JP3976686B2 - Router system - Google Patents

Description

[0001]
BACKGROUND OF THE INVENTION
The present invention relates to an ADSL router for controlling connection of an asymmetric digital subscriber line (hereinafter referred to as an ADSL line) and a system thereof.
[0002]
[Prior art]
Conventionally, in general, an ADSL line connection device prepared in a user's home can connect to the Internet from a LAN terminal at home. However, when a user connects to the Internet from a telephone terminal outside the user, It is necessary to dial up directly from an outside telephone terminal to an Internet service provider (hereinafter, ISP).
[0003]
A general ISP always connects a contract user's LAN terminal and an ADSL line, but for a dial-up connection from the user, a pay-per-use charge or a separate contract is used. In addition, some ISPs do not provide a dial-up connection service using a conventional analog modem due to the rapid spread of recent ADSL technology.
[0004]
In general home ADSL line connection devices, since there are many common contract forms for ADSL connection service and telephone line connection service, analog modem communication service is often possible in addition to ADSL connection service (for example, Patent Documents). 1).
[0005]
[Patent Document 1]
Japanese Patent Laid-Open No. 11-308352 (page 4, FIG. 1)
[0006]
[Problems to be solved by the invention]
However, a user who is out of his / her home is not bound by the service provided by the ISP, and does not require a special contract or fee, and uses a conventional ADSL connection device in the home. However, there is a problem that it is impossible to connect to the Internet from a telephone terminal outside the office.
[0007]
The object of the present invention is to solve such a conventional problem, so that a user who is out of his / her home is not restricted to the service contents provided by the ISP from a remote telephone terminal, and a special contract or fee is charged. It is to provide a technology that can connect to the Internet without needing it.
[0009]
[Means for Solving the Problems]
The router system according to the present invention includes a LAN terminal accommodated in a LAN installed in a user's home, an Internet terminal on the Internet as a WAN, and a remote telephone outside the user's home that is accommodated in a public network. A terminal, a router installed in the user's home, and controlling connection between the LAN terminal, the Internet terminal, and the remote telephone terminal; and an ADSL (asymmetric digital subscriber line) transmitted and received between the router and the Internet terminal A subscriber line signal which is a mixed signal of a signal and a telephone signal transmitted and received between the router and the remote telephone terminal, and a subscriber line connecting the router and the Internet terminal and between the remote telephone terminals. A router system comprising:
The remote telephone terminal has means for transmitting and receiving a telephone signal including an IP packet to and from the router via the subscriber line;
The Internet terminal has means for transmitting and receiving an ADSL signal including an IP packet to and from the router via the subscriber line;
The LAN terminal has means for transmitting and receiving a LAN signal including an IP packet to and from the router;
The router
Connected to the subscriber line, receives a subscriber line signal from the subscriber line, separates and outputs the ADSL signal and the telephone signal from the subscriber line signal, and combines the input ADSL signal and the telephone signal A splitter for generating a subscriber line signal and transmitting the subscriber line signal to the subscriber line;
An analog modem that establishes a connection with the remote telephone terminal using a telephone signal separated by the splitter and forms a telephone data communication path between the remote telephone terminal via the splitter and the subscriber line When,
An ADSL modem that establishes a connection with the Internet terminal using an ADSL signal separated by the splitter and forms an ADSL data communication path between the Internet terminal via the splitter and the subscriber line;
Remote access for establishing IP communication connection by PPP communication with the remote telephone terminal through a telephone data communication path via the analog modem, the splitter, and the subscriber line, and relaying and controlling IP packets transmitted and received with the remote telephone terminal Server,
A LAN controller that relays and controls IP packets from or to the LAN terminal;
A WAN controller that relays and controls IP packets transmitted to and received from the Internet terminal through an ADSL data communication path that passes through the ADSL modem, the splitter, and the subscriber line;
Possess an IP router for relaying IP communication routing control and IP packets between said LAN control section and the WAN controller remote access server,
The remote telephone terminal transmits an IP packet to the remote access server via the subscriber line, the splitter and the analog modem, and the remote access server transmits the received IP packet to the IP router unit. When the destination of the received IP packet is the Internet terminal, the router unit transmits the IP packet to the WAN control unit, and the WAN control unit transmits the IP packet via the ADSL modem, the splitter, and the subscriber line. An IP packet is transmitted to the Internet terminal.
