KR20010090037A - Wireless local area network connecting device - Google Patents

Abstract

PURPOSE: A WLAN(Wireless Local Area Network) card having a smart card is provided to improve a convenience and a stability of an Internet service using the WLAN by easily performing an access authentication for an Internet user and various accountings according to use the Internet. CONSTITUTION: An antenna(AN) transceives RF(Radio Frequency) signal. An RF unit(110) receives and processes the RF signal from an access point, and transmits and processes data transmitted from a user terminal to the access point. An amplifier(111) amplifies the RF signal. An RF/IF converter(112) is coupled to an oscillator(VCO), and performs a signal conversion between an RF signal and an IF(Intermediate Frequency) signal. An IF/BB converter(113) is coupled between the RF/IF converter(112) and a BB(Base Band) processor(120), and performs a signal conversion between IF signal and a BB signal. The BB processor(120) demodulates data received through the RF unit(110) and modulates data transmitted to the access point. A MAC(Medium Access Protocol) processor(130) processes a data link a MAC protocol between the access point and a computer. A smart card(510) is connected between the computer and the MAC processor(130), and processes to transmit a specific ID(IDentification) of the WLAN(500).

Description

Wireless LAN card with smart card {Wireless local area network connecting device}

The present invention relates to a high-speed data transmission apparatus (hereinafter, referred to as a "wireless LAN card") of a wireless local area network (WLAN), and in particular, can easily perform authentication and billing processing for Internet access service users. It is about a wireless LAN card equipped with a smart card.

In general, a wireless LAN means a wireless LAN that transmits and receives data between a computer and a computer or between a computer and other communication systems by using radio frequency (RF) or light. The wireless LAN has been developed in recent years due to the rapid development of Internet service and wireless communication technology, which is easy to install and maintain in a place where wired network is not easy to build, such as network connection between buildings, large offices and logistics center. The use is soaring.

FIG. 1 is a block diagram schematically illustrating a configuration of a conventional WLAN network system. In FIG. 1, reference numerals 10 (10 ₁ to 10 _n ) _denote a plurality of user terminals provided with a conventional WLAN card described below. An access point (AP: Access Point) that communicates between a plurality of user terminals 10 and the hub 30 to relay wireless LAN communication when the user connects to the Internet 1, and 30 is a hub (HUB), 40 Is a router. In addition, in FIG. 1, the user terminal 10 is a wireless communication device such as a PCMCIA port, a USB port, or a wireless computer described later in a general computer device such as a notebook computer, a desktop computer, or a personal digital assistant (PDA) having a PCI slot. LAN card is installed.

In FIG. 1, the access point 20 is configured to provide IP, gateway, and domain name server (DNS) information preset to a computer device of the user terminal 10 when a user requests access to the Internet. 'Received' from the user terminal 10 to perform a wireless LAN relay function so that the Internet (1) access through a network operator (for example, Korea Telecom, Hanaro Telecom, Durnet, etc.) is made. Therefore, the user terminal 10 of FIG. 1 is connected to the Internet 1 through the access point 20, the hub 30, and the router 40 to form a wireless network, and the data through the Internet 1. Sending and receiving is performed.

2 is a block diagram showing the internal configuration of a conventional wireless LAN card 100 provided in the user terminal 10 of FIG.

In FIG. 2, AN denotes an antenna for transmitting and receiving an RF signal, and 110 receives an RF signal from the access point 20 and transmits the RF signal from the user terminal 10 to the access point 20. The RF unit transmits the data to an RF signal, which is a high frequency signal, wherein the RF unit 110 is combined with an amplifier 111 for amplifying an RF signal and an oscillator (VCO), which is an RF signal and an intermediate frequency signal. An RF / IF converter 112 that performs signal conversion between IF signals and the baseband processor, which is described later, is connected to the RF / IF converter 112 and a baseband signal, BB (Base Band). And an IF / BB converter 113 for performing signal conversion between signals.

