JP2004193845A - Ip compatible adaptor - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide an IP compatible adaptor capable of transmitting alarm information or the like by using the communication session of data communication even when a user in an ADSL environment makes the data communication. <P>SOLUTION: The IP compatible adaptor 1 installed between an ADSL MODEM 41 and a broadband router 6 in the ADSL environment is provided with: means 131, 134 for monitoring the communication protocol between the IP network and the broadband router 6; a means 137 for grasping the state transition through the monitoring of the communication protocol to acquire the information required for the communication; a means 139 for utilizing the acquired information required for the communication to generate a packet of the alarm information or the like and transmitting the packet to the session; and a means 135 for analyzing the packet received from the IP network to share the packet to the broadband router or a PC or the IP compatible adaptor. <P>COPYRIGHT: (C)2004,JPO&NCIPI

Description

[0001]
TECHNICAL FIELD OF THE INVENTION
The present invention relates to an IP-compatible adapter that enables data communication from another communication device during ADSL communication in a system in which a PC is connected to an IP network via an analog line. Furthermore, the present invention relates to an IP-compatible adapter that accommodates 10BASE-T / 100BASE-TX as a LAN interface and 10BASE-T / 100BASE-TX as a WAN interface and has a data communication function.
[0002]
[Prior art]
Conventionally, in a system in which a data communication adapter containing a meter reading device, a security device, and the like is connected to a higher-level device via an ISDN line or an analog line, a session for transmitting various information is connected to the data communication adapter. Data communication was performed (for example, see Patent Document 1).
[0003]
[Patent Document 1]
JP 2000-268267 A
[Problems to be solved by the invention]
The present invention provides an IP-adaptive adapter that can be easily introduced and that can transmit alarm information and the like using a communication session of a user even though a user in an ADSL environment is performing data communication. The purpose is to provide.
[0005]
[Means for Solving the Problems]
The IP-adaptive adapter of the present invention has one port of 10BASE-T / 100BASE-TX as a LAN interface and one port of 10BASE-T / 100BASE-TX as a WAN interface, and an ADSL modem and a broadband router or an ADSL environment in an ADSL environment. A means installed between PCs for monitoring a communication protocol between the IP network and the broadband router or PC, a means for grasping state transitions by monitoring the communication protocol and obtaining information necessary for communication, Means for generating a packet such as alarm information using necessary information, transmitting the packet generated on the session between the IP network and the broadband router or PC, and analyzing the packet received from the IP network side, PC Characterized in that it comprises means for distributing or the device or addressed.
[0006]
BEST MODE FOR CARRYING OUT THE INVENTION
Hereinafter, a first embodiment of the present invention will be described in detail with reference to the drawings. A configuration of a communication system in which a broadband router to which an embodiment of the present invention is applied and an IP network are connected via an IP-compatible adapter will be described with reference to FIG.
[0007]
As shown in FIG. 1, this communication system includes a broadband router 6 accommodating a plurality of PCs (personal computers 62-1 and 62-2) and an IP adapter 1 accommodating an alarm information transmitting device 3 via a LAN 61. , An ISP (Internet Service Provider) 9 is connected to an IP network 8 via an ADSL modem 41 and a splitter 42. The alarm information transmitting device 3 includes various sensors and houses a telephone 32. Further, the ISP 9 may be a security monitoring system.
[0008]
In FIG. 1, PCs 62-1 and 62-2 used by a user are connected to a broadband router 6 via a LAN 61. The broadband router 6 establishes a session connection between the IP network 8 and the PPPoE, and transmits the IP data of the PCs 62-1 and 62-2 to a PPPoE (Point to Point connection over).
(Ethernet (registered trademark)).
[0009]
The frame converted to PPPoE in the broadband router 6 is transmitted to the ISP 9 via the IP adapter 1, the ADSL modem 41, the splitter 42, and the IP network 8.
[0010]
The IP-adaptive adapter 1 is connected between the broadband router 6 and the ADSL modem 41 by connecting the alarm information transmitting device 3 to which the telephone 39 is connected by an analog line. Further, when receiving the alarm information output when the alarm information transmitting device 3 detects an abnormality by a sensor or the like, the IP compatible adapter 1 converts the alarm information into PPPoE, and converts the alarm information into PPPoE to which the broadband router 6 is connected. Send alarm information using the session.
