JP2005217565A - Wireless transmission apparatus - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide an apparatus informing both terminal stations connected via a wireless transmission path about a fault in a wired transmission path or a fault in the wireless transmission path in one station so as to be suitable for a network configuration taking a redundant configuration between the terminal stations. <P>SOLUTION: The wireless transmission apparatus is provided with: a function of forcibly interrupting the data link of the wired transmission path connected to two wireless transmission apparatuses opposed to each other via the wireless transmission path, respectively, on the occurrence of a fault in either of the wireless transmission paths of uplink or downlink; a function of forcibly interrupting the data link of the wired transmission path connected to an opposite station when either of data links is interrupted in the wired transmission paths connected to the two wireless transmission apparatuses opposed to each other via the wireless transmission path, respectively; and a circuit for avoiding a problem of disabled restoration to a normal state by informing an opposite station about information of link interruption of its own station so as to make both the stations forcibly interrupt the link of their own when the link of its own station is forcibly interrupted owing to link interruption of the opposite station. <P>COPYRIGHT: (C)2005,JPO&NCIPI

Description

  According to the present invention, an interface signal standardized by IEEE 802.3 (hereinafter referred to as a LAN signal) received from a wired transmission path is sent to the opposite station on a one-to-one basis via the wireless transmission path, and then wired again at the opposite station. The present invention relates to a wireless transmission device that outputs to a transmission line.

  Hereinafter, the background art described above will be described. In addition, there exists the following patent document 1 as prior art document information relevant to the said background art. Please refer to it if necessary.

  In general LAN data communication, bidirectional communication must be established. Therefore, in a network in which a LAN signal is transmitted / received using a wireless transmission path as a part of the transmission path, either one of the transmission / reception wireless transmission paths When a failure occurs in the network, a function of notifying the failure to the network devices connected to both ends of the transmission path is desired.

  In addition, LAN communication via the wireless transmission path is established if both of the wireless transmission apparatuses facing each other via the wireless transmission path have not established a data link with each network device connected to the wireless transmission apparatus. Therefore, when the data link is disconnected between one of the wireless transmission devices and the network device connected to the wireless transmission device via the LAN, the wireless transmission device is connected to the opposite wireless transmission device via radio. It is necessary to disconnect the data link to the network device.

  As means for solving such a problem, for example, referring to the following Patent Document 1, in a LAN converter that performs signal conversion between a twisted pair interface and an optical fiber interface, the broken link of the twisted pair is detected and light is transmitted. A method has been proposed in which an abnormality notification signal is sent to the fiber, and an abnormality notification is sent to the network device connected to the LAN converter by detecting the disconnection of the optical fiber and stopping the power supply to the paired interface. ing.

JP 2000-324153 A

  However, the above method has the following problems.

  First, in the network configuration as shown in FIG. 5, when a failure occurs in the optical fiber 504, the optical converter 506 detects the failure in the optical fiber 504 and disconnects the link of the twisted pair 507 to the switching HUB 508. However, there is no means for notifying the switching HUB 501 arranged in the data transmission direction of the optical fiber 505 in which no failure has occurred, and the switching HUB 501 and the switching HUB 508 However, there is a problem that the switching HUB 501 is not notified of a failure even though normal communication cannot be performed.

  When the link break occurs in the twisted pair 502, the optical converter 503 notifies the optical converter 506 of an abnormality by reducing the transmission power of the optical fiber 504 to a certain value or less, and the optical converter 506 is connected to the twisted pair 507. By disconnecting the link, it is possible to notify the switching HUB 508 of an abnormality in the transmission path. However, in a series of operations from the return of the link of the pair 502 to the return of the link of the pair 507 When the transmission power of the optical fiber 504 is restored and the optical converter 506 cancels the link disconnection control of the paired wire 507, the optical converter 506 that detects the disconnection of the paired wire 507 keeps the transmission power of the optical fiber 505 constant. Control to drop the value below the value is performed, and the link break control of the twisted pair 502 and the twisted pair 507 is alternately repeated. Is, there is a problem that can not be restored to the normal state.

  An object of the present invention is to provide a wireless transmission device including a link control circuit that solves the above-described problems.

