KR101460007B1 - System and Method making call setup using plural standard SIP message - Google Patents

Abstract

A call setup system using a plurality of standard call setup messages according to the present invention is a call setup system using a plurality of standard call setup messages including a user terminal and a network server connected to the user terminal, Wherein the terminal transmits a call setup message according to a first standard to the network server and a call setup message according to a second standard to the network server, And sets the call by processing any one of the call setup messages according to the second specification,

According to the present invention, when a call setup message according to a specific standard is processed according to a network operator, and a call setup message based on another specification not based on a specific standard can not be processed, according to the present invention, The effect can be achieved.

SIP, call setup time, multiple standards

Description

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a call setup system and method using a call setup message of a plurality of standards,

The present invention is applicable to CDMA20001x Rev. A network and the like, it is possible to improve a call setup time based on SIP (Session Initiation Protocol) such as VoIP or PTT through a call setup message transmission.

That is, it is a technical field related to a method of effectively transmitting a SIP message as a call setup message for a faster call setup time in a mobile communication network using a SIP protocol.

In particular, it is a technology field that enables smooth call setup in cases where the system complies with the standards-based SIP method or the case where the system follows the local proprietary method which is a proprietary method.

SIP is a protocol designed to allow a large number of people to easily invite parties to meetings or phone calls, rather than protocols for controlling users when making video conferences or telephone calls. SIP is not attached to any protocol stack, it is defined as text based on HTTP and is easy to expand and easy to use. SIP uses a conventional E-MAIL address and provides mobility through a location-specific message, so it is a simple protocol that can receive a call at a specified location.

The components are as follows.

A user agent (UA) is a terminal that can make and receive calls and supports SIP protocol functions. A user requesting a call is called a Usr Agent Client (UAC), a receiving side is called a User Agent Server (UAS) . The network server controls the SIP network. It is similar to the gatekeeper of H.323. The proxy server that handles the entire network server is a Redirect Server have. A Register is a component required for a SIP user mobile terminal to register as a part of a SIP network. The location server is a component for searching for a location corresponding to an address that is confirmed after confirming an address in a SIP network.

SIP provides two ways of connecting through a proxy server and a direct connection with the other party. The calling party uses the addressing method appropriate to the SIP to request the calling party to call the INVITE message. The address used in SIP can be roughly divided into three categories. First, you can use the network name of the user and the name of the host together with the ID that the user logs in as the SIP address. Second, IP address itself can be used as SIP address. Third, E-MAIL address or DNS name used in homepage can be used as SIP address. Now, the most concrete thing is the existing E-MAIL address .

All messages in SIP are text based, and when delivering messages, multiple messages are sent by one TCP segment or UDP datagram using TCP or UDP. The size of the SIP data is defined so that data can be sent to a network that knows the MTU (Maximum Transmission Unit) without exceeding the MTU value, and to transmit data of 1 KByte or less for a network in which the MTU is unknown.

Currently, the initial SIP protocol is commonly used to provide IP-based services such as VoIP, video telephony, and PTT in the mobile communication network. SIP has been used recently in recent years because it has a simple structure for opening an initial session than H.xxx (a protocol such as H.323) used in a mobile communication network.

There is an initial connection time (connection time) as a factor to be a performance problem in providing IP based services such as VoIP and video phone PTT service in mobile communication network. This may be a very important factor in determining the success of the service depending on the type of service, which is the time from when the caller calls the callee to make the call available. In the case of a specific service provider or a specific network, a method of transmitting a SIP message through an ACH (access channel) is used to solve the problem.

Among mobile communication network functions, there is a function of transmitting an SDB (Short Data Burst) message through an access channel. However, since the size of a message that can be transmitted through an access channel is limited, a call setup message is generally transmitted through an access channel Sometimes it is difficult. That is, due to the limited data size that can be transmitted in the access channel, a call setup message is generally restricted to be transmitted through the access channel. One way to solve this problem is to apply a compression function for a call setup message having a large size. However, depending on the mobile communication network or according to the standard, when the signal compression (Signaling Compression) function of about 60 ~ 80% of the SIP message is applied, it is difficult to see a great effect because it exceeds the data size that can be transmitted on the access channel. This leads to signal compression and message composition using local proprietary schemes based on their own implementations rather than the standard ones. This may be an issue such as roaming because it is not a standards-based implementation.

