KR20170134909A - Method for Reverse Sharing Parker Device by using Sharer's Mobile Device - Google Patents
Method for Reverse Sharing Parker Device by using Sharer's Mobile Device Download PDFInfo
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- KR20170134909A KR20170134909A KR1020160065745A KR20160065745A KR20170134909A KR 20170134909 A KR20170134909 A KR 20170134909A KR 1020160065745 A KR1020160065745 A KR 1020160065745A KR 20160065745 A KR20160065745 A KR 20160065745A KR 20170134909 A KR20170134909 A KR 20170134909A
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- H—ELECTRICITY
- H04—ELECTRIC COMMUNICATION TECHNIQUE
- H04L—TRANSMISSION OF DIGITAL INFORMATION, e.g. TELEGRAPHIC COMMUNICATION
- H04L9/00—Cryptographic mechanisms or cryptographic arrangements for secret or secure communications; Network security protocols
- H04L9/08—Key distribution or management, e.g. generation, sharing or updating, of cryptographic keys or passwords
- H04L9/0861—Generation of secret information including derivation or calculation of cryptographic keys or passwords
- H04L9/0869—Generation of secret information including derivation or calculation of cryptographic keys or passwords involving random numbers or seeds
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- H—ELECTRICITY
- H04—ELECTRIC COMMUNICATION TECHNIQUE
- H04L—TRANSMISSION OF DIGITAL INFORMATION, e.g. TELEGRAPHIC COMMUNICATION
- H04L9/00—Cryptographic mechanisms or cryptographic arrangements for secret or secure communications; Network security protocols
- H04L9/32—Cryptographic mechanisms or cryptographic arrangements for secret or secure communications; Network security protocols including means for verifying the identity or authority of a user of the system or for message authentication, e.g. authorization, entity authentication, data integrity or data verification, non-repudiation, key authentication or verification of credentials
- H04L9/3226—Cryptographic mechanisms or cryptographic arrangements for secret or secure communications; Network security protocols including means for verifying the identity or authority of a user of the system or for message authentication, e.g. authorization, entity authentication, data integrity or data verification, non-repudiation, key authentication or verification of credentials using a predetermined code, e.g. password, passphrase or PIN
- H04L9/3228—One-time or temporary data, i.e. information which is sent for every authentication or authorization, e.g. one-time-password, one-time-token or one-time-key
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- H—ELECTRICITY
- H04—ELECTRIC COMMUNICATION TECHNIQUE
- H04L—TRANSMISSION OF DIGITAL INFORMATION, e.g. TELEGRAPHIC COMMUNICATION
- H04L9/00—Cryptographic mechanisms or cryptographic arrangements for secret or secure communications; Network security protocols
- H04L9/32—Cryptographic mechanisms or cryptographic arrangements for secret or secure communications; Network security protocols including means for verifying the identity or authority of a user of the system or for message authentication, e.g. authorization, entity authentication, data integrity or data verification, non-repudiation, key authentication or verification of credentials
- H04L9/3247—Cryptographic mechanisms or cryptographic arrangements for secret or secure communications; Network security protocols including means for verifying the identity or authority of a user of the system or for message authentication, e.g. authorization, entity authentication, data integrity or data verification, non-repudiation, key authentication or verification of credentials involving digital signatures
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- H—ELECTRICITY
- H04—ELECTRIC COMMUNICATION TECHNIQUE
- H04W—WIRELESS COMMUNICATION NETWORKS
- H04W12/00—Security arrangements; Authentication; Protecting privacy or anonymity
- H04W12/06—Authentication
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- H—ELECTRICITY
- H04—ELECTRIC COMMUNICATION TECHNIQUE
- H04W—WIRELESS COMMUNICATION NETWORKS
- H04W4/00—Services specially adapted for wireless communication networks; Facilities therefor
- H04W4/70—Services for machine-to-machine communication [M2M] or machine type communication [MTC]
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- H—ELECTRICITY
- H04—ELECTRIC COMMUNICATION TECHNIQUE
- H04W—WIRELESS COMMUNICATION NETWORKS
- H04W4/00—Services specially adapted for wireless communication networks; Facilities therefor
- H04W4/80—Services using short range communication, e.g. near-field communication [NFC], radio-frequency identification [RFID] or low energy communication
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- Computer Security & Cryptography (AREA)
- Computer Networks & Wireless Communication (AREA)
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Abstract
A reverse parker sharing method using a sharer wireless terminal according to the present invention is a method executed through a server, the method comprising: receiving a designated unidirectional radio signal And the unique authentication information for uniquely identifying and authenticating the wireless terminal that has the specified app installed by the user who owns the signal device and stores the association information in association with each other, A user of the user who controls the parking status by operating a circular mechanism based on a result of recognizing the specified code information by receiving a unidirectional radio signal transmitted from the user's signal device from an app of the user wireless terminal corresponding to the unique authentication information Receiving the sharing request information requesting sharing of the parker device to a third party And when the sharer to be shared with the parker device is determined, authentication information for authenticating code data to be transmitted in a short distance via a unidirectional radio signal of the short range communication unit included in the determined sharer wireless terminal is confirmed, Receiving the code data from the shared parker device when the shared parker device transmits the recognized code data through the unidirectional radio signal and stores the shared code information in the shared parker device, Authenticates the validity of the received code data using authentication information associated with the parker device, and provides the authentication result of the code data to the shared parker device, and the authentication result is provided to the shared parker device And is used to control whether or not parking by operating a circular mechanism portion of the parker device.
Description
The present invention allows a third party to share a parker device that controls whether or not a specified parking space is parked by recognizing an asynchronous radio signal transmitted from a chip module of a signal device mounted on a user vehicle, And mapping the authentication information for authenticating the code data to be transmitted through the asynchronous radio signal of the received sharer wireless terminal with the shared parker device to manage the code data transmitted through the asynchronous radio signal of the sharper wireless terminal in the shared parker device And authenticates the code data through the authentication information to request shared authentication.
With the recent rapid increase in the number of vehicles, parking is becoming more and more serious mainly in urban areas. For example, in an office that manages a parking lot or an outside parking space in front of a building, an unauthorized parking prevention device is installed in a parking space, and the remote control is controlled by a remote control at an office to prevent unauthorized parking of an external vehicle (Practical New & 2010-0008085 (Aug. 13, 2010)), but it is very uncomfortable for a subject to manage a plurality of parking spaces in such a way that it is rarely utilized.
On the other hand, a remote controller of such an unauthorized parking prevention device may be provided to a legitimate vehicle driver who can park in each parking space, and the remote controller may be operated to operate the unauthorized parking prevention device. However, It is very inconvenient to operate the device. In particular, when a specific person controls parking of a specific parking space through an unauthorized parking prevention device, the parking space has a difficult problem to be shared with a third party.
SUMMARY OF THE INVENTION It is an object of the present invention to solve the above-mentioned problems, and it is an object of the present invention to provide a parking lot device for controlling whether a parking space is parked by recognizing and authenticating an asynchronous radio signal transmitted from a chip module of a signal device mounted on a user vehicle And mapping the authentication information for authenticating the code data to be transmitted through the asynchronous radio signal of the sharer wireless terminal shared by the parker device with the shared parker device, A method of sharing a reverse parker using a sharer wireless terminal that recognizes code data transmitted through an asynchronous wireless signal of a terminal and authenticates the code data through the authentication information and performs shared parking when authentication is requested.
A method of sharing a reverse parker using a sharer wireless terminal according to the present invention is a method executed by a server, the method comprising: receiving unique information for uniquely identifying a vehicle-mounted signal device that can be loaded on a user vehicle and transmits a specified unidirectional radio signal; The method comprising: a first step of registering and associating unique authentication information for uniquely identifying and authenticating a wireless terminal having a specified device installed therein by a user who owns a signaling device; A sharing request information requesting a third party to share a parker device of a user who controls whether or not the parking space is controlled by operating a circular mechanical unit based on a result of recognizing and authenticating the designated code information by receiving a unidirectional wireless signal transmitted from the user's signaling device And a sharer to be shared with the parker apparatus, A third step of confirming authentication information for authenticating code data to be transmitted to a nearby location through a unidirectional radio signal of a short distance communication unit provided in a predetermined sharer wireless terminal; and a third step of confirming the device information of the shared parker device and the confirmed authentication information A fourth step of associating the shared parker device with the shared parker device, a fourth step of associating the shared parker device with the shared parker device, and a fifth step of transmitting the code data recognized through the unidirectional radio signal from the shared parker device, A sixth step of authenticating the validity of the received code data using the authentication information, and a seventh step of providing an authentication result of the code data to the shared parker device, And is used to control whether or not the parking lot is operated by operating a circular mechanism portion of the parker device .
In the reverse parker sharing method using the sharer wireless terminal according to the present invention, when the validity of the code data is authenticated, the parker apparatus controls the circular mechanism of the parker apparatus to be parkable.
The method of sharing a reverse parker using a sharer wireless terminal according to the present invention further comprises the step of associating and storing the unique information of the signal device and the device information of the parker device associated with the signal device, And is stored in association with the unique information of the signaling device associated with the parker device.
In the reverse parker sharing method using a sharer wireless terminal according to the present invention, the unique information includes a unique code stored in a chip module of the signaling device and included in a unidirectional radio signal transmitted from the chip module .
