WO2017082648A1 - Method for homepage auto-configuration by cloud webhard file and folder architecture, and system therefor - Google Patents

Abstract

The present invention relates to a method for homepage auto-configuration by a cloud webhard file and folder architecture and to a system therefor. The present invention is characterized by comprising: a first step in which a cloud webhard-based homepage responsive web server (3a) transmits responsive web-based homepage information, which matches with a login account, to a user terminal (1) and controls same to be implemented on the user terminal (1); a second step in which the cloud webhard-based homepage responsive web server (3a) performs the setting of a data session change to a responsive web-based homepage configuration and management server (3b) for the user terminal (1) through a cloud network (2), in accordance with a request for the change of the responsive web-based homepage information from the user terminal (1); and a third step in which, according to the control of the responsive web-based homepage configuration and management server (3b), the user terminal (1) implements constituent elements, which constitute a responsive web-based homepage, by dividing same into pieces of region information (40) for respective modification units, implements, in an edge region of the region information, a "modification icon" (20) for modifying a lowest layer (a first layer) according to the respective pieces of region information, and implements at least one "modification mark (30)" for the modification of sequential layers (second to nth layers, wherein n is a natural number greater than or equal to 3), which constitute upper layers of the lowest layer, at preset coordinates among regions in which the respective upper layers of the lowest layer are positioned. Accordingly, the present invention provides the effect of allowing anyone to easily provide styling for a web document (html) for a folder on a webhard, set a display order, and render homepages in various forms.

Description

Method and system for automatic homepage configuration by cloud web hard file and folder architecture

The present invention relates to a method and system for automatically configuring a homepage by a cloud web hard file and folder architecture. More particularly, the present invention provides styling for a web document (html) for a folder on the web hard and displays a display order. The present invention relates to a method and system for automatically configuring a homepage by a cloud web hard file and folder architecture for expressing various types of homepages.

Responsive web-based homepages are available that automatically perform deployment changes on mobile and PC versions.

In addition to these responsive web-based homepages, existing homepages contain pages for content, design, and content changes, so that users need to be provided with management services by experts who have been systematically trained, and users cannot easily change them. Has been.

[Related Technical Documents]

1. Web-based automatic homepage integrated management system and service method (WEB-BASIS'S AUTOMATIC HOMEPAGE INTEGRATION MANAGEMENT SYSTEM AND SERVICE METHED) (Patent Application No. 10-2000-0037728)

2. Homepage creation system, homepage automatic conversion method, program recording media and homepage viewing differentiation method (patent application No. 10-2000) -0013152)

3. Construction Method of Personal Homepage, and Operating Method of Web Messenger (Patent Application No. 10-2000-0003516)

The present invention is to solve the above problems, the method for removing the unnecessary homepage management step, the homepage automatic configuration by the cloud web hard file and folder architecture to allow anyone to manage the homepage by clicking the unit can control , To provide that system.

In addition, the present invention is to automatically configure the homepage by the cloud web hard file and folder architecture for expressing various layouts by setting the row, column and box height values in the style properties of the parent folder for the child folders of the same level It is a method for providing the system.

In addition, the present invention is to provide a method and system for automatically configuring a homepage by a cloud web hard file and folder architecture to enable anyone to easily express a tree-level leveling folder by setting various hierarchical layers. .

However, the objects of the present invention are not limited to the above-mentioned objects, and other objects not mentioned will be clearly understood by those skilled in the art from the following description.

In order to achieve the above object, a method for automatically configuring a homepage by a cloud web hard file and folder architecture according to an embodiment of the present invention includes a cloud web hard-based homepage responsive web server 3a as a user terminal 1. A first step of controlling to be implemented as a user terminal 1 by transmitting responsive web-based homepage information matching the login account; Responsive web-based home page for the user terminal 1 through the cloud network 2 in response to a request for changing the responsive web-based homepage information from the user terminal 1 by the cloud web hard-based homepage responsive web server 3a. A second step of performing configuration and setting of a data session change to the management server 3b; And responsive web-based homepage configuration and control of the management server 3b, the user terminal 1 implements the components constituting the responsive web-based homepage by dividing it into area information 40 for each modified unit. A 'correction icon' 20 for modifying the lowest layer (first layer) according to the information is implemented as a corner region of the region information, and a sequential layer (second layer to nth layer, constituting an upper layer of the lowest layer) a third step of implementing at least one 'correction mark 30' for correcting 3 or more natural numbers) at preset coordinates among regions where each upper layer of the lowest layer is located; Characterized in that it comprises a.