[0011]
As shown in FIG. 2, this communication system is configured by connecting an IP compatible adapter 1 containing a PC 62 and an alarm information transmitting device 3 to an IP network 8 to which an ISP 9 is connected via an ADSL modem 41 and a splitter 42. Is done. The alarm information transmitting device 3 includes various sensors, and houses a telephone 32.
[0012]
In FIG. 2, a PC 62 used by a user establishes a session connection between the IP network 8 and PPPoE, and converts IP data to be transmitted into PPPoE. The frame converted to PPPoE is transmitted to the ISP 9 via the IP adapter 1, the ADSL modem 41, the splitter 42, and the IP network 8.
[0013]
The IP compatible adapter 1 is connected between the PC 62 and the ADSL modem 41 by connecting the alarm information transmitting device 3 to which the telephone 39 is connected by an analog line. When receiving the alarm information output when the alarm information transmitting device 3 detects an abnormality by a sensor or the like, the IP-adaptive adapter 1 converts the alarm information into PPPoE, and uses the PPPoE session to which the PC 62 is connected. And send alarm information.
[0014]
The block configuration of the IP adapter 1 will be described with reference to the block diagram of FIG. The IP-compatible adapter 1 includes a switching unit 11, a dial information detecting unit 12, a data control unit 13, a PHY unit 14, a PHY unit 15, and terminals T11, T12, T13, and T14.
[0015]
The data control unit 13 includes a router-side data reception processing unit 130, a first monitoring processing unit 131, a modem-side data transmission processing unit 132, a modem-side data reception processing unit 133, and a second monitoring processing unit 134. , A packet distribution unit 135, a router-side data transmission processing unit 136, a session management unit 137, an alarm information control unit 138, and a protocol conversion unit 139.
[0016]
The switching unit 11 is connected to the alarm information transmitting device 3 via the terminal T11, monitors the output from the alarm information transmitting device 3, and sends a signal to the splitter 42 or the dial information detecting unit 12 via the terminal T13. It is means for switching the transmission path. The switching unit 11 switches the connection request of the telephone 39 via the alarm information transmission device 3 to the splitter 41 side, and switches the connection request from the security terminal device 31 via the alarm information transmission device 3 to the dial information detection unit 12 side. .
[0017]
The dial information detecting unit 12 is a means for detecting the dial information for session connection from the alarm information from the security terminal device 31 transmitted from the alarm information transmitting device 3.
[0018]
The data control unit 13 monitors a packet received from the PHY unit 14 or the PHY unit 15, grasps a state transition of the communication protocol, acquires information necessary for communication, and uses the information necessary for the acquired communication. A process for generating a packet by encapsulating alarm information and the like from the alarm information transmitting device 3 into an IP protocol, a process for transmitting a packet generated on a session of a communication protocol, a process for analyzing a packet received from the PHY unit 15 and a broadband router This is a means for performing a process of allocating to the alarm information transmitting device 3 or a process of performing a session connection from the device when a communication protocol session is not established.
[0019]
The PHY unit 14 is a unit that is connected to the broadband router 6 via the terminal T12 and performs physical layer conversion of 10BASE-T / 100BASE-TX.
[0020]
The PHY unit 15 is a unit that is connected to the ADSL modem 41 via the terminal T14 and performs physical layer conversion of 10BASE-T / 100BASE-TX.
[0021]
The router-side data reception processing unit 130 is a unit that receives and processes data from the broadband router 6 via the PHY unit 14.
[0022]
The first monitoring processing unit 131 is a unit that monitors data transmitted from the router-side data reception processing unit 130, and performs a process of canceling a session when disconnection is detected.
[0023]
The modem-side data transmission processing unit 132 is means for transmitting the transmission data from the protocol conversion unit 139 or the transmission data from the first monitoring processing unit to the ADSL modem 41 via the PHY unit 15.
[0024]
The modem-side data reception processing unit 133 is means for receiving and processing data from the PHY unit 15.
[0025]
The second monitoring processing unit 134 is a unit that monitors data from the modem-side data receiving device 133 and performs processing for canceling a session when disconnection is detected.
[0026]
The packet distribution unit 135 monitors the data received from the second monitoring processing unit 134 and transmits the received data to the router-side data transmission processing unit 136 or the protocol conversion unit 139 according to the source address described in the header of the packet. It is a means of sorting.
[0027]
The router-side data transmission processing unit 136 is a unit that executes processing for transmitting the data transmitted from the packet distribution unit 135 to the broadband router 6 via the PHY unit 14.