The wireless transmission device (1a) according to claim 1 is connected to the opposite station wireless transmission device (1b) via the uplink and downlink wireless transmission channels (3, 4), and via its own wired transmission channel (2a). Connected to your network device (0a)
A radio frame synchronization circuit (15a) that, when a line failure occurs in the downlink radio transmission path (4) and receives an abnormal radio reception signal, determines that the line is abnormal and outputs a downlink disconnection alarm (55a);
A link control circuit (19a) for receiving a downlink disconnection alarm (55a), generating and notifying a forced link disconnection control signal (61a);
The forced link disconnection control signal (61a) is received, the data link of the local station wired transmission path (2a) is forcibly disconnected, and the upstream and downstream radio transmission paths are transmitted to the local station network device (0a). And (3, 4) having a LAN signal termination circuit (11a) for notifying that there is a failure.

The wireless transmission device (1a) according to claim 2 generates a wireless transmission signal (56a) by multiplexing the line disconnection alarm (55a) in an overhead area of a wireless frame, and generates the wireless transmission signal (56a). A radio frame multiplexing circuit (13a) for transmitting to the opposite-station radio transmission device (1b) via a radio transmission path (3);
A failure notification is also made to the network device (0b) of the opposite station connected to the opposite station wireless transmission device (1b) of the reverse link destination where no reception failure has occurred.

The wireless transmission device (1a) according to claim 3 is:
When a failure occurs in the uplink radio transmission path (3a) and the opposite station reception frame signal (58a) is received from the opposite station radio transmission apparatus (1b) via the downlink radio transmission path, the opposite station transmission An opposite station reception failure alarm extraction circuit (17a) for extracting and transmitting the opposite station failure alarm (59a) by extracting uplink disconnection information (55b) multiplexed in the apparatus;
The link control circuit (19a) receives the opposite station failure alarm (59a), generates and sends a forced link disconnection control signal (61a),
The LAN signal termination circuit (11a) receives the forced link disconnection control signal (61a), forcibly disconnects the data link of the local station wired transmission path (2a), and sends it to the network device (0a) of the local station. On the other hand, it is notified that there is a failure in the uplink and downlink wireless transmission paths (3, 4).

The wireless transmission device (1a) according to claim 4 further includes a transfer protection circuit (12a) for detecting local link disconnection information (52a),
When a connection failure occurs in any one of the wired transmission paths (2a) and the data link in the one wired transmission path (2a) is disconnected, the LAN signal termination connected to the wired transmission path (2a) When the circuit (11a) detects a data link break in the one wired transmission line (2a), the circuit (11a) generates its own station link break information (52a), and outputs it to the transfer protection circuit 12a.
The transfer protection circuit (12a) receives the local station link disconnection information (52a), generates a link disconnection transfer signal (54a), and outputs the link disconnection transfer signal (54a) to the radio frame multiplexing circuit (13a).

The wireless transmission device (1a) according to claim 5 is configured such that when a connection failure occurs in the other wired transmission path (2b) and a data link in the other wired transmission path (2b) is disconnected, the local station The opposite station link break transfer signal (54b) is extracted from the received frame signal (58a) received via the radio frame synchronization circuit (15a) to generate the opposite station link break information (53a), and the opposite station link An opposite station link information extraction circuit (16a) for outputting disconnection information (53a) to the link control circuit (19a) and the transfer protection circuit 12a;
When the link control circuit (19a) receives the opposite station link disconnection information (53a), the link control circuit (19a) generates a forced link disconnection control signal (61a) and notifies the LAN signal termination circuit (11a),
The LAN signal termination circuit (11a) receives the forced link disconnection control signal (61a), forcibly disconnects the data link of the one wired transmission path (2a), and And notifying that there is a failure in the uplink and downlink wireless transmission paths.

  The wireless transmission device (1a) according to claim 6 is in the process of detecting or canceling the opposite station link disconnection information (53a) until the time required for establishing the link from the local station link disconnection state elapses. The transfer mask signal is output so as not to output the link disconnection transfer signal, and the output of the transfer mask signal is stopped after the time has elapsed.

