JP2005328286A - Radio communications system - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To obtain a radio communications system capable of obtaining a high precision test result of a terminal station, even if there is another terminal station conducting wireless communicating with a base station, in addition to the terminal station to be tested when the terminal station to be tested and the base station send and receive a test signal. <P>SOLUTION: When the subscriber terminal station 3 and base station 1 conduct a test of a wireless channel, while the subscriber terminal station 2 and the base station 1 communicate data by wireless, radio wave sent from the subscriber terminal station 2, that the base station 1 is communicating with, is temporarily stopped and then the subscriber terminal station 3 and base station 1 send and receive the test signal. <P>COPYRIGHT: (C)2006,JPO&NCIPI

Description

  The present invention relates to a wireless communication system in which a base station and a terminal station perform wireless communication of data using a wireless line, and in particular, a terminal station and a base station other than a terminal station that performs wireless communication with a base station The present invention relates to a wireless communication system for performing a wireless line test.

In a wireless communication system in which a base station and a terminal station perform wireless communication of data using a wireless line, the terminal station often has a directional antenna. It is necessary to adjust the installation position and the direction of the directional antenna.
In other words, since the quality of the radio link with the base station changes depending on the installation position of the terminal station and the direction of the directional antenna, it is necessary to select the installation position and the direction of the directional antenna with the best quality of the radio link. is there.

  Patent Document 1 below discloses a wireless communication system in which when a terminal station is installed, the terminal station and the base station transmit and receive a test signal to test the wireless line (check the state of the wireless line). .

JP 2000-84237 A (paragraph numbers [0020] to [0030], FIG. 1)

  Since the conventional wireless communication system is configured as described above, when a test target terminal station and a base station transmit and receive a test signal, there is another terminal station that performs wireless communication with the base station. In this case, the radio wave transmitted from another terminal station becomes an interference wave, and the test target terminal station and the base station cannot receive the test signal correctly, and the test accuracy of the radio line may deteriorate. There were issues such as.

  The present invention has been made to solve the above-described problems. When a test target terminal station and a base station transmit and receive a test signal, another terminal station that performs wireless communication with the base station An object of the present invention is to obtain a wireless communication system capable of obtaining a highly accurate test result even if it exists.

  In the wireless communication system according to the present invention, when a base station and a terminal station other than the currently communicating terminal station perform a wireless circuit test, the radio wave transmitted from the currently communicating terminal station is temporarily stopped, A terminal station other than the currently communicating terminal station and the base station transmit and receive test signals.

  According to the present invention, when a terminal station other than a communicating terminal station and a base station perform a radio link test, the radio wave transmitted from the communicating terminal station is temporarily stopped, and then the communicating communication is performed. Since the terminal station and the base station other than the terminal station are configured to transmit and receive the test signal, when the test target terminal station and the base station transmit and receive the test signal, another base station that performs wireless communication with the base station Even when a terminal station exists, there is an effect that a highly accurate test result can be obtained.

Embodiment 1 FIG.
FIG. 1 is a block diagram showing a wireless communication system according to Embodiment 1 of the present invention. In FIG. 1, a base station 1 performs wireless communication of data with a subscriber terminal station 2 using a wireless line, A test signal is transmitted / received to / from the subscriber terminal station 3 to test the radio line.
The subscriber terminal station 2 performs wireless communication of data with the base station 1 using a wireless line. The subscriber terminal station 3 transmits / receives a test signal to / from the base station 1 at the time of installation, for example.
In the first embodiment, the subscriber terminal station in communication is only the subscriber terminal station 2, but two or more subscriber terminal stations may be in communication.

The I / F unit 11 of the subscriber terminal stations 2 and 3 inputs data to be transmitted from the outside and performs termination processing, while outputting data transmitted from the base station 1 to the outside.
The baseband unit 12 of the subscriber terminal stations 2 and 3 generates a control signal under the instruction of the control unit 15 and is output from the control signal and the I / F unit 11 at the timing instructed by the control unit 15. Data is framed, and packet data as a result of the framing is output to the transmission / reception unit 13. Further, the baseband unit 12 generates a test signal under the instruction of the control unit 15 when framing the wireless line, frames the test signal, and transmits / receives packet data as a result of the framing. 13 is output. Further, the baseband unit 12 deframes the packet data demodulated by the transmission / reception unit 13, outputs a control signal included in the packet data to the control unit 15, and transmits the data included in the packet data. Output to the I / F unit 11.