The unique information may include an OTI (One Time Identification) for dynamically identifying and authenticating the signal device to a unidirectional radio signal transmitted from a chip module of the signaling device, And a unique code used to generate the OTI in the chip module of the signaling device when the OTI is included.
The method of sharing a reverse parker using a sharer wireless terminal according to the present invention is characterized in that the code information includes a unique code stored in a chip module of the signal device and transmitted through a unidirectional radio signal transmitted from the chip module .
In the method of sharing a reverse parker using a sharer wireless terminal according to the present invention, the code information is dynamically generated with a code system designated by the chip module of the signaling device to dynamically identify and authenticate the signaling device, And an OTI (One Time Identification) transmitted via a unidirectional radio signal.
In a reverse parker sharing method using a sharer wireless terminal according to the present invention, the code information includes an authentication code generated through a chip module of the signaling device.
In the method of sharing a reverse parker using a sharer wireless terminal according to the present invention, the authentication code includes at least one of a one-time use code dynamically generated using one or more designated seeds, a password code encrypted and generated only through a designated server, And a signature code generated by digitally signing the signature code.
The method of sharing a reverse parker using a sharer wireless terminal according to the present invention further comprises receiving code data to be transmitted from the sharer wireless terminal to the sharer wireless terminal via a unidirectional radio signal at a short distance, And a step of confirming authentication information for authenticating the received code data.
The third step may include the step of transmitting authentication information for authenticating code data to be transmitted from the sharer wireless terminal to the sharer wireless terminal via the unidirectional wireless signal at a short distance from the sharer wireless terminal in a reverse direction using the sharer wireless terminal according to the present invention, The method comprising the steps of:
A method for sharing a reverse parker using a sharer wireless terminal in accordance with the present invention includes the steps of generating or extracting code data that can be transmitted in a short distance via a unidirectional radio signal of the sharper wireless terminal, Wherein the third step includes the step of verifying authentication information for authenticating the generated / extracted code data.
A method of sharing a reverse parker using a sharer wireless terminal, the method comprising: receiving code data to be provided from the user wireless terminal to the sharer wireless terminal; and providing the code data to the sharer wireless terminal, And the third step includes checking authentication information for authenticating the received code data.
According to the present invention, a parker device installed in a parking space is automatically controlled through an asynchronous radio signal transmitted from a chip module of a signal device mounted on a user vehicle, and when the user does not use the parking space, So that it can be parked.
According to the present invention, a sharer who shares a parker device controlled through an asynchronous radio signal transmitted from a chip module of a signal device mounted on a user vehicle does not purchase a separate control device for controlling the parker device, There is an advantage in that the parker device shared through the wireless terminal is parked and parked in the shared parking space.
1 is a diagram showing a system configuration sharing a
2 is a diagram showing a functional configuration of a vehicle-mounted signal device 200 according to an embodiment of the present invention.
3 is a diagram illustrating a functional configuration of a user wireless terminal 300 according to an embodiment of the present invention.
4 is a diagram illustrating a configuration of an operation server 400 sharing a
5 is a diagram illustrating an operation process of the chip module 230 of the signal device 200 and the Parker
6 is a diagram illustrating an interlock process between the chip module 230 of the signaling device 200 and the user wireless terminal 300 according to an embodiment of the present invention.
7 is a diagram illustrating a process of sharing a
8 is a diagram illustrating an operation process of the sharer wireless terminal 105 and the
9 is a diagram illustrating a process of providing the shared state of the
10A to 10C are diagrams showing the structure of a
The operation principle of the preferred embodiment of the present invention will be described in detail with reference to the accompanying drawings and description. It should be understood, however, that the drawings and the following detailed description are exemplary and explanatory and are intended to provide further explanation of the invention, and are not to be construed as limiting the present invention.
In other words, the following embodiments correspond to the preferred embodiment of the preferred embodiment of the present invention. In the following embodiments, a specific configuration (or step) is omitted, or a specific configuration (or step) (Or steps), or an embodiment that incorporates functions implemented in more than one configuration (or step) into any one configuration (or step), a particular configuration (or step) It will be apparent that the present invention is not limited to the embodiments described below. Therefore, it should be clearly stated that various embodiments corresponding to subsets or combinations based on the following embodiments can be subdivided based on the filing date of the present invention.
In the following description of the present invention, a detailed description of known functions and configurations incorporated herein will be omitted when it may make the subject matter of the present invention rather unclear. The terms used below are defined in consideration of the functions of the present invention, which may vary depending on the user, intention or custom of the operator. Therefore, the definition should be based on the contents throughout the present invention.
As a result, the technical idea of the present invention is determined by the claims, and the following embodiments are merely means for effectively explaining the technical idea of the present invention to a person having ordinary skill in the art to which the present invention belongs Only.
1 is a diagram showing a system configuration sharing a
More specifically, FIG. 1 illustrates a Parker
The system of the present invention includes a user's vehicle-mounted signal device 200 equipped with a chip module 230 having a function of transmitting an asynchronous radio signal including designated code information, The asynchronous radio signal transmitted from the user wireless terminal 300 owned by the user who owns the in-vehicle signaling device 200 and the module provided in the in-vehicle signaling device 200 is recognized and authenticated, And a sharer wireless terminal 105 used by a sharer to be shared with the parker apparatus 100 (or the parking space corresponding to the parker apparatus 100). The sharer wireless terminal 105 ) And a user who communicates with the user wireless terminal 300 and / or the sharer wireless terminal 105 and shares the parker device 100 (or the parking space corresponding to the parker device 100) with a third party An operational server 400 that performs a series of procedures It achieved by also. The operating server 400 may be implemented as at least one server or a combination of two or more servers, and the present invention is not limited by the manner in which the operating server 400 is implemented. If the operating server 400 is implemented in the form of a combination of two or more servers, each server may be a server operated by two or more operators connected to each other, and thus the present invention is not limited thereto. The in-vehicle signaling device 200 authentication according to the present invention may be performed in conjunction with the process of registering the in-vehicle signaling device 200 with the designated operation server 400, The signaling device 200 can be operated in conjunction with the process of managing and operating the vehicle-mounted signal device 200. [
The in-vehicle signaling device 200 is a general term for a device equipped with a chip module 230 having a function of transmitting an asynchronous radio signal to an unspecified subject without specifying a receiving side to receive the radio signal, The chip module 230 of the in-vehicle signaling device 200 is connected to the user wireless terminal 300 having the in-vehicle signaling device 200 together with the asynchronous radio signal transmitting function, It is preferable that a plurality of communication functions are provided.
The chip module 230 of the vehicle-mounted signal device 200 is basically provided with a function of transmitting an asynchronous radio signal to an unspecified object, and the user wireless terminal 300 having the in- And performs bidirectional short distance communication with the user's wireless terminal (300). Since the asynchronous radio signal of the chip module 230 is transmitted without specifying the receiving side, it is received by the user wireless terminal 300 existing within the receiving range of the asynchronous radio signal (for example, about 30 m, And may be received by at least one signal receiving apparatus existing within the reception range of the asynchronous radio signal. Preferably, the signal receiving apparatus includes a
The chip module 230 of the vehicle-mounted signaling device 200 may transmit a Wi-Fi-based asynchronous radio signal (e.g., a BLE-based radio signal, etc.) The mobile wireless terminal 300 has an asynchronous wireless signal transmitting function for broadcasting the user wireless terminal 300 and identifies or pairs the user wireless terminal 300 that owns the in-vehicle signaling device 200 to communicate with the user wireless terminal 300 and the Wi- Directional short-range communication function for processing wireless communication.
According to the second vehicle-mounted signal device 200 of the present invention, the chip module 230 of the vehicle-mounted signal device 200 has an asynchronous radio signal transmission function for transmitting a Wi-Fi-based asynchronous radio signal And a bidirectional local area communication function for processing bidirectional local cable communication based on USB (Universal Serial Bus), which is connected to the user wireless terminal 300 having the vehicle-mounted signal device 200 by cable connection.
However, it should be apparent that the bi-directional local communication function and the asynchronous radio signal transmitting function of the chip module 230 mounted on the vehicle-mounted signal device 200 of the present invention are not limited to the above embodiments. The asynchronous radio signal of the present invention can be any radio signal as long as it can be received and recognized and read by a plurality of terminals (or devices) located close to each other without being specified on the receiving side (= without pairing) Directional short range communication of the present invention belongs to the 'bidirectional short distance communication' of the present invention as long as it is a short distance communication in which bidirectional data communication is possible by forming a direct communication session with a terminal located in a short distance. That is, the asynchronous radio signal transmitting function and the bidirectional short-range communication function of the present invention are not limited by a specific communication standard or signal standard, and it is clear that whichever method is adopted, Come on.
The onboard signaling device 200 may be mounted on the user vehicle and moved with the vehicle or carried by the user in accordance with the method of operation, and the chip module 230 of the in- And transmits the asynchronous radio signal including the code information at a short distance.
