WO2019199053A1 - Dispositif et procédé de partage de données, procédé de fourniture de service de publicité les utilisant, et dispositif associé - Google Patents

Dispositif et procédé de partage de données, procédé de fourniture de service de publicité les utilisant, et dispositif associé Download PDF

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Publication number
WO2019199053A1
WO2019199053A1 PCT/KR2019/004275 KR2019004275W WO2019199053A1 WO 2019199053 A1 WO2019199053 A1 WO 2019199053A1 KR 2019004275 W KR2019004275 W KR 2019004275W WO 2019199053 A1 WO2019199053 A1 WO 2019199053A1
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Prior art keywords
blockchain
sharer
network
information
terminal
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PCT/KR2019/004275
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English (en)
Korean (ko)
Inventor
장기석
Original Assignee
애니파이 주식회사
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Priority claimed from KR1020180041584A external-priority patent/KR102504930B1/ko
Priority claimed from KR1020180041587A external-priority patent/KR20190118364A/ko
Application filed by 애니파이 주식회사 filed Critical 애니파이 주식회사
Publication of WO2019199053A1 publication Critical patent/WO2019199053A1/fr

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    • GPHYSICS
    • G06COMPUTING; CALCULATING OR COUNTING
    • G06QINFORMATION AND COMMUNICATION TECHNOLOGY [ICT] SPECIALLY ADAPTED FOR ADMINISTRATIVE, COMMERCIAL, FINANCIAL, MANAGERIAL OR SUPERVISORY PURPOSES; SYSTEMS OR METHODS SPECIALLY ADAPTED FOR ADMINISTRATIVE, COMMERCIAL, FINANCIAL, MANAGERIAL OR SUPERVISORY PURPOSES, NOT OTHERWISE PROVIDED FOR
    • G06Q30/00Commerce
    • G06Q30/02Marketing; Price estimation or determination; Fundraising
    • HELECTRICITY
    • H04ELECTRIC COMMUNICATION TECHNIQUE
    • H04WWIRELESS COMMUNICATION NETWORKS
    • H04W76/00Connection management
    • H04W76/10Connection setup
    • HELECTRICITY
    • H04ELECTRIC COMMUNICATION TECHNIQUE
    • H04WWIRELESS COMMUNICATION NETWORKS
    • H04W88/00Devices specially adapted for wireless communication networks, e.g. terminals, base stations or access point devices
    • H04W88/02Terminal devices
    • H04W88/04Terminal devices adapted for relaying to or from another terminal or user

Definitions

  • the present invention relates to an apparatus and method for sharing data, and more particularly, to an apparatus and method for distributing and sharing data by incorporating blockchain technology into a network, and more particularly, to a method of providing a service based on the same. .
  • the current high mobile data rates are due to the centralized structure of the mobile communications infrastructure.
  • Wi-Fi has a high effective marginal cost due to its low scalability. Wi-Fi is essentially designed for high speeds and low reach. As a result, overcoming short coverage and building a Wi-Fi infrastructure that exists everywhere requires additional installation of wires, APs, amplifiers, routers, and switches at high cost and ongoing maintenance costs.
  • Wi-Fi has a low return on investment, limiting openness and maintenance. Many studies have found that Wi-Fi at work places consumers to stay longer and increase sales. In practice, however, most business owners consider Wi-Fi to be part of value-added services and consider their contribution to sales significantly lower. Thus, there is a lack of motivation to open up Wi-Fi and provide a stable Internet for everyone. Currently, Wi-Fi in the workplace is often password-locked, limited-use, or open, unmaintained.
  • the present invention has been proposed to solve the above-described problems, and an object thereof is to provide an apparatus and method for providing an advertisement service based on a fair and secure internet infrastructure through decentralization from an internet service provider.
  • a data sharing apparatus includes a registration information input unit for receiving information of an access point to be registered in a network constituting a blockchain; A storage unit for storing information of the blockchain; And a controller configured to register information from the registration information input unit to the blockchain and store information on the blockchain based on the amount of data shared to the other sharer terminal through the access point, in the storage unit.
  • a registration information input unit for receiving information of an access point to be registered in a network constituting a blockchain
  • a storage unit for storing information of the blockchain
  • a controller configured to register information from the registration information input unit to the blockchain and store information on the blockchain based on the amount of data shared to the other sharer terminal through the access point, in the storage unit.
  • blocks including details of sharing with other sharer terminals and details of virtual currency transactions are connected in a chain form.
  • At least one other sharer terminal is connected to the network, and the controller may store information on a blockchain in which a virtual currency transaction history is proportional to the amount of data shared to at least one other sharer terminal.
  • a data sharing method includes a data sharing method in a data sharing apparatus, comprising: receiving information of an access point to be registered in a network constituting a blockchain; Registering the input information with the blockchain; And storing information of a blockchain based on the amount of data shared to the other sharer terminal through the access point, wherein the blockchain records details of sharing with the other sharer terminal and details of virtual currency transactions. Blocks including the are connected in a chain form.
  • the storage unit for storing the information of the blockchain based on the information by sharing the mobile communication network connected to the other sharer terminal on the network constituting the blockchain ;
  • a controller configured to store information on the blockchain based on the amount of data shared in the storage unit as the mobile communication network to which the mobile communication network is connected is shared to other sharer terminals of the network, wherein the blockchain is connected to the other sharer terminals. Blocks that contain details about the share of shares and details of cryptocurrency transactions are linked in a chain.