In FIG. 2, reference numeral 120 denotes a baseband processor for demodulating data received through the RF unit 110 and modulating data transmitted to the access point 20 through the RF unit 110. The MAC processing unit performs data link processing through a medium access protocol (MAC) protocol (eg, IEEE 802.11b in the case of a wireless LAN) between the access point 20 and the computer device of the user terminal unit 10.

Hereinafter, the operation of the conventional WLAN card 100 having the above configuration will be described.

That is, when there is data transmission from the computer device of the user terminal 10 of FIG. 1, the data processing such as channel acquisition and the like according to the wireless LAN standard (eg, IEEE 802.11b) is performed through the MAC processing unit 130 of FIG. The transmission data is subjected to the modulation process of the baseband processor 120 of FIG. 2 and the RF signal conversion process of the RF unit 110, and then transmitted to the access point 20 of FIG. 1 through the antenna AN. .

When there is data reception from the Internet 1, the received data is transmitted to the access point 20 via the router 40 and the hub 30 of FIG. 1, and the access point 20 of FIG. The wireless LAN card 100 of the terminal unit 10 transmits the received data. In this case, the received data is received through the antenna (AN) of the wireless LAN card 100, the baseband signal processing of the RF unit 110, the demodulation processing of the baseband processing unit 20, and the wireless LAN standard of the MAC processing unit 130 After the data link processing according to the transmission to the computer device of the user terminal 10.

However, in the case of the conventional WLAN card having the above-described configuration, the Internet access authentication through the network operator is performed using only the member ID and password of the user. It is difficult to prevent internet access, and in general, expensive wireless LAN card for laptop computer is made of PCICIM card which can be easily detached and there is a risk of theft. There was a problem accessing. In addition, the conventional wireless LAN card is configured to simply perform a wireless communication function through the access point, there is a difficulty that the user can not easily use the various additional services provided by the network operator, such as selecting / changing the billing method.

Accordingly, the present invention has been made in view of the above circumstances, and an object thereof is to provide a wireless LAN card equipped with a smart card that can easily perform access authentication and billing processing for an Internet access service user.

1 is a block diagram schematically showing the configuration of a conventional WLAN network system.

Figure 2 is a block diagram showing the internal configuration of a conventional wireless LAN card 100 provided in the user terminal 10 shown in FIG.

3 is a block diagram schematically showing the configuration of a WLAN network system to which a WLAN card according to the present invention is applied.

Figure 4 is a block diagram showing the internal configuration of a wireless LAN card 500 according to the present invention.

5 is a block diagram schematically showing the internal configuration of the smart card 510 shown in FIG.

FIG. 6 is a block diagram schematically showing the internal structure of the AP manager 70 shown in FIG.

*** Explanation of symbols for the main parts of the drawing ***

10 (10 ₁ ~ 10 _n ), 50 (50 ₁ ~ 50 _n ): user terminal, 20, 60: access point,

30: hub, 40: router,

70: AP manager, 71: first interface unit,

72: second interface unit, 73, 120: baseband processing unit,

74: RAM, 75: program storage unit,

76: processor unit, 100, 500: wireless LAN card,

110: RF unit, 130: pulse processor,

511: serial input and output interface, 512: RF interface,

513: memory section, 514: microprocessor.

A wireless LAN card equipped with a smart card according to the present invention for achieving the above object is provided with an antenna, an RF unit, a baseband processing unit, a Mac processing unit to transmit and receive data between an access point and a computer device connected to the Internet according to the wireless LAN standard. In a wireless LAN card for processing, the wireless LAN card is connected between the computer device and the MAC processing unit to store a unique ID for the connection authentication when the user accesses the Internet, and transmits the unique ID to the server of the network operator to access the user's Internet. Characterized in that it comprises a smart card to be authenticated access.

Hereinafter, embodiments of the present invention will be described with reference to the accompanying drawings.

