting the content (object) received from the customer (purchaser), the shape is displayed in a state in which the shape is displayed with a special spacer or the like, After rendering and calibrating, if necessary, it can be printed on 3D printer after correction and commercialized.

Generally, rendering refers to a technique for implementing a three-dimensional graphic screen, and is a technique for interpreting the meaning of three-dimensional graphic data and performing data conversion for implementing a three-dimensional graphic screen.

Such a rendering has become very important in expressing a series of virtual video images such as an animation as realistic images as the technology related to computer graphics rapidly develops.

However, in the case of a conventional system for performing 3D rendering, rendering can be performed only when each three-dimensional model data constituting the space is secured. Thus, loading of all the model data constituting the space at the initial stage, I had to perform continuous loading. In particular, in the case of 3D model data existing in the network, it is difficult to implement in the case of rapid movement within a large scale terrain.

Meanwhile, in recent years, the 3D rendering performance of a graphics card has been improved and a program providing an environment using a 3D virtual environment has been increasing. However, different modeling data are used for almost similar 3D objects for each program It was not efficient.

As a specific technique related to rendering, Patent Publication No. 2007-0017785 is disclosed.

This technique includes: a first step of generating vertex data for an original image; A second step of converting the vertex data into world coordinates using a world matrix; A third step of converting the conversion result of the second step into camera coordinates using a camera matrix; And a fourth step of transforming the transformation result of the third step using a projection matrix, including a left-eye rendering process and a right-eye rendering process.

However, this technique is different from the conventional method in that a depth buffer (Z buffer) of a left eye image and a right eye image are set differently, thereby reducing a memory space required for implementing a three-dimensional stereoscopic image, However, it may be inconvenient to move the camera to the left eye or the right eye, and accordingly the accuracy of the operation may not be high, and the depth buffer calculation of the projection image may reflect the inaccuracy. There was a limit to obtaining quality.

Therefore, taking into consideration these problems associated with rendering, it is a very effective business model if we construct a system that embodies the object shape in a simple manner, 3Dizes it, processes it appropriately, and prints it on a 3D printer will be.

[Prior Art]

Patent Publication No. 2007-0017785

SUMMARY OF THE INVENTION The present invention has been made in order to solve the problems of the related art and to take into account future demands, and it is an object of the present invention to provide an apparatus and a method for directly A 3D image is displayed on a 3D printer after a correction operation is carried out after displaying a shape of the shape or after displaying a shape on the photographed image and rendering the 3D image, And to provide a merchandising system for three-dimensionally rendered content using a phone application.

Other objects of the present invention will be clearly understood from the following detailed description.

According to another aspect of the present invention, there is provided a system for merchandising a three-dimensional rendered content using a smartphone application according to a first embodiment of the present invention includes a multi platform for performing order reception processing, content storage and transaction, and rendering correction; An ordering terminal for ordering content production for a multiplatform; A content creator terminal for receiving content production information from a multi-platform for creating content received from an ordering terminal on a multi-platform, taking a content, and rendering the 3D content; And a regional shop server for receiving the 3D rendered content from the multi-platform and re-calibrating the 3D rendered content by the content creator terminal in the multi-platform and 3D printing the 3D shop.

The content creator terminal may include a shooting app for shooting content received from a multiplatform; And a rendering app for rendering 3D content rendered by the photographed app.

The rendering application of the content creator terminal displays the shape of the photographed image in a dot or line and displays it in 3D after photographing or photographing in a state of being displayed with a dot or line of content by a sign pen before photographing the content .

The multi-platform is characterized in that the content production cost is paid from the purchaser.

According to another aspect of the present invention, there is provided a system for merchandising a three-dimensional rendered content using a smartphone application according to a second embodiment of the present invention includes a multi-platform for controlling order reception processing, content storage, and transaction; An ordering terminal for ordering content production for a multiplatform; A content creator terminal for receiving content production information from a multi-platform for creating content received from an ordering terminal on a multi-platform, taking a content, and rendering the 3D content; A rendering correction server for correcting 3D rendered content by a content producer terminal; And a local shop server for 3D printing the content received from the rendering correction server.