[0028]
The session management unit 137 is a unit that performs processing for attaching a MAC address, a session ID, and a global address to data transmitted from the router-side data reception processing unit 130. The session management section 137 is a means for performing processing for attaching a MAC address, a session ID, and a global address to data received from the modem-side data reception processing section 133. Further, the session management unit 137 is a means for autonomously outputting PADI or the like and executing session establishment.
[0029]
The alarm information control unit 138 is a unit for storing data.
[0030]
The protocol conversion unit 139 is a unit that converts the session information managed by the session management unit 137 into a book. Further, the protocol converter 139 is a means for adding the global address of the security terminal device 31 to the transmission data or the reception data.
[0031]
Next, an embodiment shown in claim 1 will be described in detail with reference to FIGS. 1, 4 and 5. FIG. 4 shows an operation sequence in which the IP-adaptive adapter 1 monitors packets between the broadband router 6 and the IP network 8, grasps a state transition of the communication protocol, and acquires information necessary for communication. .
[0032]
The broadband router 6 first establishes a PPPoE session connection with the IP network 8 to perform data communication. Broadband router 6 transmits PADI for searching for a server to IP compatible adapter 1 (S1). The IP adapter 1 recognizes the start of the PPPoE session connection, and transmits a PADI to the IP network 8 (S2). The IP network 8 returns PADO indicating the presence of the server in response to the PADI from the IP adapter 1 (S3). The IP-compatible adapter 1 recognizes the response from the PPPoE server and transmits PADO to the broadband router 6 (S4).
[0033]
The broadband router 6 transmits a PADR for requesting information required for the PPPoE connection to the server to the IP-compatible adapter 1 (S5). The IP compatible adapter 1 recognizes the PPPoE information request and transmits a PADR to the IP network 8 (S6).
[0034]
The IP network 8 notifies the IP adapter 1 of the information necessary for the PPPoE connection by PADS in response to the PADR (S7).
[0035]
The IP adapter 1 obtains the server MAC address and session ID from the PADS received from the IP network 8 (S8), and transmits the PADS to the broadband router 6 (S9).
[0036]
Next, the broadband router 6 transmits an LCP Config-Request for connecting a PPP (Point to Point Protocol) session to the IP-compatible adapter 1 (S10). The IP-compatible adapter 1 recognizes the start of the PPP session connection, and transmits an LCP Config-Request to the IP network 8 (S11).
[0037]
The IP network 8 transmits to the IP adapter 1 an LCP Config-Ack of a PPP session connection start response in response to the LCP Config-Request (S12), and an LCP Config indicating the start of the PPP session connection from the IP network 8. -Request is transmitted (S14).
[0038]
The IP-adaptive adapter 1 recognizes the PPP session connection start response and the connection start from the IP network 8, transmits the LCP Config-Ack to the broadband router 6 (S13), and transmits the LCP Config-Request (S15). .
[0039]
The broadband router 6 recognizes the PPP session connection start response and the connection start from the IP network 8, and transmits an LCP Config-Ack to the IP-compatible adapter 1 (S16). The IP compatible adapter 1 recognizes the PPP session connection start response and transmits an LCP Config-Ack to the IP network 8 (S17).
[0040]
The IP network 8 recognizes the PPP session connection start response, and then transmits an IPCP Config-Request for connecting the IP session to the IP adapter 1 (S18). The IP-compatible adapter 1 recognizes the start of the IP session connection and transmits an IPCP Config-Request to the broadband router 6 (S19).
[0041]
In response to the IPCP Config-Request, the blow-band router 6 transmits the IP session connection start response of the IPCP Config-Ack (S20) to the IP adapter 1 and starts the IP session connection to which the IP address assignment request is added. Is transmitted (S22). The IP-compatible adapter 1 recognizes the IP session connection start response and the connection start from the broadband router 6, transmits an IPCP Config-Ack to the IP network 8 (S21), and transmits an IPCP Config-Request (S23).
[0042]
The IP network 8 recognizes the IP session connection start response by the IPCP Config-Ack, assigns an IP address to the IPCP Config-Request to which the IP address assignment request has been added, and returns an IPCP Config-Nak (S24).
[0043]
The IP adapter 1 recognizes the assignment of the IP address from the IP network 8 and transmits an IPCP Config-Nak to the broadband router 6 (S25).