Under the instruction of the control unit 15, the transmission / reception unit 13 of the subscriber terminal stations 2 and 3 modulates and amplifies the packet data output from the baseband unit 12, and transmits a radio wave as a modulation signal of the packet data to the antenna 14. Make a call from. In addition, the transmission / reception unit 13 demodulates the radio wave received by the antenna 14 and outputs packet data that is a demodulated signal to the baseband unit 12.
The antennas 14 of the subscriber terminal stations 2 and 3 transmit radio waves to the base station 1 while receiving radio waves transmitted from the base station 1.
The control unit 15 of the subscriber terminal stations 2 and 3 controls processing of the I / F unit 11, the baseband unit 12, and the transmission / reception unit 13.

The antenna 21 of the base station 1 receives radio waves transmitted from the subscriber terminal stations 2 and 3, while transmitting radio waves to the subscriber terminal stations 2 and 3.
The transmission / reception unit 22 of the base station 1 demodulates the radio wave received by the antenna 21 under the instruction of the control unit 25 and outputs the demodulated signal packet data to the baseband unit 23. Further, the transmission / reception unit 22 modulates and amplifies the packet data output from the baseband unit 23, and transmits a radio wave, which is a modulated signal of the packet data, from the antenna 21.

  Under the instruction of the control unit 25, the baseband unit 23 of the base station 1 deframes the packet data demodulated by the transmission / reception unit 22 and outputs a control signal included in the packet data to the control unit 25. Data included in the packet data is output to the I / F unit 24. Further, the baseband unit 23 monitors the test signal included in the packet data under the instruction of the control unit 25 and confirms the channel status of the radio channel. Further, the baseband unit 23 generates a control signal under the instruction of the control unit 25, frames the control signal and the data output from the I / F unit 24 at the timing instructed by the control unit 25, The packet data as the framing result is output to the transmission / reception unit 22.

The I / F unit 24 of the base station 1 outputs data transmitted from the subscriber terminal stations 2 and 3 to the outside, and inputs data to be transmitted from the outside to perform termination processing.
The control unit 25 of the base station 1 controls processing of the transmission / reception unit 22, the baseband unit 23, and the I / F unit 24.
2 and 3 are explanatory views showing wireless communication between the base station 1 and the subscriber terminal stations 2 and 3. However, FIG. 2 shows a case where radio waves interfere, and FIG. 3 shows a case where radio waves do not interfere.

Next, the operation will be described.
First, a case where the base station 1 and the subscriber terminal station 2 perform wireless data communication using a wireless line will be described.
When the subscriber terminal station 2 transmits data to the base station 1, the I / F unit 11 of the subscriber terminal station 2 inputs data to be transmitted from the outside and performs termination processing.

When the I / F unit 11 inputs data to be transmitted from the outside, the baseband unit 12 of the subscriber terminal station 2 generates a control signal under the instruction of the control unit 15 and the timing instructed by the control unit 15 Then, the control signal and the data to be transmitted are framed, and the packet data as the framing result is output to the transmission / reception unit 13.
Upon receiving packet data from the baseband unit 12, the transmission / reception unit 13 of the subscriber terminal station 2 modulates and amplifies the packet data under the instruction of the control unit 15, and the radio wave that is a modulation signal of the packet data Is transmitted from the antenna 14.

When the antenna 21 receives the radio wave transmitted from the subscriber terminal station 2, the transceiver unit 22 of the base station 1 demodulates the radio wave and outputs the demodulated packet data to the baseband unit 23. .
When receiving the packet data from the transmission / reception unit 22, the baseband unit 23 of the base station 1 deframes the packet data under the instruction of the control unit 25, and sends the control signal included in the packet data to the control unit 25. And the data included in the packet data is output to the I / F unit 24.
When receiving data from the baseband unit 23, the I / F unit 24 of the base station 1 outputs the data to the outside.

Next, when the base station 1 transmits data to the subscriber terminal station 2, the I / F unit 24 of the base station 1 inputs data to be transmitted from the outside and performs termination processing.
When the I / F unit 24 inputs data to be transmitted from the outside, the baseband unit 23 of the base station 1 generates a control signal under the instruction of the control unit 25, and at the timing instructed by the control unit 25, The control signal and data to be transmitted are framed, and the packet data as the framing result is output to the transmission / reception unit 22.
When receiving the packet data from the baseband unit 23, the transmission / reception unit 22 of the base station 1 modulates and amplifies the packet data under the instruction of the control unit 25, and transmits a radio wave as a modulation signal of the packet data to the antenna. 21 to make a call.