  • the data sharing method includes a data sharing method in a data sharing apparatus, the method comprising: sharing a mobile communication network connected thereto to other sharer terminals of a network constituting a block chain; And storing information on the blockchain based on the shared data amount, wherein the blockchain includes a block including details of sharing with the other sharer terminal and details of a virtual currency transaction in a chain form. do.
  • the data sharing apparatus according to another preferred embodiment of the present invention, the storage unit for storing the information of the blockchain; And a control unit which stores information on the blockchain based on the amount of data tethered to other sharer terminals on the network constituting the blockchain, in the storage unit, wherein the blockchain is shared with the other sharer terminals.
  • Blocks containing the details of the transaction and the details of cryptocurrency transactions are connected in a chain form.
  • the data sharing method according to another preferred embodiment of the present invention, a data sharing method in a data sharing apparatus, comprising: tethering data to other sharer terminals on the network constituting the blockchain; And storing information on the blockchain based on the amount of the tethered data, wherein the blockchain includes a block including details of sharing with the other sharer terminal and details of a virtual currency transaction in a chain form. do.
  • the tethering may include sharing an access point to which the other sharer terminal on the network is connected, resharing the wireless Internet shared from another Internet relay sharer terminal, or resharing a mobile communication network shared from the mobile sharer terminal. Can be done by.
  • an apparatus for providing a data sharing based advertisement service includes: an advertisement executive unit executing an advertisement to one or more terminals of a network constituting a blockchain; A storage unit for storing information of the blockchain based on the information as the execution of the advertisement in the advertisement execution unit is completed; And a control unit which stores information of the blockchain based on the information according to the completion of the advertisement execution in the advertisement execution unit in the storage unit, wherein the blockchain includes advertisement execution details and cryptocurrency transaction details accordingly. Blocks are connected in a chain form.
  • the advertisement executive unit may perform a target advertisement for a targeting target when the advertisement is executed.
  • the advertisement execution unit may limit the number of advertisement executions of the targeting advertisement for the targeting target.
  • the advertising service providing method in the advertising service providing apparatus comprising: executing an advertisement to one or more terminals of the network constituting the blockchain; And storing information on the blockchain based on the information according to the completion of the advertisement execution, wherein the blockchain includes a block containing an advertisement execution details and a corresponding cryptocurrency transaction details in a chain form.
  • a wireless mesh network can be formed in a blockchain between multiple devices to ensure internet quality and robust service.
  • devices connected directly or indirectly to a device that wants to share the Internet through a mesh network may provide and share the Internet according to rational transactions according to each role.
  • FIG. 1 is a block diagram illustrating a data sharing system according to an embodiment of the present invention.
  • FIG. 2 is a diagram illustrating an example of a mesh network by mobile terminals connected to the access point illustrated in FIG. 1.
  • 3 and 4 are diagrams illustrating Wi-Fi coverage expansion according to an embodiment of the present invention.
  • FIG. 5 is a diagram illustrating an internal configuration of an AP sharer terminal illustrated in FIG. 1.
  • FIG. 6 is a flowchart for describing a process of registering an access point illustrated in FIG. 1.
  • FIG. 7 is a flowchart for describing a data sharing method according to sharing of an access point illustrated in FIG. 1.
  • FIG. 8 is a diagram illustrating an internal configuration of the mobile communication sharer terminal illustrated in FIG. 1.
  • FIG. 9 is a flowchart illustrating a data sharing method by sharing a mobile communication network.
  • FIG. 10 is a diagram illustrating an internal configuration of the Internet relay sharer terminal shown in FIG. 1.
  • 11 is a flowchart for explaining a data sharing method through internet relay.
  • FIG. 12 is a diagram illustrating an internal configuration of the advertisement execution server shown in FIG. 1.
  • FIG. 13 is a flowchart for explaining an operation of the advertisement execution server illustrated in FIG. 1.
  • FIG. 1 is a block diagram illustrating a data sharing system according to an embodiment of the present invention
  • Figure 2 is a view showing an example of a mesh network by mobile terminals connected to the access point shown in Figure 1
  • Figure 3 and 4 is a diagram illustrating Wi-Fi coverage expansion according to an embodiment of the present invention.
  • the data sharing system shown in FIG. 1 includes a network 10, an access point 20, an AP sharer terminal 30, a mobile communication sharer terminal 40, an internet relay sharer terminal 50, an encryption server 60, Proxy server 70, advertiser terminal 80, advertising execution server 90, and relay server 100 is included.
  • Network 10 is a blockchain network.
  • the network 10 may be implemented as a wired network such as a local area network (LAN), a wide area network (WAN), or a value added network (VAN).
  • the network 10 may include a mobile radio communication network, a satellite communication network, Bluetooth, Wibro (Wireless Broadband Internet), HSDPA (High Speed Downlink Packet Access), Wi-Fi, and LTE (Long). Such as Term Evolution).
  • the network 10 may be a mixed network of wired and wireless.
  • the access point 20 assists in accessing the wireless Internet so that the terminal of the wireless Internet user may access the network 10 to use the Internet service.
  • the terminal of the wireless Internet user may be an AP sharer terminal 30, a mobile communication sharer terminal 40, an internet relay sharer terminal 50, an advertiser terminal 80, and the like.
  • FIG. 1 only one access point 20 is illustrated, but it should be seen that there are actually a plurality.
  • An access point 20, or wireless access point (WAP) refers to a device that enables wireless devices to connect to wired devices using related standards using Wi-Fi in a computer network.
