KR100267275B1 - Wireless communication system using wire communication network - Google Patents

Abstract

PURPOSE: A WLL(Wireless Local Loop) using a wired communication network, is provided to optimally transfer data between a wired communication network and a subscriber unit, to extend the number of subscribers and minimize a data transmission time. CONSTITUTION: A wired communication network(100) has wireless ports(40) converting wired signals passing an M-ISDN(Military-Integrated Service Digital Network) ATM(Asynchronous Transfer Mode) exchange(10) into wireless signals. A subscriber unit(200) transceives the wireless signals propagated through the wireless ports(40). In the wired communication network(100), a port controller(20) selects one of the wireless ports(40) supplying the wireless signals in an optimum state, to construct a receiving communication network with the M-ISDN ATM exchange(10). And the port controller(20) selects one of the wireless ports(40) having a condition transmitting transmission signals of the M-ISDN ATM exchange(10) in an optimum state, to construct a transmission communication network with the subscriber unit(200). And a port server(30) receives data signals through the port controller(20), to confirm a subscriber and the wireless ports where the receiving/transmission communication networks are constructed and update a port table.

Description

Wireless communication system using wired communication network

The present invention relates to a wireless communication system using a wired communication network, and in particular, by configuring a structure having a port controller and a port server to use all the frequency bands without using the frequency reuse cell by cell, to secure a greater number of subscribers, The present invention relates to a wireless communication system using a wired communication network that can minimize data transmission time.

Generally, wireless local loop (WLL), which is used as a means of transmitting data such as faxes, telephones, personal computers, etc., texts, voices, and symbols, is about 2 to 6 kilometers around a base station without using a telephone cable. A communication network that wirelessly connects and interconnects subscriber lines within a distance of the wireless communication network. In general, the wireless communication network uses microwave, cellular, and codeless technologies through statellite. It is driven by the application system, and the system using the cellular technology can use the same network as the cellular mobile phone or the personal communication service (PCS) to cover a wider area. .

In addition, wireless communication systems using cello technology have much less constraints and transmission losses in the service area than mobile phone systems, and operate without fading. The speed is greatly increased.

On the other hand, a system using the above-described cellular technology includes a frequency division multiplexing access (FDMA), a time division multiplexing access (TDMA), and a code division multiplexing access (CDMA) method. This is currently getting the spotlight.

In addition, the wireless communication network technology currently used among the network operators around the world is using the FDMA and TDMA methods that provide services in sparsely populated areas, and more services using CDMA will be provided in the future.

At this time, the wireless communication network (WLL) uses frequency reuse in using radio resources. That is, in the cellular communication method, even if the throughput is 1 because a multiple access protocol is performed in one cell, the throughput per unit area for the entire frequency band increases or decreases according to the number of frequency reuses. In the wireless communication network, when CDMA is used, the frequency is reused so that the throughput (1 / N) changes according to the frequency reuse number (N).

As described above, the wireless communication network uses a fixed-to-fixed communication method, so that directional antennas can be installed at both ends, thereby minimizing frequency interference and shortening the frequency reuse distance. In addition, there is a useful advantage that can prevent the hand off (hand off).

However, such a conventional wireless communication network is difficult to directly compare the cost problems between wired and wireless systems due to changes in loop distance, population distribution, and utilization of infrastructure. have. In addition, most of them are limited to low-speed data such as voice and facsimile, and are not only suitable for a service network in which demand is not high, but also has a problem in that the use efficiency is lowered because frequency reuse is used.

Therefore, the present invention has been proposed to solve the above problems of the prior art, a wired communication network consisting of an Asynchronous Transfer Mode (ATM) exchange and port controller, port server for the M-ISDN (Military-Integrated Service Digital Network) and the subscriber unit and It is an object of the present invention to provide a wireless communication system using a wired communication network capable of establishing optimal data exchanges and at the same time, increasing the number of subscribers and minimizing data transmission time.

