KR20100119916A - Manless bicycle lease system using mobile terminal - Google Patents

Abstract

PURPOSE: An unmanned bicycles system which quickly and conveniently processes the lending bicycles and return processes of an RFID technology and a portable terminal is provided to confirm the state of the bicycle without installing expensive kiosks to each station. CONSTITUTION: An unmanned bicycles station(100-1) comprises next. A holder comprises sensing units and an RFID reader for sensing locking devices capable of remote control. A controller(110) controls the fastening unit of the corresponding holder the cancel release. The controller reports the tag information detected from the RFID readers of each holder in the rental service system.

Description

Unmanned bicycle rental system using a mobile terminal {MANLESS BICYCLE LEASE SYSTEM USING MOBILE TERMINAL}

The present invention relates to an unmanned bicycle rental system, and more particularly, to an unmanned bicycle rental system using a portable terminal that can process the rental and return quickly and conveniently using RFID technology and a portable terminal.

In recent years, as the driving of automobiles becomes burdensome due to the increase in oil prices and interest in health increases, people who commute by using bicycles or ride bicycles for exercise are increasing. In addition, the bicycle road has been expanded by social policy in relation to environmental issues, and the conditions for bicycle traffic have been established. In addition, bicycle rental facilities and bicycle storage facilities have been installed in public institutions to activate bicycle riding.

To this end, bicycle rental stations are installed and operated in public places such as parks or subway stations, and the conventional bicycle rental stations have a problem of increasing labor costs because they are managed by people.

In order to solve this problem, an unmanned automated bicycle rental station using RFID has been proposed, but a conventional unmanned bicycle rental station requires an expensive large sized kiosk equipped with a display device and a keypad for inputting data. There is this.

In addition, the conventional unmanned bicycle rental station in the kiosk in front of the kiosk to some extent away from the cradle on which the bike to be rented, enter the cradle number, social security number and mobile phone number in the kiosk, so you need to note the cradle number, the state of the bicycle to rent There is a troublesome problem to check.

The present invention has been proposed to solve the conventional problems as described above, an object of the present invention is to remove the large kiosk to reduce the installation cost and installation space, and can be rented directly using a mobile terminal in front of the bicycle holder It is to provide an unmanned bicycle rental system using.

In order to achieve the above object, the system of the present invention, a plurality of unmanned bicycle rental station that can rent a bicycle to the user unattended; and a portable terminal carried by the user; And while the mobile terminal is connected to manage the station and rental status of the station in the database when the mobile terminal is connected to provide a screen for renting a cradle number and resident registration number to unlock the cradle selected by the user to rent a bicycle It is characterized by consisting of a mobile bicycle rental service system for managing bicycles returned to each station.

The unmanned bicycle rental station is equipped with a unique identification number and equipped with a remote control lock device and a sensing means for detecting whether the bike is mounted, and an RFID reader for detecting an RFID tag attached to the bicycle to mount the bicycle. A cradle, which is connected to the cradle and a communication line, and connected to the rental service system through a communication network to release the locking means of the cradle according to a command of the rental service system, and to read tag information detected from each RFID reader of the cradle. And a controller for reporting to the rental service system, wherein the controller communicates with a server connection unit for connecting to the rental service system through the communication network, an ID setting unit for setting a unique number of a station, and jurisdiction holders. Cradle connection for the pipe through the cradle connection Collects the RFID tag information of the bike holder and the bike mounted in each cradle by communicating with the cradle, and transmits to the rental service system through the server connection unit using the station number set as the identifier in the ID setting unit, the rental service system When the unlock command is received from the processor is configured to unlock the cradle.

The rental service system is connected to each station through a communication network to handle bicycle rental and return procedures, a mobile authentication server for authenticating a user with information input through the mobile terminal, and a cradle of all stations. It consists of a database server that manages information, membership information, and rental information as a database.

The mobile bicycle rental system according to the present invention does not need to install an expensive kiosk at each station, thereby reducing installation costs and installation space, and can be rented immediately after applying for a rental in front of a cradle where a user wants to rent a bicycle. Therefore, the rental procedure is convenient, and the effect can be immediately checked the desired state of the bicycle.

In addition, since the bicycle rental system according to the present invention is authenticated using a mobile terminal, the authentication is accurate, and more strict authentication is possible by combining with the location information of the mobile terminal, and the rental progress and various information are sent directly to the mobile terminal. There is an advantage that the user can immediately check the information related to the rental.

