JP4904321B2 - Wireless terminal and repeater - Google Patents

Description

  The present invention relates to a method for executing handover of a radio terminal.

In the communication standard of WiMAX (IEEE802.16), data transmission / reception between a base station and a wireless terminal is executed at a timing as shown in FIG. In the figure, Tx indicates transmission and Rx indicates reception. Here, when a repeater as a repeater is sandwiched, the form of communication is as shown in FIG.
As shown in FIG. 9, in the path from the base station to the wireless terminal, data transmission from the base station to the wireless terminal and data transmission from the wireless terminal to the base station are performed at the same timing. That is, data is transmitted from the repeater to the wireless terminal at the same timing as data is transmitted from the base station to the repeater. In addition, data is transmitted from the repeater to the base station at the same timing as data is transmitted from the wireless terminal to the repeater. The data transmitted from the base station to the repeater at the same timing and the data transmitted from the repeater to the wireless terminal are different data. Similarly, data transmitted from the wireless terminal to the repeater at the same timing is different from data transmitted from the repeater to the base station.

Communication in the uplink direction is performed simultaneously at the same timing among all devices, and communication in the downlink direction is performed simultaneously at the same timing between all devices, so that communication in the uplink direction and communication in the downlink direction are mutually performed. Avoiding interference.
Patent Document 1 discloses a technique related to WiMAX communication.
Special table 2008-67386

However, in FIG. 9, the signal transmitted by the remote part of the repeater at times T0 to T1 or T2 to T3 can be diffracted and interfere with the donor part of the repeater. In addition, the signal transmitted from the donor part of the repeater at times T1 to T2 and T3 to T4 is diffracted and interferes with the remote part of the repeater.
Further, when there is a wireless terminal B communicating with the base station instead of the repeater near the repeater, as shown in FIG. 10, the signal transmitted from the repeater to the wireless terminal B and the base station connected to the wireless terminal The signals transmitted to A are interference with each other.

  In order to prevent such interference, the WiMAX communication standard does not allow it, but it controls the data transmission / reception timing, that is, shifts the beginning of the frame between the base station and the repeater and between the repeater and the wireless terminal. It is possible. FIG. 11 shows data transmission / reception when timing control is executed. As can be seen from FIG. 11, although interference occurs at the times T2 to T3 in the donor part and the remote part of the repeater, no interference occurs at times T1 to T2 and T3 to T4.

However, in this case, interference between wireless terminals may occur. As shown in FIG. 11, when the wireless terminal B communicating with the base station approaches in a state where the timing is shifted, interference occurs between the wireless terminals at times T1 to T2 and times T3 to T4. In addition, this method lacks versatility because it is a communication method that is not permitted by the WiMAX communication standard.
Accordingly, the present invention has been made in view of the above-described problems. A wireless terminal and a repeater that comply with the WiMAX communication standard and that can prevent communication as much as possible even when the above-described interference occurs are provided. The purpose is to provide.

  In order to solve the above-described problem, a wireless terminal according to the present invention is a wireless terminal in a communication system including a base station, a repeater, and a wireless terminal, a communication unit, a detection unit that detects an error in communication, An error rate of an error detected by the detecting means when establishing synchronization with the base station, and a storage means for storing a repeater that is a candidate for handover of the terminal itself and a neighbor list that is information indicating the base station And an execution means for executing a handover to a repeater included in the neighbor list when the value exceeds a predetermined threshold value.

  Further, the repeater according to the present invention is a repeater in a communication system including a base station, a repeater, and a plurality of wireless terminals, and in a communication with a plurality of wireless terminals with which the own device is communicating, a predetermined condition When an error that satisfies the above condition is detected, an instruction unit that instructs all of the plurality of wireless terminals to execute a handover is provided.

  With the configuration as described above, when a wireless terminal is communicating with a base station, if the error rate of a communication error exceeds a predetermined threshold, the wireless terminal communicating with the repeater is close to the wireless terminal. As a result, the repeater can be handed over. In the first place, the continuation of this communication error is caused by the wireless terminal communicating with the base station communicating with the wireless terminal communicating with the repeater or at a position close to the repeater. This communication error can be eliminated when the terminal is handed over to the repeater, or the wireless terminal communicating with the repeater is handed over to another base station or repeater.

