KR100337647B1 - MSC apparatus of IMT-2000 network - Google Patents

Abstract

The present invention is the next generation mobile communication network in the IMT-2000 network, according to the ATM switch and the network type according to the match between the ATM user-network or ATM network, the control for accommodating a plurality of base stations, performing a handover function, etc. In a station, a control station device and a control station device, each of which is composed of an ATM router, a control station controller, an exchange station matching circuit, a vocoder selector circuit, several base station matching circuits, a maintenance device, and the like for accommodating several base stations (BTS). Next-generation mobile communication network consisting of bus matching circuit, AAL1 processor, SRAM, FIFO, multiplexer and routing circuit, DPRAM, CAM, FIFO, ATM layer processor, processor module 1, processor module 2, physical layer matching circuit clock supply circuit The control station apparatus of the present invention. In addition, the present invention provides a data path and AAL1 for transmitting and receiving data to and from the processor module 1 or the processor module 2 in order to handle the difference between the fixed data capacity and the packet data capacity according to the base station and the internal traffic conditions. Provided is a control station apparatus of a next-generation mobile communication network under the control of the processor module 1 for adjusting a path with a processor, and using a time switch having a capacity twice the input channel capacity.

Description

MSC apparatus of IMT-2000 network

The present invention is the next generation mobile communication network in the IMT-2000 network, according to the ATM switch and the network type according to the match between the ATM user-network or ATM network, the control for accommodating a plurality of base stations, performing a handover function, etc. By efficiently configuring the station, ATM router, control station controller, switching center matching circuit, vocoder selector circuit, several base station matching circuits, and maintenance equipment, the control station device of the next generation mobile communication network that can increase the efficiency of system configuration as a whole. It is about.

The prior art (Hiekali, ATM network interface, 5619509, 97.4.8; USA) provides one or more ATM gateways as an ATM network and allows a network to match multiple T1 or few T1 signals with a broadband ATM switch. It is about.

To provide high speed and broadband using low cost and common components, data is stored in memory such as video RAM, the type of data stored in memory, and pointers are used for priority transfer to ATM switches. .

However, in the present invention, in the IMT-2000 network, which is the next generation mobile communication network, the ATM exchanger and the network are connected according to a matching standard between ATM user-networks or ATM networks, accommodate multiple base stations, and perform handover functions. It is an object of the present invention to provide a control station apparatus of a next-generation mobile communication network which efficiently accommodates several base stations at a control station and economically matches with an exchange station.

The control station apparatus of the next-generation mobile communication network according to the present invention for achieving the above object is connected by ATM user-to-network or ATM network matching standard according to the ATM switch and network type, accommodates a plurality of base stations, handover function A control station for performing the above, wherein the control station comprises an ATM router, a control station controller, an exchange station matching circuit, a vocoder selector circuit, a plurality of base station matching circuits, and a maintenance apparatus to accommodate a plurality of base stations. do.

1 is a structural diagram of a next generation mobile communication network (IMT-2000) to which the present invention is applied;

2 is a block diagram of a next generation mobile communication network (IMT-2000) control station apparatus according to the present invention;

3 is a block diagram of the switching center matching circuit of FIG.

Hereinafter, with reference to the accompanying drawings will be described in detail the present invention.

1 is a structural diagram of a next-generation mobile communication network to which the present invention is applied.

The ATM switch 101 is an IMT-2000 switch which is the center of the IMT-2000 network. The ATM switch 101 accommodates a plurality of control stations 102 and is connected to a matching device 104 for connecting to another network for interworking with the network. It is also connected to the mobility control unit 106 having location data and authentication functions to ensure the mobility of the IMT-2000 user. The control station 102 is connected to the ATM switch 101 with an ATM user-to-manufacturer or ATM network-to-interface matching standard, accommodates several base stations 103, and performs a handover function. When the other network connection matching device 104 is used as a PSTN connection matching device, T1 or E1 used in the PSTN to transfer data according to the ATM user-network or ATM network-matching standard connected to the ATM switch which is an IMT-2000 exchanger. It will accept the function of converting / inverting to transmission type, code conversion function and echo cancellation function, converting PSTN signal processing protocol to ATM control protocol, and inverse conversion function.

The base station 103 performs a termination function for matching with the terminal according to a wireless standard, and is connected to the control station 102.

The terminal 105 is connected to the base station 103 by a wireless standard and includes a voice encoding function.

In the next-generation mobile communication network as shown in FIG. 1, the control station 102 is connected to the ATM switch 101 and the ATM user-to-manufacturer or ATM network matching standard, and accommodates several base stations.

2 is a block diagram of a control station apparatus for IMT-2000.