3 is a block diagram schematically showing the configuration of a WLAN network system to which a WLAN card according to the present invention is applied.

In FIG. 3, reference numeral 50 (50 ₁ to 50 _n ) is a plurality of user terminals provided with a wireless LAN card according to the present invention, and the computer device of the user terminal 50 uses a general computer device and is mounted thereon. Detailed description of the wireless LAN card will be described later. In FIG. 3, reference numeral 60 denotes an access point communicating with a plurality of user terminals 50 and an AP manager to be described later to relay wireless LAN communication. In FIG. 3, the access point 60 denotes an access point. Although only one is shown, a plurality of access points 60 are actually connected to an AP manager described later through a predetermined communication network such as Ethernet to relay the connection of the user terminal 50 to the Internet 1.

In addition, the access point 60 stores a predetermined operation program configured to perform data transmission / reception processing according to the user terminal 50 and the wireless LAN standard (eg, IEEE 802.11b) under the control of an AP manager, which will be described later. Not shown).

In FIG. 3, reference numeral 70 is connected to a plurality of access points 60 to control communication channel allocation for each access point 60 and IP allocation for accessing the Internet 1 of the user. 50) receives a unique ID transmitted via the access point 60 from the wireless LAN card to be described later, and transmits it to a server (not shown) of a network operator to which the user subscribes to the service. An AP manager that relays the Internet (1) connection authentication process, the detailed description of the AP manager 70 will be described later.

4 is a block diagram showing an internal configuration of a wireless LAN card 500 according to the present invention, wherein the wireless LAN card 500 is mounted on the user terminal 50 shown in FIG. A network connected to the Internet 1 by performing data communication according to 802.11b) and transmitting a unique ID assigned to the wireless LAN card 500 to the access point 60 connected when the user connects to the Internet 1. The user's server (not shown) requests user connection authentication.

In FIG. 4, the same components as those shown in FIG. 2 are denoted by the same reference numerals, and detailed description thereof will be omitted.

That is, the wireless LAN card 500 of FIG. 4 includes an antenna (AN), an RF unit 110, a baseband processing unit 120, and a pulse processing unit 130 as in the wireless card 100 described in FIG. 2. It is configured to include a smart card 510 connected between the computer device of the user terminal unit 50 and the Mac processing unit 130 to process the unique ID transmission of the wireless LAN card 500.

Hereinafter, the skat card 510 shown in FIG. 4 will be described.

FIG. 5 is a block diagram illustrating an internal configuration of the smart card 510. In FIG. 5, reference numeral 511 denotes a serial input / output interface, 512 denotes an RF interface, and the serial input / output interface 511 and the RF interface 512. ) Is for the smart card 510 to transmit and receive data with an external card reader (not shown). That is, the serial input / output interface 511 and the RF interface 512 use a charge through an external card reader (not shown) when the billing method of the network operator is rechargeable, such as a bus card used to charge the fee in advance. It is equipped to be able to charge.

In FIG. 5, reference numeral 513 denotes a memory unit in which a unique ID assigned to the WLAN card 500 and a driving program of the smart card 510 are stored, which stores various temporary data processed when the WLAN card 500 is driven. The RAM 513a, a ROM 513b in which a driving program of the smart card 510 to process transmission and reception of the unique ID is stored, and the WLAN card 500 is provided. And an EEP ROM 513c in which the unique ID is stored.

If there is a change in the unique ID stored in the EEP ROM 513c, it is transmitted from the network operator's server (not shown) and updated when the user 1 accesses the Internet. In this case, the user's access authentication process using the changed unique ID is performed from the user's next Internet 1 connection.

On the other hand, after storing predetermined user information according to the selection / change of the billing method of the user / network operator in the EEP ROM 513c, the access point 60 of FIG. It may be desirable to use the billing process of the user by transmitting to the server (not shown) of the network operator via the AP manager 70. In this case, the WLAN card 500 shares the billing processing of the network operator, thereby reducing the system load of the server (not shown) of the network operator.