[0010]
Furthermore, in the router system of the present invention, the remote access server authenticates the remote telephone terminal with a user identification number and a password, assigns an IP address to the remote terminal, and starts IP communication with the remote terminal. Means to
The remote terminal has means for generating an IP packet using the assigned IP address as a transmission source address and sending the IP packet to the remote access server.
[0011]
In the router system of the present invention, the router includes a router function setting unit that sets a function in the router,
The remote access server comprises means for accessing the router function setting unit,
The remote telephone terminal has means for sending a change request for requesting a change of the function set in the router function setting unit to the router function setting unit via the remote access server,
The router function setting unit has means for changing a function setting in response to the change request.
[0012]
Furthermore, the router system of the present invention sends an information request for requesting content information of a function set in the router function setting unit to the router function setting unit via the remote access server. Having means to send,
The router function setting unit has means for sending content information of the set function to the remote telephone terminal via the remote access server in response to the information request,
The remote telephone terminal further includes means for displaying function content information from the router function setting unit.
[0013]
In the router system of the present invention, the router includes a communication log reference unit that refers to a communication log that is a communication record in the router.
The remote access server includes means for accessing the communication log reference unit,
The remote telephone terminal has means for sending a reference request for requesting reference to a communication log to the communication log reference unit via the remote access server,
The communication log reference unit has means for sending a communication log to the remote telephone terminal in response to the reference request,
The remote telephone terminal further includes means for displaying a communication log from the communication log reference unit.
[0014]
Furthermore, the router system of the present invention includes a telephone terminal in the user's house,
The analog modem of the router includes a connection terminal that accommodates the telephone terminal, and has means for connecting the telephone terminal to the remote telephone terminal via the splitter and the subscriber line.
[0015]
DETAILED DESCRIPTION OF THE INVENTION
Next, embodiments of the present invention will be described in detail with reference to the drawings.
[0016]
FIG. 1 is a diagram showing a configuration of an ADSL router according to the first embodiment of the present invention and a configuration of an ADSL router system including the ADSL router.
[0017]
Referring to FIG. 1, an ADSL router system includes an ADSL router 10 installed in a user's home, a LAN 20 having a LAN terminal 21, and an Internet terminal 41 accommodated in an Internet 40 which is a WAN (Wide Area Network). And a remote terminal 51 accommodated in the public network 30.
[0018]
The Internet terminal 41 has a function of transmitting and receiving an asymmetric digital subscriber line (hereinafter, ADSL) signal to and from the ADSL router 10 via the public network 30 via the ADSL line 42 and the subscriber line 31.
[0019]
The remote terminal 51 is a telephone terminal having an IP (Internet Protocol) communication function, has an analog modem 53, and transmits a telephone signal which is a voice frequency band signal via the public network 30 through the telephone line 52 and the subscriber line 31. And has a function of transmitting and receiving to and from the ADSL router 10.
[0020]
The public network 30 has a function of transmitting / receiving a subscriber line signal in which the ADSL signal of the Internet terminal 41 and the telephone signal of the remote terminal 51 are mixed with the ADSL router 10 via the subscriber line 31.
[0021]
The LAN terminal 21 has a function of transmitting and receiving LAN signals to and from the ADSL router via the LAN line 22.
[0022]
The ADSL router 10 accommodates the LAN line 22 and the subscriber line 31, and performs communication control between the remote terminal 51 and the LAN terminal 21 and communication control between the remote terminal 51 and the Internet terminal 41.