In the wireless transmission device (1a) according to claim 7, the transfer protection circuit includes:
A protection timer circuit (201 having a function of outputting a transfer mask signal during reception of the opposite link disconnection information (53a) and until a predetermined protection time elapses after the opposite station link disconnection information (53a) is canceled. )When,
It has a transfer mask circuit (202) that detects its own link disconnection information (52a), generates a link disconnection transfer signal (54a), and outputs it to the radio frame multiplexing circuit (13a).

The wireless transmission device (1a) according to claim 8 establishes a data link of the wired transmission path (2a) when the connection failure of the one wired transmission path (2a) is restored.
The LAN signal termination circuit (11a) detects establishment of a data link and cancels the local station link disconnection information (52a).
The local station transfer protection circuit (12a) detects the cancellation of the local station link disconnection information (52a), cancels the link disconnection transfer signal (52a), and notifies the opposite station radio transmission apparatus (1b). And

In the radio transmission device (1a) according to claim 9, the opposite station link information extraction circuit (16a) receives the received frame signal (58a) via the radio frame synchronization circuit (15a) and receives the opposite station link disconnection information. (53a) is extracted, and it is detected that the notification is released, and the opposite station link disconnection information (53a) is released.
The link control circuit (19a) cancels the forced link disconnection control signal (61a) in response to the cancellation of the opposite station link disconnection information (53a).
The LAN signal termination circuit (11a) receives the cancellation of the forced link disconnection control signal (61a), establishes the link of the wired transmission line (2a), and restores the line.

  The radio transmission apparatus (1a) according to claim 10 is characterized in that a radio relay apparatus is arranged between the local station radio transmission apparatus (1a) and the opposite station radio transmission apparatus (1). .

The SDH wireless transmission device (1a) according to claim 11 is connected to the opposite station wireless transmission device (1b) via the upstream and downstream wireless transmission paths (3, 4), and the local station wired transmission path (2a) is connected. Via the SDH wireless transmission device connected to the network device (0a) of the local station via
When a line failure occurs in the downlink wireless transmission path and an abnormal radio reception signal is received, a radio frame synchronization circuit that determines a line abnormality and outputs a downlink disconnection alarm;
A link control circuit that receives a downlink disconnection alarm, generates and notifies a forced link disconnection control signal,
Receives a forced link disconnection control signal, forcibly disconnects the data link of the local station wired transmission path, and notifies the network equipment of the local station that there is a failure in the upstream and downstream wireless transmission paths And a LAN signal termination circuit.

  The SDH wireless transmission apparatus (1a) according to claim 12 generates a wireless transmission signal by multiplexing the line disconnection alarm in an SDH overhead area, and transmits the wireless transmission signal to the opposite station via a wireless transmission path. It has an SDH multiplexing circuit for transmitting to a wireless transmission device, and also notifies a failure notification to the opposite station network device connected to the opposite station wireless transmission device on the reverse link destination where no reception failure has occurred. To do.

  The first effect of the present invention is that, despite the fact that a link is established in a wired transmission path between a wireless transmission apparatus and a network device connected to the wireless transmission apparatus, the wireless transmission path is It is possible to avoid a state in which a LAN signal cannot be normally transmitted to / from a network device connected to a wireless transmission device facing through a transmission path.

  The reason for this is that when a line failure is detected on either the uplink or downlink radio transmission path, the network devices connected to the two radio transmission apparatuses facing each other via the radio transmission path, This is because it has a function to forcibly disconnect the data link.

  The second effect of the present invention is that, when one of the wired transmission paths connected to the opposing wireless transmission device via the wireless transmission path is disconnected, the connection to the opposing wireless transmission device is established. It is possible to avoid the problem that the network device that has been identified cannot recognize the disconnection of the transmission path.

  The reason is that, when one of the network devices connected to the opposite wireless transmission device via the wireless transmission line is disconnected, the wired transmission line connected to the opposite wireless transmission device This is because the data link is disconnected.

  The third effect of the present invention is that when any one of the wired transmission paths connected to the opposing wireless transmission apparatus via the wireless transmission path is disconnected, the connection to the opposing wireless transmission apparatus is established. By controlling to disconnect the data link of the wired transmission line, the problem that both stations forcibly disconnect each other's own link and cannot return to the normal state can be avoided.