In this case, after the third step, the responsive web-based homepage configuration and management server 3b selects one 'modification icon' and one or more 'modification marks' for configuring region information for each modification unit. A fourth step of waiting for a signal from the user terminal 1 through the cloud network 2; A fifth step of determining whether a responsive web-based homepage construction and management server 3b receives a selection signal for a 'modification icon' constituting one area information with respect to the received selection signal; And when it is determined that the selection signal for the correction icon is received from the selected region information, the responsive web-based homepage configuration and management server 3b corresponding to the selected region implemented as the user terminal 1. When the implementation is completed by the user terminal 1 as the 'detailed modification icon' for the 'correction icon', the lowest layer corresponding to the result performed by the operation according to each detailed modification icon selection signal (first layer) A sixth step of performing reception on change information; It characterized in that it further comprises.

Further, after the sixth step, the responsive web-based homepage composition and management server 3b changes the responsive web homepage information applied to the selected one area for the detailed lowest layer change information through the cloud network 2. A seventh step of performing a request to the cloud web hard-based homepage responsive web server 3a; And an eighth step in which the cloud web hard-based homepage responsive web server 3a makes a change to a file corresponding to the detailed lowest layer change information constituting a folder corresponding to the lowest layer of the selected area information and stores the changed file. ; It characterized in that it further comprises.

In addition, when the selection result signal is not received after the eighth step or the fifth step, the responsive web-based homepage configuration and management server 3b is configured to select one of the at least one 'modification mark'. A ninth step of receiving at least one change information of the second to nth layers according to the received information; And a responsive web-based homepage composition and management server 3b constituting a lower layer as the first layer and sequentially forming at least one or more layers of the second to nth layers corresponding to the change information received in the ninth step. A tenth step of transmitting a request to form a hierarchical structure stacked in ascending order to a cloud web hard-based homepage responsive web server 3a via a cloud network 2; It characterized in that it further comprises.

In addition, after the tenth step, when the cloud web hard-based homepage responsive web server 3a receives the selection signal for the correction icon in the fifth step, a folder corresponding to the lowest layer of the selected area information is received. 'Change has been made to a file corresponding to the detailed lowest layer change information composing', or 'If the selection signal for the edit icon is not received in the fifth step, the detailed lowest level configuring the corresponding folder for the lowest layer In a state in which a change to a file corresponding to the layer change information has not been performed, the change information may be stored in a state file in which the change is performed or in a second to nth layer folder located in a lower folder of the state file in which the change is not performed. An eleventh step of changing and storing a file of a corresponding folder; It characterized in that it further comprises.

In order to achieve the above object, a system for automatically configuring a homepage by a cloud web hard file and folder architecture according to an embodiment of the present invention is configured to automatically configure a homepage by a cloud web hard file and folder architecture. In the system for the responsive web-based homepage configuration and management server 3b, a response corresponding to the user's account in the state of being accessed on the cloud web hard-based homepage responsive web server 3a of the user terminal 1 Realization of region information for each component modification unit controlling the transceiver unit 3b-1 to perform a data session setup for the user terminal 1 through the cloud network 2 in response to a change request for the web-based homepage information. Module 3b-3; And a modification icon for controlling the transceiver 3b-1 to wait for reception of a selection signal for one 'modification icon' constituting area information for each modification unit from the user terminal 1 through the cloud network 2. Application module 3b-4; And transmitting / receiving unit 3b-1 to wait for reception through the cloud network 2 of a selection signal for at least one 'correction mark' implemented from one of the 'modification icons' from the user terminal 1. A control mark application module 3b-5 for controlling; Characterized in that it comprises a.

In addition, when the correction mark application module 3b-5 receives the selection signal for the correction mark, the control unit changes the 'correction mark' corresponding to the selection signal to the 'selection question box' to be implemented in the user terminal 1. After that, the transmitter / receiver 3b-1 is controlled to receive a selection signal for one of the style change and the content change that constitute the selection in the selection question box, and the selection signal for the style change is received. If received, control the implementation of the information box on the user terminal (1) to change the style for the user terminal (1) via the cloud network (2), and then the batch status selection tool, content input tool, file upload tool, Controlling the transmitter / receiver 3b-1 to receive, from the user terminal 1, change information on the layer corresponding to the correction mark selection signal according to the input to the information box implemented by one of the interlocked SNS or the web address setting tool. It is characterized by.

Method for the automatic homepage configuration by the cloud web hard file and folder architecture according to an embodiment of the present invention, the system can remove the unnecessary homepage management step, so that anyone can control the homepage by clicking the control unit Provide the effect.

In addition, a method for automatically configuring a homepage by a cloud web hard file and folder architecture according to another embodiment of the present invention, and the system includes a row, column, and box height in a style attribute of a parent folder for child folders of the same level. By setting the value, you can express various layouts.

In addition, a method for automatically configuring a homepage by a cloud web hard file and folder architecture according to another embodiment of the present invention, and the system can easily express a tree-level leveling folder by setting various hierarchical layers. Provide effect.

1 is a diagram illustrating a system for automatically configuring a homepage by a cloud web hard file and folder architecture according to an embodiment of the present invention.

FIG. 2 is a block diagram illustrating a responsive web-based homepage configuration and management server 3b in a system for automatically configuring a homepage by a cloud web hard file and folder architecture of FIG. 1.