[0023]
A detailed configuration of the ADSL router 10 will be described.
[0024]
Referring to FIG. 1, an ADSL router 10 includes a LAN control unit 11, an IP router unit 12, a WAN control unit 13, an ADSL modem 14, a DSL (Digital Subscriber Line) splitter 15, and a remote access server unit 16. And an analog modem 17.
[0025]
The DSL splitter 15 is connected to a subscriber line 31 that carries a subscriber line signal in which a telephone signal that is a voice frequency band signal that is transmitted and received by the remote terminal 51 and an ADSL signal that is a voice frequency band signal that is transmitted and received by the Internet terminal 41 is mixed. A function of receiving a subscriber line signal from the subscriber line 31 and separating the subscriber line signal into a telephone signal and an ADSL signal, sending the telephone signal to the analog modem 17 and sending the ADSL signal to the ADSL modem 14 Have The DSL splitter 15 combines a telephone signal from the analog modem 17 and an ADSL signal from the ADSL modem 14 to generate a subscriber line signal, and sends this subscriber line signal to the subscriber line 31. Have.
[0026]
The ADSL modem 14 has a function of using the ADSL signal separated by the DSL splitter 15 to connect an ADSL line according to a connection instruction from the WAN control unit 13 and to perform data communication on the ADSL line.
[0027]
The WAN control unit 13 has a function of relaying and controlling IP (Internet Protocol) communication with the Internet 40 via the ADSL modem 14.
[0028]
The analog modem 17 has functions of establishing a telephone line connection with the remote terminal 51 and performing data communication with the remote terminal 51 using the telephone signal separated by the DSL splitter 15.
[0029]
The remote access server unit 16 performs PPP (Point to Point Protocol) communication with the remote terminal 51 via the analog modem 17 to perform connection authentication of the remote terminal 51 and then performs IP communication between the IP router unit 12 and the remote terminal 51. Has the function of relaying.
[0030]
The LAN control unit 11 has a function of performing relay control of IP communication between the LAN terminal 21 and the IP router unit 12.
[0031]
The IP router unit 12 has a function of performing routing control of IP communication and relaying of IP communication among the LAN control unit 11, the WAN control unit 13, and the remote access server unit 16. That is, the IP router unit 12 manages routing information, confirms the destination of the IP packet received from the LAN control unit 11, the WAN control unit 13, or the remote access server unit 16, determines the destination of the IP packet, The IP packet is sent to the LAN control unit 11, the WAN control unit 13, or the remote access server unit 16. The IP router unit 12 includes a router function setting unit 121 that sets the function of the ADSL router 10 and a communication log reference unit 122 that refers to a communication log that is a communication record of the ADSL router 10.
[0032]
Next, the operation of the embodiment of the present invention will be described in detail with reference to the drawings.
[0033]
The operation will be described with reference to FIG.
[0034]
First, connection and communication operations between the LAN terminal 21 on the LAN 20 and the Internet terminal 41 on the Internet 40 will be described.
[0035]
The LAN terminal 21 transmits a LAN data frame including an IP packet addressed to the Internet terminal 41 on the Internet 40 to the ADSL router 10 via the LAN line 22.
[0036]
When receiving the LAN data frame from the LAN terminal 21, the LAN control unit 11 of the ADSL router 10 extracts the IP packet from the LAN data frame and sends the IP packet to the IP router unit 12.
[0037]
When receiving the IP packet from the LAN control unit 11, the IP router unit 12 confirms the destination IP address of the IP packet from the IP packet. When the destination IP address is the Internet terminal 41, the IP packet is sent to the WAN. This is sent to the control unit 13.
[0038]
When receiving the IP packet from the IP router unit 12, the WAN control unit 13 encapsulates the IP packet with a PPP communication frame and sends the encapsulated IP packet to the ADSL modem 14.
[0039]
When the ADSL modem 14 receives the encapsulated IP packet from the WAN control unit 13, the ADSL modem 14 converts the IP packet into an ADSL signal, and the ADSL signal is sent to the subscriber line 31 via the DSL splitter 15. Send it out.
