KR102400034B1 - Service method using scalable cloud storage device and scalable cloud storage device - Google Patents

Abstract

The present invention relates to an expandable cloud storage device and a service method using the expandable cloud storage device, wherein the cloud storage device includes at least one storage frame having a storage unit and a main frame controlling the storage frame, wherein the at least One storage frame and the main frame are arranged in a stacked structure, and the main frame is disposed at the bottom of the stacked structure.

Description

scalable cloud storage device and service method using scalable cloud storage device {SERVICE METHOD USING SCALABLE CLOUD STORAGE DEVICE AND SCALABLE CLOUD STORAGE DEVICE}

The following embodiments relate to an expandable cloud storage device and a service method using the expandable cloud storage device, and to a method for easily expanding and using the cloud storage device.

In addition to the conventional stationary PC, computing devices such as smart phones and tablet PCs that are recently released are not driven in a stand-alone method, but are connected to the Internet and driven in an on-line method. , you can download and utilize media contents such as music and videos through various applications.

Furthermore, in recent years, according to the popularization of smart phones, it is possible to access the Internet anytime, anywhere, and a cloud service is being activated. A cloud service is a service that stores users' content, such as media files, documents, address books, etc., such as movies, photos, and music on an external server, and downloads them from any device, including smartphones and tablet PCs.

However, the size of the storage space provided by these cloud services is limited, and in general, in order to use more than a certain space, a certain amount of usage fee must be paid. In addition, a storage space for storing the downloaded large-capacity data must be secured in the computing device.

A web drive service, a network storage service (NAS), and an external hard device may be used as a means of using these cloud services and storing and managing large amounts of data.

Of these, external hard drives have only the advantage that they do not incur additional costs after purchasing the device, but have the inconvenience of always having them for use, and should only be used as a simple data storage device that cannot provide a separate cloud service. There is a limit to

The web hard service does not require a device to be carried and is operated in a cloud-based manner, but must pay a regular usage fee or pay a fee for using data packets. Network storage devices and services have the advantage that they do not need to be carried, but it is difficult for individuals without professional knowledge to build by themselves without assistance, and using cloud services such as media streaming and data backup to a server can also be used without professional knowledge. It is difficult to do.

In addition, the existing network storage devices and services have a structure in which the case of the main body is opened like an existing computer and the hard disk is directly inserted into an empty hard disk slot when the disk is expanded to expand the storage space. There is a limit to expansion due to the limitation of the slot of the hard disk, and there is a cumbersome to expand. In other words, it tends to be difficult for general users without specialized knowledge to select and purchase a hard disk, and to directly insert and install the hard disk in the above manner.

Therefore, there is a need for a cloud storage device that can easily build cloud storage and can easily expand a storage space as needed.

The present invention was derived to solve the problems of the prior art as described above, and an object of the present invention is to provide an expandable cloud storage device and a service method using the expandable cloud storage device.

Specifically, an object of the present invention is to facilitate expansion of a storage space by configuring a cloud storage device in a stacked structure.

Another object of the present invention is to provide a service method for using an expandable cloud storage device by using a cloud server to manage an expandable cloud storage device and a user using the same.

In order to achieve the above object, in the service method using the expandable cloud storage device according to an embodiment of the present invention, when the cloud storage device receives a cloud storage search message from the user terminal, the user terminal and the short-range wireless communication connection performing the steps; and registering user information on the cloud storage device when a request for user registration is received from the user terminal in the cloud server.

In this case, the service method using the expandable cloud storage device may further include registering the cloud storage device before registering the user information when the cloud storage device is connected to the cloud server by wire through the Internet. .

In this case, when the cloud storage device is connected to the cloud server through a wireless wire, the registering of the user information may include registering the cloud storage device when the user information is registered.

In this case, the registering of the user information in the cloud server may include registering the user information as an administrator if there is no previously registered user in the cloud storage device.

In this case, in the step of registering the user information in the cloud server, if there is a user registered as an administrator in the cloud storage device, sending the user information to the administrator to inquire whether registration as a user of the cloud storage device is possible sending a message; and registering the user information as a user of the cloud storage device when receiving a response message indicating that registration is possible as a user of the cloud storage device from the manager.

In this case, the cloud storage device may include: at least one storage frame having a storage unit; and a main frame for controlling the storage frame, wherein the at least one storage frame and the main frame are disposed in a stacked structure, and the main frame may be disposed under the stacked structure.

A cloud storage device according to an embodiment of the present invention includes: at least one storage frame having a storage unit; and a main frame for controlling the storage frame, wherein the at least one storage frame and the main frame are arranged in a stacked structure, and the main frame is disposed under the stacked structure.

In this case, each of the at least one storage frame may include: an upward terminal connected to a storage frame disposed above; a downward terminal connected to a storage frame or a main frame disposed below; a storage connection terminal connected to the storage; the storage unit for storing and providing data to provide a cloud storage service; and a hub connecting the upward terminal, the downward terminal, and the storage unit connection terminal, wherein the storage unit operates under the control of the main frame.