  • WAP is typically connected to a router via a wired network and can relay data between wireless devices such as computers and printers and wired devices on the network.
  • the access point 20 may set up the encryption server 60. Although one encryption server 60 is shown on the network 10 in FIG. 1, it is understood that a plurality of encryption servers exist in practice. Accordingly, the access point 20 may request client authentication from the encryption server 60 mapped among the plurality of encryption servers 60 for client authentication.
  • the AP sharer terminal 30 is a terminal of the owner who owns the access point 20, so that the access point 20 can be shared with the terminal of another participant on the network 10.
  • the AP sharer terminal 30 may be a sharer's terminal sharing the access point 20.
  • AP sharer terminal 30 is equipped with a predetermined application or SDK (Software Development Kit) or the like that can be provided with the data sharing service in the present invention.
  • SDK Software Development Kit
  • the AP owner may operate his terminal 30 to register the access point 20 owned (owned) with the network 10 to participate in the data sharing service.
  • the password of the access point 20 encrypted with WPA2 / PSK is registered in the encrypted form in the blockchain of the network 10, so that other users (sharers) who use the network 10 do not know the password.
  • the RADIUS server of the access point 20 encrypted with 802.1x EAP as the encryption server 50 on the blockchain network, other users (sharers) using the network 10 secure the access point 20. Enable it.
  • a person who wants to receive Internet service through the network 10 has an incompatible access point, he or she may be provided with a compatible access point from an AP provider (not shown) and shared with other users. You can build a wireless network.
  • the AP sharer terminal 30 may be implemented as a portable terminal or a portable computer.
  • the portable terminal is a wireless communication device that guarantees portability and mobility, and includes a personal communication system (PCS), a global system for mobile communications (GSM), a personal digital cellular (PDC), a personal handyphone system (PHS), and a personal digital (PDA).
  • PCS personal communication system
  • GSM global system for mobile communications
  • PDC personal digital cellular
  • PHS personal handyphone system
  • PDA personal digital
  • Assistant International Mobile Telecommunication
  • CDMA Code Division Multiple Access
  • W-CDMA Wideband Internet
  • Wi-Fi Wi-Fi
  • LTE Long Term Evolution
  • Portable computers may include notebooks, laptops, and the like.
  • the AP sharer terminal 30 may be various smart devices such as a smart phone, a smart note, a tablet PC, a wearable computer.
  • the AP sharer terminal 30 may register its access point to a blockchain on the network, and the registered information (for example, information about the access point) is a terminal for proof of work among all terminals on the network (that is, on the network). Propagated to some of all terminals). The terminal for proof of work generates a block (including registration information) based on the verification of the corresponding registration information. Then, the terminal for proof of work propagates the generated block to all other terminals on the network (10). In this way, all terminals on the network 10 can easily know information on the access point by checking the block.
  • the registered information for example, information about the access point
  • the terminal for proof of work generates a block (including registration information) based on the verification of the corresponding registration information.
  • the terminal for proof of work propagates the generated block to all other terminals on the network (10). In this way, all terminals on the network 10 can easily know information on the access point by checking the block.
  • the account information of the AP sharer terminal 30 is stored in a virtual currency pool (not shown) which is formed by being distributed through a blockchain network.
  • the virtual currency pool may be formed on a blockchain network 10 to be distributed and shared between terminals, and the virtual currency pool is a transaction of virtual currency (for example, called Anycoin) shared through the blockchain network.
  • the system may operate and manage account information of all other terminals (including servers) 40, 50, 60, 70, 80, 90, and 100 on the network 10 as well as account information of the AP sharer terminal 30. have.
  • the cryptocurrency pool may be implemented as system processes for operating a cryptocurrency trading network distributed by blockchain sharing between terminals, not any one subject.
  • cryptocurrency pools are created by triggering blocks (smart contracts) created based on shared details of shared access points (e.g. number of users shared, amount of data shared, shared connection time, etc.). Pay cryptocurrency to the person who provided the share by checking the cryptocurrency transaction history.
  • the payment of the virtual currency does not mean that the virtual currency is paid directly, but it means that the account information of the person who provided the sharing and the account information of the person who provided the sharing are updated.
  • Participant A shares the access point the access point propagates the sharing details to the terminal for proof of work.
  • the terminal for proof of work verifies the corresponding shared details and generates blocks (including shared details and cryptocurrency transactions) as the verification succeeds. And, the terminal for proof of work propagates the generated block to all other terminals.
  • the virtual currency pool can check the corresponding transaction details in the propagated block.
  • the cryptocurrency pool subtracts the cryptocurrency A from the participant A's account and increases the cryptocurrency A to the account of the AP sharer terminal according to the cryptocurrency transaction history.
  • the service pool performs an update that increases virtual currency in the account of the person who provided the share, and performs an update that deducts the virtual currency in the account of the person who provided the share.
  • the terminal of the owner of the access point ie, AP sharer terminal 30
  • may share the amount of data shared eg, data packet amount, time, etc.
  • virtual currency can be issued.
  • the current block may include a hash value for a previously generated block, so that a plurality of blocks may have a structure sequentially connected in the generation order.
  • a structure in which a plurality of blocks are sequentially connected may be referred to as a block chain.
  • the security stability of the blockchain grows as more sharers share data.
  • the blockchain can be seen that the block including the details of the sharing between all the sharer terminals on the network 10 and the issuance / transaction details of the virtual currency is connected in a chain form.