[0040]
The ADSL signal flows through the subscriber line 31, the public network 30, and the ADSL line 42 and arrives at the Internet terminal 41 on the Internet 40.
[0041]
With the above operation, the ADSL router 10 delivers the IP packet from the LAN terminal 21 to the Internet terminal 41 on the Internet 40.
[0042]
On the other hand, when the Internet terminal 41 on the Internet 40 sends an IP packet addressed to the LAN terminal 21, the Internet terminal 41 first encapsulates an IP packet including the destination IP address with a PPP communication frame and encapsulates the IP packet. Is converted into an ADSL signal, and this ADSL signal is transmitted as a subscriber line signal to the ADSL router 10 via the ADSL line 42 and the subscriber line 31.
[0043]
The DSL splitter 15 of the ADSL router 10 receives the subscriber line signal including the ADSL signal from the subscriber line 31, separates and extracts the ADSL signal from the subscriber line signal, and sends the ADSL signal to the ADSL modem 14. .
[0044]
When receiving the ADSL signal from the DSL splitter 15, the ADSL modem 14 converts the ADSL signal into an IP packet signal and sends the IP packet signal to the WAN control unit 13.
[0045]
When receiving the IP packet signal from the ADSL modem 14, the WAN control unit 13 extracts the IP packet from the PPP communication frame and sends the IP packet to the IP router unit 12.
[0046]
Upon receiving the IP packet from the WAN control unit 13, the IP router unit 12 confirms the destination IP address of the IP packet, determines that the destination IP address is the LAN 20, and sends the IP packet to the LAN control unit 11. send.
[0047]
When receiving the IP packet from the IP router unit 12, the LAN control unit 11 encapsulates the IP packet with a LAN data frame and transmits the encapsulated IP packet onto the LAN 20. Then, the LAN 20 delivers this IP packet to the LAN terminal 21.
[0048]
With the above operation, the ADSL router 10 delivers the IP packet from the Internet terminal 41 on the Internet 40 to the LAN terminal 21.
[0049]
Up to this point, the ADSL router 10 is a process of connecting to the Internet, which is a WAN (Wide Area Network), using an existing function, using an ADSL line.
[0050]
The ADSL router according to the present invention is configured by further adding a remote access server unit 16 and an analog modem 17, and connects the remote terminal 51 to the LAN 20 or the Internet 40.
[0051]
Hereinafter, connection and communication operations between the remote terminal 51, the LAN terminal 21 on the LAN 20, and the Internet terminal 41 on the Internet 40 will be described.
[0052]
First, in order to establish a connection with the ADSL router 10, the remote terminal 51 sends a call signal requesting a connection with the ADSL router 10 from the analog modem 53 owned by itself to the public network 30 through the telephone line 52. .
[0053]
The public network 30 receives this call signal and transmits the call signal as a subscriber line signal to the ADSL router 10 via the subscriber line 31.
[0054]
The DSL splitter 15 of the ADSL router 10 receives a subscriber line signal including a call signal from the subscriber line 31, separates and extracts the call signal from the subscriber line signal, and sends this call signal to the analog modem 17. .
[0055]
The analog modem 17 receives this call signal, performs incoming call processing, and establishes a connection with the analog modem 53 of the remote terminal 51.
[0056]
A connection between the analog modem 53 and the analog modem 17 forms a data communication path between the remote terminal 51 and the remote access server unit 16.
[0057]
Using this data communication path, the remote access server unit 16 can perform PPP communication with the remote terminal 51.
[0058]
When the remote terminal 51 sends a user identification number (hereinafter referred to as user ID) and a password to the remote access server unit 16, the remote access server unit 16 uses the PPP authentication phase to transmit the user ID and password transmitted from the remote terminal 51. Thus, user authentication of the remote terminal 51 is performed. That is, the remote access server unit 16 gives an IP address to the remote terminal 51 when performing user authentication by comparing a user ID and password registered in advance with the user ID and password transmitted from the remote terminal 51. The assigned IP address is an IP address prepared in advance for setting in the terminal by the IP router unit 12 and the remote access server unit 16.