In this case, the down terminal may include: an up channel receiving the current storage frame location from a lower layer of the stacked structure; a downlink channel for transmitting an upper layer storage frame and information indicating that each of the corresponding storage frames is activated to a lower layer storage frame or the main frame; an input/output channel used to input data or output the data to the storage unit; a control channel for transmitting a control signal for turning on/off the storage unit of the storage frame selected from the main frame; and a power connection unit configured to receive power from the main frame or the lower layer storage frame according to the control signal of the control channel.

In this case, the upstream terminal may include: an upstream channel for transferring the location of the storage frame of the upper layer to the storage frame of the upper layer; a downlink channel through which information of an activated storage frame is transmitted from the storage frame of the upper layer; an input/output channel used to input data or output the data to the storage unit; a control channel for transmitting a control signal for turning on/off the storage unit of the storage frame selected from the main frame; and a power connector for supplying power to the storage frame of the upper layer.

In this case, the main frame may include: an upward terminal connected to a storage frame disposed above; and a control unit configured to control a storage frame disposed above, wherein the control unit may control the storage unit included in the at least one storage frame.

In this case, the upstream terminal may include: an upstream channel for transferring the location of the storage frame of the upper layer to the storage frame of the upper layer; a downlink channel through which information of an activated storage frame is transmitted from the storage frame of the upper layer; an input/output channel used to input data or output data to the storage unit of the storage frame; a control channel for transmitting a control signal for turning on and off the storage unit of the selected storage frame according to the control of the control unit; and a power connector for supplying power to the storage frame of the upper layer.

According to the present invention, by configuring the cloud storage device in a stacked structure, the user can easily expand the storage space, and by managing the cloud storage device and authenticating the user through the cloud server, the user can easily use the cloud service. have an effect

1 is a diagram illustrating a schematic configuration of a cloud storage device that expands a storage space using a stacked structure according to an embodiment of the present invention.
2 is a diagram illustrating a schematic configuration of a storage frame, which is one of the stacked configurations in the cloud storage device according to an embodiment of the present invention.
3 is a diagram illustrating a schematic configuration of a main frame, which is one of the stacked configurations in the cloud storage device according to an embodiment of the present invention.
4 is a diagram illustrating a connection form between stacked structures in a cloud storage device according to an embodiment of the present invention.
5 is a diagram illustrating a schematic configuration of an upward terminal or a downward terminal included in one frame in the cloud storage device according to an embodiment of the present invention.
6 is a diagram illustrating how channels are substantially connected and power supply is determined in a storage device according to an embodiment of the present invention.
7 is a flowchart illustrating a process of confirming the location and number of storage units in the cloud storage device according to an embodiment of the present invention.
8 is a diagram illustrating an example of a process of registering a user and a cloud storage device for a cloud service according to an embodiment of the present invention.
9 is a diagram illustrating another example of a process of registering a user and a cloud storage device for a cloud service according to an embodiment of the present invention.
10 is a diagram illustrating a process in which a user authenticates for a cloud service according to an embodiment of the present invention.
11 is a diagram illustrating a process of providing a cloud service to an authenticated user according to an embodiment of the present invention.
12 is a diagram illustrating a data structure related to user information according to an embodiment of the present invention.
13 is a diagram illustrating a data structure of information on a cloud storage device according to an embodiment of the present invention.
14 is a diagram illustrating a data structure of information about a shared file according to an embodiment of the present invention.

Hereinafter, embodiments will be described in detail with reference to the accompanying drawings. However, since various changes may be made to the embodiments, the scope of the patent application is not limited or limited by these embodiments. It should be understood that all modifications, equivalents and substitutes for the embodiments are included in the scope of the rights.

The terms used in the examples are used for the purpose of description only, and should not be construed as limiting. The singular expression includes the plural expression unless the context clearly dictates otherwise. In this specification, terms such as "comprise" or "have" are intended to designate that a feature, number, step, operation, component, part, or a combination thereof described in the specification exists, but one or more other features It should be understood that this does not preclude the existence or addition of numbers, steps, operations, components, parts, 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 the embodiment belongs. Terms such as those defined in commonly used dictionaries should be interpreted as having a meaning consistent with the meaning in the context of the related art, and should not be interpreted in an ideal or excessively formal meaning unless explicitly defined in the present application. does not

In addition, in the description with reference to the accompanying drawings, the same components are given the same reference numerals regardless of the reference numerals, and the overlapping description thereof will be omitted. In describing the embodiment, if it is determined that a detailed description of a related known technology may unnecessarily obscure the gist of the embodiment, the detailed description thereof will be omitted.

1 is a diagram illustrating a schematic configuration of a cloud storage device that expands a storage space using a stacked structure according to an embodiment of the present invention.