In addition, according to the present invention, it is possible to efficiently arrange and manage bicycles by monitoring each station in real time in the central control server, and when canceling a rental, collect the reason for canceling the rental and refer to the maintenance of the bicycle. Additional services such as information can be provided.

In addition, according to the present invention, non-members authenticate their real names with their mobile phones, and if they are members, they can block duplicated phones by verifying unique information on their mobile devices. Misuse can be prevented.

The technical problems achieved by the present invention and the practice of the present invention will be more clearly understood by the preferred embodiments of the present invention described below. The following examples are merely illustrative of the present invention and are not intended to limit the scope of the present invention.

1 is a block diagram showing the overall configuration of an unmanned bicycle rental system using a mobile terminal according to the present invention, Figure 2 is a detailed block diagram of the controller shown in Figure 1, Figure 3 is shown in Figure 1 Detailed drawing of the cradle.

Unmanned bicycle rental system using a mobile terminal according to the present invention, as shown in Figure 1, a number of unmanned bicycle rental stations that can be installed in public places, such as near train stations or parks to rent a bicycle to users unattended ( 100-1 to 100-K), the portable terminal 20 carried by the user 10, and the mobile terminal while managing the bicycle mounting state and the rental state of all stations 100-1 to 100-K in a database. When the 20 is connected, the screen is provided for renting a bicycle, and the bicycle rental is managed by releasing the lock selected by the user by inputting the cradle number and the resident registration number, and then renting the bicycle and managing the bicycle 30 returned to each station. It is composed of a service system 200. The portable terminal 20 is connected to the service system 200 through a CDMA mobile communication network or a wireless LAN network (WiFi), and the unmanned bicycle rental stations 100-1 to 100-K are wireless Internet and wireless data networks of the CDMA mobile communication network. Alternatively, the bicycle rental service system 200 may be connected to a wired Internet through a high speed modem. In FIG. 1, these various types of communication networks are simply shown as one communication network 102.

Referring to FIG. 1, the portable terminal 20 of the user 10 is a mobile phone, a smartphone, a laptop, a WiFi terminal, or the like, through the communication network 102, the central control server 210 or the mobile of the bicycle rental service system 200. It can be connected to the authentication server 220, and display the bicycle rental service screen provided by the central control server 210 or the mobile authentication server 220, and input the cradle number or resident registration number of the bicycle to be rented. .

Unmanned bicycle rental stations (100-1 ~ 100-K) are each assigned a unique identification number, the remote control lock 122 and the sensing means for detecting whether the bike is mounted and the RFID attached to the bicycle 30 K cradles 120-1 to 120-K for mounting the bike 30 with an RFID reader 130 for detecting the tag 32, and K cradles 120-1 to 120-K. ) Is connected to the communication line and connected to the central control server 210 of the bicycle rental service system through the communication network 102 to release the locking means of the cradle according to the command of the central control server 210 and RFID reader 130 The controller 110 is configured to report the tag information detected from the central control server 210. In this case, the RFID reader 130 may be installed in each cradle, but only the antenna may be installed in the cradle and then connected to a few RFID readers.

As shown in FIG. 2, the controller 110 of the unmanned bicycle rental station includes a server connection unit 111 for connecting to the central control server 210 through the communication network 102 and an ID for setting a unique number of the station. The setting unit 113, the cradle connecting portion 112 for communicating with the memory 114, the jurisdiction cradle, and the jurisdiction cradle (120-1 ~ 120-K) in communication with each cradle bike mounted or not After collecting the RFID tag information of the station set in the ID setting unit 113 as an identifier and transmits to the central control server 210 through the server connection unit 111 and when the unlock command is received from the central control server 210 It is composed of a processor 115 for releasing the lock 122 of the cradle.

And each cradle 120, as shown in Figure 3, the cradle number 126 is displayed and mounted to the mounting mechanism portion 124 and the mounting mechanism portion 124 to mount the bike 30 Locking mechanism unit 122b for locking the bicycle 30, RFID reader 130 for detecting the RFID tag 32 of the bike mounted on the mounting mechanism unit 124, the antenna 132 connected to the RFID reader and the cradle When the bicycle is mounted on the lock is automatically configured to lock the control unit 122a for releasing the lock according to the unlock command of the controller (110). To this end, the mounting mechanism unit 124 preferably has mounting detection means (eg, a limit switch or a load sensor) for checking whether the bicycle 30 is mounted. The mounting detection signal of the mounting detection means is a lock control unit. It is delivered to the controller 110 via 122a. In addition, each bicycle cradle 120 is provided with a 13.56MHz antenna 132 or RFID reader 130 of the RFID reader for detecting the RFID tag 32 attached to the bicycle 30, respectively, or a plurality of cradles for the bicycle ( The RFID tag 32 attached to 30 may be sensed and transferred to the controller 110.