When the antenna 14 receives the radio wave transmitted from the base station 1, the transmitter / receiver 13 of the subscriber terminal station 2 demodulates the radio wave and outputs the demodulated packet data to the baseband unit 12. .
When receiving the packet data from the transmission / reception unit 13, the baseband unit 12 of the subscriber terminal station 2 deframes the packet data under the instruction of the control unit 15 and controls the control signal included in the packet data. In addition to outputting to the unit 15, the data included in the packet data is output to the I / F unit 11.
When receiving data from the baseband unit 12, the I / F unit 11 of the subscriber terminal station 2 outputs the data to the outside.

As described above, when the base station 1 and the subscriber terminal station 2 are performing data wireless communication, the subscriber terminal station 3 transmits the radio wave of the test signal to the base station 1 in order to test the wireless line. When transmitting, as shown in FIG. 2, the base station 1 receives the radio wave of the normal signal transmitted from the subscriber terminal station 2 and the radio wave of the test signal transmitted from the subscriber terminal station 3 at the same time. May be.
Therefore, when the base station 1 receives the radio wave of the test signal transmitted from the subscriber terminal station 3, the radio wave of the normal signal transmitted from the subscriber terminal station 2 becomes an interference wave, and the radio line test is performed. Accuracy deteriorates.

Therefore, in the first embodiment, when the subscriber terminal station 3 transmits the radio wave of the test signal, the radio signal of the normal signal transmitted from the subscriber terminal station 2 is temporarily stopped and the normal signal is transmitted. So that the radio wave of the camera does not become a jamming wave.
Specifically, it is as follows.

When the base station 1 and the subscriber terminal station 2 are performing wireless data communication, the baseband unit 12 of the subscriber terminal station 3 is required when the subscriber terminal station 3 needs to test the wireless channel. However, under the instruction of the control unit 15, the control signal C 1 indicating “test start request” is generated, the control signal C 1 is framed, and the packet data as the framing result is output to the transmission / reception unit 13.
When receiving / transmitting packet data including the control signal C1 from the baseband unit 12, the transmission / reception unit 13 of the subscriber terminal station 3 modulates and amplifies the packet data including the control signal C1 under the instruction of the control unit 15. . Then, as shown in FIG. 3, a radio wave that is a modulated signal of packet data including the control signal C <b> 1 is transmitted from the antenna 14.

In addition, when the subscriber terminal station 3 transmits a radio wave of packet data including the control signal C1 to the base station 1 using the data channel, the subscriber terminal station 3 receives the radio wave at a timing when the base station 1 receives the radio wave. When a normal signal radio wave is transmitted from 2 (the radio signal of the normal signal is transmitted using a data channel), there is a risk of causing radio wave interference, but when radio wave interference occurs, The subscriber terminal station 3 may retransmit the radio wave of the packet data including the control signal C1 to the base station 1.
On the other hand, when the subscriber terminal station 3 transmits the radio wave of the packet data including the control signal C1 to the base station 1, for example, if the transmission is performed using the control channel, the base station 1 Even if a radio signal of a normal signal is transmitted from the subscriber terminal station 2 at the timing of receiving the radio wave, there is no possibility of causing interference of the radio wave.

When the antenna 21 receives the radio wave transmitted from the subscriber terminal station 3, the transceiver unit 22 of the base station 1 demodulates the radio wave and transmits packet data including the control signal C1 that is the demodulated signal to the baseband. To the unit 23.
When the baseband unit 23 of the base station 1 receives the packet data including the control signal C1 from the transmission / reception unit 22, the baseband unit 23 deframes the packet data under the instruction of the control unit 25, and the control included in the packet data The signal C1 is output to the control unit 25.
When receiving the control signal C <b> 1 from the baseband unit 23, the control unit 25 of the base station 1 outputs a generation command for the control signal C <b> 2 indicating the “transmission stop command” to the baseband unit 23.