  • the sharer who wants to receive value in the network 10 pays the virtual currency to the virtual currency pool (not shown).
  • the virtual currency may be a token such as, for example, Ethereum's ERC-20 protocol, or may be a new coin.
  • Cryptocurrency can be traded on the blockchain. Cryptocurrency plays a key role in motivating participants in the data sharing service in the present invention to provide value to other participants.
  • the issuance of virtual currency allows more participants to share the access point 20 so that the participants can access the access point 20 from more places.
  • the access authority of the access point 20 can be easily managed.
  • the user can easily register, change or delete the access right through a simple UI without having to verbally inform the password of the access point 20.
  • the mobile communication sharer terminal 40 may receive a desired internet service through a mobile communication network (eg, an LTE network) of the network 10.
  • a mobile communication network eg, an LTE network
  • FIG. 1 only one mobile communication sharer terminal 40 is illustrated, but a plurality of mobile communication sharer terminals 40 may exist.
  • Mobile communication sharer terminal 40 is equipped with a predetermined application or SDK that can be provided with the data sharing service in the present invention.
  • the mobile communication sharer terminal 40 may be implemented as a portable terminal or a portable computer.
  • the portable terminal is a wireless communication device that guarantees portability and mobility, and includes a personal communication system (PCS), a global system for mobile communications (GSM), a personal digital cellular (PDC), a personal handyphone system (PHS), and a personal digital (PDA).
  • PCS personal communication system
  • GSM global system for mobile communications
  • PDC personal digital cellular
  • PHS personal handyphone system
  • PDA personal digital
  • Assistant International Mobile Telecommunication
  • CDMA Code Division Multiple Access
  • W-CDMA Wideband Internet
  • Wi-Fi Wi-Fi
  • LTE Long Term Evolution
  • Portable computers may include notebooks, laptops, and the like.
  • the mobile communication sharer terminal 40 may be various smart devices such as a smart phone, a smart notebook, a tablet PC, a wearable computer.
  • the mobile communication sharer terminal 40 may be a terminal for sharing a mobile communication network (for example, LTE network) to which the user is connected to the terminal of another sharer existing in the network 10.
  • the corresponding mobile communication sharer terminal 40 is issued a virtual currency corresponding to the amount of data shared by sharing the LTE data already purchased or to be purchased to other sharers.
  • the meaning of issuing the virtual currency means that the account information of the corresponding mobile communication sharer terminal 40 is updated instead of directly issuing the virtual currency.
  • the mobile communication sharer terminal 40 may provide an Internet service to other sharers in an area in which mobile communication network installation is insufficient or a nearby mobile communication network such as a mobile device is difficult to use.
  • the corresponding mobile communication sharer terminal 40 is propagated to the terminal for proof of work.
  • the terminal for proof of work verifies the corresponding shared details and generates a block (including the shared details and the cryptocurrency transactions generated by triggering the smart contract) as the verification succeeds. And, the terminal for proof of work propagates the generated block to all other terminals. In this case, since the block (including shared details and virtual currency transaction details) is propagated in the virtual currency pool, the virtual currency pool can check the corresponding transaction details in the propagated block.
  • the cryptocurrency pool is deducted from the account A of the corresponding sharer terminal that shared the mobile communication network according to the cryptocurrency transaction details and transferred to the account of the corresponding sharer terminal 40 which provided sharing of the mobile communication network. Increase the cryptocurrency A won.
  • the service pool performs an update that increases virtual currency in the account of the person who provided the share, and performs an update that deducts the virtual currency in the account of the person who provided the share.
  • the mobile sharer terminal 40 that provides sharing of the mobile communication network corresponds to the amount of shared data (eg, data packet amount, time, etc.). It can be said that a virtual currency is issued.
  • the mobile communication sharer terminal 40 may be a terminal sharing a mobile communication network (eg, an LTE network) connected to another person.
  • a mobile communication network eg, an LTE network
  • the internet relay sharer terminal 50 may perform tethering on the network 10.
  • tethering is a service that allows, for example, a mobile device connected to the Internet to act as a relay to enable internet access to other devices in the vicinity.
  • FIG. 1 only one Internet relay sharer terminal 50 is illustrated, but in practice, a plurality may be present.
  • Internet relay sharer terminal 50 is equipped with a predetermined application or SDK that can be provided with the data sharing service in the present invention.
  • the Internet relay sharer terminal 50 may be implemented as a portable terminal or a portable computer.
  • the portable terminal is a wireless communication device that guarantees portability and mobility, and includes a personal communication system (PCS), a global system for mobile communications (GSM), a personal digital cellular (PDC), a personal handyphone system (PHS), and a personal digital (PDA).
  • PCS personal communication system
  • GSM global system for mobile communications
  • PDC personal digital cellular
  • PHS personal handyphone system
  • PDA personal digital
  • Assistant International Mobile Telecommunication
  • CDMA Code Division Multiple Access
  • W-CDMA Wideband Internet
  • Wi-Fi Wi-Fi
  • LTE Long Term Evolution
  • Portable computers may include notebooks, laptops, and the like.
  • the Internet relay sharer terminal 50 may be a variety of smart devices, such as smart phones, smart notes, tablet PCs, wearable (wearable) computer.
  • the Internet relay sharer terminal 50 again shares the access point 20 to which the user is connected to another sharer terminal existing in the network 10, and the wireless Internet shared by another wireless Internet sharer (eg, Wi-Fi) again.