3 to 5 are diagrams illustrating a UI (User Interface) screen implemented in the user terminal 1 of a system for automatically configuring a homepage by a cloud web hard file and folder architecture.

FIG. 6 is a diagram illustrating an implementation process for each modification unit of components constituting a responsive web-based homepage among methods for automatically configuring a homepage by a cloud web hard file and folder architecture according to an embodiment of the present invention.

FIG. 7 is a diagram illustrating a folder forming a lowest layer matching a modified icon in step S150 performed after FIG. 6 in a method for automatically configuring a homepage by a cloud web hard file and folder architecture according to an embodiment of the present invention. It is a flow chart showing the configuration process.

FIG. 8 illustrates an upper layer of a lowermost layer matching the modified mark in step S150 performed after FIG. 6 in the method for automatically configuring a homepage by a cloud web hard file and folder architecture according to an embodiment of the present invention. This is a flow chart showing the configuration process for a folder.

9 to 16 are diagrams illustrating a UI screen implemented in the user terminal 1 in a method for automatically configuring a homepage by a cloud web hard file and folder architecture in FIGS. 6 to 8.

Hereinafter, the detailed description of the preferred embodiment of the present invention will be described with reference to the accompanying drawings. In the following description of the present invention, detailed descriptions of well-known functions or configurations will be omitted when it is deemed that they may unnecessarily obscure the subject matter of the present invention.

In the present specification, when one component 'transmits' data or a signal to another component, the component may directly transmit the data or signal to another component, and through at least one other component. This means that data or signals can be transmitted to other components.

1 is a diagram illustrating a system for automatically configuring a homepage by a cloud web hard file and folder architecture according to an embodiment of the present invention. Referring to FIG. 1, a system for automatically configuring a homepage by a cloud web hard file and folder architecture includes a user terminal assembly 1G composed of at least two user terminals 1, a cloud network 2, and a cloud web hard base. Homepage responsive web server 3a and responsive web-based homepage configuration and management server 3b. Here, the cloud web hard-based homepage responsive web server 3a and the responsive web-based homepage configuration and management server 3b may be integrally formed with a homepage providing server 3G based on responsive web.

The user terminal 1 is a broad concept including a wired terminal or a wireless terminal, and includes a personal computer (PC), an IP protocol (Internet Protocol Television), a notebook-sized personal computer, a personal digital assistant (PDA), Smartphone, International Mobile Telecommunication 2000 (IMT-2000) phone, Global System for Mobile Communication (GSM) phone, General Packet Radio Service (GPRS) phone, Wideband Code Division Multiple Access (WCDMA) phone, Universal Mobile Telecommunication Service (UMTS) It includes a phone, a mobile broadband system (MBS) phone, etc. One user accesses the cloud web hard-based homepage responsive web server 3a by using a PC corresponding to a wired terminal and a smartphone corresponding to a wireless terminal. Responsive web-based homepage can be provided with the screen size automatically adjusted according to the display type of each wired and wireless terminal. To provide

The cloud network 2 is a responsive web-based homepage according to access of a cloud web hard-based homepage responsive web server 3a corresponding to a computing service provider server and each user terminal 1 constituting a user terminal assembly 1G. A communication network that is a high-speed network of large communication networks capable of large-capacity, long-distance voice and data services for making information available between each user terminal (1), and next-generation wired and wireless for providing Internet or high-speed multimedia services. It can be a net. When the cloud network 2 is a mobile communication network, it may be a synchronous mobile communication network or an asynchronous mobile communication network. An example of an asynchronous mobile communication network is a communication network of a wideband code division multiple access (WCDMA) scheme. In this case, although not shown in the drawing, the cloud network 2 may include a Radio Network Controller (RNC). Meanwhile, although the WCDMA network is taken as an example, it may be an IP network based on a next generation communication network such as 3G LTE network, 4G network, or other IP. The cloud network 2 includes each user terminal 1 constituting the user terminal assembly 1G, a responsive web server based on a cloud web hard homepage 3a, a responsive web based homepage configuration and management server 3b, and the like. It is responsible for communicating signals and data between systems.

FIG. 2 is a block diagram illustrating a responsive web-based homepage configuration and management server 3b in a system for automatically configuring a homepage by a cloud web hard file and folder architecture of FIG. 1. 3 to 5 are diagrams illustrating a UI (User Interface) screen implemented in the user terminal 1 of a system for automatically configuring a homepage by a cloud web hard file and folder architecture.

First, referring to FIG. 2, the responsive web-based homepage configuration and management server 3b includes a transceiver 3b-1 and a controller 3b-2. In addition, the controller 3b-2 may include the region information implementation module 3b-3 for each component modification unit, the modification icon application module 3b-4, the modification mark application module 3b-5, and the folder-based layer configuration module 3b. -6). In the present specification, the module may mean a functional and structural combination of hardware for performing the technical idea of the present invention and software for driving the hardware. For example, the module may mean a logical unit of a predetermined code and a hardware resource for performing the predetermined code, and means a physically connected code or does not necessarily mean one kind of hardware. It can be easily inferred by the average expert in the art.

