KR20090103515A - An Interference Detection Method for Mobile Multi-hop Wibro Relay Station - Google Patents

Abstract

The present invention provides a method for detecting interference in a network using a mobile multi-hop WiBro repeater, wherein at least one mobile repeater periodically and at least one fixed repeater transmit its location information to a base station at least once, and the base station is delivered. Generating repeater distance information based on position information of the repeater; Detecting, by the base station, relays that are approached within a critical distance that may cause interference with each other based on the generated relay distance information; Generating, by the base station, an interference information table for repeaters that are approached within a threshold distance that may cause interference with each other; And controlling, by the base station, the interference of repeaters approached within a critical distance at which the base station may cause interference with each other, based on the interference information table. Accordingly, the interference detection method according to the present invention enables the base station to acquire interference information by periodically detecting the location of the mobile repeater and also using the MAC management message for interference detection, thereby effectively scheduling the terminals. .

Description

Interference Detection Method for Mobile Multi-hop Wibro Relays

The present invention relates to a network system, particularly in a WiBro network using a mobile multi-hop WiBro repeater, wherein the mobile multi-hop WiBro repeater detects interference generated with other repeaters nearby during movement.

In general, Wibro (Wireless Broadband Internet) is a portable Internet service capable of supporting various multimedia services and seamless communication even when a terminal moves. That is, the WiBro service enables a subscriber to access a variety of information and contents by using a portable mobile communication terminal such as a laptop or a PDA in a mobile environment such as indoor or outdoor stationary environment or walking or moving to a vehicle.

The WiBro system uses a high frequency band of 2.3 GHz band, and uses a time division duplex (TDD) method as an asymmetric bidirectional transmission method in which uplink and downlink are alternately assigned in time in the same frequency band. For example, an Orthogonal Frequency Division Multiple Access (OFDMA) scheme is used as the scheme.

WiBro systems use relay stations in addition to base stations to reduce shadow areas, improve coverage and throughput, and expand system capacity. There are two types of repeaters: fixed relays, nomadic relays, and mobile relays. In particular, the mobile WiBro repeater may be installed in public transportation such as a bus or subway, and provides an advantage of providing a high-speed Internet service at a lower cost than a base station to a user using a public transportation equipped with a repeater.

However, since the mobile WiBro repeater can be arbitrarily moved in all directions, it is not possible to apply the preset coverage and the conventional scheduling function according to the fixed repeater. As the mobile repeater moves, the mobile repeater may enter into or near the cell area serviced by another fixed repeater installed in an arbitrary area. It is feasible and thus low user reception performance can occur.

1 and 2 are examples of a general WiBro network, in which FIG. 1 shows a network consisting of fixed repeaters and a base station, and FIG. 2 shows a network further including a mobile repeater mounted on a bus. As shown in FIG. 1, in the case of a WiBro network using only a fixed repeater, it may be designed such that interference is less generated when a terminal receives a signal by proper cell planning in an installation process or a scheduling process of the repeater.

However, as shown in FIG. 2, in the case of a WiBro network having a mobile repeater mounted on a vehicle such as a bus, the mobile repeater may move by an arbitrary distance in an arbitrary direction as the vehicle moves. Accordingly, for example, the mobile terminal may move to another mobile repeater or an area that is adjacent to the fixed repeater as shown, and in this case, the terminal receiving the service through the mobile repeater in the vehicle may experience a decrease in reception performance. There was a problem that could occur.

Therefore, when the mobile multi-hop repeater is used in the WiBro network, the occurrence of interference between the repeaters that change with each other is detected in advance, so that proper scheduling can be performed for the terminals existing in the coverage of the plurality of repeaters, thereby preventing the degradation of the reception performance of the terminal. There is a need for new technologies that enable this.

The present invention is a method for detecting an interference that may occur arbitrarily as a mobile repeater is randomly moved to a position close to another repeater, and by using a distance between repeaters without modification of a user terminal when using a mobile multihop repeater, a new MAC A new mobile multi-hop WiBro repeater that enables a base station to obtain interference information between repeaters using a media access control management message, thereby enabling scheduling to optimize reception performance of the terminal based on the interference information. An object of the present invention is to provide an interference sensing method.

This object is achieved by an interference sensing method for a mobile multihop wibro repeater provided by the present invention.