The bicycle rental service system 200 is connected to each station through the communication network 102 to handle the rental and return process of the bicycle and the central control server 210 and the user with the information input through the user's portable terminal 20 Mobile authentication server 220 for authentication, and the database server 230 for managing the cradle information, membership information, rental information, etc. of the entire station, the mobile authentication server 220 is a mobile communication company server 300 Is linked to handle non-member verification. At this time, the central control server 210 and the mobile authentication server 220 may be implemented as a single integrated server, may be separately installed and may share data in the database. It also has a web server function that can be connected to a PC via the Internet.

4 is a flowchart illustrating the overall operation of the unmanned bicycle rental system using a mobile terminal according to the present invention.

Referring to FIG. 4, first, in the bicycle rental service system 200 for providing a mobile bicycle rental service according to the present invention, RFID tags information of bicycle holders mounted on the cradles of each station and the cradles are managed as shown in Table 1 below. In addition to being stored and managed as a database, members are also registered to manage the database for members (S101, S102). In addition, the cradle 120 of the station is fixed, but because the bicycle 30 can be moved freely mounted, the tag information of the bike mounted on each cradle needs to be updated at any time.

Station number Location information Cradle number Bicycle tag information     S101 Near Jamsil Station, Songpa-gu, Seoul L001 B100105 L002 Empty .... ...     S205 Near Busan station L001 B100107 L002 Empty .... ...

As shown in Table 1, the central control server 210 identifies each station by a station number, and the cradles 120-1 to 120-K of each station are identified by a cradle number, and each cradle distributed throughout the country is " Station number + cradle number ". In Table 1, when the bicycle 30 is mounted on the holder 120, tag information of the corresponding bicycle is recorded in the bicycle tag information field, and when the holder 120 is empty, it is displayed as "Empty".

Then, when the user 10 visits the desired station and accesses the bicycle rental service system 200 using the mobile terminal 20 in front of the holder 120 of the bicycle to be rented, the bicycle rental service system 200 is a mobile unmanned bicycle. The screen for the rental service is provided (S103, S104). At this time, the connection method between the mobile terminal 20 and the service system 200 varies according to the type of the mobile terminal 20. For example, direct URL input, callback URL SMS, ** number + internet access button, and WINC (Wireless Internet Number). for Contents), widgets, etc.

When the user 10 requests a bicycle rental by inputting a cradle number and a resident registration number according to the screen guidance of the mobile terminal 20, the bicycle rental service system 200 may uniquely input information and the uniqueness of the mobile terminal 20. Authentication is processed by the mobile authentication server 220 using a number (phone number, MIN, MAC address, or mobile IP, etc.) (S105).

When the user is a member, the mobile authentication server 220 processes its own authentication using a member database built in the bicycle rental service system 200, and in the case of a non-member, transfers information to the mobile communication company server 300 to provide a real name. Request confirmation (S106 ~ S110). At this time, the member may use the unique number (MIN or MAC address, etc.) of the mobile terminal registered at the time of membership registration, and each station 100 has a fixed location information. The authentication may be performed more strictly by determining whether the location matches the location information of the mobile terminal 20. In the case of a mobile phone, the location information of the mobile terminal may use the location information of the base station of the mobile communication company, or the AP location information, etc., for the WiFi terminal.

If the authentication result is successful, the mobile authentication server 220 refers to the cradle management database and then records the lender information and the RFID tag information of the rented bicycle, the rental time, and the rental cradle information in the lender management database as shown in the following Table 2 (S111, S112). In addition, the central control server 210 requests the unlocking of the cradle (S113).

Lender
Resident registration number rental
holder rental
Bicycle tags Rental time return
holder Return time Billing Information 580 .. S101 .. B101 .. 090430 1200 B101 ... 090430 1530 Phone number
fee

Accordingly, the central control server 210 transmits the unlock command of the cradle designated by the user to the controller 110 of the station, and the controller 110 of the station unlocks the cradle to allow the user to rent a bicycle. It is possible to receive the tag information of the actual rented bicycle from the RFID reader 130 and transmit the rented bicycle tag information to the central control server 210 through the response message (S114 ~ S116).