The technical means of the present invention for achieving this object is a plurality of radio ports for converting a wired signal transmitted to a wireless signal via at least an Asynchronous Transfer Mode (ATM) exchange for a Military-Integrated Service Digital Network (M-ISDN). In a wireless communication system using a wired communication network consisting of a wired communication network consisting of a wired communication network comprising a subscriber unit for transmitting and receiving radio signals propagated through a plurality of wireless ports, the wired communication network is a plurality of wireless ports for receiving a wireless signal transmitted from a subscriber Select one of the wireless ports to receive the optimal wireless signal among them to establish an Asynchronous Transfer Mode (ATM) switch and a communication network for the M-ISDN (Military-Integrated Service Digital Network), and the M-ISDN (Military- The transmission signal of the Asynchronous Transfer Mode (ATM) exchange for Integrated Service Digital Network can be transmitted optimally. A port controller that selects one of the wireless ports having a certain condition and establishes a transmission communication network with the subscriber unit, and establishes a subscriber identification and reception / transmission communication network by receiving the induced data signal through the port controller. It is characterized by consisting of a port server to check the wireless port, and to update the port table.

1 is a block diagram showing a wireless communication system using a wired communication network according to the present invention.

Figure 2 is a block diagram showing a port controller applied to a wireless communication system using a wired communication network according to the present invention.

3 is an explanatory diagram showing a wireless communication system using a wired communication network during subscriber transmission according to an embodiment of the present invention.

4 is an explanatory diagram showing a wireless communication system using a wired communication network at the time of subscriber reception according to another embodiment of the present invention.

<Description of the symbols for the main parts of the drawings>

10: M-ISDN Switch 20: Port Controller

21: M-ISDN connection 22: CDMA connection

23: digital conversion unit 24: wired and wireless matching unit

30: port server 40, 40a, 40b, 40c, 40d: wireless port

100: wired communication network 200: subscriber

Hereinafter, a preferred embodiment of a wireless communication system using a wired communication network according to the present invention will be described.

1 is a block diagram of a wireless communication system using a wired communication network according to the present invention.

As shown in FIG. 1, a wireless communication system using a wired communication network according to the present invention is an Asynchronous Transfer Mode (ATM) switch for a Military-Integrated Service Digital Network (M-ISDN) (hereinafter referred to as M-ISDN switch). It consists of a subscriber unit 200 for transmitting and receiving radio signals propagated through a plurality of radio ports 40 for converting the wired signal transmitted via the (10) into a radio signal.

The wired communication network 100 selects any one of the plurality of wireless ports 40 that receive the wireless signal optimally from among the plurality of wireless ports 40 that receive the wireless signals transmitted from the subscriber unit 200. Any one of the plurality of wireless ports 40 having a condition for establishing a receiving communication network with the M-ISDN switch 10 and transmitting the transmission signal of the M-ISDN switch 10 in an optimal state. The port controller 20 for establishing a transmission communication network with the subscriber unit 200 by selecting the wireless port 40 of the subscriber station, and receiving the transmitted data signal through the port controller 20 for subscriber confirmation and the reception / transmission. It consists of the port server 30 which confirms the wireless port which establishes a communication network, and updates a port table.

2 shows a block diagram of a port controller of a wireless communication system using a wired communication network according to the present invention.

As shown in FIG. 2, the data 21 of the M-ISDN switch 10 supplied through the M-ISDN switch 10 and the M-ISDN switch 10 are code-divided. A CDMA connection section 22 for multiple connection, a digital conversion section 23 for converting the data signal coded by the CDMA connection section 22 into a digital signal, and a digital signal of the digital conversion section 23; The wire / wireless matching section 24 outputs to the wireless port 40 is configured.

The operation and effect of the present invention configured as described above will be described with reference to FIGS. 3 and 4.

First, the present invention does not reuse frequency by cell as in a conventional wireless communication network. In other words, the entire frequency band is applied to a system for frequency reuse for each switching station shared by wireless ports connected to the same M-ISDN exchange.