According to the method of the present invention, the vehicle-mounted signal device 200 amplifies the signal strength (or signal strength) of the asynchronous radio signal to a specified magnitude by using an applied power source applied from the vehicle while moving with the vehicle (E.g., amplified to a specified maximum signal strength of an acceptable range, or amplified to a signal strength calculated to reach a specified distance outside the vehicle). The asynchronous radio signal amplified and transmitted by the chip module 230 of the vehicle-mounted signal device 200 can be received / recognized by various signal receiving devices to which the user (or the user vehicle) accesses, The asynchronous radio signal transmitted from the chip module 230 of the signaling device 200 is received by the
The user wireless terminal 300 is a general term of a wireless communication device used by a user possessing the vehicle-mounted signal device 200, and preferably has a network communication function for connecting to a designated communication network. According to an embodiment of the present invention, the user wireless terminal 300 may include a bidirectional local communication function for processing at least one bidirectional data communication with the chip module 230 of the vehicle-mounted signaling device 200 and / And an asynchronous radio signal receiving function for receiving an asynchronous radio signal transmitted from the chip module 230 of the onboard signaling device 200. For example, the user wireless terminal 300 may include at least one of a cellular phone, a smart phone, a tablet PC, and the like having a network communication function, a bidirectional local communication function, and an asynchronous wireless signal receiving function .
According to an embodiment of the present invention, the user's wireless terminal 300 can communicate with a designated operation server 400 using a network communication function of the wireless terminal 300 (for example, an operation server 400 via a communication network) Directional short distance communication with the chip module 230 of the vehicle-mounted signaling device 200 and / or the bidirectional short-range communication with the operating module 400 via the designated relay server and /
The parker apparatus 100 receives the asynchronous radio signal transmitted from the chip module 230 of the in-vehicle signaling device 200, recognizes and authenticates the code information included in the received asynchronous radio signal, A circular plate area 1005 having a predetermined diameter which is in contact with the bottom of the parking space, a diameter of the circular plate area 1005 smaller than the predetermined diameter, A dome area 1010 formed by a dome of a predetermined curvature having a predetermined curvature and coupled to the flat plate area 1005 and a flat plate area 1005 formed on an edge of the dome area 1010 and above the flat plate area 1005, A circular mechanism part 1015 which is horizontally laid and horizontally laid over the part 1005 or erected in the vertical direction or standing upright in the vertical direction of the flat plate area part 1005 and horizontally laid, year A driving unit 1020 for horizontally or vertically driving the circular mechanism unit 1015, and a control unit for receiving the asynchronous radio signal and recognizing the code information included in the asynchronous radio signal, And a control module 1025 that controls the driving unit 1020 to operate the circular mechanism unit 1015 based on the result of the transmission An asynchronous radio signal is received via the control module 1025 of the parker device 100 and the code information contained in the asynchronous radio signal is recognized and / or authenticated via the control module 1025, The control unit 1025 controls the driving unit 1020 based on the result of the authentication of the code information to control the circular mechanism unit 1015 to be horizontally or vertically erected.
The operating server 400 communicates with the user wireless terminal 300 that owns the onboard signaling device 200 and transmits the signal to the parker device 100 (Or a parking space corresponding to the parker apparatus 100) to a third party, and is a general term for a server that performs a series of procedures for sharing a parking lot corresponding to the
The sharer wireless terminal 105 is connected to the wireless communication device used by the sharer to receive the parker device 100 (or the parking space corresponding to the parker device 100) associated with the user's on-vehicle signal device 200 As a general term, the sharer wireless terminal 105 preferably includes a short-range communication unit capable of transmitting an asynchronous radio signal of the same standard as that of the asynchronous radio signal transmitted from the chip module 230 of the in- .
According to the method of the present invention, the sharer wireless terminal 105 performs a series of procedures for sharing the parker apparatus 100 (or the parking space corresponding to the parker apparatus 100), and / An app that performs a series of procedures for transmitting an asynchronous radio signal to the shared
According to an embodiment of the present invention, the operation server 400 determines a sharer to be shared with a user's
2 is a diagram showing a functional configuration of a vehicle-mounted signal device 200 according to an embodiment of the present invention.
2 shows a functional configuration of a vehicle-mounted signal device 200 built with a chip module 230 having an asynchronous radio signal transmitting function and mounted on a vehicle and capable of supplying vehicle power, Those skilled in the art will be able to refer and / or modify FIG. 2 to illustrate various implementations of the configuration of the vehicle-mounted signaling device 200 (e.g., The present invention is not limited to the above-described embodiments, and the technical features of the present invention are not limited thereto.
The vehicle-mounted signal device 200 of the present invention is manufactured by incorporating a chip module 230 having a function of transmitting an asynchronous radio signal of a specified standard inside a body that can be mounted on a vehicle, The module 230 may include the asynchronous radio signal transmitting function and the bidirectional local communication function.
2, in addition to the chip module 230, the vehicle-mounted signal device 200 includes a terminal (not shown) for receiving a vehicle power (for example, a 12V DC power battery power source of the vehicle) A power supply unit 205 for receiving vehicle power through the terminal, an operation power supply for the chip module 230 to be supplied to the designated power supply (for example, the chip module 230) and / (Or a converted power source converted through the power conversion unit 210) supplied through the power supply unit 205 to the power supply unit 205, An operation unit 225 for supporting a user operation of the chip module 230, an external device (for example, a wireless terminal 300 of a user who owns the on-vehicle signaling device 200, etc.) And a connector portion 220 for connecting a cable of a specified standard And may further include at least one component. The charging power source to be charged in the power charging unit 215 may be a state in which the vehicle-mounted signal device 200 is not supplied with vehicle power (for example, a state in which the terminal is disconnected from the vehicle power source, (E.g., a state where the power supply 200 is removed from the vehicle or a state where the starting of the vehicle is turned off and the power supply to the vehicle-mounted signal device 200 is cut off, etc.). Preferably, the chip module 230 includes at least one of a vehicle power source supplied through the power supply unit 205, a conversion power source converted through the power conversion unit 210, and a rechargeable power source charged in the power charging unit 215 The asynchronous radio signal is transmitted using one power source, and the asynchronous radio signal can be transmitted and the bidirectional local communication can be multiplexed using the power source according to the method. Meanwhile, according to the intention of a person skilled in the art, some constituent parts of the constituent parts of the vehicle-mounted signal device 200 may be omitted.
According to the method of the present invention, the vehicle-mounted signal device 200 can be mounted on the vehicle at one of the basic configuration and optional configuration of the vehicle at the time of manufacture of the vehicle, The device 200 may be purchased (or provided) and mounted on the user's vehicle in such a manner that the terminal is connected to the vehicle power source. The vehicle-mounted signal device 200 of the present invention may be any device that is mounted on a vehicle and can receive vehicle power, and may be supplied with power from the vehicle, The controller 200 can implement the function of the controller 200. For example, the signaling device 200 may include various devices such as a cigar jack device inserted into a cigar jack inlet of a vehicle, an OBD device inserted into an OBD-II port of a vehicle, and a navigation device powered by a vehicle. Hereinafter, the vehicle-mounted signal device 200 will be described as 'signal device 200' for the sake of convenience.
According to the embodiment of the present invention, when the signal device 200 is supplied with the vehicle power through the power supply unit 205 in real time, A vehicle power supplied in real time through the power supply unit 205, a converted power supplied in real time through the power supply unit 205 and converted through the power conversion unit 210, (Or signal strength) of the asynchronous radio signal is amplified to a designated size (for example, the signal strength of the asynchronous radio signal is converted to a predetermined size) using at least one of the charging power supplied from the power conversion unit 210 and the charging power charged in the power charging unit 215, Amplified to the specified maximum signal strength of the allowed range, or amplified to the calculated signal strength to reach a specified distance outside the vehicle).
According to the method of the present invention, the chip module 230 of the signaling device 200 is in a state in which the signaling device 200 is not supplied with vehicle power (for example, the terminal is disconnected from the vehicle power source, In a state where the signal device 200 is removed from the vehicle or when the vehicle is shut off and the vehicle power supply to the signal device 200 is shut off) It is possible to transmit an asynchronous radio signal. On the other hand, the vehicle equipped with the signal device 200 is made of a metal body and / or a window made of a glass material and / or a film material mounted on a window for blocking ultraviolet rays, Obstructs or shields or distorts transmission to the outside. In particular, in the case of a wireless signal (for example, a BLE (Bluetooth Low Energy) wireless signal, etc.) transmitted in a low power mode using a charging power source, wireless communication is performed by using a metal material of a vehicle body and / or a glass material of a window and / Shields or distorts the signal from being transmitted outside the vehicle, and may also prevent the radio signal from being transmitted outside the vehicle at all. According to the experiment of the applicant, when the signal device 200 is placed at the bottom part between the driver's seat and the front passenger's seat and the asynchronous radio signal is transmitted through the signal device 200 in the low power mode, It was impossible to receive an asynchronous radio signal transmitted from the signaling device 200 in the low power mode at a distance of 0.5 m and a height of 0.7 m. The asynchronous radio signal transmitted from the signaling device 200 in the low-power mode to the signal device 200 in the front direction is only partially transmitted to the front-side direction when the signal device 200 of the low-power mode is taken at the chest height of the driver and brought near the front glass with no UV- I could receive it. This is understood as a high pass terminal is provided near the front glass and the radio antenna of the vehicle must be attached to the outside of the vehicle to operate normally.