  • the terminal may be a sharing terminal or a terminal resharing a mobile communication network (eg, an LTE network) shared by a mobile communication network sharer.
  • the corresponding internet relay sharer terminal 50 is issued a virtual currency corresponding to the amount of tethered data to the other sharer terminal.
  • the issuance of the virtual currency does not mean that the virtual currency is directly issued, but that the account information is updated based on the virtual currency corresponding to the amount of data provided for sharing.
  • the Internet relay sharer terminal 50 shares an access point that has not yet been registered in the network 10 and solves the problem of lack of initial participant, and solves the fundamentally short reach problem of wireless Internet (eg, Wi-Fi). It also extends the short reach of the mobile communication sharer terminal.
  • Wi-Fi wireless Internet
  • the above-described Internet relay sharer terminal 50 may share the access point 20 to which it is connected to another sharer terminal existing in the network 10, or share the wireless Internet (eg, Wi-Fi) shared by another sharer. ) Or re-shared a mobile communication network (eg, LTE network) shared by a mobile network sharer, the corresponding internet relay sharer terminal 50 is a terminal for proof of work (part of terminals on the network). Propagated to The terminal for proof of work verifies the corresponding shared details and generates a block (including the shared details and the cryptocurrency transactions generated by triggering the smart contract) as the verification succeeds. And, the terminal for proof of work propagates the generated block to all other terminals.
  • a mobile communication network eg, LTE network
  • the virtual currency pool can check the corresponding transaction details in the propagated block.
  • the cryptocurrency pool subtracts the cryptocurrency A won from the account of the terminal that received the internet relay and increases the cryptocurrency A won to the account of the terminal that provided the internet relay sharing according to the cryptocurrency transaction history.
  • the service pool performs an update that increases virtual currency in the account of the person who provided the share, and performs an update that deducts the virtual currency in the account of the person who provided the share.
  • the terminal providing the internet relay sharing receives a virtual currency corresponding to the shared data amount (eg, data packet amount, etc.).
  • the AP sharer terminal 30, the mobile communication sharer terminal 40, and the Internet relay sharer terminal 50 may request a connection to the proxy server 70 to be used.
  • the AP sharer terminal 30, the mobile communication sharer terminal 40, and the Internet relay sharer terminal 50 is connected to the virtual temporary network by making a request for using a virtual private network (VPN) (not shown). You can then use that virtual hypothesis.
  • VPN virtual private network
  • the access point 20 and the sharer terminals 30, 40, and 50 described above may form a decentralized mesh network centering on a device to share the Internet as shown in FIG. 2.
  • a device to share the Internet as shown in FIG. 2.
  • FIG. 2 only the reference numeral 40 is displayed for the sharer terminal, but the AP sharer terminal 30, the mobile communication sharer terminal 40, and the Internet relay sharer terminal 50 may be mixed.
  • a wireless mesh network as shown in Figures 3 and 4 it is possible to ensure the Internet quality, it is possible to share the wireless Internet resources. For example, a multi-hop or multi-peer wireless Internet resource sharing service can be provided.
  • a process of forming an encrypted communication channel between the sharer terminals 30, 40, and 50 and the access point 20 may be as follows. First, the sharer terminal 30, 40, 50 requests EAP authentication and encryption from the encryption server 50 to the access point 20 to establish a communication channel. As such, the access point 20 relays the EAP authentication and encryption request over the network 10 to a cryptographic server 60 specified (ie, mapped) among a number of cryptographic servers 60. The encryption server 60 performs client authentication and then transfers the result (that is, EAP authentication success and encryption key) to the access point 20 through the network 10. In addition, the access point 20 transmits the EAP authentication success and the encryption key to the sharer terminal. As a result, a communication channel is formed between the corresponding sharer terminal 30, 40, or 50 and the access point 20.
  • the corresponding sharer terminal 30, 40, or 50 may use the access point 20 designated by the sharer terminal, and the desired share point to the corresponding access point 20 using the encryption key. You can request and receive data.
  • the encryption server 60 establishes encrypted communication between the access point 20 and the sharer terminal 30, 40, 50. Although only one encryption server 60 is illustrated in FIG. 1, a plurality of encryption servers 60 may be present.
  • the encryption server 60 acts as a RADIUS server on the network 10 and may be referred to as an Extensible Authentication Protocol (EAP) encryption node.
  • EAP Extensible Authentication Protocol
  • connection request information eg, a packet
  • the encryption server 60 propagates the connection request information to a node (ie, a terminal for authentication and encryption) (not shown) on the network 10.
  • the encryption server 60 transmits a result (eg, authentication success and encryption key) to the access point 20 at the node according to the triggering of the smart contract, and the access point 20 transmits the result to the corresponding sharer terminal.
  • a result eg, authentication success and encryption key
  • a communication channel is established between the access point 20 and the sharer terminal, so that data sharing is performed through encrypted communication between the access point 20 and the sharer terminal.
  • the crypto participant may be issued a virtual currency in response to the cryptographic process.
  • a smart contract is triggered on the blockchain of the network 10, thereby sharing the sharer terminal, the access point 20, and encryption.
  • Asymmetric key exchange occurs between servers 60.
  • the above-mentioned smart contract is disclosed and stored on the blockchain in the form of code and propagated between users of the network 10, thereby preventing forgery and alteration.
  • the above-described smart contract may include, for example, at least one of a virtual currency issuance condition, a transaction condition, a data sharing process, an encryption process, a proxy process, and an advertisement process.
