JP2001251352A - Network connection unit setting forward and backward multiplex link - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide a gateway for setting a multiplex link that can use attribute such as coding systems different respectively for forward call and reverse call. SOLUTION: The network connection units interconnected via a communication network having the IP and transmit/receive calls multiplexed into one packet are configured to respectively connect a call forward path and a call backward path to the multiplexed link that is set on the basis of the attribute depending on the call destination network control unit and the coding system.

Description

DETAILED DESCRIPTION OF THE INVENTION

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a network connection device (hereinafter, referred to as "IP") which is connected to each other via a communication network having an Internet protocol (hereinafter, referred to as "IP") to multiplex a call into one packet and transmit / receive a packet. Gateway).

[0002]

2. Description of the Related Art FIG. 1 is a system configuration diagram using a gateway. The plurality of gateways have one connected to the Internet sharing the other, and the other connected to a circuit switching network (for calls such as voice, voice data or FAX) such as a telephone network, or a LAN / Internet. Therefore, it is necessary to provide encoding / decoding means in the gateway.

JP-A-11-12230 by the same applicant
When transmitting a plurality of calls to the same destination, the network connection device transmits information signals of the plurality of calls to one IP.
A device capable of multiplexing and transmitting the packet is disclosed.

FIG. 2 is a block diagram of a conventional gateway. The transmission-side gateway encodes each call such as voice / voice data / FAX and the like, and transmits the coded information to one IP (specifically, RTP (Realtime Transport Pr
otocol)) multiplexed with the payload of the packet and transmitted. On the other hand, the receiving gateway disassembles the payload for each call, decodes the disassembled short packet payload, and transmits it to a predetermined trunk line.

[0005] The gateway is provided with multiplex link monitoring means for assembling and disassembling such packets, and the following various tables are prepared in the means.

[0006] Table # 1 is a management table showing the coding method for each call. The multiplex link monitoring means monitors the call type for each call and updates this table # 1.

[0007]

[Table 1]

[0008] Table # 2 is a management table showing the relationship between the multiplex link for each destination network connection device and the call number connected to the multiplex link. Table # 2 is referenced by the packet assembling unit of the transmitting gateway and the packet decomposing unit of the receiving gateway.

[0009]

[Table 2]

According to Table # 2, a paired relationship between the UDP port number (S-PN) of the transmitting gateway, the IP address (R-IPA) and the UDP port number (R-PN) of the receiving gateway. And a multiplexing link is set for each pair.

[0011] Further, as a method of multiplexing a call into an IP packet, an individual RT according to an encoding method applied to the call is used.
There is a method of multiplexing a P packet stream (corresponding to a multiplex link). This is for optimizing the transmission timing or number of multiplexed IP packets.

[0012]

However, different coding schemes may be used in the forward and reverse directions of a call. In the conventional gateway, one multiplexing link is allocated to one call in the forward direction and one call in the reverse direction. Therefore, it is not possible to change attributes such as a coding method between the forward direction and the reverse direction.

SUMMARY OF THE INVENTION It is an object of the present invention to provide a gateway for setting a multiplexing link, which can use different coding schemes and the like in the forward and reverse directions of a call.

[0014]

The network connection device according to the present invention comprises:
A forward path and a reverse path of the call are assigned to multiplexed links set for each attribute of the call destination network connection device and the encoding method, respectively. As a result, it is possible to use different attributes such as encoding schemes in the forward and reverse directions of the call.

[0015]

Embodiments of the present invention will be described below in detail with reference to the drawings.

FIG. 4 is a configuration diagram of a gateway according to the present invention. The gateway is basically divided into a call control unit and a data transmission / reception unit. The call control unit includes a multiplex link monitoring unit 7 and a multiplex link setting / release control unit 8. The data transmission / reception unit includes a trunk line A, a call distribution function unit 4, a multiplex link encoding / decoding unit 5, and a multiplex link packet transmission / reception unit 6.

The multiplex link monitoring means 7 has a call state management section 1 and a multiplex link information management section 2. The call state management unit 1 has the above-described table # 1 in which a call identifier is associated with a coding method of a call type of the call. The multiplexed link information management unit 2 has the following table # 3. The table # 3 is different from the table # 2 described above in that the forward path and the reverse path of the call are connected to the destination gateway of the call and the multiplexed link set for each attribute according to the encoding method. ing.