In the case of an asynchronous radio signal transmitted from the chip module 230 of the signal device 200 according to the present invention, the asynchronous radio signal is transmitted to the outside of the vehicle by a metal material and / or a glass material and / Even if it is obstructed or shielded or distorted, it can not be known whether such obstruction or shielding or distortion exists. For example, in the case of two-way radio communication, since the transmission and the response are communicated by one set, the response within the tie-out for transmission can be read to recognize whether the radio signal for bidirectional radio communication is obstructed, shielded or distorted However, in the case of an asynchronous radio signal transmitted in a form broadcasted without specifying the receiving side, it has a problem that transmission of the asynchronous radio signal can not be recognized even if it is obstructed, shielded or distorted. Accordingly, the chip module 230 of the signal device 200 of the present invention receives the real time supply of the vehicle power through the power supply unit 205 in the state where the vehicle power is applied, the power supply unit 205, And a power supply unit 215. The power supply unit 215 may include a power supply unit 215 and a power supply unit 215. The power supply unit 215 may be a power supply unit, (Or signal strength) of an asynchronous radio signal that is broadcast without specifying the receiving side is amplified to a specified magnitude (for example, amplified to a specified maximum signal strength of an allowed range, or reaches a specified distance outside the vehicle) The asynchronous radio signal transmitted from the chip module 230 of the signal device 200 is transmitted to a specified distance outside the vehicle Or more). Meanwhile, amplification of the signal strength (or signal strength) of the asynchronous radio signal such as the present invention can be achieved by using a power source charged in the battery to transmit and receive a radio signal, Method. In the case of most portable wireless communication devices, if it is confirmed that the two-way wireless communication is impossible, the wireless communication device is switched to the power saving mode rather than the urgent situation so that the wireless communication is stopped and the wireless communication is ready.
The connector portion 220 of the signaling device 200 may provide short-range cable communication between the chip module 230 and the user's wireless terminal 300. The connector 220 may be a connector that receives power supplied through the power supply unit 205 and supplies power converted from the USB power to the outside through the power conversion unit 210.
The operation unit 225 of the signal device 200 is a collective term of a component that is mounted on the signal device 200 and receives a user operation for controlling the operation of the chip module 230. The operation unit 225 preferably includes at least one Combination) switch or button. According to the embodiment of the present invention, it is preferable that the operation unit 225 can basically operate (or toggle) the operation of 'On' or 'Off', and further input a user operation of a predetermined operation pattern. For example, the operation unit 225 may repeatedly perform an operation of 'On' or 'Off' for a preset time interval, or implement an operation of 'On' or 'Off' When the above switch / button is included, various operation patterns such as simultaneous operation of two or more switches / buttons or operation with a predetermined time difference can be implemented. The various operation patterns can control various operations of the chip module 230.
2, the chip module 230 includes a control unit 250 for controlling the operation of the chip module 230, and a control unit 250 for storing a data set (or program code) necessary for the operation of the chip module 230 An RF processor 245 for performing bidirectional short-range wireless communication and RF processing for transmitting an asynchronous radio signal, and an antenna unit for transmitting and receiving a radio frequency signal corresponding to the RF processing, And a USB communication unit 235 electrically connected to the connector unit 220 to process the bi-directional short-distance cable communication.
The chip module 230 may be fabricated in the form of having at least one SMD (Surface Mount Device) for bi-directional short-range wireless communication and asynchronous radio signal transmission to a PCB (Printed Circuit Board) 250, the memory unit 240, and the RF processing unit 245 may be implemented in the form of an integrated chip, an individual device mounted on a PCB, or a combination of integrated chips and devices. It should be apparent that the invention is not limited by the manner in which the chip module 230 is implemented within the signaling device 200.
The control unit 250 is a general term for controlling the operation of the chip module 230. The control unit 250 includes at least one processor and an execution memory, BUS). According to the present invention, the control unit 250 loads at least one program code included in the chip module 230 into the execution memory through the processor, and outputs the result through at least one configuration And controls the operation of the chip module 230. [0035] Hereinafter, the program configuration implemented in the chip module 230 in the form of a program code will be described in the control unit 250 for convenience.
The memory unit 240 is a general term of a nonvolatile memory included in the chip module 230 and includes at least one program code executed through the controller 250 and at least one data set used by the program code And stores it. The memory unit 240 basically stores a system program code and a system data set corresponding to an operating system of the chip module 230 and at least one application program code and an application data set, The program code and data set are also stored in the memory unit 240.
According to the method of the present invention, the memory unit 240 may be configured to store the unique code before the signal device 200 (or the chip module 230) And stores the unique code for the signaling device 200 (or the chip module 230) in a designated storage area.
The RF processor 245 is a generic term for performing RF processing (e.g., radio frequency signal modulation and the like) for broadcasting an asynchronous radio signal through the antenna unit and / or RF processing for bidirectional short-range wireless communication, It is possible to perform Wi-Fi-based bidirectional short-range wireless communication and RF processing for transmitting a Wi-Fi-based asynchronous radio signal. Here, the transmission of the asynchronous radio signal includes a radio signal that is transmitted without identifying or pairing the receiving side that receives the radio signal in advance.
According to the embodiment of the present invention, the chip module 230 can communicate with the wireless terminal 300 of the user who owns the signaling device 200 among the short-distance local area communication devices supporting the bidirectional short- And the RF processor 245 performs RF processing for bidirectional short-range wireless communication with the user's wireless terminal 300. [
The USB communication unit 235 is electrically connected to a USB connector (for example, D + and / or D-) included in the connector unit 220 and is connected to an external wireless terminal 300 For example, a user's own mobile phone, a smart phone, a tablet PC, etc.). The bidirectional short-range cable communication includes a USB communication function for transmitting and receiving a USB packet, and the external wireless terminal 300 connected to the connector 220 detects the chip module 230 and prepares for USB communication USB protocol functionality.
According to the embodiment of the present invention, the USB communication unit 235 maintains a state of being electrically connected to the USB connector of the connector unit 220, but the bidirectional short-range cable communication function of the USB communication unit 235 Directional short-range cable communication with the wireless terminal 300 connected to the connector unit 220 when the bi-directional short-range cable communication function of the USB communication unit 235 is activated, Directional short-range cable communication function of the USB communication unit 235 is disabled, the bidirectional short-range cable communication may not be processed even if the wireless terminal 300 is connected to the connector unit 220. [
Referring to FIG. 2, the chip module 230 of the signaling device 200 includes a communication identification unit (not shown) for identifying the wireless terminal 300 of the user who owns the signaling device 200 using bidirectional short- And a short range wireless communication connection unit 260 for connecting the wireless terminal 300 of the identified user to the bidirectional short range wireless communication unit 255. The wireless communication unit 260 is connected to the connector unit 220 through the USB communication unit 235 And a short-range cable communication connection unit 260 for connecting the user's wireless terminal 300 to the two-way short-distance cable communication.
The communication identifying unit 255 identifies the wireless terminal 300 of the user to connect the bidirectional short range wireless communication at the initial operation of the chip module 230, The wireless communication device 200 may be a wireless communication device that is capable of performing bidirectional short-range wireless communication with the chip module 230 at the time of operation before the identification information is stored or when the user operates the operation unit 225. [ And performs a procedure for identifying the terminal 300. For example, when the RF processor 245 performs RF processing for Wi-Fi-based bidirectional short-range wireless communication, the communication identifier 255 may identify a user who owns the signaling device 200 By performing the pairing procedure with the wireless terminal 300, the wireless terminal 300 of the user to connect the Wi-Fi-based bidirectional short-range wireless communication can be identified. According to the embodiment of the present invention, the communication identifier 255 identifies the user's wireless terminal 300 as communication identification information for connecting the bidirectional short-range wireless communication with the user's wireless terminal 300 Direction short-range wireless communication with the user's wireless terminal 300 using the communication identification information without performing a separate identification procedure. The short-range wireless communication connection unit 260 may be connected to the wireless terminal 300, You can connect.
The short range wireless communication connection unit 260 refers to the result of identifying the user's wireless terminal 300 through the short range wireless communication identification unit 255 or the communication identification information stored in the memory unit 240, Directional short-range wireless communication with the wireless terminal 300 of the user who owns the mobile terminal 200.
Meanwhile, the short-range cable communication connection unit 260 identifies the user's wireless terminal 300 connected to the connector unit 220 in cooperation with the USB communication unit 235, Cable communication can be connected. According to an embodiment of the present invention, the short-range cable communication connection unit 260 acquires communication identification information for identifying the user's wireless terminal 300 among devices connected to the connector unit 220 through cable connection, and stores the acquired communication identification information in the memory unit 240 In this case, the short-range cable communication connection unit 260 may connect the two-way short-range cable communication with the user's wireless terminal 300 corresponding to the communication identification information. Hereinafter, a component for connecting at least one bi-directional local area communication between the user's wireless terminal 300 and the bi-directional local area wireless communication and / or the bi-directional local area cable communication is collectively referred to as a communication connection unit 260.
2, the chip module 230 of the signaling device 200 includes a communication processing unit 265 for processing bi-directional local communication with a user's wireless terminal 300 connected to the bi-directional local area communication, A code checking unit 270 for checking code information to be transmitted through a radio signal and a signal transmitting unit 280 for transmitting an asynchronous radio signal including the checked code information through the RF processing unit 245, And a code generation unit 275 for generating an authentication code from the code information to be included in the asynchronous radio signal.
The communication processing unit 265 processes at least one bi-directional short distance communication between the user's wireless terminal 300 and the bidirectional short distance communication through the communication connection unit 260.