The interference detection method of the present invention is an interference detection method in a network using a mobile multi-hop WiBro repeater, wherein at least one mobile repeater periodically and at least one fixed repeater transmit its location information to the base station at least once, Generating, by the base station, repeater distance information based on the transmitted position information of the repeater; Detecting, by the base station, relays that are approached within a critical distance that may cause interference with each other based on the generated relay distance information; Generating, by the base station, an interference information table for repeaters that are approached within a threshold distance that may cause interference with each other; And controlling, by the base station, the interference of repeaters approached within a critical distance at which the base station may cause interference with each other, based on the interference information table.

In a preferred embodiment, after the base stations detect the relays approached within a threshold distance that may cause interference with each other, and before generating the interference information table, the base station approaches within a threshold distance that may cause interference with each other. To control the fixed repeaters of the repeaters to broadcast their IDs, and to control the mobile repeaters among the repeaters approached within a critical distance that may cause interference with each other, to scan to obtain the ID of the neighboring fixed repeaters. Steps; The mobile repeater may report ID information of the neighboring fixed repeater obtained in the scanning step to the base station as interference information among the repeaters approached within a critical distance that may cause interference with each other.

In a preferred embodiment, the relay control information and the interference information transmission with the base station uses a Media Access Control (MAC) management message.

The present invention as described above is a method for detecting an interference that may occur arbitrarily as the mobile repeater is randomly moved to a position close to another repeater, by using the distance between the repeaters without modification of the user terminal when using the mobile multi-hop repeater, In addition, by using a new MAC (Media Access Control) management message, the base station can obtain the interference information between the repeaters, and based on the interference information, a new mobile multi that enables scheduling for optimization of the reception performance of the terminal It is possible to provide an interference sensing method for a hop wibro repeater.

1 is a schematic diagram showing an example of a WiBro network including a general fixed repeater.

2 is a schematic diagram illustrating an example of a WiBro network in which a mobile repeater is added to the network of FIG. 1.

3 is a schematic diagram showing a TDD / OFDMA base station frame structure in the TP mode of a typical WiBro network.

4 is a schematic diagram showing a TDD / OFDMA repeater frame structure in TP mode of a typical WiBro network.

5 is a diagram illustrating interaction between a base station and a relay period in a WiBro network using a mobile multi-hop repeater according to an exemplary embodiment of the present invention.

6 is a schematic diagram showing a TDD / OFDMA frame structure of a mobile repeater for receiving information of a neighbor repeater according to the present invention.

Hereinafter, a detailed example of an interference sensing method for a mobile multi-hop wibro repeater according to the present invention will be described in detail with reference to the accompanying drawings.

FIG. 3 is a schematic diagram showing a TDD / OFDMA base station frame structure in a TP mode (transparent mode) of a typical WiBro network, and FIG. 4 is a schematic diagram showing a TDD / OFDMA repeater frame structure in a TP mode of a typical WiBro network.

In the TP mode of FIGS. 3 and 4, the repeater transmits user data to the terminal but does not transmit a management message such as a downlink map or an uplink map. Accordingly, the terminal receives a management message such as a downlink map or an uplink map directly from the base station.

The method of the present invention uses a TP mode of two frame structure TP mode (transparent mode) and NTP mode (non-transparent mode) defined in the IEEE 802.16j baseline document. Typically, since the relative distance between a mobile repeater mounted on a vehicle such as a bus or a subway and a terminal receiving a service through the mobile repeater in the vehicle is almost fixed, a management message such as a downlink map or an uplink map is transmitted from a base station. This is because the TP mode, which is directly transmitted and needs high speed such as data, is more suitable for receiving through a repeater.

FIG. 5 is a diagram illustrating interaction between a base station and a relay period in a WiBro network using a mobile multi-hop repeater according to an embodiment of the present invention, and FIG. 6 is a TDD of a mobile repeater for receiving information of a neighbor repeater according to the present invention. Schematic showing the / OFDMA frame structure.

5 and Table 2 below, the present invention uses the MAC management messages of MR_LOC_REQ and MR_LOC_REP to obtain the location information of each repeater. Since the fixed repeater does not change its position, when the base station sends the MR_LOC_REQ message to the repeater, the report mode is set to 'once' and transmitted. Since the mobile repeater changes its location from time to time, when the base station sends the MR_LOC_REQ message to the repeater, the report mode is set to 'periodic' and transmitted.

Accordingly, the fixed repeater initially stores its location information in MR_LOC_REP to the base station and the mobile repeater periodically sends its location information to MR_LOC_REP to the base station. As a result, the base station can maintain the current position information of the fixed repeater and the mobile repeater, and can also find out the distance between the fixed repeater and the mobile repeater by calculating. Thus, if the mobile repeater enters into coverage of a particular threshold of the fixed repeater (see FIG. 2), this may be detected by the base station.