The billing method according to the selection / change of the user / network operator may be set in various ways such as a pay-as-you-go, a flat fee, a prepaid payment system (charge type). If a modification occurs, it is transmitted from the network operator's server (not shown) when the user connects to the Internet (1) and stored in the smart card 510, or the user visits the network operator's designated agent / AS center directly. You can also get updates.

On the other hand, if the charging method selected / modified by the user / network operator is a prepayment (charge type), the user information includes the user's recharge amount (prepayment amount) information and rate information, which is increased according to the recharge amount of the user. When using the Internet 1 of the user, the rate information of the rate information is reduced.

In FIG. 5, reference numeral 514 controls the overall operation of the smart card 510, and reads the unique ID from the memory unit 513 when the user requests access to the Internet (1). The microprocessor is configured to process the user's Internet (1) connection authentication by transmitting to a server, wherein the microprocessor (514) determines whether the server (not shown) of the network operator that has received the unique ID and user information has been authenticated. Accordingly, the operation of the WLAN card 500 is executed / stopped.

As illustrated in FIG. 5, the serial input / output interface 511, the RF interface 512, the memory unit 513, and the microprocessor 514 are interconnected through an internal bus BS.

Accordingly, the wireless LAN card 500 having the configuration of FIG. 4 transmits the unique ID stored in the memory unit 513 to the network operator through the access point 60 to authenticate the access. It not only blocks the access but also saves the user information according to the user's / network operator's billing method selection / change, and then transfers it to the network operator when the user's Internet (1) accesses to facilitate the billing process for the user. .

Hereinafter, the AP manager 70 illustrated in FIG. 3 will be described.

FIG. 6 is a block diagram schematically showing the internal structure of the AP manager 70 shown in FIG. 3. In FIG. 6, reference numeral 71 denotes a communication connection with the access point 60 of FIG. 3 through, for example, 10 / 100M Ethernet. Is a first interface unit, 72 is a second interface unit for communication connection with the hub 30 of FIG. 3, for example, 10 / 100M Ethernet, 73 is through the first and second interface units 71 and 72; A baseband processor for performing modulation / demodulation processing on data to be transmitted and received, and 74 is a RAM for temporarily storing various temporary data.

In FIG. 6, reference numeral 75 denotes a program storage unit for storing an operation program for processing channel allocation, IP allocation, etc. for each access point 60 connected to the AP manager 70, and 76 denotes the program storage unit ( The processor unit controls the entire apparatus based on the operation program of 75) and processes the IP allocation after the channel assignment to each access point 70 and the user authentication through the unique ID are performed.

Therefore, the AP manager 70 having the above-described configuration transmits the unique ID and the user information received from the corresponding user terminal 50 when the user accesses the Internet 1 from each of the access points 60. Internet connection (1) connection authentication and billing information transmission to the user.

Hereinafter will be described the operation of the wireless LAN card 500 equipped with a smart card according to an embodiment of the present invention.

First, when there is data transmission according to the user's Internet 1 connection request from the computer device of the user terminal 50 of FIG. 3, the MAC processing unit 130 of FIG. 4 is assigned an access point 60 installed in the corresponding area. The data link processing according to the wireless LAN standard (eg, IEEE 802.11b) is performed through the channel.

The smart card 510 of FIG. 4 reads out the unique ID and the user information stored in the internal memory unit 513 as transmission data according to the Internet 1 connection request, which is the baseband processor 120 of FIG. After the modulation process and the RF signal conversion process of the RF unit 110, it is transmitted to the access point 60 of FIG.

Meanwhile, the unique ID of the wireless LAN card 500 stored in the memory unit 513 of FIG. 5 or the unique ID or user information changed according to the selection / change of the billing method may be a server of a network operator (not shown). It is transmitted to the unit 50 to be updated.