  The reason for this is that when the link loss information of the local station is detected and the data link disconnection of the wired transmission path of the local station is detected, the transfer of the link disconnection information of the local station to the opposite station is stopped. This is because the circuit is provided.

  The fourth effect of the present invention is that in the process of returning to the normal state from the state in which the data link of the wired transmission path connected to the local station is disconnected based on the link disconnection of the wired transmission path connected to the opposing station, The problem that the link disconnection control of both stations is alternately performed due to the time difference that occurs between the time when the link of the local station is released after the forced link disconnection control of the local station is canceled due to the establishment of the link of the station, and the normal state cannot be restored. Can be avoided.

  The reason is that when the link of the wired transmission path connected to the local station is forcibly disconnected based on the link disconnection of the wired transmission path connected to the opposite station, the link of the local station is disconnected to the opposite station. This is because the protection circuit that stops the information transfer has a certain protection time from when the link of the opposite station is established to when the transfer of the local station link disconnection information is permitted.

  Hereinafter, the best mode for carrying out the present invention will be described. FIG. 1 is a block diagram showing an embodiment of the present invention. In the embodiment shown in FIG. 1, wireless transmission devices 1 a and 1 b that send a LAN signal received from a wired transmission path to the opposite station on a one-to-one basis via the wireless transmission path, and output the LAN signal to the wired transmission path again at the opposite station. Opposing via the wireless transmission paths 3 and 4. The wireless transmission device 1a and the wireless transmission device 1b have the same configuration, and 11b to 19b and 51b to 61b that configure the wireless transmission device 1b correspond to 11a to 19a and 51a to 61a that configure the wireless transmission device 1a, respectively. . Here, the configuration of the wireless transmission device 1a will be described in detail.

  In FIG. 1, a LAN signal termination circuit 11a establishes a link in a data link layer with a network device (not shown) connected by a LAN via a wired transmission path 2a. When the link is established, the LAN reception data signal 51a received from the network device via the wired transmission path 2a is output to the wireless frame multiplexing circuit 13a described later, and the LAN transmission data is transmitted from the signal extraction circuit 18a described later. The signal 60a is received and output to the network device via the wired transmission path 2a.

  When the link of the wired transmission path 2a is disconnected, the local station link disconnection information 52a is output to the transfer protection circuit 12a described later. When a forced link disconnection control signal 61a is received from a link control circuit 19a described later, the link establishment operation is stopped until the link with the network device is forcibly disconnected and the forced link disconnection control signal 61a is released. .

  The transfer protection circuit 12a monitors the local station link disconnection information 52a and counter station link disconnection information 53a described later, generates a link disconnection transfer signal 54a, and outputs it to the radio frame multiplexing circuit 13a.

  FIG. 2 shows an embodiment of the transfer protection circuit 12a (12b), which includes a protection timer circuit 201 and a transfer mask circuit 202.

  When the protection timer circuit 201 detects the opposing link disconnection information 53a (53b) and when a predetermined fixed protection time has not elapsed since the opposing link disconnection information 53a (53b) is released. The mask signal 203 is output to the transfer mask circuit 202. When the mask signal 203 is not received, the transfer mask circuit 202 outputs the link disconnection information 52a (52b) of the local station as the link disconnection transfer signal 54a (54b) and receives the mask signal 203. In this case, the local station link disconnection information 52a (52b) is invalidated and the output of the link disconnection transfer signal 54a (54b) is stopped.

  The radio frame multiplexing circuit 13a in FIG. 1 is a main signal of a radio frame having a unique frame structure composed of a main signal area for multiplexing LAN signals and an overhead area for multiplexing various control signals used in the radio apparatus. The LAN reception data signal 51a is multiplexed in the area, and the link disconnection transfer signal 54a received from the transfer protection circuit 12a and the line disconnection alarm 55a described later are multiplexed in the overhead area of the radio frame to generate the radio transmission signal 56a. And output.

  The wireless transmission / reception circuit 14a outputs the wireless transmission signal 56a to the opposing wireless transmission device 1b via the wireless transmission path 3, and receives a wireless reception signal 57a received from the wireless transmission device 1b via the wireless transmission path 4 as will be described later. To the radio frame synchronization circuit 15a.