The area information implementing module 3b-3 for each component modification unit is a responsive web base corresponding to a user's account in a state of being accessed on the cloud web hard-based homepage responsive web server 3a of the user terminal 1. In response to the change request for the homepage information (see the style change selection bar in FIG. 3A), the transceiver 3b-1 is controlled to perform data session setup for the user terminal 1 through the cloud network 2.

The region information implementation module for each component modification unit 3b-3 divides the components constituting the responsive web-based homepage into region information for each modification unit as shown in FIG. 3B and is implemented in the user terminal 1 so as to be implemented in the user terminal 1. The transmitter / receiver 3b-1 is controlled to transmit information to the user terminal 1. At the same time or later, the region information implementing module 3b-3 for each component modification unit has a 'correction icon' for modifying the lowest layer (first layer) according to each region information on the user terminal 1. An area in which each upper layer of the lowest layer has a 'correction mark' for correcting sequential layers (second layer to nth layer, n is a natural number of 3 or more) that is implemented in the region and constitutes an upper layer of the lower layer. Control the transmission / reception unit 3b-1 to transmit at least one correction icon information and at least one correction mark information matching the area information of each modification unit to the user terminal 1 so that at least one or more are implemented in the preset coordinates. do.

The correction icon application module 3b-4 is configured to transmit and receive a selection signal for one 'modification icon' constituting area information for each modification unit from the user terminal 1 to be received through the cloud network 2. 3b-1).

Modify icon application module (3b-4) is a 'detailed edit icon' (placement move, copy, hide, set, cancel icon) for the 'edit icon' corresponding to the selected one area implemented by the user terminal (1) It is determined by the user terminal (1) whether the implementation is completed, and when the change is completed, the lowest layer (first layer) change information corresponding to the result performed by the operation according to each detailed modification icon selection signal The transceiver 3b-1 is controlled to perform reception waiting.

The correction mark application module 3b-5 selects a selection signal for at least one 'correction mark' implemented from at least one 'correction icon' from the user terminal 1 as shown in FIG. 4A. The transmitter / receiver 3b-1 is controlled to wait for reception through the controller.

Subsequently, when the correction mark application module 3b-5 receives the selection signal for the correction mark, the correction mark application module 3b-5 may select one of 'style change' and 'content change' for the correction mark implemented by the user terminal 1. When the implementation is completed by changing the selection question box by the user terminal 1, the transceiver 3b-1 is controlled to wait for receiving a selection signal for one of style change and content change.

When the correction mark application module 3b-5 receives the selection signal for the 'style change' as shown in FIG. 4B, an information box for changing the style of the user terminal 1 through the cloud network 2 (the arrangement state). The selection tool, content input tool, file upload tool, linked SNS or web address setting tool) to the user terminal 1, and then the batch state selection tool, content input tool, file upload tool, linked SNS or web address. The transmitter / receiver 3b-1 is controlled to receive, from the user terminal 1, change information on the layer corresponding to the correction mark selection signal according to the input content on the information box including at least one of the setting tools. .

On the other hand, when the correction mark application module (3b-5) receives the selection signal for the content change of the 'style change' and 'content change' for the correction mark implemented by the user terminal (1), the content change selection signal The component of the corresponding layer content is divided into sub-area information for each modification unit, and a 'sub-correction icon' for modifying the lowest sub-layer (first sub-layer) according to each sub-area information is included in the corner area of the sub-area information. A sub correction mark for correcting sequential layers (second sub-layer to n-th sub-layer, where n is a natural number of 3 or more) constituting the upper layer of the lowest layer, each upper sub-layer of the lowest sub-layer. One that matches sub-region information for each modification unit so that at least one or more are implemented at preset coordinates among the regions where the layer is located. The one or more sub-information and the probe mark modified edit icon information and controls the transmission and reception unit (3b-1) to transmit to the user terminal (1).

The correction mark application module 3b-5 changes to a detail correction icon according to the selection signal for the 'sub correction icon' on the user terminal 1 to complete the implementation, or to select a signal for the 'sub correction mark'. Accordingly, when the implementation according to the change to the 'detailed correction mark' is completed, one of the second to nth sublayers corresponding to the result of being completed by the operation according to the selection of the 'detailed correction icon' or the 'detailed modification mark' is completed. The transceiver 3b-1 is controlled to receive the change information.

The folder-based layer configuration module 3b-6 converts the change to the responsive web homepage information applied to the selected one area for the detailed lowest layer change information received by the correction icon applying module 3b-4 to the cloud network 2. Control the transceiver 3b-1 to perform a request to the cloud web hard-based homepage responsive web server 3a. Accordingly, the cloud web hard-based homepage responsive web server 3a changes and stores the file corresponding to the detailed lowest layer change information constituting the folder corresponding to the lowest layer of the selected area information, thereby storing and changing the file. It provides an effect that can be configured and changed by only a few clicks and typing of the user on the responsive web-based homepage.