In order to achieve the above object, the 3D commercialized content commercialization system using the smartphone application according to the third exemplary embodiment of the present invention includes 3D rendering of contents, order receiving processing, contents storing and trading, Multi-platform; An ordering terminal for ordering content production for a multiplatform; A content creator terminal for receiving content production information from a multi-platform for creating content received from an ordering terminal on a multi-platform, taking a content, and rendering the 3D content; And a rendering correction server that corrects the 3D rendered content by the content producer terminal and transmits the corrected 3D rendering content to the multi platform.

In order to achieve the above object, a merchandizing system for three-dimensionally rendered contents using a smartphone application according to a fourth embodiment of the present invention includes a multi-platform for performing order reception processing, content storage and transaction, and rendering correction; A purchaser terminal for photographing the content before shooting of the content in a state in which the shape is displayed by a point pen or a line by a pen or displaying a shape on the photographed image, And a local shop server for receiving the 3D rendered content from the multi-platform by the ordering terminal and 3D printing the received content.

The ordering terminal comprises a photographing app for photographing contents; And a rendering app for rendering 3D content rendered by the photographed app.

According to the merchandising system for three-dimensionally rendered content using the smartphone application of the present invention, the system displays the shape of the object before photographing the order-received content from the customer or displays the shape on the photographed image after photographing After 3D rendering and correction, it can be used as a profitable business by making it possible to commercialize it by printing it on a 3D printer after correction.

In addition, according to the system for merchandizing 3D rendered content using the smartphone application of the present invention, a large, ultra-precise, and special output that can not be reworked in a local shop can be transmitted to the platform through a rendering correction server It is possible to render contents without interruption and commercialization regardless of the kind of contents.

FIG. 1 is a system for rendering and commercializing three-dimensional rendered contents according to an apparatus for merchandizing contents rendered using a smartphone application according to a first embodiment of the present invention. FIG.
FIG. 2 is a system for rendering and commercializing three-dimensional rendered contents according to an apparatus for merchandizing contents rendered using a smartphone application according to a second embodiment of the present invention. FIG.
FIG. 3 is a system for rendering and commercializing three-dimensional rendered content according to an apparatus for merchandizing contents rendered using a smartphone application according to a third embodiment of the present invention.
FIG. 4 is a diagram showing an example of a program provided in a content producer, a multi-platform, a rendering correction server, and a local shop, which is a configuration of the present invention.
5 is a general operational flow diagram of the present invention;

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

While the invention is susceptible to various modifications and alternative forms, specific embodiments thereof are shown by way of example in the drawings and will herein be described in detail. It is to be understood, however, that the invention is not to be limited to the specific embodiments, but includes all modifications, equivalents, and alternatives falling within the spirit and scope of the invention.

And / or < / RTI > includes any combination of a plurality of related listed items or any of a plurality of related listed items.

The terminology used herein is for the purpose of describing particular embodiments only and is not intended to be limiting of the invention.

The singular expressions include plural expressions unless the context clearly dictates otherwise. In the present application, the terms "comprises" or "having" and the like are used to specify that there is a feature, a number, a step, an operation, an element, a component or a combination thereof described in the specification, But do not preclude the presence or addition of one or more other features, integers, steps, operations, elements, components, or combinations thereof.

Unless defined otherwise, all terms used herein, including technical or scientific terms, have the same meaning as commonly understood by one of ordinary skill in the art to which this invention belongs.

As the two-dimensional photographic and imaging technology developed in the 19th and 20th century evolved into the 3D technology in the 21st century, the present invention has been rapidly growing in related field technology, and the manufacturing change employing these technologies is called "the third industrial revolution "And it is designed to create the related industrial ecosystem by positively accepting the expansion and change of the 3D printer market.

The basic concept of the present invention is that a consumer (a customer, an orderer) displays an object shape with a special pen or the like before or after photographing the contents received by order for production, 3D rendering through a smartphone application, When the rendered data is transferred to a shop (for example, a branch office), it is reworked to be printed on a 3D printer and then delivered, and the platform has a flow of receiving the order production cost of contents from the client.