Referring to FIG. 1 , the cloud storage device 100 includes a main frame 110 and a storage frame 120 having a stacked structure.

Each of the storage frames 121 , 122 , and 123 has a storage unit and is disposed in a stacked structure.

The main frame 110 controls the storage frames 121 , 122 , and 123 , and is disposed at the bottom of the stacked structure.

2 is a diagram illustrating a schematic configuration of a storage frame, which is one of the stacked configurations in the cloud storage device according to an embodiment of the present invention.

Referring to FIG. 2 , the storage frame 121 includes an upward terminal 210 , a downward terminal 230 , a hub 240 , a storage connection terminal 250 , and a storage unit 260 .

The upward terminal 210 is connected to the storage frame disposed above.

Specifically, the upstream terminal 210 is an upstream channel that transfers the location of the upper layer storage frame to the upper layer storage frame, a downlink channel that receives information of an activated storage frame from the upper layer storage frame, and data to the storage unit 260 . Includes an input/output channel used to input or output data, a control channel that transmits a control signal for turning on and off the storage unit of the storage frame selected from the main frame 110, and a power connection unit for supplying power to the storage frame of the upper layer can do.

The downward terminal 230 is connected to a storage frame or a main frame disposed below.

Specifically, the downlink terminal 230 transmits information indicating that the upstream channel receiving the current storage frame location from the lower layer of the stacked structure, the upper layer storage frame and the corresponding storage frame are activated, to the lower layer storage frame or main frame 110 . ), an input/output channel used to input data or output data to the storage unit 260 , and a control channel to transmit a control signal for turning on/off the storage unit of the storage frame selected from the main frame 110 . and a power connector for receiving power from the main frame 110 or a storage frame of a lower layer according to a control signal of a control channel.

The storage unit connection terminal 250 is connected to the storage unit 260 .

The hub 240 connects the upward terminal 210 , the connection unit 220 , the downward terminal 230 , the hub 240 , and the storage unit connection terminal 250 .

The hub 240 may connect the uplink terminal 210 , the connection unit 220 , the downlink terminal 230 , the hub 240 , and the storage unit connection terminal 250 through serial bus communication (serial communication). At this time, for serial bus communication, USB 4 pins, SATA 7 pins, and PCIe can be variously implemented with 36/64/98/164 pins according to the standard. However, it is not limited to serial bus communication, and the hub 240 uses a technology in the form of parallel bus communication to the uplink terminal 210 , the connection unit 220 , the downlink terminal 230 , the hub 240 and the storage unit. The connection terminal 250 may be connected.

In addition, according to the method of configuring the terminal for connecting the device components in the present invention, various types of connection methods can be used together. For example, when the hub 240 uses a USB connection method and the storage unit 260 uses a SATA connection method, a USB-SATA Bridge is connected to the storage unit. The hub 240 and the storage unit 260 may be connected through the terminal 250 .

The storage unit 260 operates under the control of the main frame 110 , and stores a shared file of a user with authority or provides it according to a request.

3 is a diagram illustrating a schematic configuration of a main frame, which is one of the stacked configurations in the cloud storage device according to an embodiment of the present invention.

Referring to FIG. 3 , the main frame 110 includes an upward terminal 310 and a control unit 360 .

The upward terminal 310 is connected to the storage frame disposed above.

Specifically, the upstream terminal 310 is an upstream channel that transfers the location of the upper layer storage frame to the upper layer storage frame, a downlink channel that receives information of an activated storage frame from the upper layer storage frame, and transmits data to the storage unit of the storage frame. An input/output channel used to input or output data, a control channel that transmits a control signal for turning on and off the storage unit of the selected storage frame according to the control of the control unit 360, and a power connection unit for supplying power to the storage frame of the upper layer may include

The controller 360 controls the storage units included in the storage frames 121 , 122 , and 123 . More specifically, the controller 360 transmits a control signal for controlling turning on and off the storage units included in the storage frames 121 , 122 , and 123 to the storage frames 121 , 122 , and 123 through the control channel.

4 is a diagram illustrating a connection form between stacked structures in a cloud storage device according to an embodiment of the present invention.

5 is a diagram illustrating a schematic configuration of an upward terminal or a downward terminal included in one frame in the cloud storage device according to an embodiment of the present invention.

4 and 5 , the uplink or downlink terminals included in the storage frames 121 , 122 , 123 or the main frame 110 of the present invention are an uplink channel 410 , a downlink channel 420 , and a control channel. 430 , an input/output channel 440 , and a power connector 450 .

In addition, the upstream channel 410 , the downlink channel 420 , the control channel 430 , the input/output channel 440 , and the power connection unit 450 are connected to each other by a combination of the upstream terminal of the lower layer and the downlink terminal of the upper layer.

In FIG. 4 , the upper terminal of the main frame 110 and the lower terminal of the storage frame 121 are combined (460) to form an up channel 410, a down channel 420 between the main frame 110 and the storage frame 121, The control channel 430 , the input/output channel 440 , and the power connection unit 450 are connected to each other.