The signal transmitting unit 280 checks code information of a designated code system (or code structure) that can be transmitted by being included in the asynchronous radio signal, and transmits the asynchronous radio signal including the confirmed code information through the RF processor 245 So as to transmit the signal. If the chip module 230 operates under the supply of power from the vehicle, the signal transmitting unit 280 amplifies the signal strength (or signal strength) of the asynchronous radio signal to a predetermined size (for example, Amplified to the specified maximum signal strength of the allowed range, or amplified to the calculated signal strength to reach a specified distance outside the vehicle).
The code checking unit 270 may be configured to detect a predetermined code system including a unique code unique to the memory unit 240 of the chip module 230 And the signal transmitting unit 280 can process the asynchronous radio signal including the confirmed code information through the RF processor 245. [
According to the second asynchronous radio signal transmitting embodiment of the present invention, the code checking unit 270 checks the unique code stored in the memory unit 240 of the chip module 230, and transmits the asynchronous radio signal (For example, at the time of year and month) and the random number information generated by the specified algorithm, and transmits one or more of the confirmed unique code, the confirmed date / time information, and the random information to a predetermined designated code (Or a code structure) in a specified specific device (for example, a terminal, a server, or the like) that recognizes a code system (or a code structure) combining the unique code and dynamic information by combining the code (OTI) that can identify a unique code of the chip module 230 based on the generated OTI, Structure to check the code information, the signal transmission unit 280 of) may be treated so as to transmit the asynchronous wireless signal including the identified code information via the RF processor 245.
The code generation unit 275 generates information on the information (for example, seed value) stored in the memory unit 240 of the chip module 230, information on the chip module 230, (For example, a time value counted by using the charging power source of the power charging unit 215), a count value of the charging power source after the time synchronization with the user's wireless terminal 300 through the communication processing unit 265, (For example, information received from the user's wireless terminal 300 through the communication processing unit 265) through the bidirectional short-range communication through the communication processing unit 265 (E.g., a time value, a random number, a device ID value of the wireless terminal 300, a value received from the operation server 400 by the
According to the fourth asynchronous radio signal transmitting embodiment of the present invention, the code generating unit 275 can dynamically generate an authentication code in the form of a disposable code using the above specified information as a seed. Alternatively, the code generation unit 275 may generate an authentication code in the form of a cipher code encrypted so as to be decryptable through the designated operation server 400. [ Alternatively, the code generating unit 275 may generate an authentication code in the form of a signature code using the certificate. In addition, the code checking unit 270 checks the unique code stored in the memory unit 240 of the chip module 230, and determines whether the asynchronous radio signal is transmitted or not based on the time information at the time of transmitting the asynchronous radio signal, After identifying one or more dynamic information, the OTI can be dynamically generated by combining the unique code and one or more dynamic information into a predetermined code system (or code structure). When the OTI is generated through the code verification unit 270, the verification code is generated in the form of a code corresponding to at least one or a combination of at least one of the one-time code, the encryption code and the signature code through the code generation unit 275 , The code verifying unit 270 generates a code of a designated code system (or code structure) including the generated OTI (One Time Identification) and an authentication code of a designated code type generated through the code generating unit 275 And the signal transmitting unit 280 may process the asynchronous radio signal including the confirmed code information through the RF processor 245. [
According to the fifth asynchronous radio signal transmission embodiment of the present invention, the code verifying unit 270 receives the code provided from the
According to the sixth asynchronous radio signal transmission embodiment of the present invention, the code verifying unit 270 receives the code provided from the
According to the seventh asynchronous radio signal transmitting embodiment of the present invention, the code verifying unit 270 obtains code information in the form of at least partially selecting or combining two or more of the first to sixth asynchronous radio signal transmitting embodiments And the signal transmitting unit 280 can process the asynchronous radio signal including the confirmed code information through the RF processor 245. [ It is clearly understood that the present invention includes all embodiments which can be derived from a modification of the above embodiment as a scope of right.
According to the embodiment of the present invention, in transmitting the asynchronous radio signal including the code information designated according to the first to seventh asynchronous radio signal transmitting embodiments, the signal transmitting unit 280 transmits the asynchronous radio signal, The signal strength (or signal strength) of the asynchronous radio signal is amplified to a specified magnitude (for example, amplified to a specified maximum signal strength in an allowable range, or reaches a specified distance outside the vehicle) And amplified to the calculated signal strength for transmission).
3 is a functional block diagram of a user wireless terminal 300 according to an embodiment of the present invention.
3 illustrates a functional configuration of a user wireless terminal 300 having a signaling device 200 for transmitting an asynchronous wireless signal. As long as those skilled in the art are familiar with the present invention, Referring to and / or modified with respect to FIG. 3, various methods of performing the functions of the wireless terminal 300 can be inferred. However, the present invention includes all of the above- The technical features thereof are not limited by the implementation method alone. 3 may include at least one of various smart phones, various tablet PCs, and various mobile phones having a network communication function, a bi-directional local communication function, and a unidirectional wireless signal receiving function.
3, the wireless terminal 300 includes a control unit 302, a memory unit 320, a screen output unit 304, a user input unit 306, a sound processing unit 316, a short range communication unit 308, A cable communication unit 310, a short distance network communication unit 312, a wireless network communication unit 314, a USIM reader unit 318, and a USIM, and has a battery for power supply.
The control unit 302 is a general term for controlling the operation of the wireless terminal 300. The control unit 302 includes at least one processor and an execution memory, BUS). According to the present invention, the control unit 302 loads at least one program code included in the wireless terminal 300 into the execution memory through the processor, and outputs the result through at least one configuration And controls the operation of the wireless terminal 300. FIG. Hereinafter, the configuration of the
The memory unit 320 is a general term of a nonvolatile memory corresponding to a storage resource of the wireless terminal 300 and includes at least one program code executed through the control unit 302 and at least one Save and maintain the dataset. The memory unit 320 basically includes a system program code and a system data set corresponding to the operating system of the wireless terminal 300, a communication program code and a communication data set for processing a wireless communication connection of the wireless terminal 300, A program code and a data set corresponding to the
The screen output unit 304 includes a screen output unit (e.g., an LCD (Liquid Crystal Display) or the like) and a driving module for driving the screen output unit 304. The screen output unit 304 is connected to the control unit 302, And outputs an operation result corresponding to the output to the screen output device.
The user input unit 306 includes at least one user input device (e.g., a button, a keypad, a touch pad, a touch screen coupled to the screen output unit 304), and a drive module for driving the touch screen. And inputs a command for instructing various operations of the control unit 302 or data necessary for the operation of the control unit 302. [
The sound processing unit 316 includes a speaker, a microphone, and a driving module for driving the speaker. The sound processing unit 316 decodes sound data corresponding to the sound output from the various calculation results of the control unit 302 and outputs the sound data through the speaker Or a sound signal input through the microphone, and transmits the encoded sound signal to the controller 302. [
The cable communication unit 310 receives power using a cable or provides USB-based short-range cable communication, and the power supplied through the cable is charged in the battery. The cable communication unit 310 determines whether USB-based short-range cable communication is available when the cable is connected, and USB-based short-range cable communication when the USB-based short-range cable communication is available.
The short-range communication unit 308 is a unit capable of receiving bidirectional short-range wireless communication with the chip module 230 of the signaling device 200 and receiving an asynchronous radio signal transmitted from the chip module 230 of the signaling device 200 A Wi-Fi configuration unit for processing Wi-Fi based bidirectional short-range wireless communication and receiving a Wi-Fi based asynchronous wireless signal. However, the communication standard and the signal standard of the short-range communication unit 308 are not limited to the Wi-Fi. The short-range short-range wireless communication is performed with the chip module 230 of the signaling device 200, It is obvious that whatever communication standard or signal standard is applicable, it is within the scope of the present invention if it is possible to receive the asynchronous radio signal transmitted from the mobile station 230.
The wireless network communication unit 314 and the short-range network communication unit 312 are collectively referred to as communication resources for connecting the wireless terminal 300 to a designated communication network. Preferably, the wireless terminal 300 may include a wireless network communication unit 314 as a basic communication resource, and may include one or more short-range network communication units 312.
The wireless network communication unit 314 collectively refers to a communication resource for connecting the wireless terminal 300 to a wireless communication network via a base station. The wireless communication unit 314 may include an antenna, an RF module, a baseband module, And transmits the calculation result corresponding to the wireless communication among the various calculation results of the controller 302 through the wireless communication network or receives data through the wireless communication network To the control unit 302, and performs the connection, registration, communication, and handoff procedures of the wireless communication. According to the present invention, the wireless network communication unit 314 can connect the wireless terminal 300 to a communication network including a communication channel and a data channel via the exchange, and in some cases, Based wireless network data communication (e.g., the Internet).
According to an embodiment of the present invention, the wireless network communication unit 314 is a mobile communication unit that performs at least one of connection to a mobile communication network, location registration, call processing, call connection, data communication, and handoff according to the CDMA / WCDMA / ≪ / RTI > Meanwhile, according to the intention of a person skilled in the art, the wireless network communication unit 314 may further include a portable internet communication structure for performing at least one of connection to the portable Internet, location registration, data communication and handoff according to the IEEE 802.16 standard, It is evident that the present invention is not limited by the wireless communication configuration provided by the wireless network communication unit 314. [ That is, the wireless network communication unit 314 is a general term for a configuration unit that connects to a wireless communication network through a cell-based base station irrespective of a frequency band of a wireless section, a type of a communication network, or a protocol.
