KR100826050B1 - Mobile communication network having voice and data traffic path - Google Patents

Abstract

The present invention relates to a mobile communication network that separates a communication path between voice and data, and to minimize the quality degradation of voice traffic generated by coexistence of voice traffic and data traffic in a communication path of a mobile communication network. By separating the paths, an object of the present invention is to prevent deterioration of the quality of voice traffic due to data traffic. And siahyi enyu to the present invention receiving a BHI IU and, the voice traffic received from the BHI IU to provide a communication path to the local or base station and the control station-to-station traffic station in the mobile communication network provides a communication path for the voice traffic, to this end, Si-ian Y, which receives the voice traffic output from the siienyu and provides a communication path of the voice traffic, and Msi-yen, which receives the voice traffic output from the siyanian yu, and provides a communication path of the voice traffic. , DC city children the BHI receiving receives the data traffic output from the IU input the data traffic output from the DC child enyu and the DC child enyu to provide a communication path for the data traffic to provide a communication path for the data traffic, ENU and the data trace output from the disc The input comprises receiving DM when ahyien flow path to provide a communication path for the data traffic.

Description

Mobile communication network separating voice and data communication paths {MOBILE COMMUNICATION NETWORK HAVING VOICE AND DATA TRAFFIC PATH}

1 is a diagram illustrating a configuration of a conventional mobile communication network.

2 is an exemplary configuration diagram of a mobile communication network of the present invention.

3 is an explanatory diagram of a message address system of the present invention;

Explanation of symbols on the main parts of the drawings

20: BHIU (Back Haul Interface Unit,)

30: DCINU (Data CDMA Inter-Networking Unit)

40: DCCINU (Data Center CDMA Inter-Networking Unit)

50: DMCINU (Data Master CDMA Inter-Networking Unit)

60: CINU (CDMA Inter-Networking Unit,)

70: CCINU (Center CDMA Inter-Networking Unit,)

80: MCINU (Master CDMA Inter-Networking Unit,)

The present invention relates to a mobile communication network that separates a communication path between voice and data, and in particular, a communication path of voice and data which minimizes the quality degradation of voice traffic generated by coexistence of voice traffic and data traffic in the communication path of the mobile communication network. It relates to a mobile communication network separated.

Figure 1 is a general mobile communication network, whereby the illustrated as providing a communication path to the base of a domestic or a base station and a control station-to-station traffic, and is connected through a trunk (T1 / E1) and the control terminal BHI IU (BHIU: Back Haul Interface Unit, (Hereinafter referred to as BHIU) (1 ~ 1n), and CIEI (CDMA Inter- Networking Unit (hereinafter referred to as CINU) (4 to 4n), and Cisienien (CCINU: Center) which receives the traffic output from the CINU (4 to 4n) and provides a communication path for soft handoff traffic between control stations. CDMA Inter-Networking Unit (hereinafter referred to as CCINU) (5 to 5n), and Msia YU (Y5) that receives the traffic output from the CCINU (5 to 5n) and provides a communication path for soft handoff traffic during the exchange period. MCINU: Master CDMA Inter-Networking Unit, or less (Indicated by MCINU) (6).

The traffic transmission process of the conventional mobile communication network configured as described above will be described in detail. When a call is generated in the base station, the BHIU (1 to 1n) transmits voice and data traffic to the control station through the trunk (T1 / E1), and the CINU ( 4 to 4n) receive the voice and data traffic and transmit voice and data traffic to CCINU 5 to 5n.

The call is also occupied by a voice-only selector 2 and a data-only selector 3 connected to the CINUs 4 to 4n, respectively.

CCINU (5 to 5n) receives the voice and data traffic output from the CINU (4 to 4n) and transmits to the MCINU (6-6n). Therefore, voice traffic and data traffic are serviced through the same communication path.

However, in the above conventional technology, when long data traffic and short voice traffic communicate through the same path, the short voice traffic has a long waiting time in the trunk card by the long data traffic. As a result, a delay of short voice traffic occurs, thereby degrading voice service quality.

In addition, since the mobile switch switches voice and data in the form of packets, the delay of traffic has a detrimental effect on the quality of voice. Therefore, when designing a local network in a switch, the latency of traffic packets should be considered more than the traffic volume of traffic. . Especially, in the low speed network, the waiting time of traffic packets increases in proportion to the size of the traffic packets. In general, the packet size of voice traffic is less than 40 bytes on average, but the packet size of data traffic has a traffic packet size of 300 bytes or more depending on the data service. As a result, a long waiting time occurs in the trunk card, and the quality of the voice call is deteriorated.

Accordingly, the present invention has been made in view of the above problems, and even if a high-speed data service is performed in an existing mobile communication network, the influence of high-speed data traffic on voice traffic is minimized, thereby improving voice service quality. Its purpose is to provide a mobile communication network that separates the communication path between voice and data.