When the baseband unit 23 of the base station 1 receives the generation command of the control signal C2 from the control unit 25, the baseband unit 23 generates the control signal C2 indicating the “transmission stop command”, frames the control signal C2, and the framing result Is output to the transmission / reception unit 22.
When receiving the packet data including the control signal C2 from the baseband unit 23, the transmission / reception unit 22 of the base station 1 modulates and amplifies the packet data including the control signal C2 under the instruction of the control unit 25. Then, as shown in FIG. 3, a radio wave that is a modulated signal of packet data including the control signal C <b> 2 is transmitted from the antenna 21.

When the antenna 14 receives the radio wave transmitted from the base station 1, the transmitter / receiver 13 of the subscriber terminal station 2 demodulates the radio wave and transmits the packet data including the control signal C2, which is the demodulated signal, to the baseband. To the unit 12.
When receiving the packet data including the control signal C2 from the transmission / reception unit 13, the baseband unit 12 of the subscriber terminal station 2 deframes the packet data under the instruction of the control unit 15 and is included in the packet data. The control signal C2 is output to the control unit 15.
When receiving the control signal C2 from the baseband unit 12, the control unit 15 of the subscriber terminal station 2 controls the I / F unit 11, the baseband unit 12, and the transmission / reception unit 13 as shown in FIG. Temporarily stop transmission of radio waves.

When the subscriber terminal station 2 temporarily stops transmitting radio waves as described above, the baseband unit 12 of the subscriber terminal station 3 generates a test signal under the instruction of the control unit 15, and The test signal is framed, and the packet data as the framing result is output to the transmission / reception unit 13.
When receiving / transmitting packet data including a test signal from the baseband unit 12, the transmitting / receiving unit 13 of the subscriber terminal station 3 modulates and amplifies the packet data including the test signal under the instruction of the control unit 15. Then, as shown in FIG. 3, a radio wave that is a modulated signal of packet data including the test signal is transmitted from the antenna 14.

When the antenna 21 receives a radio wave transmitted from the subscriber terminal station 3, the transceiver unit 22 of the base station 1 demodulates the radio wave and transmits packet data including a test signal as a demodulated signal to the baseband unit. To 23.
When receiving the packet data including the test signal from the transmission / reception unit 22, the baseband unit 23 of the base station 1 deframes the packet data under the instruction of the control unit 25, and the test signal included in the packet data To check the line status of the radio line.

The baseband unit 23 of the base station 1 also generates a test signal under the instruction of the control unit 25 when the subscriber terminal station 2 temporarily stops transmitting radio waves as described above. The test signal is framed, and the packet data as the framing result is output to the transmission / reception unit 22.
When receiving the packet data including the test signal from the baseband unit 23, the transmission / reception unit 22 of the base station 1 modulates and amplifies the packet data including the test signal under the instruction of the control unit 25. Then, as shown in FIG. 3, a radio wave that is a modulated signal of packet data including the test signal is transmitted from the antenna 21.

When the antenna 14 receives a radio wave transmitted from the base station 1, the transmitter / receiver 13 of the subscriber terminal station 3 demodulates the radio wave and transmits packet data including a test signal as a demodulated signal to the baseband unit. 12 is output.
When receiving the packet data including the test signal from the transmission / reception unit 13, the baseband unit 12 of the subscriber terminal station 3 deframes the packet data under the instruction of the control unit 15 and is included in the packet data. Extract the test signal and check the channel status of the radio channel.

  In the first embodiment, when the subscriber terminal station 2 temporarily stops transmission of radio waves, the subscriber terminal station 3 transmits packet data including a test signal to the base station 1, and the base station 1 wirelessly transmits. Although the line status of the line is confirmed, and the base station 1 transmits packet data including a test signal to the subscriber terminal station 3, the subscriber terminal station 3 confirms the line status of the radio line. When the subscriber terminal station 3 transmits packet data including a test signal to the base station 1, the base station 1 does not transmit packet data including the test signal to the subscriber terminal station 3 (at another opportunity). It is also possible to transmit only packet data including a test signal) and to confirm the channel status of the radio channel. When the base station 1 transmits packet data including a test signal to the subscriber terminal station 3, the subscriber terminal station 3 does not transmit packet data including the test signal to the base station 1 (another opportunity). The packet data including the test signal may be transmitted to the mobile phone), and only the state of the wireless line may be checked.