[0059]
The remote terminal 13 transmits an IP packet using the assigned IP address as a transmission source address, and the remote access server unit 8 receives the IP packet from the remote terminal 13 and sends the IP packet to the IP router unit 4. .
[0060]
With the above operation, IP communication between the remote terminal 13 and the IP router unit 4 is realized.
[0061]
Next, the remote terminal 51 encapsulates an IP packet including the destination IP address with a PPP communication data frame, and the data frame is sent to the ADSL router 10 via the analog modem 53, the telephone line 52, and the subscriber line 31. Send to.
[0062]
When receiving the data frame from the remote terminal 51 via the DSL splitter 15 and the analog modem 17, the remote access server unit 16 of the ADSL router 10 extracts the IP packet from the data frame, and extracts the IP packet from the IP router unit 12. Send to.
[0063]
When the IP router unit 12 receives the IP packet from the remote access server unit 16, the IP router unit 12 checks the destination IP address of the IP packet. When the destination IP address is the LAN terminal 21 of the LAN 20, the IP packet is controlled by the LAN. On the other hand, when the destination IP address is the Internet terminal 41 on the Internet 40, the IP packet is sent to the WAN control unit 5.
[0064]
When the destination IP address is the LAN terminal 21 of the LAN 20, when receiving the IP packet from the IP router unit 12, the LAN control unit 11 encapsulates the IP packet with a LAN data frame and transmits the encapsulated IP packet on the LAN 20. Send to. Then, the LAN 20 delivers this IP packet to the LAN terminal 21.
[0065]
On the other hand, when the destination IP address is the Internet terminal 41 on the Internet 40, when the WAN control unit 13 receives an IP packet from the IP router unit 12, the IP packet is encapsulated in a PPP communication data frame and encapsulated. The IP packet is sent to the subscriber line 31 via the ADSL modem 14 and the DSL splitter 15. The encapsulated IP packet reaches the Internet terminal 41 on the Internet 40 via the subscriber line 31 and the ADSL line 42.
[0066]
With the above operation, the ADSL router 10 delivers the IP packet from the remote terminal 51 to either the LAN terminal 21 on the LAN 20 or the Internet terminal 41 on the Internet 40.
[0067]
As described above, the remote terminal 51 having the analog modem 53 can communicate with the LAN terminal 21 using the telephone line 52 and can perform Internet communication using the ADSL line 42. These communication histories are stored in a communication log for each communication.
[0068]
Further, the remote terminal 51 can access the router function setting unit 121 and the communication log reference unit 122 via the remote access server unit 16 after the connection with the remote access server unit 16 is established.
[0069]
That is, when the user sends an instruction to change the set function from the remote terminal 51 via the remote access server unit 16 to the router function setting unit 121, the router function setting unit 121 is set. Change the function.
[0070]
When the user sends an instruction for confirming the set function from the remote terminal 51 via the remote access server unit 16 to the router function setting unit 121, the router function setting unit 121 is set. The content information of the function being sent is sent to the remote terminal 51.
[0071]
Further, when the user sends an instruction to request a communication log from the remote terminal 51 via the remote access server unit 16 to the communication log reference unit 122, the communication log reference unit 122 sends the communication log to the remote terminal 51. send.
[0072]
As described above, the user who is out can access the router function of the ADSL router 10 in the home from the remote terminal 51.
[0073]
Next, a second embodiment will be described.
[0074]
FIG. 2 is a diagram showing a configuration of an ADSL router according to the second embodiment of the present invention and a configuration of an ADSL network system configured by this ADSL router.