The folder-based layer construction module 3b-6 selects the change information for the layer corresponding to the correction mark selection signal according to the input content on the information box for style change received by the correction mark application module 3b-5. The transceiving unit 3b-1 is controlled to transmit a change to the responsive web homepage information applied to the area to the cloud web hard-based homepage responsive web server 3a via the cloud network 2. Accordingly, the cloud web hard-based homepage responsive web server 3a changes the file corresponding to the layer change information constituting a folder corresponding to one of the second to nth layers matching the selected area information. Do it and save it.

The folder-based layer construction module 3b-6 is configured to have a second result corresponding to a result of being completed by an operation according to selection of a detailed modification icon 'or a' detailed modification mark 'received by the modification mark application module 3b-5. The transmitter / receiver 3b-1 is controlled to request a change to one of the nth sublayers to change information of the n-th sublayer from the cloud web hard-based homepage responsive web server 3a through the cloud network 2. Accordingly, the cloud web hard-based home page responsive web server 3a changes and stores a file corresponding to change information constituting a folder corresponding to a layer of the selected area information.

In other words, the folder-based layer composition module (3b-6) is an example of a parent folder with 1 depth and 2 child folders with 2 depths. You can manage them in the form of files, and you can organize the contents of the folder on top of the virtual folder as if there were sequential folders under the folder. Therefore, the folder-based layer composition module (3b-6) can produce various types of images on the responsive web homepage, and complete the images by projecting the images at once on the responsive web-based homepage as if the OHP film were stacked. Provides the ability to

FIG. 6 is a diagram illustrating an implementation process for each modification unit of components constituting a responsive web-based homepage among methods for automatically configuring a homepage by a cloud web hard file and folder architecture according to an embodiment of the present invention.

Referring to FIG. 6, the user terminal 1 accesses the cloud web hard-based homepage responsive web server 3a through the cloud network 2 according to the URL address of the responsive web-based homepage in the address window on the web browser. (access) (S110).

After step S110, the user terminal 1 transmits the account information to the cloud web hard-based homepage responsive web server 3a through the cloud network 2 according to the output of the responsive web-based homepage on the input / output unit. A login process is performed (S120). As shown in FIG. 9, a component of a responsive web-based homepage of 100 to 900 is formed, and a menu for requesting a component change is implemented as shown by reference numeral 10.

After step S120, the cloud web hard-based homepage responsive web server 3a transmits the responsive web-based homepage information matching the login account to the user terminal 1 so as to be implemented as the user terminal 1 ( S130).

After step S130, the cloud web hard-based homepage responsive web server 3a responds to the request for change of the responsive web-based homepage information from the user terminal 1, via the cloud network 2, the user terminal 1 Responsive to the web-based homepage configuration and performs a data session change setting to the management server (3b) (S140).

After the step (S140), according to the control of the responsive web-based homepage and the control of the management server (3b), the user terminal (1), the components constituting the responsive web-based homepage is divided into area information 40 by modification unit And a 'correction icon' 20 for modifying the lowest layer (first layer) according to each region information as a corner region of region information, and a sequential layer (second layer) constituting an upper layer of the lowest layer. At least one 'correction mark 30' for correcting the layer to the n-th layer and n is a natural number of 3 or more at a predetermined coordinate among regions where each upper layer of the lowest layer is located (S150).

That is, in the responsive web-based homepage that automatically performs a layout change in the mobile and PC versions as shown in Figure 10, the existing control group including the pages for content, design, content change is deleted, in the present invention red border unit The correction icon 20 corresponding to one pencil icon is implemented on the right side in the region information 40 for each modification unit.

Subsequently, the 'correction mark' 30 embodied in a screw head shape such as + may be used when correcting letters or images.

FIG. 7 is a diagram illustrating a folder forming a lowest layer matching a modified icon in step S150 performed after FIG. 6 in a method for automatically configuring a homepage by a cloud web hard file and folder architecture according to an embodiment of the present invention. It is a flow chart showing the configuration process. Referring to FIG. 7, the responsive web-based homepage configuration and management server 3b may select one 'modification icon' that constitutes area information for each modification unit, and a selection signal for at least one 'modification mark'. Waiting from the user terminal 1 through the cloud network (2) (S210).

When the selection signal is received according to the step S210, the responsive web-based homepage configuration and management server 3b selects the selection signal for the 'correction icon' constituting one area information with respect to the selection signal of the step S210. It is determined whether or not the reception of the (S220)

If it is determined in step S220 that the selection signal for the correction icon is received from the selected area information, the responsive web-based homepage configuration and management server 3b is the selected one implemented as the user terminal 1. When the implementation is completed by the user terminal 1 as a 'detail modification icon' for the 'correction icon' corresponding to the region, the lowest layer corresponding to the result performed by the operation according to the detailed correction icon selection signal ( The first layer) listens for the change information (S230). Here, the detailed modification icon may be implemented as including (placement shift, copy, hide, set, cancel icon).