If it is detected that the mobile repeater enters into coverage of a specific threshold of the fixed repeater, the base station sends an RSID advertisement request (RSID_ADV_REQ) message to the fixed repeater and simultaneously sends an RSID_SCN_REQ (RS ID scanning request) message to the mobile repeater.

The fixed repeater receiving the RSID_ADV_REQ message periodically broadcasts its ID through an RSID advertisement (RSID_ADV) message. The mobile repeater receiving the RSID_SCN_REQ message at the same time periodically receives the RSID_ADV message using the frame structure for receiving the neighbor repeater of FIG. 6.

If the mobile repeater obtains the ID of the neighboring fixed repeater through the RSID_ADV message, the mobile repeater reports the ID information of the fixed repeater to the base station through the RSID_SCN_REP message.

Accordingly, the base station can obtain the mobile repeater and the fixed relay period interference information, and makes the interference information table shown in Table 1 through the interference information. The base station uses the generated interference information table to control the interference in a manner such as scheduling so that the interference between the repeaters does not occur.

After creating the interference information table for the relay period, the base station transmits an RSID_ADV_CAN (RS ID advertisement cancel) message to the fixed repeater, and transmits an RSID_SCN_CAN (RS ID scanning cancel) message to the mobile repeater, respectively. The fixed repeater receiving the RSID_ADV_CAN message periodically stops broadcasting its ID through the RSID_ADV message and responds with an RSID_ADV_CAN_RSP message. The mobile repeater receiving the RSID_SCN_CAN message periodically stops scanning the RSID_ADV message and responds with an RSID_SCN_CAN_RSP message.

If the mobile repeater goes out of coverage of a particular threshold of the fixed repeater, it can be detected by the base station periodically updating the mobile repeater and the fixed repeater distance. Thus, if it is detected that the mobile repeater has exited the coverage of a particular threshold of the fixed repeater, the base station returns to the original state that controlled the interference in the same way as scheduling.

In the above, the interference detection process between the fixed repeater and the mobile repeater has been described, but the present invention can be applied to the interference detection between the mobile repeaters. Do not use management messages when interference detection between mobile repeaters is required. Since the base station periodically grasps the current position of the mobile repeater in real time, the base station can periodically update and maintain the distance information between the mobile repeaters. The base station detects when the distance difference between the mobile repeaters is within a specific threshold, adds it to the interference information table of Table 1, and may schedule the interference to be controlled based on this. Such a configuration provides an advantage of reducing the overhead caused by frequent message exchanges when a mobile repeater is mounted on a public transport such as a vehicle.

Table 1 below is a table of interference information between repeaters configured in a base station according to the present invention.

Table 2 below is a table showing MAC management messages used in the present invention.

The embodiments of the present invention have been described in detail above, but since the embodiments have been described so that those skilled in the art to which the present invention pertains can easily carry out the present invention, The technical spirit of the present invention should not be interpreted limitedly.

Claims (3)

In a network using a mobile multi-hop wibro repeater, the interference detection method, At least one mobile repeater periodically and at least one stationary repeater delivering its location information to the base station at least once, the base station generating the relay period distance information based on the transferred location information of the repeater; Detecting, by the base station, relays that are approached within a critical distance that may cause interference with each other based on the generated relay distance information; Generating, by the base station, an interference information table for repeaters that are approached within a threshold distance that may cause interference with each other; Controlling, by the base station, interference of repeaters approached within a critical distance that may cause interference with each other based on the interference information table; Interference detection method for a mobile multi-hop wibro repeater comprising a. The method of claim 1, wherein after the base stations detect the relays that are approached within a threshold distance that may cause interference with each other, and before generating the interference information table, The base station controls a fixed repeater among the relays that are approached within the critical distance that may cause interference with each other to broadcast its ID, and moves to a mobile repeater of the repeaters that are approached within the threshold distance that may cause interference with each other. Controlling the scanning to obtain an ID of a neighboring fixed repeater; A step in which the mobile repeater reports the ID information of the neighboring fixed repeater obtained in the scanning step as interference information among the repeaters approached within a critical distance that may cause interference with each other as a base station; Interference detection method for a mobile multi-hop wibro repeater comprising a. 3. The method of claim 2, wherein the relay control information and the interference information transmission with the base station uses a media access control (MAC) management message.