Here, the baseband unit 23 of the base station 1 and the baseband unit 12 of the subscriber terminal station 3 are, for example, wireless channels when the number of packet data including received test signals is less than a preset number. It is determined that the channel status of the radio channel is poor, and if the number is higher than the preset number, it is determined that the channel status of the radio channel is good.
Or, when the received electric field level of the packet data including the received test signal is less than the preset electric field level, it is determined that the radio channel status is poor and is higher than the preset electric field level. It is determined that the line condition of the wireless line is good.
Note that when checking the status of the radio link based on the number of packet data including the test signal and the received electric field level, the contents of the test signal may be anything, but the radio channel link is determined based on the bit error rate of the test signal. In order to check the situation, it is necessary to transmit / receive a test signal having a preset pattern.

When the baseband unit 12 confirms the channel status of the radio channel, the control unit 15 of the subscriber terminal station 3 outputs a generation command for the control signal C3 indicating “test completion report” to the baseband unit 12.
When the baseband unit 12 of the subscriber terminal station 3 receives the generation command of the control signal C3 from the control unit 15, the baseband unit 12 generates the control signal C3 indicating “test completion report”, frames the control signal C3, The packet data as the framing result is output to the transmission / reception unit 13.
When receiving / transmitting packet data including the control signal C3 from the baseband unit 12, the transmitting / receiving unit 13 of the subscriber terminal station 3 modulates and amplifies the packet data including the control signal C3 under the instruction of the control unit 15. . Then, as shown in FIG. 3, a radio wave that is a modulated signal of packet data including the control signal C3 is transmitted from the antenna.

When the antenna 21 receives the radio wave transmitted from the subscriber terminal station 3, the transceiver unit 22 of the base station 1 demodulates the radio wave and transmits the packet data including the control signal C3, which is the demodulated signal, to the baseband. To the unit 23.
When receiving the packet data including the control signal C3 from the transmission / reception unit 22, the baseband unit 23 of the base station 1 deframes the packet data under the instruction of the control unit 25, and the control included in the packet data The signal C3 is output to the control unit 25.
When receiving the control signal C3 from the baseband unit 23, the control unit 25 of the base station 1 outputs a generation command for the control signal C4 indicating the “transmission stop cancellation command” to the baseband unit 23.

When the baseband unit 23 of the base station 1 receives the generation command of the control signal C4 from the control unit 25, the baseband unit 23 generates the control signal C4 indicating the “transmission stop cancellation command”, and frames the control signal C4. The packet data as a result is output to the transmission / reception unit 22.
When receiving the packet data including the control signal C4 from the baseband unit 23, the transmission / reception unit 22 of the base station 1 modulates and amplifies the packet data including the control signal C4 under the instruction of the control unit 25. Then, as shown in FIG. 3, a radio wave that is a modulated signal of packet data including the control signal C4 is transmitted from the antenna 21.

When the antenna 14 receives the radio wave transmitted from the base station 1, the transmitter / receiver 13 of the subscriber terminal station 2 demodulates the radio wave and transmits the packet data including the control signal C4, which is the demodulated signal, to the baseband. To the unit 12.
When receiving the packet data including the control signal C4 from the transmission / reception unit 13, the baseband unit 12 of the subscriber terminal station 2 deframes the packet data under the instruction of the control unit 15 and is included in the packet data. The control signal C4 is output to the control unit 15.
When receiving the control signal C4 from the baseband unit 12, the control unit 15 of the subscriber terminal station 2 controls the I / F unit 11, the baseband unit 12, and the transmission / reception unit 13 as shown in FIG. Release the radio wave transmission stop.
Thereby, the wireless communication between the subscriber terminal station 2 and the base station 1 is resumed.

  As is apparent from the above, according to the first embodiment, when the subscriber terminal station 2 and the base station 1 are performing data wireless communication, the subscriber terminal station 3 and the base station 1 When the test is performed, the radio wave transmitted from the subscriber terminal station 2 with which the base station 1 is communicating is temporarily stopped, and then the subscriber terminal station 3 and the base station 1 transmit and receive a test signal. Since the subscriber terminal station 3 and the base station 1 transmit and receive a test signal, the test result with high accuracy can be obtained even when the subscriber terminal station 2 that is performing radio communication with the base station 1 exists. There is an effect that can be obtained.