After the step S230, the responsive web-based homepage composition and management server 3b changes the change to the responsive web homepage information applied to the selected one area for the detailed lowest layer change information through the cloud network 2 through the cloud web. The request is made to the hard-based homepage responsive web server 3a (S240). Accordingly, the cloud web hard-based homepage responsive web server 3a changes and stores a file corresponding to the detailed lowest layer change information constituting a folder corresponding to the lowest layer of the selected area information.

On the other hand, after step S240 and when the selection result of step S220 does not receive the selection signal, the responsive web-based homepage configuration and management server 3b according to the selection of one or more of the at least one 'modification mark' At least one change information of the second to nth layers is received (S250).

After the step S250, the responsive web-based homepage composition and management server 3b constitutes a lower layer as the first layer and at least one of the second to nth layers corresponding to the change information received in the step S250. The request to form a hierarchical structure in which the above layers are sequentially stacked in ascending order is transmitted to the cloud web hard-based homepage responsive web server 3a through the cloud network 2 (S260). Accordingly, the cloud web hard-based homepage responsive web server 3a performs a change on a file corresponding to the detailed lowest layer change information constituting a folder corresponding to the lowest layer of the selected area information. Changes are made to files in the folder corresponding to the change information among the second to nth layer folders located in the lower folder of the changed file and stored.

FIG. 8 illustrates an upper layer of a lowermost layer matching the modified mark in step S150 performed after FIG. 6 in the method for automatically configuring a homepage by a cloud web hard file and folder architecture according to an embodiment of the present invention. This is a flow chart showing the configuration process for a folder.

Referring to FIG. 8, the responsive web-based homepage composition and management server 3b may cloud a selection signal for one 'modification icon' and at least one 'modification mark' constituting area information for each modification unit. Waiting for reception from the user terminal 1 via the network 2 (S310).

When the selection signal is received according to step S310, the responsive web-based homepage configuration and management server 3b may be configured to include one or more 'correction marks' constituting one piece of area information with respect to the selection signal of step S310. It is determined whether the selection signal for one is received (S320).

If the determination result of step S320 is not a selection signal for the correction mark, the process proceeds to step S510 to be described later. On the contrary, if it is the selection signal for the correction mark, the responsive web-based homepage configuration and management server 3b. Is a selection question box for selecting one of 'style change' and 'content change' with respect to the correction mark implemented by the user terminal 1 and is changed by the user terminal 1 and the implementation is completed. A selection signal for one of the contents change is received (S330). That is, in FIG. 12, the style change may be implemented as 31, and the content change may be implemented as 32.

Meanwhile, in the case of component 200 as shown in FIG. 13, a style change or a content change may be selected after selection of a toy world icon, and image change and text change menus may be changed by content change as shown in FIG. 14. You can also include n pages. In other words, after selecting the content change and pressing the sub-correction mark corresponding to +, an editor that can change the content or the style change again can be implemented.

After the step S330, the responsive web-based homepage composition and management server 3b determines whether or not the selection signal for 'style change' according to the step S330 is received from the user terminal 1 (S340).

If it is determined in step S340 that the selection signal for 'style change' is not received, the process proceeds to step S410 described later. On the contrary, when the determination result of the step (S340), when receiving the selection signal for the 'style change', the response web-based homepage configuration and management server 3b is the style for the user terminal 1 through the cloud network (2) Receive change information on the layer corresponding to the selection signal in step S320 according to the input content on the information box (batch status selection tool, content input tool, file upload tool, linked SNS or web address setting tool) for change Wait for (S350).

After the step S350, the responsive web-based homepage composition and management server 3b changes the change information on the layer corresponding to the selection signal in step S320 to the responsive web homepage information applied to the selected area. A request is made to the cloud web hard-based homepage responsive web server 3a via the network 2 (S360). Accordingly, the cloud web hard-based homepage responsive web server 3a changes the file corresponding to the layer change information constituting a folder corresponding to one of the second to nth layers matching the selected area information. Do it and save it.

After the step S360, the responsive web-based homepage composition and management server 3b selects a signal for a modification mark other than the selection signal for the 'correction mark' according to the step S320 of configuring any area information. It is determined whether the reception (S370).

As a result of the determination of step S370, when a selection signal for another correction mark is received, the process returns to step S330 to repeatedly perform steps S330 to S370. On the other hand, when the determination of step S370 does not receive a selection signal for another correction mark, the responsive web-based homepage configuration and management server 3b is configured to change the contents of the selection question box implemented in step S330. It is determined whether the selection signal is received (S410).