Accordingly, the central control server 210 updates the bicycle tag information in the corresponding cradle of the cradle management table to "Empty" and checks whether it matches the bike tag registered in the lender management table and counts the rental time (S117). When the mobile terminal is a mobile phone, the user can check the rental information guide message by text message (S118).

On the other hand, when the bicycle is returned to the bicycle holder of each station, the RFID reader reads the tag information of the returned bicycle to the controller 110, the controller 110 transmits the tag information of the returned bicycle to the central control server 210 It transmits to (S119, S120).

The central control server 210 searches for the bicycle tag information returned from the lender management table, finds the lender, records the return bracket and the return time, calculates the billing, and returns the billing and billing information to the user's portable terminal 20. It transmits to (S121, S122). Then, the billing information is transmitted to the mobile communication company server 300 and billed to the user together with the communication fee (S123).

5 is a detailed flowchart illustrating an operation procedure of the station controller according to the present invention, Figure 6 is a detailed flowchart showing the operation procedure of the bicycle rental service system according to the present invention, Figure 7 is when returning a bicycle according to the present invention This is a flowchart showing the server's processing procedure. 8 to 12 are examples of display screens of the mobile terminal for the service according to the present invention.

Referring to FIG. 5, the controller 110 of each station scans the status of the cradle and monitors the return of the bicycle through the RFID reader 130, and if there is a return, reads the RFID tag of the returned bicycle and reads the tag information from the central control server ( 210 to (S201 ~ S204).

If there is no return, the command is received from the central control server 210 and the command is interpreted and the status report command transmits the RFID tag information of each cradle of the cradle and the mounted bicycle to the central control server 210 ( S205-S208).

Then, if the unlock command, and unlock the corresponding cradle to enable the rental of the bike, and transmits the RFID tag information of the rented bicycle to the central control server 210 (S209 ~ S211).

Referring to FIG. 6, the bicycle rental service system 200 receives a registration of each station and a member and builds a database as described above (S301).

When the user visits the desired station and accesses the bicycle rental service system 200 using the mobile terminal 20 in front of the cradle of the bicycle to be rented, the bicycle rental service system 200 provides various services provided by the bicycle rental service system. Provide a menu screen to select (S302). For example, if the location information of the unmanned bicycle rental station is selected, the user may provide location information of the desired station (S304, S305).

In the embodiment of the present invention, only the rental service is targeted, so when the user calls a specific number or requests the Internet to access the bicycle rental service system 200, a message for accessing the bicycle rental system as shown in FIG. It provides (S303, S306). When selecting 'No. 1 connection' in the message screen of FIG. 8, the mobile terminal 20 is connected to the bicycle rental system 200, accordingly, the bicycle rental service system 200 is a cradle number as shown in FIG. Provides a screen for inputting, select the confirmation after entering the cradle number (S307).

Since the provided message is reusable, it does not need to be requested every time, and the message request process may be omitted when accessing through a connection method other than Callback URL SMS such as WINC or widget.

Subsequently, the bicycle rental service system 200 finds the location information of the cradle through the cradle management table and checks the station as shown in FIG. 10, and provides a screen for receiving a resident registration number (S308).

When the user enters the resident registration number and confirms, the bicycle rental service system 200 determines whether the member is a member and processes its own authentication, and in the case of a non-member, requests a real name verification from the mobile service provider server 300. If the authentication is successful, as shown in FIG. 11, the rental confirmation message is transmitted and the corresponding cradle is unlocked and the rental time is counted (S309 ˜ S314). If the authentication fails, the loan is notified (S315).

On the other hand, when the return is received from each station, the bicycle rental service system 200 checks the return time as shown in FIG. After receiving the reason for cancellation of return from the user to record in the maintenance information (S401 ~ S405).

If the normal return, the bicycle rental service system 200 retrieves the bicycle tag information returned from the rental management table, finds the borrower, updates the database by recording the return bracket and the return time, and calculates the billing. As shown in the figure, the return and billing information is transmitted to the user's portable terminal 20 (S406 to S409). If necessary, a message is sent to confirm the satisfaction of the use and recorded in the maintenance information.

The present invention has been described above with reference to one embodiment shown in the drawings, but those skilled in the art will understand that various modifications and equivalent other embodiments are possible therefrom.

1 is a block diagram showing the overall configuration of an unmanned bicycle rental system using a mobile terminal according to the present invention,

2 is a detailed block diagram of the controller shown in FIG. 1;

Figure 3 is a detailed view of the cradle shown in Figure 1,

4 is a flowchart illustrating the overall operation of the unmanned bicycle rental system using a mobile terminal according to the present invention;

5 is a detailed flowchart illustrating an operation procedure of a station controller according to the present invention;

6 is a detailed flowchart illustrating an operation procedure of a service system according to the present invention;

7 is a flowchart illustrating a processing procedure of a server when returning a bicycle according to the present invention;

8 to 12 are examples of display screens of a mobile terminal for a service according to the present invention.