[0075]
The ADSL network system according to the second embodiment includes a LAN terminal 21 accommodated in the LAN 20, an Internet terminal 41 accommodated in the Internet 40, a remote terminal 51 and a telephone terminal 62 accommodated in the public network 30, The telephone terminal 61 in the house and the ADSL router 10-1 that controls connection between the telephone terminal 61, the telephone terminal 62, the LAN terminal 21, the Internet terminal 41, and the remote terminal 51 are configured.
[0076]
The components other than the telephone terminal 61, the telephone terminal 62, and the ADSL router 10-1 are the same as those in the first embodiment. Therefore, only different components will be described.
[0077]
The telephone terminal 61 and the telephone terminal 62 are analog telephone terminals including telephones and facsimiles used in general homes.
[0078]
The ADSL router 10-1 includes a DSL splitter 15, an ADSL modem 14, a WAN control unit 13, an analog modem 17-1, a remote access server unit 16, a LAN control unit 11, and an IP router unit 12. Composed.
[0079]
The components other than the analog modem 17-1 are the same as the components of the ADSL router 10 of the first embodiment. Therefore, only the analog modem 17-1 will be described.
[0080]
The analog modem 17-1 has a telephone terminal connection terminal for connecting the telephone terminal 61 in addition to the functions of the analog modem 17 constituting the first embodiment, and receives a telephone signal carried on the subscriber line 31. And a selective connection control function for connecting to either the telephone terminal 61 or the remote access server unit 16.
[0081]
The operation will be described.
[0082]
The telephone terminal 61 issues a call signal (off-hook signal) to request a connection with the telephone terminal 62 accommodated in the public network 30.
The analog modem 17-1 receives the call signal and sends the call signal to the public network 30 via the DSL splitter 15 and the subscriber line 31.
[0083]
The public network 30 receives this call signal and sends a call signal to the telephone terminal 62.
If the telephone terminal 62 responds to the call signal, the public network 30 connects the telephone terminal 61 and the telephone terminal 62 connected to the ADSL router 10-1.
[0084]
The analog modem 17-1 does not connect the remote terminal 51 and the remote access server unit 16 while the telephone terminal 61 and the telephone terminal 62 are connected.
[0085]
【The invention's effect】
As described above, according to the present invention, the ADSL router in the user's home is configured to have a remote access server function capable of PPP communication with the remote terminal. It has the effect of being able to connect to the Internet from a remote terminal without using a special contract or fee.
[0086]
Further, according to the present invention, since the ADSL router in the user's home has a remote access server function capable of PPP communication with the remote terminal, the user who is going out uses the ADSL router to connect the remote terminal. Can access the LAN terminal at home.
[0087]
Further, according to the present invention, since the ADSL router in the user's home is configured to have a remote access server function capable of PPP communication with the remote terminal, the user who has gone out can connect the remote terminal to the ADSL router. The router function can be set and the communication log can be confirmed.
[Brief description of the drawings]
FIG. 1 shows a configuration of an ADSL router according to a first embodiment of the present invention and a configuration of an ADSL router system including the ADSL router.
FIG. 2 is a diagram illustrating a configuration of an ADSL router according to a second embodiment of the present invention and a configuration of an ADSL router system including the ADSL router.