The control station consists of an ATM router 210, a control station controller 220, an exchange station matching circuit 230, a vocoder selector circuit 240, several base station matching circuits 250 to 280, a maintenance device 290, and the like. do.

The ATM router 210 performs a routing function for various traffic and control data between the circuits 230 to 290.

The control station controller 220 transmits and receives control data to and from the base stations through the ATM router 210 and the base station matching circuits 250 to 280 in the form of AAL5, and also through the ATM router 210 and the switching center matching circuit 230. Control data is exchanged with the switching center, and control data is exchanged with control circuits 230 to 290 through the ATM router 210.

The switching center matching circuit 230 receives control data from the control station controller 220 through the ATM router 210 and performs matching with the switching center. It also exchanges traffic data with the vocoder selector circuit 240.

The vocoder selector circuit 240 receives control data from the control station controller 220 through the ATM router 210 and performs a selector function for voice source coding and handover on the traffic data. In addition, the ATM router 210 exchanges traffic data with the base station matching circuits 250 to 280.

The base station matching circuits 250 to 280 transmit and receive control data and traffic data to and from the base station. The control data is transmitted to the control station controller 220 through the ATM router 210 among the data received from the base station. Data is sent to the vocoder selector circuit 240 through the ATM router 210.

The maintenance apparatus 290 collects and processes maintenance information from each of the circuits 210 to 280 in the control station, and sends it to the control station controller, and performs a function for control station maintenance.

3 is a block diagram of an exchange station matching circuit of FIG.

The switching center matching circuit converts various traffic coming from the mobile terminal through the base station into an ATM form and sends it to the exchange, and conversely, converts and sends ATM traffic transmitted from the switching station to the control station into packet or circuit type traffic. It serves to transfer control signals between the exchange and the control station.

The switching center matching circuit includes a bus matching circuit 310, an AAL1 processor 320, an SRAM 325, first-in first-out (FIFOs) 330, a multiplexer and a routing circuit 340, and a DPRAM. 345, CAM 355, first in, first out (FIFO) 350, ATM layer processor 360, processor module 1 370, processor module 2 380, physical layer matching circuit 390, A clock supply circuit 395 or the like.

The bus matching circuit 310 transmits and receives data to and from the vocoder selector circuit 240 of FIG. 2, and transmits and receives packet data to and from the processor module 1 370 and the processor module 2 380. The AAL1 processor 320 ) Transmits and receives a fixed rate form data (voice or video). The bus matching circuit 310 may process the processor module 1 370 or the processor in order to process the data exchanged with the vocoder selector circuit 240 because the fixed data capacity and the packet data capacity are different according to the base station and the internal traffic conditions. In order to adjust the data path to and from the module 2 380 and the path between the AAL1 processor 320, a time switch under the control of the processor module 1 370 and having twice the capacity of the input channel is used.

The AAL1 processor 320 receives fixed rate form data (audio or video) from the bus matching circuit 310 and uses the control data of the SRAM 325 managed by the processor module 1 370 to transfer the AAL1 processor 320 to the AAL1 form ATM cell. And convert it and send it to the FIFOs 330 via the UTOPIA bus.

The processor module 1 370 receives the packet data from the bus matching circuit 310, converts the packet data into an AAL5 type ATM cell, and sends the packet data to the FIFOs 330 through the UTOPIA bus. It also performs its reverse function.

When the data converted into the ATM cells from the processor module 1 370, the AAL1 processor 320, and the processor module 2 390 and input to the FIFOs 330 through the UTOPIA bus is normally received, the input cells are sequentially multiplexed and routed. The multiplexer and routing circuit 340 performing the function is read.

Cells input to the FIFOs 330 and control data of the processor module 2 390 to the ATM cell in the form of AAL5 by the control of the CAM 355 for controlling the multiplexing and routing functions under the control of the processor module 2 390. The converted cells input to the DPRAM 345 are multiplexed, and are transmitted to the ATM switch through the FIFO 350 and the ATM layer processor 360 through the ATM switch and the physical layer matching circuit 390 for 155.520 Mbps matching.

Meanwhile, in the case of the control cell among the ATM cells inputted from the ATM switch through the physical layer matching circuit 390 for matching the ATM switch with the 155.520 Mbps, the CAM 355 for controlling the multiplexing and routing functions under the control of the processor module 390. The processor module 2 (380) is routed through the DPRAM 345 through the control of the control circuit. In the case of a traffic cell other than the control cell, the VPI / VCI of the ATM cell is checked and sent to each circuit through the FIFOs 330. In addition, the clock generation and distribution circuit 395 receives a reference clock from the physical layer matching circuit 390 and supplies a clock required for each circuit.