The unique ID and user information of the corresponding wireless LAN card 500 transmitted to the access point 60 of FIG. 3 are connected to the Internet 1 via the AP manager 70, the hub 30, and the router 40. The server (not shown) is transmitted to the network operator's server (not shown), and the server (not shown) again provides predetermined access authentication information for allowing / denying access to the Internet 1 of the user based on the received unique ID. In addition to transmitting to the AP manager 70 of 3 and if the user's access authentication is completed thereafter, the charging process according to the received user information is performed.

3, the AP manager 70 of FIG. 3 allocates an IP for accessing the Internet 1 of the user terminal 50 to the corresponding access point 60 when the user's access to the Internet 1 is authenticated. 60 connects the corresponding user terminal 50 to the Internet 1 through the assigned IP. On the other hand, if a user is denied access to the Internet 1, predetermined access authentication information including an authentication rejection message is transmitted from the network operator's server (not shown) to the AP manager 70, and the AP manager 70 accesses the corresponding access. The point 60 is notified of this, and the access point 60 notifies the user terminal 50 having a request for access to the Internet 1 again.

At this time, the wireless LAN card 500 of the user terminal 50, which is denied access to the Internet 1, is stopped under the control of the internal smart card 510, and this is an unnecessary signal applied to the access point 60. Will be blocked.

After the user's connection to the Internet 1 is approved, the data received from the Internet 1 is transmitted to the access point 60 via the router 40 and the hub 30 of FIG. 3 and the access point 60. ) Transmits the received data to the wireless LAN card 500 of the user terminal 50. In this case, the received data is received through the antenna (AN) of the wireless LAN card 500, the baseband signal processing of the RF unit 110, the demodulation processing of the baseband processing unit 120, and the wireless LAN standard of the MAC processing unit 130 After the data link processing according to the transmission to the computer device of the user terminal 50.

Therefore, according to the above embodiment, when the Internet (1) access through the wireless LAN card, the user's connection authentication is performed according to the hardware method based on the unique ID of the wireless LAN card, so that the Thai user's member ID and password are leaked. Unauthorized access can be prevented in advance, and the billing information of the network operator is stored in the smart card in the wireless LAN card, so that billing processing according to the user's use of the Internet can be easily performed.

As described above, according to the present invention, it is possible to further improve the convenience and stability of the Internet service using the wireless LAN by easily performing the various authentication processing according to the access authentication and Internet use for the Internet user.

Claims (5)

A wireless LAN card comprising an antenna, an RF unit, a baseband processing unit, and a MAC processing unit for processing data transmission and reception between an access point connected to the Internet and a computer device according to a wireless LAN standard. The wireless LAN card is connected between the computer device and the MAC processing unit smart card that stores the unique ID for the connection authentication when the user accesses the Internet, and transmits the unique ID to the server of the network operator to receive the user's Internet access authentication Wireless LAN card equipped with a smart card, characterized in that provided with. The method of claim 1, The smart card stores user information including billing information of a predetermined network operator and billing method information selected by a user from among billing methods included in the billing information. Wireless card provided with a smart card, characterized in that configured to transmit the user information to the server of the network operator when the Internet access request through the access point. The method of claim 1, The smart card is a wireless LAN card equipped with a smart card, characterized in that configured to maintain the Internet connection through the access point within the charged prepaid amount after charging the prepaid amount when using the Internet through the network operator . The method of claim 1, The smart card includes a serial input / output interface and an RF interface for performing data transmission / reception with an external card reader. A memory unit storing a driving program of a smart card configured to process transmission and reception of a unique ID assigned to a wireless LAN card and the unique ID; Smart card is characterized in that it comprises a microprocessor to control the overall operation of the smart card and to read and transmit the unique ID from the memory unit to the access point when the user's Internet connection request WiFi card. The method of claim 4, wherein The microprocessor is configured to stop the operation of the wireless LAN card when a predetermined authentication rejection message is transmitted from the server of the network via the access point via the access point. LAN card.