In addition, the upper terminal of the storage frame 121 and the lower terminal of the storage frame 122 are coupled (470) to form an upstream channel 410, a downlink channel 420, and a control between the storage frame 121 and the storage frame 122. The channel 430 , the input/output channel 440 , and the power connector 450 are connected to each other.

Then, the upper terminal of the storage frame 122 and the lower terminal of the storage frame 123 are coupled (480) to the upper channel 410, the lower channel 420, and the control between the storage frame 122 and the storage frame 123. The channel 430 , the input/output channel 440 , and the power connector 450 are connected to each other.

The upstream channel 410 receives the position of the current storage frame from the lower layer of the stacked structure and transfers the position of the storage frame of the upper layer to the upper layer.

The upstream channel 410 is connected to the lower layer of the stacked structure through BU1, BU2, and BU3 of FIG. 5, receives the location of the corresponding layer from the lower layer, and is connected to the upper layer of the stacked structure through TU1, TU2, and TU3 of FIG. Based on the location of the corresponding floor, the location of the upper layer is transmitted to the upper layer.

The downlink channel 420 transmits the number of stacked storage frames from the storage frame located on the uppermost layer of the stacked structure to the main frame.

The downlink channel 420 is connected to the upper layer of the stacked structure through TD1, TD2, and TD3 of FIG. 5, receives the number of stacked storage frames, and is connected to the lower layer of the stacked structure through BD1, BD2, and BD3 of FIG. The number of received stacked storage frames is transferred to the lower layer. More specifically, when a storage frame is connected, the number of stacked storage frames is counted by activating the corresponding channel among TD1, TD2, TD3 and BD1, BD2, and BD3, thereby counting the number of downlink channels activated in the main frame 110 . can be checked

The control channel 430 transmits a control signal for turning on/off the storage unit of the storage frame.

The control channel 430 is connected to the lower layer of the stacked structure through BC1, BC2, and BC3 of FIG. 5 and receives a control signal from the lower layer, and is connected to the upper layer of the stacked structure through TC1, TC2, and TC3 of FIG. 5 and a control signal is transferred to the upper layer.

The input/output channel 440 is used to move data to be stored in the storage unit of the storage frame or to output data stored in the storage unit of the storage frame.

The power connection unit 450 serves to receive power or transmit power to a storage frame of an upper layer.

The storage frame 121 finds the ON channel among BD1 to 3 indicating the location (for example, check BD1 ON on the 1st floor, check BD2 ON on the 2nd floor) and recognize the location of itself (storage frame) can do.

When a control signal is received through the control channel 430 TC1 to 3 and BC1 to 3, the storage frame 121 checks whether the signal is its own signal or an ON (activated) channel among BD1 to 3 and determines its location. It can be determined whether the ON control signal is correct.

The control unit of the main frame 110 may receive location information of each storage frame through the control channels 430 TC1 to 3 and BC1 to 3, and the control unit mainly detects only the number of currently stacked storage frames and uses the control channel ( 430) A control signal may be transmitted to the storage frames 121 , 122 , and 123 through TC1 to 3 and BC1 to 3 to control power and operation of the storage frames 121 , 122 , and 123 .

6 is a diagram illustrating how channels are substantially connected and power supply is determined in a storage device according to an embodiment of the present invention.

When a storage frame to be activated is selected in the main frame 110 , only a control channel corresponding to the selected storage frame among the control channels EN 1 to 3 430 is activated. When the main frame 110 does not select and activate only a specific storage frame, all of the control channels EN 1 to 3 430 may be activated or deactivated.

If both the control channels EN 1 to 3 430 and the uplink channel 410 corresponding to the storage frame are activated, power is supplied through the power connection unit 450 .

More specifically, since the control channels EN 1 to 3 430 and the up channel 410 are AND-gate coupled, when both the control channels EN 1 to 3 430 and the up channel 410 are activated, DC It can be powered by a /DC converter.

When starting the main frame in an example in which three storage frames 121, 122, and 123 are stacked, three storage frames 121, 122 through the up channel 410, the down channel 420, and the power connection unit 450 , 123) are all ready for power supply and are in the standby state.

In this case, the main frame 110 can check the number of storage frames connected through the downlink channel 420 .

All three storage frames (121, 122, 123) are ready for power supply through the power connection unit 450, but the storage units of each storage frame (121, 122, 123) are all in a state in which power is not supplied, and the main The frame 110 is in a state in which the storage unit of the storage frame cannot be recognized nor communicated.

The control unit of the main frame 110 confirms activation of three channels through the downlink channel 420, checks the number of connected storage frames, and supplies power to the storage unit of the storage frame in the following order.

1. EN1 activation of the control channel 430 -> Power is supplied to the storage unit of the first storage frame 121 located on the first floor.