In order to effectively transmit a SIP message irrespective of a standard supported by the system, the present invention provides a call setup method capable of setting a call by transmitting a call setup message of a plurality of specifications so that a SIP message can be processed regardless of the supported specifications of the system And the like are provided.

That is, it is an object of the present invention to provide a method of transmitting a call setup message of a first standard and a second standard and setting a call by a call setup message according to any one standard.

A call setup system using a plurality of standardized messages according to the first aspect of the present invention is a call setup system using a call setup message of a plurality of standards including a user terminal and a network server connected to the user terminal , The terminal transmits a call setup message according to a first standard to the network server and a call setup message according to a second standard to the network server and the network server transmits a call setup message according to the first specification Or the call setup message according to the second standard, and sets up the call.

The network server performing the call setup using the plurality of standard call setup messages according to the second aspect of the present invention receives the call setup message according to the first specification and the call setup message according to the second specification, And the call setup message according to the second specification, and sets up a call.

Preferably, the call setup message according to the first specification and the call setup message according to the second specification are based on a Session Initiation Protocol (SIP).

A terminal that sets up a call using the call setup message according to the third aspect of the present invention transmits a call setup message according to the first specification and a call setup message according to the second specification, And a call setup message based on the response received first among the responses to the call setup message according to the second specification.

Advantageously, the call setup message is SIP based.

Preferably, the terminal transmits a call setup message according to the first standard on an access channel and transmits a call setup message according to the second standard on a traffic channel, A terminal for setting up a call using a plurality of standard call setup messages.

More preferably, the terminal transmits a call setup message according to the first standard and a call setup message according to the second standard through an access channel.

According to a fourth aspect of the present invention, there is provided a method of establishing a call using a plurality of standard call setup messages, the method comprising: a first transmission step in which a terminal transmits a call setup message according to a first standard to a network server; A second transmission step of transmitting a call setup message according to a second standard to the network server; And a call setup step in which the network server processes a call setup message according to the first specification or a call setup message according to the second specification to set a call.

Preferably, the call setup message according to the first specification is transmitted to the network server through the access channel, and the call setup message according to the second specification is transmitted to the network server through the traffic channel .

More preferably, a call setup message according to the first standard and a call setup message according to the second standard are transmitted to a network server through an access channel.

Advantageously, the call setup message is SIP based.

Depending on the network operator, only the call setup message according to a specific standard may be processed, and the call setup message according to another specification not conforming to the specific standard may not be processed. In such a case, according to the present invention, an effect that a call can be set more smoothly even in a system of any standard is achieved.

That is, for example, a terminal sets up a call by transmitting a call setup message according to a local standard in a local network, and sets a call in a standard specification network by transmitting a call setup message according to a standard specification. Also, even when the call processing based on the local standard is impossible, the call processing based on the call setup message according to the standard specification can be performed.

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

FIG. 1 is a conceptual diagram of a call setup method using a call setup message of a plurality of standards according to the present invention.

The first terminal 100 transmits a call setup message of the first standard to the network server of the system as an access channel (S101). The network server 200 is connected to an IMS (IP multimedia subsystem) 300. The network server transmits the call setup message to the IMS (S102), transmits a reception acknowledgment (AC Ack) to the terminal, and sets a wireless traffic channel (S104).

After completing the setting of the traffic channel (S105), the terminal transmits a call setup message according to the second standard.

That is, when an application using an SIP (Session Initiation Protocol) is activated, the first terminal attempts to transmit a SIP message as a call setup message through an access channel. To do this, the SIP message is compressed to a size that can be transmitted on the access channel. It uses its own specification. That is, it transmits a signal-compressed SIP invite message by a local proprietary specification, which is a user specification. In this process, the SIP process is performed in the application layer and the traffic channel is set up simultaneously with the radio area call setup.

A paging response or the like is transmitted from the second terminal 500 to the first terminal 100. At this time, it is possible to receive a response to the first standard call setup message or a response to the second standard call setup message transmitted by the first terminal according to the type of standard supported by the system.