Hereinafter, a wireless terminal and a repeater according to an embodiment of the present invention will be described with reference to the drawings.
<Embodiment>
FIG. 1 is a system diagram showing a system configuration of a communication system.
The communication system includes base stations 101 to 107, repeaters 201 to 204, and wireless terminals 301 to 304. The number of base stations, repeaters, and wireless terminals shown here is merely an example, and in actuality, there may be thousands or tens of thousands.

Each base station 101-107 is mutually connected via the network.
The repeater 201 is communicating with the base station 102 by establishing synchronization. The repeater 202 establishes communication with the base station 103 and communicates. The repeater 203 establishes synchronization with the base station 104 and communicates. The repeater 204 establishes synchronization with the base station 105 and communicates.
The wireless terminal 301 establishes communication with the base station 103 for communication. The wireless terminal 302 establishes synchronization with and communicates with the repeater 202. The wireless terminal 303 is communicating with the repeater 204 by establishing synchronization. The wireless terminal 304 is communicating with the repeater 202 by establishing synchronization.

In the following description, the base station may be described as BS (Base Station), the repeater as RS (Relay Station), and the wireless terminal as MS (Mobile Station). In addition, it is assumed that the base station, repeater, and wireless terminal have the conventional basic functions, and in this embodiment, features of the invention will be described mainly.
FIG. 2 is a functional block diagram showing the functional configuration of the base station. Each base station has the same functional configuration. Here, the base station 103 will be described as an example. As shown in FIG. 2, the base station 103 includes an upper communication unit 110, a control unit 120, a lower communication unit 130, and a storage unit 140.

The upper communication unit 110 is connected to a network (not shown) and has a function of executing communication with other base stations. In addition, it has a function of transmitting a signal addressed to a wireless terminal registered in the base station received from another base station to the lower communication unit 130 and a function of outputting the signal transmitted from the lower communication unit 130 to the network. .
The control unit 120 has a function of controlling each unit of the base station 103.

  The lower communication unit 130 includes an antenna 131 and has a function of executing communication with the wireless terminal and the repeater. The lower-level communication unit 130 is provided with a DL-MAP including information such as a band used for communication in a preamble and a downlink direction for each frame in order to establish synchronization with a repeater and a wireless terminal via an antenna 131, It is transmitted by including UL-MAP including information such as a band used for communication in the link direction.

  The storage unit 140 has a function of storing programs and data necessary for the operation of the base station 103 and stores a neighbor list 141. The neighbor list 141 is information indicating information on base stations and repeaters that are referred to as handover destination candidates when a wireless terminal or a repeater with which the base station 103 has established synchronization performs handover to another base station. is there. The neighbor list 141 is periodically transmitted to wireless terminals and repeaters under the control of the base station 103 under the instruction of the control unit 120.

The above is the description of the base station 103.
FIG. 3 is a functional block diagram showing the functional configuration of the repeater. Each repeater has the same functional configuration. Here, the repeater 202 will be described as an example. As shown in FIG. 3, the repeater 202 includes a donor unit 210 and a remote unit 220. The donor unit 210 has a function of executing communication with the base station 103. The remote unit 220 has a function of executing communication with the wireless terminal 301. The donor unit 210 and the remote unit 220 operate with the same clock supplied.

The donor unit 210 includes a first communication unit 211 and an activation control unit 214.
The first communication unit 211 includes an antenna 212 and a first synchronization establishment unit 213. The first communication unit 211 has a function of communicating with a base station via the antenna 212. The first communication unit 211 has a function of transmitting a signal received from the base station via the antenna 212 to the remote unit 220. Further, it has a function of transmitting a signal transmitted from the remote unit 220 to the base station via the antenna 212.

  The first synchronization establishing unit 213 holds a reference signal of the preamble, and in a state where synchronization with the base station is not established, a signal that matches the reference signal held among the signals received by the first communication unit Based on the MAP information (including information such as downlink frequency band, downlink burst allocation, uplink frequency band, uplink burst allocation, etc.) following the preamble, by detecting and identifying the preamble Has the function of establishing synchronization with.

The activation control unit 214 establishes synchronization with the base station by the first synchronization establishment unit 213, converts the timing when the preamble arrives from the base station and its period into the timing and period in its own operation clock, and converts the timing and period The second synchronization establishment unit 223 is notified, and the transmission of a frame including a preamble necessary for synchronization is instructed.
The remote unit 220 includes a second communication unit 221.