  • the encryption server 60 may be issued a virtual currency in proportion to the number of encryption.
  • the proxy server 70 may allow a terminal (eg, one of the AP sharer terminal 30, the mobile communication sharer terminal 40, and the Internet relay sharer terminal 50) to indirectly access another network service through the terminal. It allows you.
  • the proxy server 70 may be referred to as a server that relays data.
  • the proxy server 70 may store the data once requested on the Internet in a large disk and provide the data stored in the disk upon repeated requests.
  • the proxy server 70 reads the address from the previously stored memory, finds the information immediately if there is one, and brings it from the server at the address. Store it in memory and send it to the client.
  • the proxy has memory, a host with lots of people already has data in memory, which is taken directly from the proxy and forwarded to the requestor. This reduces the traffic on the overseas line and achieves the dual effect of speed.
  • the proxy server 70 may be issued a virtual currency corresponding to the amount of relayed data (eg, data packet amount, time, etc.).
  • proxy servers 70 There may be a plurality of proxy servers 70 in FIG. 1.
  • a virtual private network (VPN) server may be used instead of the proxy server 70.
  • the virtual private network server registers its public key in the blockchain of the network 10 through an authentication process, and upon receiving a request for using the virtual private network server from another sharer, forms an encrypted tunnel through its public key. Safely act on all network traffic of the sharer.
  • the virtual private network server may be issued a virtual currency corresponding to the amount of data on behalf of the proxy.
  • Internet users can use the Internet securely through a virtual private network server when accessing a network that is difficult to trust, such as abroad.
  • the proxy server 70 may register its public key in the blockchain of the network 10 through an authentication procedure as in the virtual private network server.
  • the proxy server 70 may securely relay all network traffic of the sharer by forming an encrypted tunnel through its public key.
  • the advertiser terminal 80 may request (request) an advertisement execution from the advertisement execution server 90 on the network 10.
  • the advertiser terminal 80 may request advertisement execution for all terminals on the network 10, or selectively request several terminals to request advertisement execution. That is, targeting advertisements may be performed based on precise information such as the location, age, and interest of the sharer who is the target of the targeting advertisement, and the number of advertisement execution may be limited.
  • the advertiser terminal 80 provides a predetermined coin (virtual currency) while requesting the advertisement execution server 90 to execute the advertisement.
  • the advertisement execution server 90 executes an advertisement to sharers on the network 10 (that is, users connected to the network 10) based on the advertisement execution request from the advertiser terminal 80.
  • a predetermined amount of virtual currency will be increased in the account of the advertisement execution server 90 and / or the sharer terminal that viewed the advertisement.
  • the relay server 100 does not necessarily need to exist.
  • the relay server 100 has a blockchain that the terminals described above have. Accordingly, the relay server 100 may provide a blockchain upon request from the terminal.
  • the terminals do not have to have a blockchain. That is, when some terminals and relay server 100 have a block chain without having all terminals have a block chain on the network, a terminal that does not have a block chain requests the relay server 100 whenever necessary to block the block chain. You can check the chain.
  • FIG. 5 is a diagram illustrating an internal configuration of an AP sharer terminal illustrated in FIG. 1.
  • the AP sharer terminal 30 may include a communication unit 31, a storage unit 32, a registration information input unit 33, and a control unit 34.
  • the communication unit 31 may perform a wireless connection with the access point 20 and a wireless communication with one or more other sharer terminals 40 or 50.
  • the communication unit 31 may include a Wi-Fi module for wireless connection with the access point 20, a Wi-Fi direct module for short-range communication with one or more other sharer terminals 40, or 50. It may include.
  • the storage unit 32 stores blockchain information (eg, AP registration information, sharing details, virtual currency transaction details, and the like).
  • blockchain information eg, AP registration information, sharing details, virtual currency transaction details, and the like.
  • the registration information input unit 33 receives information (eg, a unique number, location information, owner information, etc.) of the access point 20 to be registered in the network 10.
  • information eg, a unique number, location information, owner information, etc.
  • the controller 34 controls the overall operation of the AP sharer terminal 30.
  • the control unit 34 is equipped with a predetermined application or a software development kit (SDK) or the like that can receive the data sharing service according to the present invention.
  • SDK software development kit
  • the controller 34 registers the access point 20 owned by the owner of the AP sharer terminal 30 in the network 10 based on the registration information from the registration information input unit 33, and stores the storage unit ( Control the storage of information in the blockchain.
  • the AP sharer terminal 30 registers its access point to the blockchain on the network 10 (S10).
  • the registered information (eg, information about the access point) is propagated to the terminal for proof of work (ie, part of all the terminals on the network) among all the terminals on the network (S12).
  • the terminal for proof of work After verifying the registration information, the terminal for proof of work generates a block (including registration information) based on the registration information (S14).
  • the terminal for proof of work propagates the generated block to all other terminals on the network 10 (S16).
  • sharer (participant) A
  • sharer participant A
  • the access point 20 works on the sharing details. It propagates to the terminal (partial terminal on the network 10) for verification (S22).
  • the terminal for proof of work verifies the corresponding shared details and generates a block (including the shared details and the cryptocurrency transactions generated by the smart contract trigger) as the verification succeeds (S24).
  • the terminal for proof of work propagates the generated block to all other terminals (S26).
  • the virtual currency pool can check the corresponding transaction details in the propagated block.