In this case, the large, ultra-precise, and special prints that can not be reworked in the local shops are configured to be delivered to the purchaser after working on the center (platform), and the platform is linked with the content producer and / And education, continuous promotion, development and management of apps for servers and smartphones, purchase of common materials, and development of output content design.

As shown in FIG. 1, a merchandising system for three-dimensionally rendered content using a smartphone application according to an embodiment of the present invention includes a purchaser 20 for ordering content, a content creator 30, a multi-platform 10 for performing an application order reception process, content storage and transaction processing, and secondary rendering, and finally, a local shop 50 for post processing, packaging and delivery such as rendering.

The components are connected to each other through a network for transmitting and receiving necessary information.

The contents referred to in the present invention are collectively referred to as unprocessed or processed, which is a pre-stage of commodification. For example, there are no restrictions on objects such as objects, photographs, drawings, and printed matter.

Such content may be stationary or moving. This is because the merchandising method according to the contents merchandising system of the present invention photographs the contents in a state in which the shapes are displayed with a special pen or the like before photographing the contents or displays the shapes in the captured images after the photographing and renders them in 3D, , And if necessary, the merchandising is completed after correcting work.

In FIG. 1, the multi-platform 10 is configured to perform overall control in the present invention such as content storage and transaction processing, secondary rendering (correction), application order reception processing and transmission, The content creator requests the content to be produced in accordance with the request of the purchaser.

Accordingly, the multi-platform receives the fee for the contents production from the orderer 20 who ordered the contents.

In addition, the multi-platform 10 stores and manages contents produced by the content creator, and transmits the content to the purchaser directly, or transmits the content to the local shop, and is delivered to the purchaser through processing such as post-processing.

In addition, the multi-platform 10 performs a function of re-rendering the rendered content.

The purchaser 20 owns an information communication terminal such as a smart phone or a PC notebook, and receives a content desired by the purchaser 20 on the multi-platform 10.

Therefore, the purchaser 20 and the multi-platform 10 are networked through a wired / wireless network (Internet) so that bidirectional communication is possible.

The purchaser 20 can order an image by photographing the shape of an object or the like as a content object and transmitting the photographed image to the platform so that the content desired by the purchaser can be produced.

In addition, the purchaser 20 may order information in such a manner that the information on the object shape, which is the object of his / her own, is created in a keyword or a narrative expression and can be searched on the platform.

In any case, the multi-platform 10 can be constructed so that bidirectional communication with the customer can be performed in order to precisely grasp the contents desired by the customer and to process and commercialize the contents.

In addition, the purchaser 20 can display the shape of the object by using a special stylus pen and recognize it in the smartphone app, thereby improving the accuracy of the lan- guering work. In addition, Can enhance the rendering accuracy of smartphone apps.

That is, it is possible to display an object shape using a sine pen before or after photographing, and it is possible to perform primary rendering on the app after photographing to correct the rendering if necessary. Therefore, the purchaser 20 is provided with a shooting app and a rendering correction app. Of course, in this case, the content creator may be omitted from the configuration.

The content creator 30 is a device for owning a smartphone or the like and for producing content received by the purchaser 20 in order for the multi platform 10. The content creator 30 is a 3D rendering device for rendering the shot app and the captured content shape in 3D, Have an app.

The content creator 30 is capable of bidirectional communication with the multi platform 10 for accepting desired contents from the purchaser 20 through the wired / wireless network (Internet). When the order creator 20 produces the ordered content And transmits it to the multiplatform 10.

Therefore, the content creator 30 must include a built-in or external camera in a smart phone or the like, and these cameras, smartphone operation software, and a control program for interlocking the apps.

At this time, the photographed object is simply pointed or drawn with a special pen.

Preferably, the local shop 50 is networked with the multiplatform 10 and the wired / wireless network in order to receive the contents corrected from the multiplatform 10, and is set as a shop adjacent to the location of the purchaser 20 who has ordered the contents as much as possible And a server function is automatically implemented to be delivered to the customer's location and order area shop.

According to the second embodiment of the present invention, a rendering correction server 40 is additionally configured as shown in Fig.