If the first specification is supported by the system, only the response to the call setup message of the first specification is transmitted. If the second specification is supported by the system, the process related to the call setup message according to the first specification is ignored, 2 < / RTI > call setup message.

The first standard call setup message may be a signal-compressed call setup message according to a local standard, and may be a call setup message based on the second standard call setup standard Internet Engineering Task Force (IETF) RFC standard.

The call setup message of the first standard identifies the location of the destination terminal through the IMS and transmits the paging message. However, the process of inquiring the location of the destination terminal in the IMS server using the location server and calling the destination using the IP is relatively long.

And adding the second standard call setup message once more after the traffic setting using the interval time with no response.

In the case where the system is implemented by the standard of the second standard and the call setup message compressed with the local standard of the first standard can not be decoded, the second standard call setup message is a normal message that can be processed by the system It is used. In this case, the local standard call setup message of the first standard transmitted in the initial call setup is ignored in the system.

The call setup system using the call setup message of the present invention includes a terminal of a user and a network server.

The terminal transmits a call setup message according to the first standard to the network server, sets a traffic channel, and transmits a call setup message according to the second standard to the network server.

The network server processes a call setup message according to the first specification or a call setup message according to the second specification to set up a call.

A method of setting a call using a plurality of standard call setup messages according to the present invention includes: [a] transmitting a call setup message according to a first standard to a network server and setting a traffic channel; [b] the terminal transmitting a call setup message according to a second standard to the network server; [c] The network server processes the call setup message according to the first specification or the call setup message according to the second specification to set the call,

Depending on the network operator, only the call setup message according to a specific standard may be processed, and the call setup message according to another specification not conforming to the specific standard may not be processed. In such a case, according to the present invention, an effect that a call can be set more smoothly even in a system of any standard is achieved.

Therefore, the present invention is industrially applicable to the telecommunication industry.

3 shows a conceptual diagram of an embodiment according to the present invention.

DESCRIPTION OF THE EMBODIMENTS

100, 500: mobile terminal 200: network server

300: IP multimedia subsystem (IMS)

Claims (11)

A call setup system using a call setup message of a plurality of standards including a user terminal and a network server connected to the user terminal and setting up a call, The terminal transmits a call setup message according to a first standard to the network server, and before the response to the call setup message according to the first specification is received, Message to the network server, Wherein the network server processes a call setup message according to the first specification or a call setup message according to the second specification to set a call. A method for receiving a call setup message according to a first standard from a terminal, and before receiving a response to a call setup message according to the first specification from the terminal, A network server which receives a setup message and processes a call setup message according to the first standard and a call setup message according to the second specification to set up a call using a plurality of standard call setup messages for setting up a call, . 3. The method of claim 2, Wherein the call setup message according to the first specification and the call setup message according to the second specification are based on a SIP (Session Initiation Protocol) server. Transmits a call setup message according to a first standard and transmits a call setup message according to a second standard different from the first standard before a response to the call setup message according to the first standard is received, The mobile station establishes a call using a plurality of standard call setup messages for establishing a call based on a response to a call setup message according to a first standard or a response to a call setup message according to the second standard. 5. The method of claim 4, Wherein the call setup message is SIP-based. 5. The method of claim 4, Wherein the terminal transmits a call setup message according to the first standard through an access channel and transmits a call setup message according to the second standard through a traffic channel, And the call setup message is used to set up the call. 5. The method of claim 4, Wherein the terminal transmits a call setup message according to the first standard and a call setup message according to the second specification through an access channel. A first transmission step in which a terminal transmits a call setup message according to a first standard to a network server; A second transmission step of transmitting a call setup message according to a second standard different from the first standard to the network server before a response to the call setup message according to the first standard is received; And And setting a call by processing either one of the call setup message according to the first specification or the call setup message according to the second specification by the network server, . 9. The method of claim 8, Wherein the call setup message according to the first specification is transmitted to the network server through an access channel and the call setup message according to the second specification is transmitted to the network server through a traffic channel. . 9. The method of claim 8, Wherein the call setup message according to the first specification and the call setup message according to the second specification are transmitted to a network server through an access channel. 9. The method of claim 8, Wherein the call setup message is SIP-based.

Images