  The radio frame synchronization circuit 15a receives the radio reception signal 57a from the radio transmission / reception circuit 14a, establishes radio frame synchronization, and outputs a reception frame signal 58a. Also, if any of the reception system equipment failure of the wireless transmission / reception circuit 14a, the transmission system equipment failure of the wireless transmission / reception circuit 14b, or the line failure in the wireless transmission path 4 occurs and the radio frame cannot be synchronized, a line disconnection alarm is issued. 55a is generated and output.

  The signal extraction circuit 18a extracts the LAN transmission data signal 60a from the main signal region of the reception frame signal 58a and outputs it to the LAN signal termination circuit 11a.

  The opposite station link information extraction circuit 16a extracts the link break transfer signal 54b generated and multiplexed in the wireless transmission device 1b from the overhead area of the received frame signal 58a to generate the opposite station link break information 53a, and the link control circuit 19a Output to.

  The opposite station reception failure alarm extraction circuit 17a extracts the line break alarm 55b generated and multiplexed in the wireless transmission device 1b from the overhead area of the received frame signal 58a to generate the opposite station failure alarm 59a, and sends it to the link control circuit 19a. Output.

  The operation of the wireless transmission apparatus according to an embodiment of the present invention, that is, a transmission path failure notification method will be described in detail below.

  FIG. 3 shows an embodiment of the present invention. In FIG. 3, a wireless transmission device 1a and a wireless transmission device 1b are opposed to each other via wireless transmission paths 3 and 4, and the network device 0a and the wireless transmission device 1a are connected by a wired transmission path 2a. The wired transmission path 2b connects between 0b and the wireless transmission device 1b. Note that a line from the wireless transmission device 1a to the wireless transmission device 1b is defined as an uplink, and a line from the wireless transmission device 1b to the wireless transmission device 1a is defined as a downlink. Further, the wireless transmission device 1a and the wireless transmission device 1b shown in FIG. 3 have the internal configuration shown in FIG.

  Here, in the state in which the wired transmission paths 2a and 2b are each established in the data link layer, a case where a line failure occurs in the downlink wireless transmission path 4 will be described in detail with reference to FIGS. explain.

  In FIG. 1, when the radio frame synchronization circuit 15a of the radio transmission device 1a receives an abnormal radio reception signal 57a from the radio transmission / reception circuit 14a due to the occurrence of a line fault in the radio transmission path 4, it determines that the line is abnormal and links A line disconnection alarm 55a is output to the control circuit 19a and the radio frame multiplexing circuit 13a. The link control circuit 19a receives the line disconnection alarm 55a, generates a forced link disconnection control signal 61a, and notifies the LAN signal termination circuit 11a. When the LAN signal termination circuit 11a receives the forced link disconnection control signal 61a, the LAN signal termination circuit 11a forcibly disconnects the data link of the wired transmission path 2a, so that the network device 0a shown in FIG. It is notified that there is a failure in the transmission path between the configured network device 0a and network device 0b.

  The radio frame multiplexing circuit 13a multiplexes the received line disconnection alarm 55a in the overhead area of the radio frame to generate a radio transmission signal 56a, and is opposed to the radio transmission apparatus via the radio transmission / reception circuit 14a and the radio transmission path 3. To 1b.

  The opposite station reception failure alarm extraction circuit 17b of the wireless transmission device 1b disconnects the downlink line multiplexed by the wireless frame multiplexing circuit 13a from the received frame signal 58b received via the wireless transmission / reception circuit 14b and the wireless frame synchronization circuit 15b. The information 55a is extracted to generate an opposite station failure alarm 59b and output to the link control circuit 19b. When the link control circuit 19b receives the opposite station failure alarm 59b, the link control circuit 19b generates a forced link disconnection control signal 61b and notifies the LAN signal termination circuit 11b. The LAN signal termination circuit 11b receives the forced link disconnection control signal 61b and forcibly disconnects the data link of the wired transmission path 2b, so that the network device 0b shown in FIG. That there is a failure in the transmission path between the network device 0a and the network device 0b.