Therefore, due to the location of a plurality of wireless ports connected to the M-ISDN switch, the same subscriber signal can enter the plurality of wireless ports, and one of the redundant signals received at these wireless ports is selected to select the M-ISDN switch. It is possible to transmit to a predetermined destination through a wired communication network through.

3 is an explanatory diagram showing a wireless communication system using a wired communication network at the time of subscriber transmission according to an embodiment of the present invention, Figure 4 is a wireless communication system using a wired communication network at the time of subscriber reception according to another embodiment of the present invention It is explanatory drawing which shows.

As shown in FIG. 3, when a transmission signal is output from the subscriber unit 200, the transmission output is transmitted to a plurality of radio ports 40a, 40b, 40c, (nearly 2-6 km). 40d).

In this case, the plurality of wireless ports 40a, 40b, 40c, and 40d respectively detect the reception degree of the transmission signal differently according to the distance from the subscriber unit 200 and the terrain condition. In this case, the port controller 20 selects any one of the plurality of wireless ports 40a, 40b, 40c, and 40d to receive the wireless signal optimally. The receiving communication network is established with the M-ISDN switch 10. Thereafter, predetermined information can be exchanged through the M-ISDN exchange 10.

On the other hand, the port server 30 receives the induced data signal through the port controller 20 to identify the subscriber and at the same time confirms the wireless port 40a establishing the reception / transmission communication network, and the port table The update function will be performed.

On the other hand, when data is output from the M-ISDN exchange 10, this data signal is transmitted through the M-ISDN connection 21 in the port controller 20 connected to the M-ISDN exchange 10. The data signal, which is transmitted to the data source 22 and then code-divided and code-divided by the CDMA connection unit 22, is digitally converted through the digital conversion unit 23 and then wire-wired and matched by the wire / wireless matching unit 24. Any one of the plurality of radio ports 40a, 40b, 40c, and 40d having a condition capable of transmitting the transmission signal of the M-ISDN switch 10 in an optimal state. 40a) is sent to the subscriber unit.

As described above, the present invention has a structure including a port controller and a port server so that all frequency bands can be used without reusing cells by frequency, so that the number of subscribers can be secured and data transmission time is much higher. There is an excellent effect to minimize the.

In addition, it is possible to use the entire frequency band when reusing the frequency is easy to select the location of the wireless port, it is possible to simplify the wireless port has a useful effect of improving productivity.

Claims (2)

A wired communication network composed of a plurality of wireless ports for converting a wired signal transmitted through at least an Asynchronous Transfer Mode (ATM) exchange for a Military-Integrated Service Digital Network (M-ISDN) into a wireless signal, and a plurality of wireless ports. In a wireless communication system using a wired communication network comprising a subscriber unit for transmitting and receiving a wireless signal, the wired communication network receives the wireless signal in an optimal state among the plurality of wireless ports for receiving a wireless signal transmitted from the subscriber unit Select one of the wireless ports to establish a receiving communication network with the ATM (Asynchronous Transfer Mode) switch for the M-ISDN (Military-Integrated Service Digital Network), and transmit the transmission signal of the M-ISDN ATM switch in an optimal state. Select one wireless port among multiple wireless ports that can be used to transmit A port controller for establishing a communication network and a port server for receiving subscriber data, confirming a wireless port for establishing the receiving / transmitting communication network, and updating a port table by receiving a data signal generated through the port controller. Wireless communication system using a wired communication network. The method of claim 1, An M-ISDN connection unit to which the port controller is connected to the ATM switch for the M-ISDN; A CDMA access unit for code-dividing and multiplexing data signals of the M-ISDN ATM switch supplied through the M-ISDN connection unit; A digital converter for converting the data signal coded by the CDMA connection into a digital signal; And a wired / wireless matching unit configured to output a digital signal of the digital conversion unit to the wireless port.

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