2. EN2 activation of the control channel 430 -> power supply to the storage unit of the second storage frame 122 located on the second floor.

3. EN3 activation of the control channel 430 -> power supply to the storage unit of the third storage frame 123 located on the third floor.

In the above, power was supplied to the storage frame in the order of 1st floor -> 2nd floor -> 3rd floor, but the power supply order is not limited to the example above, 3rd floor -> 2nd floor -> 1st floor or 2nd floor -> 3 It is possible to supply power in the order of floor -> first floor, etc.

When the supply of power to each storage unit of the three storage frames 121 , 122 , and 123 is completed, the main frame 110 recognizes the three storage units and performs file input/output to each storage unit through the input/output channel 440 . it becomes possible

7 is a flowchart illustrating a process of confirming the location and number of storage units in the cloud storage device according to an embodiment of the present invention.

7 is a process of checking the number of storage frames when three storage frames 121 , 122 , and 123 exist in the cloud storage device 100 , 710 corresponds to the operation of the main frame 110 , 720 corresponds to an operation in the storage frames 121 , 122 , and 123 .

Referring to FIG. 7 , it is confirmed that the main frame 110 is not connected to the lower layer in step 711 , and steps 712 , 713 , 714 , 715 and 716 are performed.

When the main frame 110 is connected to the upper layer in step 712, TU1 is turned on in step 713 to provide a corresponding location of the upper layer, and the number of stacked storage frames is checked through steps 714, 715 and 716.

The storage frame 121 corresponding to the first layer among the three storage frames 121, 122, 123 is BD1 by performing steps 711, 721, 722, 723, 729, 730, 731, and 733. You can activate the downlink channel of

The steps corresponding to the conditional expression for determining TD1~3 ON are steps 729, 731, and 733 to activate the channel corresponding to the storage frame among the downlink channels. When three storage frames are stacked, TD1, TD2, TD3 All are turned on, when two storage frames are stacked, TD1 and TD2 are turned on, and when one storage frame is stacked, only TD1 is turned on.

When the control unit of the main frame 110 requests information of the storage frame 121 corresponding to the first floor as a control signal through the control channels TC1 to 3 and BC1 to 3, the storage frame 121 sets BU1 ON to 1 of the control signal. It is possible to respond to the control signal by determining that the request coming to the floor is information sent to the user corresponding to the first floor through BU1 ON. In this way, the storage frames of the second and third layers corresponding to the other layers may not respond by determining that they are not a control signal that has come to the corresponding layer.

The storage frame 122 corresponding to the second layer among the three storage frames 121, 122, and 123 includes steps 711, 721, 724, 725, 726, 729, 731, 732, and 733. By doing this, the downlink channel of BD2 can be activated as ON.

The storage frame 123 corresponding to the third layer among the three storage frames 121, 122, 123 turns on the down channel of BD3 by performing steps 711, 721, 724, 727, 728, and 743. can be activated.

The main frame 110 may check the number of stacked storage frames by counting the number of activated downlink channels. For example, the main frame 110 determines that three storage frames are stacked when BD1, BD2, and BD3 are ON, and determines that two storage frames are stacked when BD1 and BD2 are ON, and only BD1 is turned on. If there is, it can be determined that one storage frame is stacked.

Since the three storage frames 121 , 122 , and 123 exist in the cloud storage device 100 , steps 741 and 742 are not performed.

8 to 11 relate to a method of registering a user and a cloud storage device to a cloud server, authenticating a user, and receiving a cloud service in order to provide a cloud service using a cloud storage device and a cloud server. 12 and 14 will be described with reference to the data structure.

12 is a diagram illustrating a data structure related to user information according to an embodiment of the present invention.

Referring to FIG. 12 , the data structure of user information may include user identification ID, total allocated storage space size, total used storage space size, total available storage space size, network information, and cloud storage device information in use. .

In this case, the network information indicates the current network status and information of the user terminal, and is information exchanged with the cloud storage device during P2P connection. Session identification ID, channel identification ID, public IP address, private IP address, port number, router type It may include information such as

The cloud storage device information in use is information for identifying a plurality of available cloud storage devices.

13 is a diagram illustrating a data structure of information on a cloud storage device according to an embodiment of the present invention.

Referring to FIG. 13 , the data structure of the information on the cloud storage device includes a cloud storage identification ID, an administrator authority user identification ID, a total storage space size, a total storage space size in use, a total available storage space size, network information, and a user may contain information.

At this time, the network information indicates the network status and information of the cloud storage device, and is information exchanged with the user terminal during P2P connection, such as session identification ID, channel identification ID, public IP address, private IP address, port number, router type, etc. may contain information.

The administrator-rights user identification ID is information that identifies a unique user having the management authority of the cloud storage device.

The user information indicates a plurality of users who can use the corresponding cloud storage device, and each user's usage rights and information for the corresponding cloud storage. The user information may include information such as a user identification ID, available storage space size, used storage space size, allocated storage space size, storage disk identification ID, usage authority, and the like.