[0044]
The broadband router 6 adds the assigned IP address and transmits the IPCP Config-Request indicating the start of the IP session connection to the IP adapter 1 again (S26).
[0045]
The IP compatible adapter 1 recognizes the start of the IP session connection from the broadband router 6, and transmits an IPCP Config-Request to which the IP address of the broadband router 6 is added to the IP network 8 (S27).
[0046]
The IP network 8 recognizes the start of the IP session connection by the IPCP Config-Request, returns an IPCP Config-Ack (S28), and recognizes the completion of the session connection.
[0047]
The IP compatible adapter 1 acquires the IP address of the broadband router 6 from the received IPCP Config-Ack (S29), and transmits the IPCP Config-Ack to the broadband router 6 (S30).
[0048]
Broadband router 6 receives the IPCP Config-Ack and recognizes that the session connection has been completed.
[0049]
As described above, it is possible to monitor the communication protocol of the user in the ADSL environment, grasp the state transition of the communication protocol, and acquire information necessary for communication. In addition, since the IP compatible adapter 1 monitors the communication protocol, grasps the state transition and acquires information necessary for communication, there is no need to input the session connection information setting for the IP compatible adapter 1 and the user It is easy to introduce into the usage environment.
[0050]
Next, the distribution process during a call will be described with reference to FIG. That is, an operation sequence between the broadband router 6 and the IP network 8 for generating a packet such as alarm information using information acquired as a result of monitoring the communication protocol by the IP-compatible adapter 1 and transmitting the packet over a PPPoE session. An operation sequence for analyzing a packet received from the IP network 8 and allocating the packet to the broadband router 6 or the IP adapter 1 will be described.
[0051]
When an alarm information transmission request is issued from the alarm information transmission device 3 (S41) while the PPPoE session is connected and IP communication is being performed (S40), the IP-adaptive adapter 1 monitors the communication protocol and obtains information (IP network). A PPPoE packet is generated from the MAC address of the server, the session ID, and the IP address of the broadband router (S42), and transmitted to the IP network 8 as PPPoE data (S43).
[0052]
Further, when receiving the PPPoE data from the broadband router 6 during the IP communication (S40) (S44), the IP adapter 1 sends the PPPoE data to the IP network as it is (S46).
[0053]
Upon receiving the PPPoE data from the IP network 8 (S47), the IP-adaptive adapter 1 determines the source IP address of the received data (S48). The information is transmitted to the alarm information transmitting device 3 (S49).
[0054]
When the PPPoE data is received from the IP network 8 (S50), the source IP address of the received PPPoE data is determined (S51). If the IP address is not the alarm information sending destination IP address, the PPPoE data is transmitted to the broadband router 6. (S52).
[0055]
As described above, it is possible to generate a packet such as alarm information using the information acquired by monitoring the communication protocol, and transmit the generated packet on the PPPoE session. In addition, it is possible to analyze a packet received from the IP network 8 and to determine whether the packet is addressed to the broadband router 6 or the IP adapter 1.
[0056]
Next, a second embodiment of the present invention will be described in detail with reference to FIGS. FIG. 6 shows an operation sequence for establishing a PPPoE session connection for transmitting alarm information when a PPPoE session is not connected between the broadband router 6 and the IP network 8.
[0057]
When the PPPoE session is connected and the disconnection request PADT for disconnecting the PPPoE session is received from the broadband router 6 at S60 during the IP communication between the broadband router 6 and the IP network 8 (S61), the IP adapter 1 sets the PPPoE. Recognizing the disconnection of the session, it transmits a PADT to the IP network 8 (S62).
[0058]
Similarly, the IP network 8 that has received the PADT transmits the PADT to the IP adapter 1 to disconnect the PPPoE session (S63). The IP-adaptive adapter recognizes that the PPPoE session between the Broaddon band router 3 and the IP network 8 that has received the PADT has disappeared (S64), and transmits the PADT to the broadband router 6 (S65).
[0059]
When the alarm information transmission device 3 transmits alarm information to the P-adaptive adapter 1 in a state where the PPPoE session between the broadband router 6 and the IP network 8 has disappeared (S66), the IP-adaptive adapter 1 transmits the alarm information. Therefore, a PPPoE session connection is started (S67), and a PADI for searching for a server is transmitted to the IP network 8 (S68).
[0060]
The IP network 8 returns PADO indicating the presence of the server in response to the PADI 117 (S69). The IP compatible adapter 1 transmits a PADR for requesting information required for the PPPoE connection to the server to the IP network 8 (S70). The IP network 8 notifies information necessary for PPPoE connection by PADS in accordance with PADR (S71).