The present invention for achieving the above object, in a mobile communication network base domestic or BHI IU to provide a communication path between the base station and the control station-to-station traffic (BHIU: hereinafter referred to as Back Haul Interface Unit, hereinafter BHIU) and, in the BHIU CINU (CNU Inte-Networking Unit, hereinafter referred to as CINU) that receives the outputted voice traffic and provides a communication path for the voice traffic, and receives the voice traffic output from the CINU and communicates the voice traffic. Center CDMA Inter-Networking Unit (CCINU), which provides a path, and MCSIU, which receives voice traffic output from the CCINU and provides a communication path for the voice traffic. A master CDMA Inter-Networking Unit (hereinafter referred to as MCINU) and data traffic output from the BHIU and receive communication paths of the data traffic. (DCINU: Data CDMA Inter-Networking Unit, hereinafter referred to as DCINU), and DCSINU (DCCINU: Data Center CDMA Inter-Networking) that receives data traffic output from the DCINU and provides a communication path of the data traffic. Unit, hereinafter referred to as DCCINU), and DMSIAENU (DMCINU: Data Master CDMA Inter-Networking Unit, hereinafter referred to as DMCINU) that receives data traffic output from the DCCINU and provides a communication path of the data traffic. Characterized in that configured.

Hereinafter, a mobile communication network which separates a communication path between voice and data according to the present invention will be described with reference to FIG. 2.

FIG. 2 is a block diagram showing a configuration of a mobile communication network in which voice and data are separated from the present invention. As shown therein, a BHIU 20 provides a communication path for traffic in a base station or between a base station and a control station in a mobile communication network; A CINU 60 that receives the voice traffic output from the BHIU 20 and provides a communication path of the voice traffic; and receives a voice traffic output from the CINU 60 and provides a communication path of the voice traffic. CCINU 70, the MCINU 80 which receives the voice traffic output from the CCINU 70 and provides a communication path of the voice traffic, and the data traffic output from the BHIU 20, and receives the data traffic. DCINU (30) for providing a communication path, DCCINU (40) for receiving the data traffic output from the DCINU (30) and providing a communication path of the data traffic, and data traffic output from the DCCINU (40) To The operation of the present invention constituted by the DMCINU 50 which receives the input and provides the communication path of the data traffic will be described.

The BHIU 20 provides the same communication path for the voice traffic and the data traffic in the base station, and is connected to the control station through the trunk T1 / E1 to provide different communication paths for the voice traffic and the data traffic. After that, voice traffic and data traffic are transferred to different paths.

Voice traffic is passed through the CINU 60, which provides the communication path of the soft handoff traffic between the base stations and the other control stations, and again through the CCINU 70, which provides the communication path of the soft handoff traffic between the control stations. And pass along MCINU 80, which provides a communication path for soft handoff traffic during the exchange period.

The data traffic is via the DCINU 30 which provides the communication path of the soft handoff traffic between the base stations and the other control stations, and again via the DCCINU 40 which provides the communication path of the soft handoff traffic between the control stations. And DMDMNU 50, which provides a communication path for soft handoff traffic during the exchange period.

The present invention is implemented to separate the communication path of data traffic and voice traffic. When a call occurs in the base station, the voice call is occupied by the voice-only selector 90 via the voice trunk, and the data call is occupied by the data-only selector 10 via the data trunk. The network is separated so that voice calls with small traffic message sizes are not affected. In addition, the voice call soft handoff path and the data call soft handoff path are separated and configured even during soft handoff or switching period soft handoff between control stations, so that the quality of the voice call can be maintained even during soft handoff.

As shown in FIG. 3, a voice / data classification factor is added to distinguish between a voice call and a data call in the address system, and the voice call path and the data call path can be separated by hardware, thereby enabling voice in a mobile communication network. This allows traffic and data traffic to be distributed to different trunks.

As described in detail above, the present invention has an effect of minimizing the influence of a voice call by a high speed data call to prevent the degradation of the voice call by configuring the voice traffic path and the data traffic path separately.

Claims (2)

A mobile communication system for separating the communication path between voice and data, In the domestic base provides a communication path, such as voice traffic and data traffic, and is connected via the control station and the trunk BHI IU (Interface Unit Back Haul, BHIU) to provide a different communication path for voice traffic and data traffic and, And provides a communication path to a communication path and the other between the base station control station of the soft hand-off traffic, siahyi enyu (CDMA Inter-Networking Unit, CINU) to provide a communication path for the voice traffic received from the BHI IU, A center CDMA Inter-Networking Unit (CCINU) providing a communication path for soft handoff traffic between control stations and providing a communication path of the voice traffic via the CI; A Master CDMA Inter-Networking Unit (MCINU) that provides a communication path for soft handoff traffic between exchanges and provides a communication path of the voice traffic via the CSI. And provides a communication path to the base station between the software communication path and the other control of the hand-off traffic stations, and the BHI-dish child enyu to provide a communication path of the data traffic output from the IU (Data CDMA Inter-Networking unit, DCINU), A data center CDMA Inter-Networking Unit (DCCINU) providing a soft handoff traffic communication path between control stations and providing a communication path of the data traffic via the DCN; Data Master CDMA Inter-networking, which provides a communication path for soft handoff traffic between exchanges, receives the data traffic via the DSI, and provides a communication path of the input data traffic. Unit, DMCINU). delete

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