14 is a diagram illustrating a data structure of information about a shared file according to an embodiment of the present invention.

Referring to FIG. 14 , the data structure of information about shared files may include file identification ID, owner authority user identification ID, cloud storage device ID, file type, file location path, shareable period, shared user information, and the like. there is.

8 is a diagram illustrating an example of a process of registering a user and a cloud storage device for a cloud service according to an embodiment of the present invention.

8 illustrates a message flow in a process of registering a user and a cloud storage device for a cloud service when the cloud storage device 830 is wirelessly connected to the Internet.

Referring to FIG. 8 , when the user 810 executes the app (851), the user terminal 820 searches for a nearby cloud storage device (852), and the cloud storage device 830 responds to the search request via Bluetooth The discovery of the device is notified to the user terminal 820 (853).

The user terminal 820 displays the available cloud storage to the user 810 ( 854 ), and when the user 810 selects the cloud storage to be used ( 855 ), performs Bluetooth pairing with the cloud storage device 830 to perform Bluetooth communication to connect (856, 857).

The user terminal 820 displays a list of available Wi-Fi by the cloud storage device 830 ( 858 ), and when the user 810 selects a Wi-Fi and enters a password for the Wi-Fi ( 859 ), the cloud storage device using the selected Wi-Fi 830 may be connected to the Internet. In this case, the available Wi-Fi list may be a search for a nearby Wi-Fi by the user terminal 820 based on the assumption that the cloud storage device 830 is adjacent to the user terminal 820 . Alternatively, the available Wi-Fi list may be generated by searching for available Wi-Fi in the vicinity in the cloud storage device 830 and provided to the user terminal 820 .

The user terminal 820 transmits user information and cloud storage information to the cloud server 840 to register the cloud storage device 830 , and registers a user of the cloud storage device 830 ( 860 ).

Meanwhile, in step 860 , the user terminal 820 transmits and registers the user and cloud storage information to the cloud server 840 , but as another example, the cloud storage device 830 transmits the user and cloud storage information to the cloud server 840 . It can also be registered by sending it to

When registering the cloud storage device 830 , the cloud storage device 830 provides information such as a cloud storage device identification ID, total storage space size, total storage space size in use, total available storage space size, etc. shown in FIG. 13 . may be provided to the cloud server 840 .

And, when registering a user, the cloud storage device identification ID of FIG. 12 and the administrator authority user identification ID of FIG. 13 and user information (user identification ID, available storage space size, used storage space size, allocated storage space size, storage disk identification ID and usage rights) to the cloud server 840 to register a user with administrator rights. In this case, in the case of registering an additional user other than the administrator, it may be provided to the cloud server 840 except for the administrator-rights user identification ID.

When receiving a user registration request from the user terminal 820 in the cloud server, the cloud server 840 registers user information on the cloud storage device 830 (operation 860).

If there is no registered user using the cloud storage device 830 , the cloud server 840 registers user information as an administrator.

When the cloud server 840 receives a request for additional user registration from the user terminal 820 (761), it transmits the user information requested for additional registration to the administrator to inquire about whether registration as a user of the cloud storage device 830 is possible. When transmitting and receiving a response message indicating that registration is possible as a user of the cloud storage device 830 from the manager, user information may be registered as a user of the cloud storage device 830 .

When a user with administrator authority is registered, the cloud server 840 registers user information received thereafter as a general user ( 861 ).

9 is a diagram illustrating another example of a process of registering a user and a cloud storage device for a cloud service according to an embodiment of the present invention.

9 illustrates a message flow in a process of registering a user and a cloud storage device for a cloud service when the cloud storage device 830 is connected to the Internet by wire.

Referring to FIG. 9 , since the cloud storage device 830 is connected to the Internet by wire, it is possible to communicate with the cloud server 840 without a separate Internet connection setting, so that information about the cloud storage device 830 is transferred to the cloud in advance. It registers with the server 840 (910).

The process of registering the cloud storage device 830 with the cloud server 840 may be performed when user information is registered with the cloud server 840 like a wireless case.

When the user 810 runs the app (911), the user terminal 820 searches for a nearby cloud storage device (912), and the cloud storage device 830 responds to the search request to discover the Bluetooth device to the user terminal (820) to notify (913).

The user terminal 820 displays the available cloud storage to the user 810 ( 914 ), and when the user 810 selects the cloud storage to be used ( 915 ), performs Bluetooth pairing with the cloud storage device 830 to perform Bluetooth communication connect (916, 917).

The user terminal 820 registers a user of the cloud storage device 830 with the cloud server 840 (S818).

Meanwhile, in step 918 , the user terminal 820 transmits and registers the user and cloud storage information to the cloud server 840 , but as another example, the cloud storage device 830 transmits the user and cloud storage information to the cloud server 840 . It can also be registered by sending it to

When receiving a user registration request from the user terminal 820 in the cloud server, the cloud server 840 registers user information on the cloud storage device 830 (S918).