In FIG. 2, the rendering correction server 40 is a configuration for correcting contents shot by the smartphone of the content producer 30 and rendered in 3D.

Rendering correction is the work of raising the value of the product by color correction, exposure correction, size correction, brightness correction, and so on.

By precisely calibrating tasks that are difficult to perform in smartphone apps by using high-level hardware and software, it is possible to reduce server construction cost by distributing load between smartphone apps and server, and to improve accuracy and error correction through dual correction rendering. It is possible to realize a precise and economical 3D rendering system.

Also, the rendering server 40 is networked with a wired / wireless network capable of data communication with a smart phone so that the content producer 30 can receive the 3D rendered object photographed from the smart phone of the content producer 30.

The operation of the rendering server 40 shown in Fig. 2 is the same as the rendering correction operation of the multiplatform 10 of Fig. 1, which represents the first embodiment of the present invention.

In the second embodiment of the present invention, the local shop 50 receives the corrected merchandise from the rendering server 40, outputs the corrected merchandise to the 3D printer, and delivers the processed merchandise to the customer through the post-processing.

Therefore, in the second embodiment of the present invention, the local shop 50 is networked with the rendering server 40 and the wired / wireless network in order to receive the corrected content from the rendering server 40, It is preferable to designate the shop adjacent to the location of the customer and the server function to be automatically delivered to the ordering location shop and order place shop.

According to the first and second embodiments of the present invention, as shown in FIG. 5, when the purchaser 20 makes a content production order to the multi-platform 10 through the information communication terminal such as a smart phone, The multi-platform 10 sends these orders to the content creator 30.

Accordingly, the content creator 30 photographs or displays the shape of the desired content before displaying the desired content by the smartphone application, displays the shape on the captured image, and performs 3D rendering.

At this time, the object shape display is performed by point, line, or the like.

In this way, the content photographed by the content creator 30 and rendered in 3D is transmitted to the multiplatform 10, and is re-rendered for quality improvement. Performing this operation is based on that shown in Fig. 1 showing the first embodiment.

2 based on the second embodiment, the 3D content rendered by the content creator 30 is transmitted to the rendering correction server 40 and is re-rendered.

Accordingly, the content that has been subjected to the rendering correction is transmitted to the local shop 50, and the local shop 50 performs the correction operation or transmits it to the 3D printer as it is received from the multiplatform 10 or the rendering correction server 40 And outputs it to the purchaser 20 who ordered the content.

1, when the purchaser 20 orders content creation on the multi-platform 10, the multi-platform 10 receiving the order information confirms whether the delivery of the content to the purchaser is performed, for example, The order creator 30 transmits the order information to the content creator 30 so as to perform the object shooting for producing the content ordered by the purchaser 20, The platform 20, the multi-platform 10, and the content creator 30 so that rendering can be performed.

However, the present invention is not limited to this case. When the orderer 20 directly orders the content creator 30 to produce content, the order information is transmitted back to the multi-platform 10 from the content producer 30, The content creator 30, and the multi-platform 10 so as to confirm whether or not the contents will be shipped to the orderer and pay the costs.

Further, as shown in the description with reference to FIG. 1, the purchaser 20 photographs the shape with lines or points by using a felt-tip pen or the like before photographing the contents, or displays the shape on the photographed image after the photographing A more precise rendering correction job may be accepted while transmitting the same to the multi-platform 10.

In this case, since the content is already photographed by the purchaser 20 and the first rendering is completed, the multi platform 10 receiving the order for additional rendering correction does not need to transmit it to the content creator 30.

In other words, it is an original function that the content creator 30 captures and renders the content, and the function of the content creator 30 is duplicated by the purchaser 20 performing it directly.

Therefore, in the case of FIG. 1, which is the first embodiment in the state where the content creator 30 is omitted, in the case of FIG. 2 in the second embodiment, the content subjected to the rendering correction in the rendering correction server 40 is And is delivered to the purchaser 20 through the local shop 50.

In FIG. 2, it is illustrated that content rendered by the rendering correction server 40 is transmitted to the local shop 50, processed after the post-processing, and then delivered to the purchaser 20.