The short-range network communication unit 312 collectively refers to a communication resource for connecting a communication session using a radio frequency signal within a predetermined distance (e.g., 10 m) as a communication medium and connecting the wireless terminal 300 to the communication network based on the communication session , The wireless terminal 300 may be connected to the communication network through at least one of Wi-Fi communication, public wireless communication, and UWB. According to an embodiment of the present invention, the local area network communication unit 312 may be integrated with or separated from the wireless network communication unit 314. According to the present invention, the short-range network communication unit 312 connects the wireless terminal 300 to a data network providing packet-based short-range wireless data communication through a wireless AP.
The USIM reader unit 318 is a generic term of a configuration for exchanging at least one data set with a universal subscriber identity module mounted or detached from the wireless terminal 300 based on the ISO / IEC 7816 standard , And the data set is exchanged in a half duplex communication manner through an APDU (Application Protocol Data Unit).
The USIM is an SIM type card having an IC chip conforming to the ISO / IEC 7816 standard, and includes an input / output interface including at least one contact connected to the USIM reader 318, a program code for at least one IC chip (Or processing) the program code for the IC chip in accordance with at least one command transmitted from the wireless terminal 300, or extracting (or processing) the data set in association with the input / output interface To the input / output interface.
The control unit 302 downloads the
3, the
The chip module identification unit 330 identifies the wireless terminal 300 of the user to connect the bidirectional short range wireless communication at the initial operation of the chip module 230 of the signaling device 200 At the time of operation before the communication identification information of the user's wireless terminal 300 is stored in the chip module 230 or when the user operates the operation unit 225 of the signal device 200) And performs a procedure for identifying the chip module 230 of the signaling device 200 owned by the user from the short range wireless communication device capable of bidirectional short-range wireless communication through the wireless communication module 308. For example, when the short-range communication unit 308 processes a Wi-Fi based bidirectional short-range wireless communication, the chip module identification unit 330 performs a pairing procedure with the signal device 200 owned by the user according to the pairing procedure To identify the chip module 230 of the user's signaling device 200 to connect to the Wi-Fi based two-way, short range wireless communication. According to an embodiment of the present invention, the chip module identification unit 330 identifies the user's signal device 200 as communication identification information for connecting the user's signal device 200 with the bidirectional short- In this case, the short-range wireless chip module connection unit 335 may connect the signal device 200 of the user and the bidirectional short-range wireless communication unit 320 using the communication identification information, Communication can be connected.
The short-range wireless chip module connection unit 335 refers to the result of identifying the user's signal device 200 through the short-range wireless chip module identification unit 330 or the communication identification information stored in the memory unit 320, Directional short-range wireless communication with the signaling device 200 of FIG.
Meanwhile, the short-range cable chip module connection unit 335 is connected to the cable communication unit 310 to check the user's signal device 200 connected to the cable cable and to connect the bidirectional short-range cable communication with the user's signal device 200 . According to an embodiment of the present invention, the short-range cable module connection unit 335 may acquire communication identification information for identifying the user's signaling device 200 among the devices to which the cable is connected, and may store the acquired communication identification information in the memory unit 320, In this case, the short-range cable chip module connection unit 335 can connect the bidirectional short-range cable communication with the user's signal device 200 corresponding to the communication identification information. Hereinafter, a component connecting at least one bi-directional short distance communication between the signaling device 200 of the user and two-way short distance wireless communication and / or two-way short distance cable communication is collectively referred to as a chip module connecting portion 335.
3, the
The chip module communication unit 340 processes bi-directional short-range wireless communication with the chip module 230 of the user's signaling device 200 communicatively coupled with the short-range communication unit 308 through the chip module connection unit 335. The chip module management unit 345 receives status information on an asynchronous radio signal transmitted from the chip module 230 from the chip module 230 of the communicating connected signaling device 200 through the chip module communication unit 340 And output it.
According to the embodiment of the present invention, the chip module managing unit 345 may include a code value (for example, a user code) to be included in the asynchronous radio signal to be transmitted through the chip module 230 of the signaling device 200 A code value in the form of a combination of a unique code and an authentication code provided by the user wireless terminal 300, a code value in the form of a user wireless terminal 300, And a code value in the form of a combination of an OTI and an authentication code provided by the terminal 300) and transmits the setting to the signal device 200 via the bidirectional local communication of the chip module communication unit 340 By providing the code value, it is possible to control the asynchronous radio signal including code information including the provided separate code value to be transmitted through the chip module 230 of the signaling device 200.
Alternatively, the chip module management unit 345 receives a separate code value to be included in the asynchronous radio signal to be transmitted from the designated operation server 400 through the chip module 230 of the signaling device 200, By providing the code value to the signaling device 200 via bidirectional near field communication of the signaling device 340, code information including the provided separate code value is included via the chip module 230 of the signaling device 200 The asynchronous radio signal can be controlled to be transmitted.
Referring to FIG. 3, an
The signal recognition unit 350 receives the asynchronous radio signal transmitted from the chip module 230 of the user-owned signaling device 200 in cooperation with the short-range communication unit 308, reads the asynchronous radio signal, The chip module 230 of the signaling device 200 recognizes the code information transmitted through the asynchronous radio signal.
The signal analyzer 355 analyzes the signal transmitted from the chip module 230 of the signal device 200 based on bi-directional short-range communication with the chip module 230 of the signal device 200 through the chip module communication unit 340 A code that the code information recognized through the signal recognition unit 350 should be transmitted from the chip module 230 of the signal device 200 through the asynchronous radio signal, Can be analyzed. Meanwhile, the signal analyzer 355 may include an OTI authentication rule for analyzing the OTI included in the code information, or transmit the OTI to the operation server 400 having the OTI authentication rule to request authentication have. Alternatively, the signal analyzer 355 may include a code authentication rule for analyzing the matching of the authentication code included in the code information, or may transmit the authentication code to the operation server 400 having the code authentication rule, Can be requested.
If the code information is matched, the signal analyzer 355 processes various services requested based on the asynchronous radio signal transmitted through the chip module 230 of the signaling device 200, The signal analysis unit 355 controls the chip module management unit 345 to transmit an asynchronous radio signal including code information valid for various services through the chip module 230 of the signaling device 200 .
Referring to FIG. 3, the
When the specified
According to the embodiment of the present invention, the unique authentication information is set (or generated) uniquely (= not duplicated) after the
The information registering unit 360 confirms the unique information that uniquely identifies the user's signaling device 200 and registers the unique information of the verified signaling device 200 with the specified operating server 400, The operating server 400 receives the unique information of the genital device 200 from the
The unique information of the signaling device 200 is stored in the chip module 230 of the signaling device 200 and transmitted to the chip module 230 of the signaling device 200, And may include a unique code included in the radio signal. The asynchronous radio signal transmitted from the chip module 230 of the signaling device 200 may be transmitted to the OTI 200 that is dynamically generated by the chip module 230 of the signaling device 200 in order to dynamically identify and authenticate the signaling device 200. [ The unique information of the signaling device 200 may include a unique code used to generate the OTI in the chip module 230 of the signaling device 200. [ Meanwhile, the unique information registered according to the method may further include information designated by a person skilled in the art in addition to the unique code, and thus the present invention is not limited thereto.
According to the first specific information registration embodiment of the present invention, unique information that uniquely identifies the signaling device 200 can be printed (or attached) on the wrapping paper or one side of the signaling device 200, The registering unit 360 may display an interface screen for receiving unique information that uniquely identifies the user's signaling device 200 and may receive the unique information of the signaling device 200 from the user through the interface screen, And may register the input unique information with the designated operation server 400. [
The information registration unit 360 may register the chip module 230 of the signal device 200 through the chip module communication unit 340 and / or the chip module management unit 345, And can register the received unique information with the designated operation server 400. [0033] The operation information of the signaling device 200 may be received from the signaling device 200,
According to the third specific information registration embodiment of the present invention, the information registering unit 360 registers the information included in the asynchronous radio signal transmitted from the chip module 230 of the signaling device 200 through the signal recognizing unit 350 Code information, and can register the recognized unique information in the designated operation server 400. [0050] FIG.
According to the fourth specific information registration embodiment of the present invention, the information registering unit 360 may combine at least two embodiments among the first to third specific information registration embodiments at least partially to transmit the unique information to the designated operating server 400), and thus the present invention is not limited thereto.
According to the embodiment of the present invention, the inherent information of the signaling device 200 is received based on the result of receiving the asynchronous radio signal transmitted from the signaling device 200 and recognizing and authenticating the code information included in the asynchronous radio signal The
Referring to FIG. 3, the
The
According to an embodiment of the present invention, the
When the circular mechanism portion 1015 of the
When the user requests (or permits) the
According to an embodiment of the present invention, the sharing request information includes identification information (e.g., device information (or a part of information) of the
According to the embodiment of the present invention, the sharer wireless terminal 105 that has shared the
The code data to be transmitted from the sharer wireless terminal 105 may be determined by the sharer wireless terminal 105 and / or generated / extracted via the operating server 400 and / Lt; / RTI > If the user wireless terminal 300 provides the code data, the sharing request unit 365 determines code data to be provided to the sharer wireless terminal 105, and transmits sharing request information including the code data To the operation server 400.