In this case, the cloud server 840 registers the initially registered user as a user with administrator authority, and then registers user information received thereafter as a general user ( 919 ).

10 is a diagram illustrating a process in which a user authenticates for a cloud service according to an embodiment of the present invention.

The user terminal 820 encrypts the message confirming the user access right to the cloud storage so that it can be decrypted in the cloud server 840 (1011), and transmits it to the cloud server 840 (1012).

When the cloud server 840 receives a message confirming the user access right to the cloud storage, it checks whether it is an abnormal access (1013), checks the user access right to the cloud storage (1014), and the cloud storage The message for obtaining the user access right is encrypted (1015) to be decrypted by the cloud storage device (830) and transmitted to the cloud storage device (830) (1016).

The cloud storage device 830 grants a user right (1017), encrypts the user access right information to the cloud storage so that it can be decrypted in the cloud server 840 (1018), and transmits it to the cloud server 840 ( 1019).

The cloud server 840 encrypts the user access right information to the cloud storage so that it can be decrypted in the user terminal 820 (1020), and transmits it to the user terminal 820 (1021).

11 is a diagram illustrating a process of providing a cloud service to an authenticated user according to an embodiment of the present invention.

The cloud server 840 and the cloud storage device 830 authenticate the user terminal 820 ( 1110 and 1111 ).

The cloud storage device 830 checks the network settings of the cloud storage device 830 ( 1112 ), encrypts the network information (corresponding to the network information of FIG. 13 ) so that it can be decrypted in the cloud server 840 ( 1113 ) , transmits to the cloud server 840 ( 1114 ), and waits for the user ( 1115 ).

The user terminal 820 checks the network settings of the user terminal 820 (1116), encrypts the network information (corresponding to the network information in FIG. 12) to be decrypted in the cloud server 840 (1117), and the cloud It transmits to the server 840 to request network information of cloud storage ( 1118 ), and receives cloud storage network information from the cloud server 840 ( 1119 ).

Meanwhile, in steps 1112 to 1119, the order and roles of the cloud storage device 830 and the user terminal 820 may be reversed.

That is, the user terminal 820 checks the network settings of the user terminal 820, encrypts the network information (corresponding to the network information in FIG. 12) so that it can be decrypted in the cloud server 840, and transmits it to the cloud server, , the cloud storage device 830 may be on standby. Then, in the cloud storage device 830 , the network settings of the cloud storage device 830 are checked, and the network information (corresponding to the network information of FIG. 13 ) is encrypted so that the cloud server 840 can be decrypted to the cloud server 840 . ) to request network information of the user terminal 820 , and may receive network information of the user terminal from the cloud server 840 .

Thereafter, the cloud storage device 830 and the user terminal 820 connect a P2P communication channel ( 1120 , 1121 ), and perform data download ( 1122 ) and data upload ( 1123 ). When data download 1122 and data upload 1123 are performed, information included in the data structure of the shared file shown in FIG. 14 is used.

Since the user terminal 820 is active, the user terminal 820 attempts to open a P2P communication channel and downloads and uploads data. As another example, the cloud storage device 830 first opens a P2P communication channel and uploads and downloads data. It may be possible.

The method according to the embodiment may be implemented in the form of program instructions that can be executed through various computer means and recorded in a computer-readable medium. The computer-readable medium may include program instructions, data files, data structures, etc. alone or in combination. The program instructions recorded on the medium may be specially designed and configured for the embodiment, or may be known and available to those skilled in the art of computer software. Examples of the computer-readable recording medium include magnetic media such as hard disks, floppy disks and magnetic tapes, optical media such as CD-ROMs and DVDs, and magnetic media such as floppy disks. - includes magneto-optical media, and hardware devices specially configured to store and execute program instructions, such as ROM, RAM, flash memory, and the like. Examples of program instructions include not only machine language codes such as those generated by a compiler, but also high-level language codes that can be executed by a computer using an interpreter or the like. The hardware devices described above may be configured to operate as one or more software modules to perform the operations of the embodiments, and vice versa.

Software may comprise a computer program, code, instructions, or a combination of one or more thereof, which configures a processing device to operate as desired or is independently or collectively processed You can command the device. The software and/or data may be any kind of machine, component, physical device, virtual equipment, computer storage medium or apparatus, to be interpreted by or to provide instructions or data to the processing device. , or may be permanently or temporarily embody in a transmitted signal wave. The software may be distributed over networked computer systems and stored or executed in a distributed manner. Software and data may be stored in one or more computer-readable recording media.

As described above, although the embodiments have been described with reference to the limited drawings, those skilled in the art may apply various technical modifications and variations based on the above. For example, the described techniques are performed in an order different from the described method, and/or the described components of the system, structure, apparatus, circuit, etc. are combined or combined in a different form than the described method, or other components Or substituted or substituted by equivalents may achieve an appropriate result.