[0061]
The IP-compatible adapter 1 acquires the MAC address and the session ID of the server from the received PADS (S71), and transmits an LCP Config-Request for connecting the PPP session to the IP network 8 (S72).
[0062]
The IP network 8 transmits an LCP Config-Ack of a PPP session connection start response in response to the LCP Config-Request to the IP adapter 1 (S73), and an LCP Config indicating the start of the PPP session connection from the IP network 8. -Request is transmitted (S74).
[0063]
The IP compatible adapter 1 transmits an LCP Config-Ack, which is a PPP session connection start response, to the IP network 8 (S75).
[0064]
The IP network 8 recognizes the PPP session connection start response, and then transmits an IPCP Config-Request for connecting the IP session to the IP-compatible adapter 1 (S76).
[0065]
The IP compatible adapter 1 transmits an IP session connection start response and an IPCP Config-Ack, which is a connection start (S77), and transmits an IPCP Config-Request to the IP network 8 (S78).
[0066]
The IP network 8 recognizes the IP session connection start response by the IPCP Config-Ack, assigns an IP address to the IPCP Config-Request to which the IP address assignment request is added, and returns an IPCP Config-Nak (S79).
[0067]
The IP-adaptive adapter 1 transmits an IPCP Config-Request to which the IP address of the IP-adaptive adapter 1 itself, which is the start of the IP session connection, is added to the IP network 8 (S80).
[0068]
The IP network 8 transmits the IPCP Config-Ack to the IP adapter 1 (S81).
[0069]
The IP-adaptive adapter 1 acquires the global address of the alarm information transmitting device 3 (S82), and is in communication between the alarm information communication device 3 and the IP network 8 (S83).
[0070]
In this manner, regardless of whether communication is being performed between the broadband router 6 and the IP network 8, a session connection between the security terminal device 31 and the IP network 8 via the alarm information transmitting device 3 is performed. Can be.
[0071]
As described above, when a session is not established, a session can be connected from the IP-compatible adapter 1 to the IP network 8 to enable packet transmission.
[0072]
【The invention's effect】
By using the present invention, it is easy to introduce, and it is possible to transmit alarm information or the like using a communication session of a user even though a user in an ADSL environment is performing data communication. It is.
[Brief description of the drawings]
FIG. 1 is a diagram illustrating a configuration of a system in which an IP network is connected to a broadband router accommodating a PC and an alarm information transmitting device via an IP-compatible adapter according to the present invention.
FIG. 2 is a diagram illustrating a configuration of a system in which an IP network is connected to a PC and an alarm information transmitting device via an IP-compatible adapter according to the present invention.
FIG. 3 is a block diagram illustrating the configuration of an IP-compatible adapter according to the present invention.
FIG. 4 is an operation sequence diagram for monitoring a packet in the present invention, grasping a state transition of a communication protocol, and acquiring information necessary for communication.
FIG. 5 is an operation sequence diagram for generating a packet such as alarm information using information necessary for communication in the present invention, transmitting the packet on a PPPoE session, and analyzing and sorting packets received from an IP network. .
FIG. 6 is an alarm information transmission operation sequence diagram when a PPPoE session according to the present invention is not connected.
[Explanation of symbols]
1 IP Compatible Adapter 11 Switching Unit 12 Dial Information Detecting Unit 13 Data Control Unit 14, 15 PHY Unit 3 Alarm Information Transmitting Device 32 Telephone 41 ADSL Modem 42 Splitter 6 Broadband Router 61 LAN
62 PC
8 IP network 9 ISP

Claims (2)

In an IP compatible adapter installed between an ADSL modem and a broadband router or PC,
Means for monitoring a communication protocol between the IP network and the broadband router or PC;
Means for grasping the state transition by monitoring the communication protocol and acquiring information necessary for communication,
Means for generating a packet such as alarm information using the information necessary for the acquired communication, and transmitting the generated packet on a session between the IP network and the broadband router or PC;
An IP-adaptive adapter comprising means for analyzing a packet received from an IP network side and distributing the packet to a broadband router or a PC or to this apparatus. The IP-adaptive adapter according to claim 1, wherein when the broadband router or the PC does not establish a session with the IP network, the apparatus makes a session connection to the IP network to enable packet transmission.

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