The operation server 400 may transmit the code data determined by the sharper wireless terminal 105 and / or the code data generated / extracted through the operation server 400 and / (Or configures) the authentication information for authenticating the code data to be transmitted through the asynchronous radio signal in the sharer wireless terminal 105 among the code data and transmits the device information of the shared
The operation server 400 performs a procedure for determining a sharer to be shared with the
The operating server 400 communicates with the sharer wireless terminal 105 that sends out the asynchronous radio signal including the code data and / or communicates with the
If the sharer wireless terminal 105 has paid a predetermined amount for the sharing of the
FIG. 4 is a diagram illustrating a configuration of an operation server 400 sharing a
4 is a block diagram illustrating a configuration of a user who controls the parking status by operating a circular mechanical unit 1015 based on a result of recognizing and authenticating designated code information by receiving an asynchronous radio signal transmitted from a user's signaling apparatus 200 And a person skilled in the art to which the present invention pertains, reference is made to and / or modified by reference to FIG. 4, which illustrates the functional configuration of an operating server 400 that shares a
The operating server 400 can communicate with the user wireless terminal 300 that owns the signaling device 200 via a designated communication network and can receive and share the
Referring to FIG. 4, the operation server 400 associates unique information of a signal device 200 that transmits a designated asynchronous radio signal with device information of the
The device registration unit 405 communicates with the operating terminal operated by a company that manufactures or sells the signaling device 200 and the
According to the embodiment of the present invention, the unique information of the signaling device 200 registered through the device registering unit 405 uniquely identifies the signaling device 200, 230 or an OTI and / or an authentication code generated by the OTI and the authentication code.
According to the method of the present invention, the device information of the
Referring to FIG. 4, the operating server 400 includes unique information for uniquely identifying the signaling device 200 associated with the
The
If the unique information identifying the user's signaling device 200 is confirmed in the
4, the operation server 400 receives the
When the
According to an embodiment of the present invention, the sharing request information includes identification information (e.g., device information (or a part of information) of the
When the sharing request information is received through the sharing request receiving unit 415, the sharing object determining unit 420 determines whether the sharing request information is received from the parker apparatus 100 (or the parking space corresponding to the parker apparatus 100) Space) to be shared. For example, the sharing object determining unit 420 may determine information about the parker apparatus 100 (or the parking space corresponding to the parker apparatus 100) included in the sharing request information Information (or address information), and temporary information (or time information) to be shared with each other) and notifies via the web (or a designated application) or provides the parker sharing information to a designated person, When at least one user who has confirmed (or provided) the parker sharing information requests sharing of the parker apparatus 100 (or the parking space corresponding to the parker apparatus 100) corresponding to the parker share information, The user who has requested the sharing of the device 100 (or the parking space corresponding to the parker apparatus 100) can be shared with the parker apparatus 100 (or the parking space corresponding to the parker apparatus 100) Can be determined as a sharer All.
According to the embodiment of the present invention, the sharing object determining unit 420 may determine (or announce) the first-party applicant as a sharer after posting (or notifying) the parker sharing information to a designated web (or an app). Or the shared object determining unit 420 determines whether or not the parker apparatus 100 (or the parker apparatus 100) corresponding to the
According to the method of the present invention, when the sharer to be shared with the parker apparatus 100 (or the parking space corresponding to the parker apparatus 100) is determined, the sharing object confirmation unit confirms the sharer information corresponding to the determined sharer And may provide the sharer information to the
According to the embodiment of the present invention, the determined sharer wireless terminal 105 can transmit an asynchronous radio signal including specified code data in a short distance, and the shared
The authentication information confirmation unit 435 confirms the authentication information for authenticating the code data transmitted from the sharer wireless terminal 105 through the asynchronous radio signal.
According to the first authentication information confirmation embodiment of the present invention, the app of the sharer wireless terminal 105 confirms (or generates) the code data to be transmitted in the short distance through the asynchronous radio signal of the sharer wireless terminal 105, (Or generated) code data to the operating server 400. The code data verifying unit 425 receives the code data from the sharer wireless terminal 105 via the asynchronous radio signal of the sharper wireless terminal 105 And receives code data to be transmitted in a short distance. The authentication information confirmation unit 435 confirms (or generates) the authentication information for authenticating the code data using the code data received from the sharer wireless terminal 105. [ Preferably, the authentication information includes code data received from the sharer wireless terminal 105, and / or required to analyze or compare code data received from the sharer wireless terminal 105 or to perform a specified verification operation Information.
According to the second authentication information confirmation embodiment of the present invention, the app of the sharer wireless terminal 105 confirms (or generates) the code data to be transmitted in the short distance through the asynchronous radio signal of the sharer wireless terminal 105, (Or generates) the authentication information for authenticating the verified (or generated) code data, and provides the verified (or generated) authentication information to the operation server 400. The authentication information verifying unit 435) receives authentication information for authenticating the code data from the sharer wireless terminal (105). Preferably, the authentication information includes code data to be transmitted from the sharer wireless terminal 105 at a short distance and / or analyzes or compares code data to be transmitted from the sharer wireless terminal 105 in a short distance, Lt; RTI ID = 0.0 > and / or < / RTI >
According to the third authentication information checking embodiment of the present invention, the code data verifying unit 425 generates code data capable of being transmitted in a short distance via the asynchronous radio signal of the sharper wireless terminal 105, or extracts the code data from the designated database The code data providing unit 430 provides the generated / extracted code data to the sharer wireless terminal 105 so that the code data is transmitted via the asynchronous radio signal of the sharer wireless terminal 105 in a short distance . Meanwhile, when the code data is generated / extracted through the code data verifying unit 425, the authentication information verifying unit 435 verifies authentication information for authenticating the code data using the generated / extracted code data (Or generates). Preferably, the authentication information may include the generated / extracted code data, and / or necessary information for analyzing or comparing the generated / extracted code data or performing a specified verification operation.
According to the fourth authentication information checking embodiment of the present invention, the
According to the fifth authentication information checking embodiment of the present invention, the authentication information verifying unit 435 may at least partially combine at least two embodiments among the first to fourth authentication information checking embodiments, It is possible to confirm the authentication information for authenticating the code data to be transmitted through the asynchronous radio signal of the mobile communication terminal 105, and thus the present invention is not limited thereto.
If authentication information for authenticating code data to be transmitted via the asynchronous radio signal of the sharter wireless terminal 105 is confirmed through at least one of the first through fifth authentication information checking embodiments, When the shared
The
The code data receiving unit 445 receives the code data transmitted from the
When the validity of the code data is authenticated, the
According to an embodiment of the present invention, the shared state verifying unit 460 may communicate with the app of the sharer wireless terminal 105 that transmits the asynchronous radio signal including the code data and / or the shared (or the code (Or parking space corresponding to the parker apparatus 100) to the sharer by communicating with the parker apparatus 100 (which recognizes the data). Preferably, the shared state information may include any one of 'park waiting', 'parked' or 'parked', and the parker apparatus 100 (or the parker apparatus 100) Parking space) to be shared by the user.
The shared state providing unit 465 may transmit the shared state information of the parker apparatus 100 (or the parking space corresponding to the parker apparatus 100) identified through the shared state identifying unit 460 to the user wireless terminal 300 to the
If the sharer wireless terminal 105 has paid a predetermined amount for the sharing of the parking lot device 100 (or the parking space corresponding to the parker device 100), the shared state checking unit 460 determines (Or configures) the shared state information corresponding to the result of the payment, and the shared state providing unit 465 transmits the shared state information corresponding to the result of the payment to the
5 is a diagram illustrating an operation process of the chip module 230 of the signal device 200 and the
5 illustrates an operation process of the chip module 230 of the signal device 200 for transmitting an asynchronous radio signal including designated code information and a process of transmitting the asynchronous radio signal including the code information transmitted from the chip module 230 of the signal device 200 The operation of the
Referring to FIG. 5, when it is confirmed 500 that the operating power is supplied to the chip module 230 of the signaling device 200, the chip module 230 of the signaling device 200 determines whether to transmit an asynchronous radio signal (505). If it is confirmed that the asynchronous radio signal is transmitted, the chip module 230 of the signaling device 200 confirms the code information to be transmitted through the asynchronous radio signal (510). Preferably, the chip module 230 of the signaling device 200 can identify code information to be transmitted over the asynchronous radio signal according to at least one of the first through seventh asynchronous radio signal transmission embodiments of the present invention have.
If the code information to be transmitted through the asynchronous radio signal is confirmed, the chip module 230 of the signaling device 200 processes the asynchronous radio signal so as to include the confirmed code information (515) It is determined whether the vehicle power is being supplied to the chip module 230 (520). If the vehicle power is being applied to the chip module 230, the chip module 230 of the signaling device 200 may determine the signal strength (or signal strength) of the asynchronous radio signal using the applied power from the vehicle, (E.g., amplified to the specified maximum signal strength of the allowed range, or amplified to the calculated signal strength to reach a specified distance outside the vehicle) and transmitted (525). On the other hand, if no vehicle power is applied to the chip module 230, the chip module 230 of the signaling device 200 transmits the asynchronous radio signal using the charging power source 530, The chip module 230 of the device 200 may transmit the asynchronous radio signal in a low power mode (530).
Meanwhile, the
The
Meanwhile, when valid code information is recognized from the asynchronous radio signal, the
Meanwhile, when the validity of the code information is authenticated, the
6 is a diagram illustrating an interlock process between a chip module 230 of a signaling device 200 and a user wireless terminal 300 according to an embodiment of the present invention.