Therefore, other implementations, other embodiments, and equivalents to the claims are also within the scope of the following claims.

Claims (13)

when the cloud storage device receives a cloud storage search message from the user terminal, performing short-range wireless communication connection with the user terminal; and
When the cloud server receives a user registration request from the user terminal, registering user information for the cloud storage device
including,
The cloud storage device,
at least one storage frame having a storage unit; and
The main frame that controls the storage frame
including,
The at least one storage frame and the main frame are arranged in a stacked structure,
The main frame is disposed at the bottom of the stacked structure,
Each of the at least one storage frame,
an upward terminal connected to the storage frame disposed above;
a downward terminal connected to a storage frame or a main frame disposed below;
a storage connection terminal connected to the storage;
the storage unit for storing and providing data to provide a cloud storage service; and
A hub for connecting the upward terminal, the downward terminal, and the storage unit connection terminal
including,
The storage unit,
Operates under the control of the main frame,
The downward terminal,
a first upward channel receiving a current storage frame position from a lower layer of the stacked structure; and
A first downlink channel that transmits the upper layer storage frame and information indicating that each storage frame is activated to the lower layer storage frame or the main frame
including,
The upward terminal,
a second uplink channel for transferring the location of the storage frame of the upper layer to the storage frame of the upper layer; and
A second downlink channel for receiving information of an activated storage frame from the storage frame of the upper layer
containing
A service method using a cloud storage device.
According to claim 1,
When the cloud storage device is connected to the cloud server by wire through the Internet, registering the cloud storage device before registering the user information
A service method using a cloud storage device further comprising a.
According to claim 1,
When the cloud storage device is wirelessly connected to the cloud server, the step of registering the user information includes:
When registering the user information, the cloud storage device is also registered
A service method using a cloud storage device.
According to claim 1,
The step of registering the user information in the cloud server,
If there is no pre-registered user in the cloud storage device, registering the user information as an administrator
A service method using a cloud storage device comprising a.
According to claim 1,
The step of registering the user information in the cloud server,
if there is a user registered as an administrator in the cloud storage device, transmitting the user information to the administrator to transmit a request message inquiring whether registration as a user of the cloud storage device is possible; and
registering the user information as a user of the cloud storage device when receiving a response message indicating that registration is possible as a user of the cloud storage device from the manager
A service method using a cloud storage device comprising a.
delete A computer-readable recording medium in which a program for executing the method of any one of claims 1 to 5 is recorded.
at least one storage frame having a storage unit; and
The main frame that controls the storage frame
including,
The at least one storage frame and the main frame are arranged in a stacked structure,
The main frame is disposed at the bottom of the stacked structure,
Each of the at least one storage frame,
an upward terminal connected to the storage frame disposed above;
a downward terminal connected to a storage frame or a main frame disposed below;
a storage connection terminal connected to the storage;
the storage unit for storing and providing data to provide a cloud storage service; and
A hub for connecting the upward terminal, the downward terminal, and the storage unit connection terminal
including,
The storage unit,
Operates under the control of the main frame,
The downward terminal,
a first upward channel receiving a current storage frame position from a lower layer of the stacked structure; and
A first downlink channel that transmits the upper layer storage frame and information indicating that each storage frame is activated to the lower layer storage frame or the main frame
including,
The upward terminal,
a second uplink channel for transferring the location of the storage frame of the upper layer to the storage frame of the upper layer; and
A second downlink channel for receiving information of an activated storage frame from the storage frame of the upper layer
containing
cloud storage device.
delete 9. The method of claim 8,
The downward terminal,
an input/output channel used to input data or output the data to the storage unit;
a control channel for transmitting a control signal for turning on/off the storage unit of the storage frame selected from the main frame; and
A power connector for receiving power from the storage frame of the main frame or the lower layer according to the control signal of the control channel
A cloud storage device further comprising a.
9. The method of claim 8,
The upward terminal,
an input/output channel used to input data or output the data to the storage unit;
a control channel for transmitting a control signal for turning on/off the storage unit of the storage frame selected from the main frame; and
Power connector for supplying power to the storage frame of the upper layer
A cloud storage device further comprising a.
9. The method of claim 8,
The main frame is
an upward terminal connected to the storage frame disposed above; and
Control unit that controls the storage frame placed on top
including,
The control unit is
controlling the storage unit included in the at least one storage frame
cloud storage device.
13. The method of claim 12,
The upward terminal,
an upstream channel for transferring the location of the upper layer storage frame to the upper layer storage frame;
a downlink channel through which information of an activated storage frame is transmitted from the storage frame of the upper layer;
an input/output channel used to input data or output data to the storage unit of the storage frame;
a control channel for transmitting a control signal for turning on and off the storage unit of the selected storage frame according to the control of the control unit; and
Power connector for supplying power to the storage frame of the upper layer
A cloud storage device comprising a.

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