  As described above, in the transmission path between the network equipment 0a and the network equipment 0b configured via the radio transmission apparatuses 1a and 1b facing each other on the radio transmission path shown in FIG. When a failure occurs in any one of the downlinks 4, the reverse line in which the failure is notified to the network device connected to the wireless transmission device in which the reception failure has occurred and the reception failure has not occurred Fault notification can also be made to network devices connected to the wireless transmission apparatus.

  Next, in FIG. 3, when there is no line failure in the wireless transmission lines 3 and 4 and the wired transmission lines 2a and 2b are linked in the data link layer, a connection failure occurs in the wired transmission line 2a, A case where the data link in the transmission line 2a is disconnected will be described. Note that the time during which the data link is established in the wired transmission path 2b is a predetermined protection time determined by the protection timer circuit 201 constituting the transfer protection circuit 12a in FIG. 2 from the cancellation of the opposite station link information disconnection 53a. It is assumed that it is longer than the time during which the transfer mask signal 203 is output.

  In FIG. 1, when the LAN signal termination circuit 11a of the wireless transmission device 1a detects data link disconnection in the wired transmission path 2a, it generates local station link disconnection information 52a and outputs it to the transfer protection circuit 12a. At this time, the protection timer circuit 201 shown in FIG. 2 does not output the mask signal 203 because a predetermined protection time has elapsed since the opposite station link disconnection information 53a was canceled. When the transfer mask circuit 202 detects the link disconnection information 52a of its own station, it immediately generates a link disconnection transfer signal 54a and outputs it to the radio frame multiplexing circuit 13a.

  The opposite station link information extraction circuit 16b of the wireless transmission device 1b is multiplexed by the wireless frame multiplexing circuit 13a of the wireless transmission device 1a from the received frame signal 58b received via the wireless transmission / reception circuit 14b and the wireless frame synchronization circuit 15b. The link disconnection transfer signal 54a is extracted to generate opposite station link disconnection information 53b, which is output to the link control circuit 19b and the transfer protection circuit 12b. When the link control circuit 19b receives the opposite station link disconnection information 53b, the link control circuit 19b generates a forced link disconnection control signal 61b and notifies the LAN signal termination circuit 11b. When the LAN signal termination circuit 11b receives the forced link disconnection control signal 61b, the LAN signal termination circuit 11b forcibly disconnects the data link of the wired transmission path 2b, so that the network device 0b shown in FIG. It is notified that there is a failure in the transmission path between the configured network device 0a and network device 0b.

  At this time, in FIG. 1, the LAN signal termination circuit 11b detects the link break of the wired transmission path 2b generated by the forced link break control, generates its own station link break information 52b, and notifies the transfer protection circuit 12b of the link break. Since the protection circuit 12b has already received the opposing station link disconnection information 53b from the opposing link information extraction circuit 16b, the protection circuit 12b does not output the link disconnection transfer signal 54b even if the local station link disconnection information 52b is received.

  Therefore, the opposite station link information extraction circuit 16a of the wireless transmission device 1a does not detect the opposite station link disconnection information 53a from the received frame signal 58a received from the wireless transmission device 1b via the wireless transmission / reception circuit 14a and the wireless frame synchronization circuit 15a. Therefore, even in the state where the link is disconnected on the wired transmission line 2b, the link control circuit 19a does not output the forced link disconnection control signal 61a under this condition.

  Next, a case where the connection failure of the wired transmission path 2a is restored from the above state will be described. Since the link control circuit 19a of the wireless transmission device 1a does not output the forced link disconnection control signal 61a, the data link is established when the connection failure is restored in the wired transmission path 2a. The LAN signal termination circuit 11a detects establishment of the data link and cancels the local station link disconnection information 52a. The transfer protection circuit 12a detects the cancellation of the local link disconnection information 52a, cancels the link disconnection transfer signal 52a, and notifies the wireless transmission device 1b via the wireless frame multiplexing circuit 13a and the wireless transmission / reception circuit 14a. The opposite station link information extraction circuit 16b of the wireless transmission device 1b receives the received frame signal 58b via the wireless transmission / reception circuit 14b and the wireless frame synchronization circuit 15b, extracts the opposite station link disconnection information 53b, and the notification is released. Is detected and the opposite station link disconnection information 53b is canceled. The link control circuit 19b cancels the forced link disconnection control signal 61b in response to the cancellation of the opposite station link disconnection information 53b. When receiving the cancellation of the forced link disconnection control signal 61b, the LAN signal termination circuit 11b establishes the link of the wired transmission path 2b and restores the line. At this time, there is a time lag between the cancellation of the opposite station link disconnection information 53b and the establishment of the link of the wired transmission line 2b until the local station link disconnection information 52b is canceled. When the protection timer circuit 201 of 12b protects the opposite station link disconnection information 53b for a predetermined time and then cancels the mask signal 203, the wired transmission path 2b is restored and the local station link disconnection is performed. The link disconnection transfer signal 54b is prevented from being output until the information 52b is reliably released. Note that the predetermined time is longer than the time required for the wired transmission path to establish a link in the data link layer.