[Explanation of symbols]
DESCRIPTION OF SYMBOLS 10 ADSL router 11 LAN control part 12 IP router part 13 WAN control part 14 ADSL modem 15 DSL splitter 16 Remote access server part 17 Analog modem 20 LAN
21 LAN terminal 30 Public network 31 Subscriber line 40 Internet 41 Internet terminal 42 ADSL line 51 Remote terminal 52 Telephone line 61, 62 Telephone terminal

Claims (6)

A LAN terminal accommodated in a LAN installed in the user's home, an Internet terminal on the Internet as a WAN, a remote telephone terminal accommodated in a public network, and installed in the user's home A router for controlling connection between the LAN terminal, the Internet terminal, and the remote telephone terminal, an ADSL (asymmetric digital subscriber line) signal transmitted and received between the router and the Internet terminal, the router, and the remote telephone terminal. A router system configured to carry a subscriber line signal that is a mixed signal with telephone signals transmitted and received between the router and a subscriber line that connects between the router and the Internet terminal and between the remote telephone terminals. There,
The remote telephone terminal has means for transmitting and receiving a telephone signal including an IP packet to and from the router via the subscriber line;
The Internet terminal has means for transmitting and receiving an ADSL signal including an IP packet to and from the router via the subscriber line;
The LAN terminal has means for transmitting and receiving a LAN signal including an IP packet to and from the router;
The router
Connected to the subscriber line, receives a subscriber line signal from the subscriber line, separates and outputs the ADSL signal and the telephone signal from the subscriber line signal, and combines the input ADSL signal and the telephone signal A splitter for generating a subscriber line signal and transmitting the subscriber line signal to the subscriber line;
An analog modem that establishes a connection with the remote telephone terminal using a telephone signal separated by the splitter and forms a telephone data communication path between the remote telephone terminal via the splitter and the subscriber line When,
An ADSL modem that establishes a connection with the Internet terminal using an ADSL signal separated by the splitter and forms an ADSL data communication path between the Internet terminal via the splitter and the subscriber line;
Remote access for establishing IP communication connection by PPP communication with the remote telephone terminal through a telephone data communication path via the analog modem, the splitter, and the subscriber line, and relaying and controlling IP packets transmitted and received with the remote telephone terminal Server,
A LAN controller that relays and controls IP packets from or to the LAN terminal;
A WAN controller that relays and controls IP packets transmitted to and received from the Internet terminal through an ADSL data communication path that passes through the ADSL modem, the splitter, and the subscriber line;
Possess an IP router for relaying IP communication routing control and IP packets between said LAN control section and the WAN controller remote access server,
The remote telephone terminal transmits an IP packet to the remote access server via the subscriber line, the splitter and the analog modem, and the remote access server transmits the received IP packet to the IP router unit. When the destination of the received IP packet is the Internet terminal, the router unit transmits the IP packet to the WAN control unit, and the WAN control unit transmits the IP packet via the ADSL modem, the splitter, and the subscriber line. A router system for transmitting an IP packet to the Internet terminal . The remote access server includes means for authenticating the remote telephone terminal by a user identification number and a password, giving an IP address to the remote terminal, and starting IP communication with the remote terminal;
It said remote terminal, the router system according to claim 1, comprising means for the assigned IP address to generate an IP packet as the source address and sends the IP packet to the remote access server. The router includes a router function setting unit for setting functions in the router,
The remote access server comprises means for accessing the router function setting unit,
The remote telephone terminal has means for sending a change request for requesting a change of the function set in the router function setting unit to the router function setting unit via the remote access server,
The router function setting unit, the router system according to claim 1, characterized in that it has means for changing this change request, setting of functions. The remote telephone terminal has means for sending an information request for requesting content information of a function set in the router function setting unit to the router function setting unit via the remote access server,
The router function setting unit has means for sending content information of the set function to the remote telephone terminal via the remote access server in response to the information request,
4. The router system according to claim 3 , wherein the remote telephone terminal further includes means for displaying function content information from the router function setting unit. The router includes a communication log reference unit that refers to a communication log that is a communication record in the router,
The remote access server includes means for accessing the communication log reference unit,
The remote telephone terminal has means for sending a reference request for requesting reference to a communication log to the communication log reference unit via the remote access server,
The communication log reference unit has means for sending a communication log to the remote telephone terminal in response to the reference request,
It said remote telephone terminal, means for displaying the communication log from the communication log reference unit, further, the router system according to claim 1, characterized by having. A telephone terminal is installed in the user's house,
The analog modem of the router includes a connection terminal for accommodating the telephone terminal, and has means for connecting the telephone terminal to the remote telephone terminal via the splitter and the subscriber line. 1. The router system according to 1 .

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