Embodiment 2. FIG.
In the first embodiment, when the subscriber terminal station 2 and the base station 1 are performing data wireless communication, when the subscriber terminal station 3 and the base station 1 perform a radio channel test, the base station 1 Has been shown that the terminal station 3 and the base station 1 transmit and receive test signals after temporarily stopping the radio wave transmitted from the subscriber terminal station 2 during communication. When the normal signal transmitted from the terminal station 2 is a signal having real-time characteristics, for example, an audio signal, the radio wave transmitted from the subscriber terminal station 2 is stopped for a long time as shown in FIG. The sound may be interrupted.

Therefore, in the second embodiment, in order to ensure the real-time property of the normal signal, as shown in FIG. 4, the radio wave transmitted from the subscriber terminal station 2 with which the base station 1 is communicating is intermittently stopped. During the period when the transmission of the radio wave is stopped, the subscriber terminal station 3 and the base station 1 transmit and receive test signals.
Specifically, it is as follows.

The subscriber terminal station 3 and the base station 1 divide the test signal to be transmitted so as to shorten one transmission time in order not to stop the radio wave transmitted from the subscriber terminal station 2 for a long time.
That is, the subscriber terminal station 3 transmits packet data including the control signal C1 indicating the “test start request” to the base station 1 when transmitting and receiving the divided signal of the test signal. In the example of FIG. 4, packet data including the control signal C1 is transmitted four times.

Each time the base station 1 receives packet data including the control signal C1 from the subscriber terminal station 3, the base station 1 transmits packet data including the control signal C2 indicating the “transmission stop command” to the subscriber terminal station 2.
As a result, when the subscriber terminal station 2 stops transmission of radio waves, the subscriber terminal station 3 and the base station 1 transmit and receive packet data including a divided signal of the test signal, and perform a test on the radio line.

When the subscriber terminal station 3 completes transmission / reception of packet data including the divided signal of the test signal with the base station 1, the subscriber terminal station 3 transmits packet data including the control signal C 3 indicating “test completion report” to the base station 1.
When the base station 1 receives the packet data including the control signal C3 from the subscriber terminal station 3, the base station 1 transmits the packet data including the control signal C4 indicating the “transmission stop cancellation command” to the subscriber terminal station 2.
Thereby, the subscriber terminal station 2 resumes transmission of radio waves.
In the example of FIG. 4, the above process is repeated four times to complete the wireless line test.

  As is apparent from the above, according to the second embodiment, every time a test start request is repeatedly received from the subscriber terminal station 3, a transmission stop command for instructing to stop transmitting radio waves is sent to the subscriber terminal station 2. After transmission, a transmission stop cancellation command for instructing to resume transmission of radio waves is transmitted to the subscriber terminal station 2, and when the radio signal of the normal signal transmitted from the subscriber terminal station 2 is stopped, the subscriber Since the terminal station 3 and the base station 1 transmit and receive the test signal and perform the test of the wireless line, when the subscriber terminal station 3 and the base station 1 transmit and receive the test signal, the base station 1 and the base station 1 wirelessly Even when there is a subscriber terminal station 2 performing communication, it is possible to obtain a highly accurate test result and to ensure real-time characteristics of a normal signal transmitted from the subscriber terminal station 2 Play.

Embodiment 3 FIG.
In the second embodiment, every time a test start request is repeatedly received from the subscriber terminal station 3, a transmission stop command for instructing to stop transmitting radio waves is transmitted to the subscriber terminal station 2, and then transmission of radio waves is performed. When a transmission stop cancellation command instructing resumption is transmitted to the subscriber terminal station 2 and the radio signal of the normal signal transmitted from the subscriber terminal station 2 is stopped, the subscriber terminal station 3 and the base station 1 test As shown in FIG. 5, when the base station 1 receives a test start request from the subscriber terminal station 3, it instructs to stop transmitting radio waves. When a transmission stop command and a transmission stop cancellation command for instructing to resume transmission of radio waves are alternately transmitted to the subscriber terminal station 2 and the radio wave transmitted from the subscriber terminal station 2 is stopped, the subscriber terminal station 3 and base station 1 send and receive test signals It may be carried out testing of radio channel.