  The second communication unit 221 includes an antenna 222 and a second synchronization establishment unit 223. The second communication unit 221 has a function of executing communication with a wireless terminal connected to the remote unit via the antenna 222. The second communication unit 221 has a function of transmitting the signal transmitted from the first communication unit 211 to a wireless terminal designated via the antenna 222. In addition, it has a function of transmitting a signal received via the antenna 222 to the first communication unit 211.

  The second synchronization establishing unit 223 generates a preamble and MAP information to be included in each frame by the second communication unit 221 so that the preamble is transmitted at the same timing as the timing instructed from the activation control unit 214. The second communication unit 221 transmits a signal including the generated information at a timing notified from the activation control unit 214. When the preamble and the MAP information are received by the wireless terminal, various synchronization procedures are started, and the second synchronization establishing unit 223 negotiates with the wireless terminal as necessary to establish synchronization.

The above is the description of the repeater 202.
FIG. 4 is a functional block diagram illustrating a functional configuration of the wireless terminal. Each wireless terminal has the same functional configuration, and here, the wireless terminal 301 will be described as an example.
As illustrated in FIG. 4, the wireless terminal 301 includes a communication unit 310, a display unit 320, an audio processing unit 330, an operation unit 340, a storage unit 350, and a control unit 360.

  The communication unit 310 has a function of demodulating the reception signal received from the antenna 311 into a reception voice signal and a reception data signal, and outputting the demodulated reception voice signal and reception data signal to the control unit 360. The communication unit 310 also functions to modulate a transmission voice signal A / D converted by the voice processing unit 330 and a transmission data signal such as an e-mail given from the control unit 360 and output from the communication antenna 311. Have The communication unit 310 has a function of receiving a signal from a base station or a repeater and establishing synchronization with the base station or the repeater. The communication unit 310 calculates an error rate in communication with the base station, and requests a permission to execute handover to the communicating base station when the error rate exceeds a predetermined threshold Also have. When executing the handover, the base station or repeater is searched from the head registered in the neighbor list 351 with reference to the neighbor list 351 stored in the storage unit 350.

The display unit 320 includes a display realized by an LCD (Liquid Crystal Display) or the like, and has a function of displaying an image according to an instruction from the control unit 360 on the display.
The voice processing unit 330 performs D / A conversion on the received voice signal output from the communication unit 310 and outputs the received voice signal to the speaker 332, and A / D converts the transmission voice signal acquired from the microphone 331 to be converted. It has a function of outputting a signal to the control unit 360.

The operation unit 340 includes a numeric keypad group, an on-hook key, an off-hook key, a direction key, a determination key, a mail key, a side key, and the like, and has a function of receiving a user operation and outputting the received operation content to the control unit 360.
The storage unit 350 includes a ROM (Read Only Memory) and a RAM (Random Access Memory), and is realized by a small hard disk, a nonvolatile memory, or the like. The storage unit 350 has a function of storing music data, image data, and the like in addition to various data and programs necessary for the operation of the wireless terminal 301. The storage unit 350 stores a neighbor list 351 received from a base station or a repeater that has established synchronization. The neighbor list 351 is referred to by the communication unit 310 when the wireless terminal 301 executes a handover. The neighbor list 351 distributed from the base station or the repeater is registered in advance from the repeater to the base station as a handover destination device by an operator or the like. Since the communication unit 310 searches from the head device registered in the neighbor list 351, the wireless terminal 300 hands over preferentially to the repeater because the repeater is registered from the head in the neighbor list 351.

The control unit 360 is realized by, for example, a CPU (Central Processing Unit) and has a function of controlling each unit of the wireless terminal 301.
<Data>
FIG. 5 shows a neighbor list that is referred to during handover.
FIG. 5 shows a neighbor list held by the base station and repeater shown in FIG. 1, and a neighbor list held by the wireless terminal. In FIG. 5, a device holding a neighbor list and a neighbor list held by the device are shown in association with each other. Normally, a neighbor list is referred to when a communication device executes a handover. Therefore, what the base station holds should be called not the neighbor list but also the neighbor list source information. List it in a list.

  FIG. 5A shows a neighbor list held by the base station 103. In the neighbor list held by the base station 103, “RS202”, “RS201”, “BS101”, “BS102”, and “BS107” are registered as candidates for handover from the base station 103. Yes. The neighbor list is periodically distributed to repeaters and wireless terminals that have established synchronization with the base station 103.