However, the present invention is not limited thereto. As shown in FIG. 3, the rendering correction server 40 and the multi-platform 10 may be directly connected to each other through a network without configuring the local shop 50 in a network.

The configuration example shown in FIG. 3 allows the contents to be rendered between the rendering correction server 40 and the multi-platform 10 to be transmitted in a large size, super-precise, and special prints that can not be reworked in the local shop 50 So that the multi-platform 10 can post-process it and deliver it to the purchaser 20.

10: Multiplatform 20: Buyer
30: Content creator 40: Rendering correction server
50: Local shop server

Claims (14)

A multi-platform for performing order reception processing, content storage and transaction, and rendering correction;
An orderer terminal for ordering content creation for the multiplatform;
A content creator terminal for receiving content production information from a multi-platform for creating content received from the ordering terminal to a multi-platform, and rendering the content after capturing the content;
And a local shop server for receiving the 3D rendered content from the multi-platform and recreating the 3D rendered content by the multi-platform, and 3D printing the 3D rendered content. The method of claim 1, wherein the content creator terminal
An imaging app for capturing content received from multiple platforms; And
And a rendering application for rendering 3D content rendered by the photographed app is stored in the device for commercializing 3D rendered content using the smartphone application. The method of claim 2, wherein the rendering application of the content producer terminal
The content is displayed in the form of a dot or line before the content is photographed, or the content is displayed in dot or line on the photographed image, and rendered in 3D. Dimensional commercialized content. 2. The system of claim 1,
And the content production cost is paid from the purchaser. The device for commercializing the content rendered in three dimensions using the smartphone application. Multi-platform to control order receipt processing, content storage and transactions;
An orderer terminal for ordering content creation for the multiplatform;
A content creator terminal for receiving content production information from a multi-platform for creating content received from the ordering terminal to a multi-platform, and rendering the content after capturing the content;
A rendering correction server that corrects 3D rendered content by the content producer terminal; And
And a local shop server for 3D printing the contents received from the rendering correction server. The method of claim 5, wherein the content creator terminal
An imaging app for capturing content received from multiple platforms; And
And a rendering application for rendering 3D content rendered by the photographed app is stored in the device for commercializing 3D rendered content using the smartphone application. The method of claim 6, wherein the rendering application of the content producer terminal
The content is displayed in the form of a dot or line before the content is photographed, or the content is displayed in dot or line on the photographed image, and rendered in 3D. Dimensional commercialized content. 6. The system of claim 5,
And the content production cost is paid from the purchaser. The device for commercializing the content rendered in three dimensions using the smartphone application. Multi-platform delivery of orders, content storage and trading, and 3D printing of rendered content to the purchaser;
An orderer terminal for ordering content creation for the multiplatform;
A content creator terminal for receiving content production information from a multi-platform for creating content received from the ordering terminal to a multi-platform, and rendering the content after capturing the content; And
And a rendering correction server that corrects the 3D rendered content by the content producer terminal and transmits the corrected 3D rendering content to the multi-platform terminal. The method of claim 9, wherein the content creator terminal
An imaging app for capturing content received from multiple platforms; And
And a rendering application for rendering 3D content rendered by the photographed app is stored in the device for commercializing 3D rendered content using the smartphone application. The method of claim 10, wherein the rendering application of the content producer terminal
The content is displayed in the form of a dot or line before the content is photographed, or the content is displayed in dot or line on the photographed image, and rendered in 3D. Dimensional commercialized content. 10. The system of claim 9,
And the content production cost is paid from the purchaser. The device for commercializing the content rendered in three dimensions using the smartphone application. A multi-platform for performing order reception processing, content storage and transaction, and rendering correction;
A purchaser terminal for photographing the content before shooting of the content in a state in which the shape is displayed by a point pen or a line by a die pen or displaying a shape on the photographed image,
And a local shop server for receiving the 3D rendered content from the multi-platform by the ordering terminal and 3D printing the 3D rendered content. 14. The system of claim 13, wherein the ordering terminal
A shooting app for content shooting; And
And a rendering application for rendering 3D content rendered by the photographed app is stored in the device for commercializing 3D rendered content using the smartphone application.

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