  • the cryptocurrency pool subtracts cryptocurrency A from the participant A's account and increases the cryptocurrency A to the account of the AP sharer terminal corresponding to the owner of the access point according to the cryptocurrency transaction history.
  • the service pool performs an update that increases virtual currency in the account of the person who provided the share, and performs an update that deducts the virtual currency in the account of the person who provided the share.
  • FIG. 8 is a diagram illustrating an internal configuration of the mobile communication sharer terminal illustrated in FIG. 1, and FIG. 9 is a flowchart for describing a data sharing method according to sharing a mobile communication network.
  • the mobile communication sharer terminal 40 may include a communication unit 41, a storage unit 42, and a control unit 43.
  • the communication unit 41 may perform wireless communication with another sharer terminal 30 or 50 through a mobile communication network (eg, LTE).
  • a mobile communication network eg, LTE
  • the communication unit 41 may include a mobile communication module for connecting to a mobile communication network, a module for wireless communication with another sharer terminal 30 or 50, and the like.
  • the storage unit 42 stores blockchain information (eg, sharing details, virtual currency transaction details, and the like).
  • the control unit 43 controls the overall operation of the mobile communication sharer terminal 40.
  • the control unit 43 is equipped with a predetermined application or SDK (Software Development Kit) or the like that can receive the data sharing service in the present invention.
  • SDK Software Development Kit
  • the controller 43 controls the mobile communication network (eg, LTE network) connected by the mobile communication sharer terminal 40 to be shared with other sharers' terminals existing in the network 10, and the storage unit 42. Control the storage of information in the blockchain.
  • the mobile communication network eg, LTE network
  • the mobile communication sharer terminal 40 shares a mobile communication network (for example, LTE) to which the mobile communication sharer terminal 40 is connected (S30).
  • a mobile communication network for example, LTE
  • the mobile communication sharer terminal 40 displays the sharing details of the terminal for proof of work (part of the network 10). To the terminal) (S32).
  • the terminal for proof of work verifies the corresponding shared details and generates a block (including the shared details and the cryptocurrency transactions generated by the smart contract trigger) as the verification succeeds (S34).
  • the terminal for proof of work propagates the generated block to all other terminals (S36).
  • the virtual currency pool can check the corresponding transaction details in the propagated block.
  • the cryptocurrency pool subtracts the cryptocurrency A won from the account of the terminal that received the share according to the cryptocurrency transaction history and increases the cryptocurrency A won to the account of the mobile communication sharer terminal 40 that provided the share. Let's do it.
  • the service pool performs an update that increases virtual currency in the account of the person who provided the share, and performs an update that deducts the virtual currency in the account of the person who provided the share.
  • FIG. 10 is a diagram illustrating an internal configuration of the Internet relay sharer terminal illustrated in FIG. 1, and FIG. 11 is a flowchart for explaining a data sharing method through Internet relay.
  • the internet relay sharer terminal 50 may include a communication unit 51, a storage unit 52, and a control unit 53.
  • the communication unit 51 may perform wireless communication with another sharer terminal 30 or 40.
  • the communication unit 51 communicates so that the access point 20 connected by the corresponding Internet relay sharer terminal 50 can be shared with other sharer terminals existing in the network 10.
  • the communication unit 51 may reshare the wireless Internet shared from other wireless Internet sharers.
  • the communication unit 51 may again share a mobile communication network (eg, LTE network) shared by the mobile communication network sharer.
  • the storage unit 52 stores blockchain information (eg, sharing details, virtual currency transaction details, and the like).
  • the controller 53 controls the overall operation of the Internet relay sharer terminal 50.
  • the control unit 53 is equipped with a predetermined application or SDK (Software Development Kit) or the like that can receive the data sharing service in the present invention.
  • SDK Software Development Kit
  • control unit 53 controls to share the access point 20 connected by the corresponding Internet relay sharer terminal 50 to other sharer terminals existing in the network 10, and wirelessly shared from other wireless Internet sharers. Controlling to reshare the Internet, and controlling resharing of a mobile communication network (eg, an LTE network) shared from a mobile network sharer. The control unit 53 then controls the storage of the blockchain information in the storage unit 52.
  • a mobile communication network eg, an LTE network
  • the Internet relay sharer terminal 50 shares the access point 20 to which it is connected to another sharer (S40), re-shares the wireless Internet (eg, Wi-Fi) shared from another wireless Internet sharer (S42), or a mobile communication network
  • the mobile communication network (eg, LTE) shared from the sharer is shared again (S44).
  • the Internet relay sharer terminal 50 is propagated to the terminal (partial terminals on the network) for proof of work (S46).
  • the terminal for proof of work verifies the corresponding shared details and generates a block (including the shared details and the cryptocurrency transactions generated by triggering the smart contract) as the verification succeeds (S48).
  • the terminal for proof of work propagates the generated block to all other terminals (S50).
  • the virtual currency pool can check the corresponding transaction details in the propagated block.
  • the cryptocurrency pool subtracts the cryptocurrency A won from the account of the terminal that received the internet relay and increases the cryptocurrency A won to the account of the terminal that provided the internet relay sharing according to the cryptocurrency transaction history.
  • the service pool performs an update that increases virtual currency in the account of the person who provided the share, and performs an update that deducts the virtual currency in the account of the person who provided the share.
  • the virtual currency pool receives the virtual currency from the terminal for receiving the share and pays the virtual currency to the terminal providing the share, but does not go through the virtual currency pool directly between the terminals. You can also make cryptocurrency transactions happen.