That is, in the second embodiment, each time the subscriber terminal station 3 transmits / receives a divided signal of the test signal, packet data including the control signal C1 indicating “test start request” is transmitted to the base station 1. However, in the third embodiment, as shown in FIG. 5, the packet data including the control signal C1 indicating that the subscriber terminal station 3 indicates “test start request” is sent to the base station 1 only once. When the base station 1 receives the packet data including the control signal C1 and transmits the packet data including the control signal C2 indicating the “transmission stop command” a predetermined number of times (four times in the example of FIG. 5), Packet data including a control signal C4 indicating a “release command” is alternately transmitted to the subscriber terminal station 2.
Also in this case, as in the second embodiment, the real-time property of the normal signal transmitted from the subscriber terminal station 2 can be ensured.

  In the first to third embodiments, the subscriber terminal station 3 transmits packet data including the control signal C3 indicating “transmission completion report” to the base station 1, and the base station 1 issues a “transmission stop release command”. The packet data including the control signal C4 is transmitted to the subscriber terminal station 2. However, if the base station 1 and the subscriber terminal station 2 have built-in timers, the base station 1 sends a “transmission stop command”. The elapsed time since the transmission of the packet data including the control signal C2 indicating the transmission time is counted, and the elapsed time since the subscriber terminal station 2 received the packet data including the control signal C2 indicating the “transmission stop command” is calculated. Since transmission is possible, transmission of packet data including the control signal C3 indicating “transmission completion report” and transmission of packet data including the control signal C4 indicating “transmission stop cancellation command” is omitted. It may be.

BRIEF DESCRIPTION OF THE DRAWINGS It is a block diagram which shows the radio | wireless communications system by Embodiment 1 of this invention. It is explanatory drawing which shows the radio | wireless communication between a base station and a subscriber terminal station in case a radio wave interferes. It is explanatory drawing which shows the radio | wireless communication between a base station and a subscriber terminal station when a radio wave does not interfere. It is explanatory drawing which shows the radio | wireless communication between a base station and a subscriber terminal station when a radio wave does not interfere. It is explanatory drawing which shows the radio | wireless communication between a base station and a subscriber terminal station when a radio wave does not interfere.

Explanation of symbols

  1 base station, 2 subscriber terminal station, 3 subscriber terminal station, 11 I / F unit, 12 baseband unit, 13 transceiver unit, 14 antenna, 15 control unit, 21 antenna, 22 transceiver unit, 23 baseband unit, 24 I / F unit, 25 control unit.

Claims (5)

  In a wireless communication system in which a base station and a terminal station perform wireless data communication using a wireless line, a terminal station other than the terminal station that performs wireless communication with the base station and the base station When carrying out a test, the base station and the terminal station other than the communicating terminal station transmit and receive a test signal after temporarily stopping radio waves transmitted from the communicating terminal station Wireless communication system.   When the base station receives a test start request from a terminal station other than the currently communicating terminal station, the base station transmits a transmission stop command instructing to stop transmission of radio waves to the communicating terminal station, and then other than the communicating terminal station. A test signal is transmitted / received to / from a terminal station to perform a radio link test, and after the test is completed, a transmission stop cancellation command instructing to resume transmission of radio waves is transmitted to the communicating terminal station. Item 2. A wireless communication system according to Item 1.   In a wireless communication system in which a base station and a terminal station perform wireless data communication using a wireless line, a terminal station other than the terminal station that performs wireless communication with the base station and the base station When conducting a test, radio waves transmitted from the communicating terminal station are intermittently stopped, and during a period in which the transmission of the radio wave is stopped, a terminal station other than the communicating terminal station and the base station Transmits and receives a test signal.   Each time the base station repeatedly receives a test start request from a terminal station other than the communicating terminal station, the base station transmits a transmission stop command instructing to stop transmitting radio waves to the communicating terminal station, and then transmits the radio waves. A transmission stop cancellation command instructing restart is transmitted to the communicating terminal station, and when the radio wave transmitted from the communicating terminal station is stopped, the terminal station other than the communicating terminal station and the base station 4. The wireless communication system according to claim 3, wherein the station transmits and receives a test signal to perform a test on the wireless line.   When the base station receives a test start request from a terminal station other than the currently communicating terminal station, the base station issues a transmission stop command for instructing to stop radio wave transmission and a transmission stop cancellation command for instructing to resume radio wave transmission. When the radio wave transmitted from the communicating terminal station is stopped, the terminal station other than the communicating terminal station and the base station transmit and receive a test signal to test the radio line. The wireless communication system according to claim 3, wherein the wireless communication system is implemented.

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