As illustrated in FIG. 5C, the wireless terminal 301 that has established synchronization with the base station 103 holds a neighbor list having the same content as the base station 103.
FIG. 5B shows a neighbor list held by the repeater 202. The neighbor list is a neighbor list that is referred to when the repeater 202 itself performs handover, and at the same time is a neighbor list that is referred to when a wireless terminal synchronized with the repeater 202 performs handover.

  As shown in FIG. 5D, the wireless terminal 302 and the wireless terminal 304 synchronized with the repeater 202 hold a neighbor list having the same content as the neighbor list held by the repeater 202. The repeater 202, the wireless terminal 302, and the wireless terminal 304 hold a neighbor list in which “BS103”, “BS107”, and “BS102” are registered as handover destination candidates.

5 shows only the neighbor list held by some devices in the system diagram of FIG. 1, but all the devices shown in FIG. 1 hold the neighbor list.
The neighbor list is to be searched as a handover destination device in the order in which base stations or repeaters are registered. For example, in the neighbor list held by the wireless terminal 301, RS202, RS201, BS101, BS102, and BS107 are registered in this order, and the wireless terminal 301 selects a handover destination device according to this order when performing handover. Explore.
<Operation>
From here, operation | movement of the radio | wireless terminal in this Embodiment is demonstrated using the flowchart shown in FIG. Here, the wireless terminal 301 will be described as an example.

The communication unit 310 of the wireless terminal 301 communicates with the base station via the antenna 311 (step S601).
The communication unit 310 detects an error in communication with the base station using, for example, a CRC (Cyclic Redundancy Check) included in the received packet signal, and whether or not the error rate of the generated error exceeds a predetermined threshold value. Is detected (step S602).

If the error rate of the communication error does not exceed the predetermined threshold (NO in step S602), the communication unit 310 continues communication.
If the error rate of the communication error exceeds the predetermined threshold (YES in step S602), the communication unit 310 transmits a handover execution request to the communicating base station (step S603).

  When permission for the request is received from the base station (YES in step S604), the handover is executed with reference to the neighbor list 351 held in the storage unit 350. In the neighbor list 351, repeaters are prioritized in the search target order, and if the reception intensity of a signal from the searched repeater exceeds a predetermined threshold, the search is terminated at that point. And hand over to the repeater (step S605). If the reception intensity does not exceed the predetermined threshold, the search for a repeater or base station that transmits a signal exceeding the predetermined threshold is continued.

In step S604, if the handover permission is not received from the base station (NO in step S604), the process ends. In this case, a handover execution request may be transmitted to the base station again after a predetermined time.
The above is the operation of the wireless terminal when the wireless terminal performs handover.
As described above, the wireless terminal detects a communication error with its own base station and hands over to the repeater. However, there are times when a handover cannot be performed because the wireless terminal cannot obtain a handover permission from the base station. In this case, the communication terminal continuously communicates with the wireless terminal that establishes synchronization with the base station and communicates with the repeater that communicates with the repeater. Is not good.

Therefore, in preparation for such a situation, the repeater performs the following operation.
FIG. 7 is a flowchart showing processing when a wireless terminal cannot execute a handover as indicated by NO in step S604 of FIG. 6 and a communication error between the repeater and the wireless terminal continues. is there.
As shown in the system diagram of FIG. 1, the fact that the wireless terminal 301 is located close to the wireless terminal 302 means that the communication range of the repeater is considerably narrower than the communication range of the base station. It also leads to the close position. At this time, since the signal transmitted from the wireless terminal 301 to the base station is also received by the repeater 202, the wireless terminal becomes interference with the signal transmitted from the wireless terminal 302 or the wireless terminal 304 to the repeater 202. Communication errors between 302 and the repeater 202 and between the wireless terminal 304 and the repeater 202 are likely to occur.

Therefore, the repeater 202 detects an error in the communication while executing communication with the wireless terminal (step S701).
Whether the error rate of communication with each wireless terminal exceeds a predetermined threshold for signals received from all wireless terminals that have established synchronization with the own apparatus and are performing communication, with the second communication unit of repeater 202 (Step S702).

If the error rate of the communication error does not exceed the predetermined threshold (NO in step S702), the repeater 202 continues communication with the wireless terminal.
If the error rate of the communication error exceeds the predetermined threshold, the second communication unit transmits a handover execution instruction to all the wireless terminals that are performing communication (step S703). The wireless terminal that has received the handover execution instruction executes the handover with reference to the neighbor list held by the wireless terminal.