As a result of the determination in step S410, when the selection signal for the content change is received, the responsive web-based homepage configuration and management server 3b determines the components of the content corresponding to the selection signal in step S410 by modification units. The sub-area information is divided into sub-region information, and the 'sub-correction icon' for correcting the lowest sub-layer (first sub-layer) according to each sub-region information is implemented as a corner region of the area information. A 'sub correction mark' for the correction of the sequential sublayers (second to nth sublayers, where n is a natural number of 3 or more) is set to a preset coordinate in the region where each upper sublayer of the lowest sublayer is located. Implement at least one (S420).

After the step (S420), the implementation is completed by changing to the "detail correction icon" according to the selection signal for the "sub-correction icon" on the user terminal 1, or the "detailed correction" in accordance with the selection signal for the "sub-correction mark" When the implementation is completed according to the change to the mark, the responsive web-based homepage composition and management server 3b is configured to perform the result corresponding to the completion of the operation by selecting the 'detailed modification icon' or the 'detailed modification mark'. After receiving the change information of one of the 2nd to nth sublayers, the change to the responsive web homepage information applied to the selected area for the received change information is performed through the cloud network 2 through the cloud web hard-based homepage responsive web. Request to the server 3a (S430). Accordingly, the cloud web hard-based home page responsive web server 3a changes and stores a file corresponding to change information constituting a folder corresponding to a sub layer of the selected area information.

After step S430, the responsive web-based homepage configuration and management server 3b changes the first layer according to the selection of one 'modification icon' constituting one area information with respect to the selection signal of step S310. Wait for reception (S510).

After the step S510, the responsive web-based homepage composition and management server 3b configures the first layer as the bottom layer, and if there is a configuration change for the correction mark, the change information received in the step S360 At least one layer of the corresponding second to nth layers, and / or a layer that sequentially stacks at least one or more layers of the second to nth sublayers corresponding to the change information received in operation S430 in ascending order. The structure is configured to request to the cloud web hard-based homepage responsive web server 3a through the cloud network 2 (S520). Accordingly, the cloud web hard-based homepage responsive web server 3a performs a change on a file corresponding to the detailed lowest layer change information constituting a folder corresponding to the lowest layer of the selected area information. If there is a configuration change for the correction mark in step S360, a change is made to a file in a folder against change information among the second to nth layer folders located in the lower folder of the changed file, and stored in step S430. If there is a configuration change with respect to the correction mark, a change is made to a file of a folder corresponding to the change information in the second to nth sublayer folders and stored (S520).

Through this configuration, the responsive web homepage can be configured with different depths such as "1depth> Parent Folder> Background Image, 2depth> Child Folder> Background Image, 3depth> Child Folder> Folder Image, 3depth> Child Folder> Folder Letter". You can configure folders and file units separated by depth.

The invention can also be embodied as computer readable code on a computer readable recording medium. Computer-readable recording media include all kinds of recording devices that store data that can be read by a computer system.

Examples of computer-readable recording media include ROM, RAM, CD-ROM, magnetic tape, floppy disks, optical data storage devices, and the like, which are also implemented in the form of carrier waves (eg, transmission over the Internet). It also includes.

The computer readable recording medium can also be distributed over network coupled computer systems so that the computer readable code is stored and executed in a distributed fashion. And functional programs, codes and code segments for implementing the present invention can be easily inferred by programmers in the art to which the present invention belongs.

As described above, the present specification and drawings have been described with respect to preferred embodiments of the present invention, although specific terms are used, it is only used in a general sense to easily explain the technical contents of the present invention and to help the understanding of the present invention. It is not intended to limit the scope of the present invention. It will be apparent to those skilled in the art that other modifications based on the technical idea of the present invention can be carried out in addition to the embodiments disclosed herein.

[Description of the code]

1: User terminal

1G: User Terminal Aggregation

2: cloud network

3a: Responsive web server on cloud web hard-based homepage

3b: Responsive web based homepage composition and management server

3G: responsive web-based server

3b-1: transceiver

3b-2: control unit

3b-3: Module for Implementing Zone Information by Component Modification Unit

3b-4: Modify Icon Apply Module

3b-5: Correction mark application module

3b-6: Folder-based Layer Composition Module

Claims (7)

1. A first step of controlling the cloud web hard-based homepage responsive web server 3a to be implemented as the user terminal 1 by transmitting responsive web-based homepage information matching the login account to the user terminal 1;

   Responsive web-based home page for the user terminal 1 through the cloud network 2 in response to a request for changing the responsive web-based homepage information from the user terminal 1 by the cloud web hard-based homepage responsive web server 3a. A second step of performing configuration and setting of a data session change to the management server 3b; And

   According to the responsive web-based homepage construction and control of the management server 3b, the user terminal 1 implements the components constituting the responsive web-based homepage by dividing them into area information 40 for each modified unit. 'Correction icon' 20 for modifying the lowest layer (first layer) according to the embodiment is implemented as a corner region of the region information, and a sequential layer (second layer to nth layer, n that constitutes an upper layer of the lowest layer) A third step of embodying at least one 'correction mark 30' for correction of 3 or more natural numbers) at preset coordinates among areas where each upper layer of the lowest layer is located; Method for automatic homepage configuration by the cloud web hard file and folder architecture, characterized in that it comprises a.
2. The method according to claim 1, After the third step,