6 illustrates a process in which the chip module 230 of the signaling device 200 and the user wireless terminal 300 are interlocked via bidirectional local area communication. In this case, It is possible to refer to and / or modify the FIG. 6 to various implementations of the interworking process between the chip module 230 of the signaling device 200 and the user wireless terminal 300 (e.g., However, it should be understood that the present invention is not limited to the above-described embodiments, and may be modified in various ways.
Referring to FIG. 6, the chip module 230 of the signaling device 200 stores the communication identification information of the user wireless terminal 300 to perform bi-directional short distance communication with the designated storage area of the chip module 230 after the operation power is supplied (600). If the communication identification information of the user wireless terminal 300 is not stored in the designated storage area of the chip module 230, the chip module 230 of the signaling device 200 transmits the user identification information to the user wireless terminal 300 The user wireless terminal 300 performs a procedure for identifying the chip module 230 of the signaling device 200 to which the bidirectional local area communication is to be connected (605).
If the user wireless terminal 300 to be bi-directionally communicated is identified, the chip module 230 of the signaling device 200 obtains the communication identification information of the identified user wireless terminal 300, The user wireless terminal 300 may acquire the communication identification information for the chip module 230 of the signaling device 200 and store the acquired communication identification information in the designated storage area 610.
The communication identification information of the user wireless terminal 300 is stored in the chip module 230 of the signaling device 200 and the communication identification information of the user wireless terminal 300 is stored in the designated storage area of the user wireless terminal 300 After the communication identification information is stored 610, the chip module 230 of the signaling device 200 and the
Directional short distance communication between the chip module 230 of the signaling device 200 and the user wireless terminal 300 is connected, the
If the function of transmitting the asynchronous radio signal to the signaling device 200 is not set (for example, the unique code is not stored or activated), the
FIG. 7 is a diagram illustrating a process of sharing a
In more detail, FIG. 7 shows an example in which unique information of the signaling device 200 and device information of the
Referring to FIG. 7, an operating terminal (or signaling device 200 or a user wireless terminal 300 that has purchased the Parker device 100) of a company that manufactures or sells the signaling device 200 and the
Meanwhile, the
Meanwhile, if the mapping relationship between the
If the unique request information requesting the third party to share the
The operation server 400 determines a sharer to share the
According to an embodiment of the present invention, the operation server 400 transmits / receives the asynchronous radio signal of the sharer wireless terminal 105 through at least one of the first to fifth authentication information checking embodiments of the present invention The code data may be received from the sharer wireless terminal 105 during the process of confirming the authentication information according to the embodiment in which the authentication information is confirmed, A procedure for providing the code data to the terminal 105 may be provided.
If the authentication information for identifying and authenticating the code data transmitted in the short distance through the asynchronous radio signal of the sharer wireless terminal 105 is confirmed, the operation server 400 transmits the asynchronous radio signal of the sharer wireless terminal 105 (745) associating the device information of the parker device (100) for recognizing the transmitted code data with the authentication information for authenticating the code data, and transmitting the asynchronous radio signal of the sharper wireless terminal (105) When the
Meanwhile, when a sharer to be shared with the
8 is a diagram illustrating an operation process of the sharer wireless terminal 105 and the
8 is a flowchart illustrating an operation of transmitting an asynchronous radio signal including code data designated by a sharer wireless terminal 105 and a process of receiving an asynchronous radio signal transmitted from the sharer wireless terminal 105, And the CPU 101 operates the circular mechanism unit 1015 based on the result of the recognition to check whether or not the parking system is parked. In the description of the operation of the
Referring to FIG. 8, the app of the sharer wireless terminal 105 identifies code data to be transmitted through an asynchronous radio signal (800). The code data may be verified (or generated) by the app of the sharer wireless terminal 105, or may be received from the operating server 400.
Meanwhile, the app of the sharer wireless terminal 105 determines whether to transmit an asynchronous radio signal including the code data (805). If the asynchronous radio signal including the code data is transmitted, The application of the terminal 105 processes 810 the asynchronous radio signal including the code data to be transmitted in a short distance through the local communication unit of the sharer wireless terminal 105.
On the other hand, the
The
If valid code data is not recognized from the asynchronous radio signal, the
If valid code data is recognized from the asynchronous radio signal, the
If the validity of the code data is not authenticated, the
On the other hand, when the validity of the code data is authenticated, the
9 is a diagram illustrating a process of providing the shared state of the
In more detail, FIG. 9 shows an example in which the operation server 400 communicates with the sharer wireless terminal 105 and / or communicates with the
Referring to FIG. 9, the operating server 400 may communicate with the sharer wireless terminal 105 and / or communicate with the
10A to 10C are diagrams showing the structure of a
10a shows a constituent part constituting the
Referring to FIGS. 10a to 10c, the
100: Parker device 105: Shared wireless terminal
200: Signal device 230: Chip module
300: User wireless terminal 325:
400: Operation server 405: Device registration part
410: registration processor 415: sharing request receiver
420: Shared object determination unit 425: Code data verification unit
430: code data provider 435: authentication information verification unit
440: authentication information management unit 445: code data reception unit
450: code data authentication unit 455:
460: Shared state checking unit 465: Shared state providing unit
Claims (13)
A unique device for uniquely identifying a vehicle-mounted signal device that can be mounted on a user's vehicle and transmits a designated unidirectional wireless signal, and a device for uniquely identifying and authenticating a wireless terminal, A first step of registering and storing authentication information;
Receiving a unidirectional radio signal transmitted from the user's signal device from an app of a user wireless terminal corresponding to the unique authentication information, and operating a circular mechanism based on a result of recognition and authentication of the designated code information, A second step of receiving sharing request information requesting a third party to share the parker device of the first network;
A third step of confirming authentication information for authenticating code data to be transmitted in a short distance through a unidirectional radio signal of a short range communication unit included in the determined sharer wireless terminal when a sharer to be shared with the Parker device is determined;
A fourth step of associating and storing the device information of the shared parker device and the verified authentication information;
A fifth step of receiving the code data from the shared parker device when transmitting the code data recognized through the unidirectional wireless signal in the shared parker device;
A sixth step of authenticating the validity of the received code data using authentication information associated with the shared parker device; And
And a seventh step of providing an authentication result of the code data to the shared parker device,
Wherein the authentication result is provided to the shared parker device and used to control whether or not the parking lot is operated by operating a circular mechanical part of the parker device.
Wherein when the validity of the code data is authenticated, a circular mechanism of the parker apparatus is operated to control the parker so that parking is possible.
Further comprising the step of associating and storing the unique information of the signal device with the device information of the parker device associated with the signal device,
Wherein the unique authentication information is stored in association with unique information of a signaling device associated with the parker device.
And a unique code stored in a chip module of the signaling device and included in a unidirectional radio signal transmitted from the chip module.
When a one-way radio signal transmitted from a chip module of the signaling device includes an OTI (One Time Identification) for dynamically identifying and authenticating the signaling device, a unique code used for generating the OTI in the chip module of the signaling device And transmitting the reverse parker sharing information to the sharer wireless terminal.
And a unique code stored in the chip module of the signaling device and transmitted through the unidirectional radio signal transmitted from the chip module.
And an OTI (One Time Identification) which is dynamically generated with a code system specified by a chip module of the signaling device to be dynamically identified and authenticated and transmitted via a unidirectional radio signal transmitted from the chip module, in order to dynamically identify and authenticate the signaling device A method for sharing a reverse parker using a sharer wireless terminal.
And an authentication code generated through a chip module of the signaling device.
One-time use dynamically generated one-time codes using one or more seeds specified,
A cryptographic code generated so as to be decrypted only through the designated server,
And a signature code generated by digitally signing the certificate through a certificate, or a combination of two or more of the signature codes.
Further comprising the step of receiving code data to be transmitted from the sharer wireless terminal to the sharer wireless terminal via a unidirectional wireless signal,
Wherein the third step comprises checking authentication information for authenticating the received code data. ≪ Desc / Clms Page number 19 >
And receiving authentication information for authenticating code data to be transmitted from the sharer wireless terminal through a unidirectional radio signal of the sharer wireless terminal in a short distance, using the sharer wireless terminal.
Generating or extracting code data that can be transmitted in a short distance via a unidirectional radio signal of the sharper wireless terminal; And
And providing the code data to the sharer wireless terminal,
Wherein the third step includes confirming authentication information for authenticating the generated / extracted code data. ≪ RTI ID = 0.0 > [10] < / RTI >
Receiving code data to be provided from the user wireless terminal to the sharer wireless terminal; And
And providing the code data to the sharer wireless terminal,
Wherein the third step comprises checking authentication information for authenticating the received code data. ≪ Desc / Clms Page number 19 >
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
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KR1020160065745A KR20170134909A (en) | 2016-05-27 | 2016-05-27 | Method for Reverse Sharing Parker Device by using Sharer's Mobile Device |
Applications Claiming Priority (1)
Application Number | Priority Date | Filing Date | Title |
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KR1020160065745A KR20170134909A (en) | 2016-05-27 | 2016-05-27 | Method for Reverse Sharing Parker Device by using Sharer's Mobile Device |
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KR20170134909A true KR20170134909A (en) | 2017-12-07 |
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KR1020160065745A KR20170134909A (en) | 2016-05-27 | 2016-05-27 | Method for Reverse Sharing Parker Device by using Sharer's Mobile Device |
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2016
- 2016-05-27 KR KR1020160065745A patent/KR20170134909A/en unknown
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