Thereby, the communication error which occurs when the wireless terminal communicating with the base station becomes close to the repeater can be eliminated.
<Supplement>
In the above embodiment, the method of implementing the present invention has been described, but it is needless to say that the embodiment of the present invention is not limited to this. Hereinafter, various modified examples included in the concept of the present invention other than the above embodiment will be described.
(1) In the above-described embodiment, error detection is performed using CRC. However, various methods have been conventionally used for error detection, and these methods may be used. . For example, the preamble may be unable to be specified due to a communication error during communication. However, in WiMAX communication, since the frame has a fixed length, the timing at which the preamble should come can be estimated, and therefore the preamble could not be received at that timing. It is good also as an error. Further, it may be detected as an error that the received electric field strength of the received signal is below a predetermined threshold.
(2) A control program composed of a program code for causing a processor such as a wireless terminal or a repeater and various circuits connected to the processor to execute the operation related to handover, the handover process, and the like shown in the above embodiment. It can also be recorded on a recording medium, or distributed and distributed via various communication paths. Such recording media include IC cards, hard disks, optical disks, flexible disks, ROMs, and the like. The distributed and distributed control program is used by being stored in a memory or the like that can be read by the processor, and the processor executes the control program, thereby realizing various functions as shown in the embodiment. Will come to be.

  The wireless terminal and the repeater according to the present invention can be used as a wireless terminal and a repeater that can perform a handover when a communication error continues to prevent communication from being interrupted as much as possible.

1 is a system diagram showing a system configuration of a communication system. It is the functional block diagram which showed the function structure of the base station. It is the functional block diagram which showed the function structure of the repeater. It is the functional block diagram which showed the function structure of the radio | wireless terminal. It is a figure which shows the neighbor list which each apparatus shown in the system diagram of FIG. 1 hold | maintains. (A) is a neighbor list held by the base station 103, (b) is a neighbor list held by the repeater 202, (c) is a neighbor list held by the wireless terminal 301, and (d) is a wireless list. The neighbor lists held by the terminals 302 and 304 are shown. 6 is a flowchart showing operations related to handover of a radio terminal according to the present embodiment. It is the flowchart which showed the operation | movement of the repeater which concerns on this Embodiment. It is a figure which shows communication with a base station and a radio | wireless terminal. It is a figure which shows communication in case a repeater relays communication with a base station and a radio | wireless terminal. It is a figure for demonstrating the interference which may occur when a base station and a radio | wireless terminal and a repeater and a radio | wireless terminal communicate. It is a figure for demonstrating the interference which may occur when the control which shifts a frame is performed so that interference may not occur.

Explanation of symbols

101-107 Base station 110 Upper communication unit 120 Control unit 130 Lower communication unit 131 Antenna 140 Storage unit 141 Neighbor list 201-204 Repeater 210 Donor unit 211 First communication unit 212 Antenna 213 First synchronization establishment unit 214 Activation control unit 220 Remote Unit 221 second communication unit 222 antenna 223 second synchronization establishment unit 301 to 304 wireless terminal 310 communication unit 311 antenna 320 display unit 330 voice processing unit 331 microphone 332 speaker 340 operation unit 350 storage unit 351 neighbor list 360 control unit

Claims (1)

A wireless terminal in a communication system including a base station, a repeater, and a wireless terminal,
The wireless terminal is
Communication means;
Detecting means for detecting an error in communication;
Storage means for storing a neighbor list which is information indicating a repeater and a base station that are candidates for handover of the terminal;
When synchronization with the base station is established, if the error rate of the error detected by the detection means exceeds a predetermined threshold, a handover to a repeater or base station included in the neighbor list is executed. Execution means to perform,
The execution means includes
Request means for requesting permission for execution of handover to the base station with which the terminal has established synchronization;
Receiving means for receiving a permission signal indicating permission for the request from the base station;
Search means for searching for a repeater or a base station shown in the neighbor list when the accepting means accepts a permission signal;
The repeater and the base station registered in the neighbor list are determined so that the priority of the handover of the wireless terminal is higher for the repeater than for the base station,
The search means searches for a repeater or a base station according to the priority order,
The radio terminal characterized in that the execution means hands over to the searched repeater if the signal strength of the signal received from the repeater searched by the search means is not less than a predetermined value .

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