The present invention described above can be variously substituted, modified and changed within the scope without departing from the technical spirit of the present invention for those skilled in the art to which the present invention pertains and the accompanying drawings. It is not limited to.

As described above, according to the present invention, in the IMT-2000 network, which is a next generation mobile communication network, an ATM user-network or an ATM network is connected according to a matching standard according to an ATM switch and a network type, and accommodates a plurality of base stations, a handover function, and the like. By efficiently accommodating a plurality of base stations in the control station that performs the network configuration, it is possible to economically configure the network and increase the efficiency of the system configuration as a whole.

Claims (13)

A control station connected to an ATM user-to-network or an ATM network according to an ATM switch and a network type, and accommodates a plurality of base stations and performs a handover function. The control station includes an ATM router that performs a routing function for traffic and control data; A control station controller for controlling data transmission and reception; An exchange station matching circuit for matching the data; A vocoder selector circuit that performs a selector function for handover, A plurality of base station matching circuits for transmitting and receiving control data and traffic data with the base station; A control station apparatus of a next generation mobile communication network, comprising a maintenance apparatus for collecting and processing maintenance information. The method of claim 1, The ATM router performs a routing function for various traffic and control data between the control station controller, the switching center matching circuit, the vocoder selector circuit, the plurality of base station matching circuits, and the maintenance device circuits, respectively. Control station device in a communication network. The method of claim 1, The control station controller transmits and receives control data to and from the base stations through the ATM router and the plurality of base station matching circuits in the form of AAL5, exchanges control data with the switching station through the ATM router and the switching center matching circuit, and the ATM router. And a control station for controlling the control station by exchanging control data with circuits for the ATM router, the switching center matching circuit, the vocoder selector circuit, the plurality of base station matching circuits, and the maintenance apparatus. The method of claim 1, The switching center matching circuit receives control data from the control station controller through the ATM router and performs matching with the switching center, and transmits and receives traffic data with the vocoder selector circuit. The method of claim 1, The vocoder selector circuit receives control data from the control station controller through the ATM router and performs a selector function for voice source coding and handover of traffic data, and the plurality of base station matching circuits and traffic through the ATM router. Control station device of the next generation mobile communication network, characterized in that the data exchange. The method of claim 1, The plurality of base station matching circuits transmit control data from the data received from the base station to the control station controller through the ATM router, and traffic data to the vocoder selector circuit through the ATM router. Control station device. The method of claim 1, The maintenance apparatus collects and processes maintenance information from the ATM router, the control station controller, the exchange station matching circuit, the vocoder selector circuit, and the plurality of base station matching circuits in the control station, and sends the maintenance information to the control station controller. Control station apparatus of the next generation mobile communication network, characterized in that for performing. The method of claim 1, The switching center matching circuit includes a bus matching circuit, an AAL1 processor, an SRAM, a first-in first-out (FIFOs), a multiplexer and a routing circuit, a DPRAM, a CAM, a first-in-first-out (FIFO), an ATM. A control station apparatus of a next generation mobile communication network, comprising a layer processor, a processor module 1, a processor module 2, a physical layer matching circuit, and a clock supply circuit. The method of claim 8, The bus matching circuit may include a data path for transmitting and receiving data to and from a processor module 1 or a processor module 2 in order to handle a difference between a fixed data capacity and a packet data capacity according to a base station and an internal traffic situation. And a time switch under the control of the processor module 1 to adjust the path with the AAL1 processor and having a capacity twice the capacity of the input channel. The method of claim 8, The bus matching circuit exchanges data with the vocoder selector circuit and transmits and receives packet data with the processor module 1 and the processor module 2, and transmits and receives a fixed rate form data (audio or video) with the AAL1 processor. A control station device for a next generation mobile communication network. The method of claim 8, The AAL1 processor receives fixed rate form data (audio or video) from the bus matching circuit and converts the AAL1 form into ATM cells using the control data of SRAM managed by the processor module 1, and then converts it into Utopia. Control station apparatus of a next generation mobile communication network, characterized in that it is sent to first-in first-out (FIFOs) via a bus. The method of claim 8, The processor module 1 receives the packet data from the bus matching circuit, converts the packet data into an AAL5 type ATM cell, and sends it to first-in-first-out (FIFOs) through a UTOPIA bus or performs a reverse function thereof. Control station device of next generation mobile communication network. The method of claim 8, The multiplexer and the routing circuit are converted into ATM cells in the processor module 1, the AAL1 processor, and the processor module 2, and when the data inputted to the first-in-first-out (FIFOs) through the UTOPIA bus is normally received, the inputted cells are sequentially A control station apparatus of a next generation mobile communication network, which performs a multiplexing and routing function.