DESCRIPTION OF THE REFERENCE NUMERALS

10: user 20: mobile terminal

102: communication network 100,100-1 ~ 100-K: unmanned bicycle rental station

200: rental service system 210: central control server

220: mobile authentication server 230: DB server

Claims (9)

A number of unmanned bicycle rental stations that can rent bicycles to users unattended; and, A portable terminal carried by the user; And When the mobile terminal is connected while managing the station and the rental state of the station in the database, the screen is provided for renting the bicycle, and inputs the cradle number and resident registration number to unlock the cradle selected by the user to rent the bicycle. Unmanned bicycle rental system using a mobile terminal, characterized in that consisting of a bicycle rental service system for managing the bicycle returned to each station. According to claim 1, The unmanned bicycle rental station A cradle to which a bicycle can be mounted with a unique identification number and equipped with a remote control lock device, a sensing means for detecting whether the bicycle is mounted, and an RFID reader for detecting an RFID tag attached to the bicycle; Connected to the cradle and the communication line, and connected to the rental service system through a communication network to release the locking means of the cradle according to a command of the rental service system, and tag information detected from each RFID reader of the cradle to the rental service system. Unmanned bicycle rental system using a mobile terminal, characterized in that consisting of a controller for reporting. The system of claim 2, wherein the controller comprises: a server connection unit for connecting to the rental service system through the communication network; ID setting unit for setting the unique number of the station, A cradle connection for communicating with jurisdiction cradles, Communicates with the jurisdiction cradle through the cradle access unit, collects the RFID tag information of each cradle and whether the cradle is mounted, and transmits the RFID tag information of the cradle to the rental service system through the server connection unit using the station number set as the identifier. And a processor for releasing the locking device of the holder when an unlocking command is received from the rental service system. The method of claim 2, wherein the cradle And the cradle number is displayed and can be mounted on the bike, and equipped with a detection mechanism for detecting whether the bike is mounted, A locking mechanism unit for locking the bicycle mounted on the mounting mechanism unit; RFID tag detecting means for detecting the RFID tag of the bicycle mounted on the mounting mechanism; When the bicycle is mounted on the mounting mechanism portion, the detection means by the detection means of the mounting mechanism to lock the locking mechanism portion, characterized in that the portable control unit configured to lock the locking mechanism unit in accordance with the unlocking command of the controller Unmanned bicycle rental system using a terminal. According to claim 1, wherein the bicycle rental service system A central control server connected to each station through a communication network to handle bicycle rental and return procedures; A mobile authentication server for authenticating a user with information input through the portable terminal; Unmanned bicycle rental system using a mobile terminal, characterized in that consisting of a database server that manages the cradle information, member information, rental information of the entire station as a database. The method of claim 5, wherein the central control server Each station's cradles and the RFID tag information of the bikes mounted on each cradle are managed by a cradle management database, and a user-specified cradle unlock command is transmitted to the controller of the station. Receives tag information, updates the bicycle tag information and the rental time in the corresponding cradle of the cradle management table, and checks the return time when the bicycle return information is received from the controller of each station. After receiving the reason for return cancellation from the user and recording the result in the maintenance information, if it is normal return, the borrower after searching the returned bicycle tag information in the rental management table Find a return stand and return time A system for renting an unmanned bicycle using a portable terminal, comprising: recording and updating a database, calculating a bill, and transmitting return and billing information to a user's portable terminal. The method of claim 5, wherein the mobile authentication server When the portable terminal is connected, a screen for an unmanned bicycle rental service is provided, and a cradle number and a resident registration number are inputted from the portable terminal to process self-authentication if the user is a member, and information is transmitted to the mobile communication company server if the member is a non-member. Unmanned bicycle rental system using a mobile terminal, characterized in that the request to authenticate by passing the real name confirmation. The method of claim 7, wherein the mobile authentication server Unmanned bicycle rental system using a mobile terminal, characterized in that by comparing the location information of the mobile terminal with the location information of the cradle received from the user. The method of claim 7, wherein the mobile authentication server Unmanned bicycle rental system using a mobile terminal, characterized in that the authentication by comparing the unique number of the registered mobile terminal and the unique number of the terminal applying for rental at the time of registration.

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