  • FIG. 12 is an internal configuration diagram of the advertisement execution server shown in FIG. 1, and FIG. 13 is a flowchart for explaining the operation of the advertisement execution server shown in FIG. 1.
  • the advertisement execution server 90 may be an example of the data sharing based advertisement service providing apparatus described in the claims of the present invention.
  • the advertisement execution server 90 includes an advertisement execution unit 91, a storage unit 92, and a control unit 93.
  • the advertisement execution unit 91 executes advertisements to various sharers on the network 10 (that is, users connected to the network 10).
  • the advertisement executive unit 91 may target the advertisement based on precise information such as the location, age, and interest of the sharer who is the target of the advertisement.
  • the number of advertisement executions of the targeting advertisement for the targeting target may be limited.
  • the storage unit 92 temporarily stores the virtual currency from the advertiser terminal 80 that has requested the advertisement execution, and stores the blockchain information (eg, the virtual currency transaction details, etc.) based on the advertisement execution.
  • the controller 93 controls the overall operation of the advertisement execution server 90. That is, the control unit 93 controls the advertisement execution unit 91 to execute advertisements to various sharers (that is, users connected to the network 10) on the network 10.
  • control unit 93 temporarily stores the virtual currency from the advertiser terminal 80 that requested the execution of the advertisement in the storage unit 92, and then virtually stores the virtual currency temporarily stored at the time of execution of the advertisement in the advertisement execution unit 91. Pay to the money pool (service pool).
  • the control unit 93 then controls the storage of the blockchain information in the storage unit 92.
  • the advertisement execution server 90 propagates the advertisement execution details to a terminal (partial terminal on the network) for proof of work. Accordingly, the terminal for proof of work verifies the corresponding advertisement execution details and generates a block (including the advertisement execution details and the cryptocurrency transactions generated by the smart contract triggering) as the verification is successful. And, the terminal for proof of work propagates the generated block to all other terminals. In this case, since the block (including advertisement execution history and virtual currency transaction details) is also propagated in the virtual currency pool, the virtual currency pool can check the corresponding transaction details in the propagated block.
  • the cryptocurrency pool deducts the cryptocurrency A from the account of the advertiser terminal 80 that has requested the advertisement execution according to the cryptocurrency transaction history, and sends it to the account of the terminal that viewed the advertisement execution server 90 and / or the advertisement. Increase the A won.
  • the advertiser terminal 80 requests the advertisement execution server 90 to execute the advertisement to request (request) the advertisement execution and provides a predetermined virtual currency (S100). Accordingly, the virtual currency from the advertiser terminal 80 is temporarily stored in the storage unit 92 of the advertisement execution server 90.
  • the advertisement execution server 90 pays the temporarily stored virtual currency to the virtual currency pool (service pool), and provides the advertisement execution request content (for example, a target advertisement execution request) from the advertiser terminal 80. Accordingly, the corresponding advertisement is executed (S102).
  • the advertisement execution server 90 propagates the advertisement execution details to a terminal (partial terminal on the network) for proof of work. Accordingly, the terminal for proof of work verifies the corresponding advertisement execution details and generates a block (including the advertisement execution details and the cryptocurrency transactions generated by the smart contract triggering) as the verification is successful. And, the terminal for proof of work propagates the generated block to all other terminals. In this case, since the block (including advertisement execution history and virtual currency transaction details) is also propagated in the virtual currency pool, the virtual currency pool can check the corresponding transaction details in the propagated block.
  • the cryptocurrency pool deducts the cryptocurrency A from the account of the advertiser terminal 80 that has requested the advertisement execution according to the cryptocurrency transaction history, and sends it to the account of the terminal that viewed the advertisement execution server 90 and / or the advertisement. Increasing the virtual currency A won (S104).
  • a person who executes an advertisement or watches an advertisement may be issued a virtual currency, and a person who requests the advertisement execution may be paid a virtual currency.
  • network 20 access point

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Abstract

L'invention concerne un dispositif et un procédé de partage de données qui peuvent établir une infrastructure Internet équitable et sécurisée par décentralisation de fournisseurs de services Internet. Le dispositif de l'invention comprend : une unité d'entrée d'informations d'enregistrement destinée à recevoir des informations d'un point d'accès (AP) à enregistrer dans un réseau constituant une chaîne de blocs ; une unité de stockage servant à stocker des informations de la chaîne de blocs ; et une unité de commande permettant d'enregistrer les informations de l'unité d'entrée d'informations d'enregistrement dans la chaîne de blocs et de stocker les informations de la chaîne de blocs dans l'unité de stockage sur la base de la quantité de données partagées avec d'autres terminaux de partage par l'intermédiaire du point d'accès. Dans la chaîne de blocs, des blocs comprenant des détails de partage avec d'autres terminaux de partage et des détails de transactions monétaires virtuelles sont connectés sous la forme d'une chaîne.
PCT/KR2019/004275 2018-04-10 2019-04-10 Dispositif et procédé de partage de données, procédé de fourniture de service de publicité les utilisant, et dispositif associé WO2019199053A1 (fr)

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KR10-2018-0041584 2018-04-10
KR1020180041584A KR102504930B1 (ko) 2018-04-10 2018-04-10 데이터 공유 장치 및 방법
KR10-2018-0041587 2018-04-10
KR1020180041587A KR20190118364A (ko) 2018-04-10 2018-04-10 데이터 공유 기반의 광고 서비스 제공 장치 및 방법

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