   Responsive web-based homepage configuration and management server (3b) to the cloud network (2) to select one 'correction icon' and the at least one 'correction mark' to configure the area information for each correction unit A fourth step of waiting for reception from the user terminal 1 through;

   A fifth step of determining whether a responsive web-based homepage construction and management server 3b receives a selection signal for a 'modification icon' constituting one area information with respect to the received selection signal; And

   If it is determined that the selection signal for the correction icon is received from the selected area information, the response web-based homepage configuration and management server 3b corresponding to the selected area implemented by the user terminal 1 When the modification is completed by the user terminal 1 to the 'detail modification icon' for the 'correction icon' and the implementation is completed, the lowest layer (first layer) corresponding to the result performed by the operation according to each detailed correction icon selection signal is changed. A sixth step of waiting for reception of information; Method for automatically configuring the homepage by the cloud web hard file and folder architecture, characterized in that it further comprises.
3. The method according to claim 2, After the sixth step,

   Responsive web-based homepage configuration and management server (3b) through the cloud network (2) to change the responsive web homepage information applied to the selected one area for the details of the lowest layer change information cloud web hard-based homepage responsive web A seventh step of making a request to the server 3a; And

   An eighth step of the cloud web hard-based homepage responsive web server 3a changing and storing a file corresponding to the detailed lowest layer change information constituting a folder corresponding to the lowest layer of the selected area information; Method for automatically configuring the homepage by the cloud web hard file and folder architecture, characterized in that it further comprises.
4. The method of claim 3, wherein if the determination result selection signal is not received after the eighth step or the fifth step,

   A ninth step in which the responsive web-based homepage construction and management server 3b receives change information of at least one of the second to nth layers according to selection of one or more of the at least one 'modification mark'; And

   Responsive web-based homepage composition and management server 3b constitutes a lower layer as the first layer and sequentially climbs at least one or more layers of the second to nth layers corresponding to the change information received in the ninth step. A tenth step of transmitting a request for forming a hierarchical structure stacked in sequence to a cloud web hard-based homepage responsive web server 3a through a cloud network 2; Method for automatically configuring the homepage by the cloud web hard file and folder architecture, characterized in that it further comprises.
5. The method according to claim 4, After the tenth step,

   When the cloud web hard-based homepage responsive web server 3a receives the selection signal for the correction icon in the fifth step, the detailed lowest layer change information constituting a folder corresponding to the lowest layer for the selected area information Or the file corresponding to the detailed lowest layer change information constituting the corresponding folder for the lowest layer when the selection signal for the edit icon is not received in the fifth step. In the state that the change is not performed, the change is made to the file of the folder corresponding to the change information among the second to n-th layer folders located in the lower folder of the state file in which the change is performed or the state file in which the change is not performed. Performing the 11 th step of storing; Method for automatically configuring the homepage by the cloud web hard file and folder architecture, characterized in that it further comprises.
6. In the system for homepage automatic configuration by the cloud web hard file and folder architecture performing the method of any one of claims 1 to 5, the responsive web-based homepage configuration and management server (3b),

   In response to a request for change of the responsive web-based homepage information corresponding to the user's account while being accessed on the cloud web hard-based homepage responsive web server 3a of the user terminal 1, the cloud web hard-based homepage An area information implementing module 3b-3 for each component modification unit that controls the transceiver unit 3b-1 to perform data session setup for the user terminal 1; And

   Application of a correction icon for controlling the transmitter / receiver 3b-1 to wait for reception through the cloud network 2 of a selection signal for one 'modification icon' constituting area information for each modification unit from the user terminal 1 Module 3b-4; And

   Controls the transmitter / receiver 3b-1 to wait for reception through the cloud network 2 of a selection signal for at least one 'correction mark' embodied in at least one 'correction icon' from the user terminal 1. The correction mark application module 3b-5; System for the automatic homepage configuration by the cloud web hard file and folder architecture, characterized in that it comprises a.
7. The correction mark application module 3b-5 according to claim 6,

   When receiving the selection signal for the correction mark, change the 'correction mark' corresponding to the selection signal to the 'selection question box' to control the implementation to the user terminal 1, and then configure the selection in the 'selection question box'. Controlling the transceiver 3b-1 to wait for a selection signal for one of a style change and a content change, and when receiving the selection signal for 'style change', the user terminal through the cloud network 2. Control the implementation of the information box to the user terminal (1) to change the style for (1), and then include at least one or more of the batch status selection tool, content input tool, file upload tool, linked SNS or web address setting tool And controlling the transmitter / receiver 3b-1 to receive, from the user terminal 1, change information on the layer corresponding to the correction mark selection signal according to the input to the information box. Cloud online storage and file system for the website automatically configured by a folder architecture that.

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