[0018]

[Table 3]

For example, the call number 1 uses the multiplexing link identification number 1 to use the coding scheme 64 kbps PCM in the forward direction, but uses the multiplexing link 5.3 in the reverse direction to use the coding scheme 5.3 kbps ACELP. Use identification number 3. As described above, it is possible to select a multiplexing link for connecting the call depending on the difference between the coding method in the forward direction and the coding method in the reverse direction.

Here, a specific call sequence will be described.

First, the call distribution function unit 4 notifies the call state management unit 1 of the multiplex link monitoring means 7 of the call number (trunk number) arriving at the trunk line 3 and the detected call type. The call state management unit 1 determines an encoding method corresponding to the call type, and determines a correspondence between the call number and the encoding method shown in Table # 1. The multiplexed link information management unit 2
The table # 3 is registered as a forward direction in a multiplex link corresponding to the call number and the encoding method of the call. The result is notified to the call distribution function unit 4, and the call distribution function unit 4 connects the forward path of the call to the multiplexed link registered in the table # 3. This table # 3 needs to be matched between the sending gateway and the receiving gateway.

Encoding / decoding section 5 and packet transmitting section 6
Are prepared for each multiplexed link. That is, the multiplex link attribute is determined for each multiplex link, and the multiplex link attribute identification number is determined. Then, the multiplexed IP packet is transmitted from the packet transmission unit for each multiplexed link.

The receiving gateway acquires the call number and the coding system identifier for the short packet header received by the multiplex link packet receiving unit 6 and refers to the table # 3 of the multiplex link monitoring means 7. , Decoding with an appropriate decoding method. Then, the call is distributed from the call distribution function unit 4 to an appropriate trunk line.

The call distribution function unit 4 of the receiving gateway
Also detects the call type in the opposite direction to the distributed call. The detected reverse call type is notified to the call state management unit 1 of the multiplexed link monitoring unit 7. The call state management unit 1 determines an encoding method corresponding to the call type, and determines a correspondence between the call number and the encoding method shown in Table # 1. Then, the multiplex link information management unit 2 stores the table #
3 is registered as a reverse direction in a multiplex link corresponding to the call number and the encoding method of the call. The result is notified to the call distribution function unit 4, and the call distribution function unit 4 connects the reverse path of the call to the multiplexed link registered in the table # 3. As described above, this table # 3
Need to be coordinated between the sending gateway and the receiving gateway.

Various changes, modifications, and omissions of the scope of the technical idea and viewpoint of the present invention can be easily performed by those skilled in the art for the above-described various embodiments of the network connection device of the present invention. The foregoing description is merely an example, and is not intended to be limiting. The invention is limited only as defined by the following claims and equivalents thereof.

[0026]

As described above in detail, according to the network connection apparatus for setting a multiplex link of the present invention, it is possible to use different attributes such as coding schemes in the forward and reverse directions of a call. it can.

[Brief description of the drawings]

FIG. 1 is a system configuration diagram in which a network connection device is used.

FIG. 2 is a configuration diagram of a conventional network connection device.

FIG. 3 is a configuration diagram of a network connection device according to the present invention.

 ──────────────────────────────────────────────────続 き Continued on the front page (72) Inventor Dai Oenomoto 2-1-1-15 Ohara, Kamifukuoka City, Saitama Prefecture Inside Kadeidi Laboratory Co., Ltd. (72) Minoru Oda 2-1-1 Ohara, Kamifukuoka City, Saitama Prefecture No. F-term in K.D. Laboratory (reference) 5K030 HB16 HD03 JA01 JA05 5K033 CB08 CC01 DA05 DB18 9A001 CC03 CZ06 EE04 JJ25

Claims (1)

[Claims] 1. A network connection device which is connected to each other via a communication network having an Internet protocol and multiplexes a call into one packet and transmits / receives the packet, wherein: A network connection device configured to connect a forward path and a reverse path of the call to a set multiplexing link, respectively.