  As described above, in the transmission path between the network device 0a and the network device 0b configured via the wireless transmission devices 1a and 1b facing each other on the wireless transmission path illustrated in FIG. 3, the wired transmission path 2a or the wired transmission path. If a connection failure occurs in one of 2b, the failure occurs by transferring the failure information via the wireless transmission device and forcibly releasing the data link on the wired transmission path where no failure has occurred. It is possible to notify a network device connected to a wired transmission line that is not connected to the network device when the link is broken.

  Also, the transfer of the local station link disconnection information is masked by the opposite station link disconnection information transferred from the opposite station and extracted from the received frame signal, and the opposite station link disconnection information transferred from the opposite station and extracted from the received frame signal is canceled. By providing a protection time on the side, the control for performing the link disconnection of the wired transmission path connected to the own station with the link disconnection of the wired transmission path connected to the opposite station is looped between the wireless transmission apparatuses via the wireless transmission path Can be prevented.

  Next, another embodiment of the present invention will be described. In the above-described embodiments, a method of multiplexing link information to an overhead area of a unique radio frame is shown as a method of transferring link information to a facing radio transmission apparatus. However, the method is limited to a method of multiplexing to the overhead area of a radio frame. Instead, for example, in a wireless transmission device having a function of generating and terminating an SDH signal, it may be multiplexed and transferred in the SDH overhead area. In this case, the radio frame multiplexing circuit in the method of multiplexing in the overhead area of the radio frame is replaced with the SDH multiplexing circuit.

  Further, for example, as shown in FIG. 4, the present invention can also be applied to a configuration in which a wireless relay device 401 is arranged between the wireless transmission device 1a and the wireless transmission device 1b.

It is the block diagram which showed the structure of the wireless transmission apparatus which concerns on one Example of this invention. It is the figure which showed one Example of the transfer protection circuit. 1 is a diagram illustrating an entire wireless transmission system including a wireless transmission device according to an embodiment of the present invention. It is a figure which shows the whole radio | wireless transmission system including the radio | wireless transmission apparatus which concerns on the other Example of this invention. It is a figure which shows the conventional network system whole.

Explanation of symbols

0a, 0b Network equipment 1a, 1b Wireless transmission device 2a, 2b Wired transmission line 3, 4 Wireless transmission line 11a, 11b LAN signal termination circuit 12a, 12b Transfer protection circuit 13a, 13b Wireless frame multiplexing circuit 14a, 14b Wireless transmission / reception circuit 15a , 15b Radio frame synchronization circuit 16a, 16b Opposite station link information extraction circuit 17a, 17b Opposite station reception failure alarm extraction circuit 18a, 18b Signal extraction circuit 19a, 19b Link control circuit 51a, 51b LAN reception data signal 52a, 52b Local station link Disconnection information 53a, 53b Opposite station link disconnection information 54a, 54b Link disconnection transfer signal 55a, 55b Line disconnection alarm 56a, 56b Radio transmission signal 57a, 57b Radio reception signal 58a, 58b Reception frame signal 59a, 59b Opposite station fault alarm 60a 60b LAN transmission data signal 61a, 61b forced link disconnection control signal 201 protection timer circuit 202 transfers the mask circuit 203 masks the signal 401 wireless relay device

Claims (12)

In the wireless transmission device connected to the opposite station wireless transmission device via the upstream and downstream wireless transmission paths, and connected to the network device of the local station via the own station wired transmission path,
When a line failure occurs in the downlink wireless transmission path and an abnormal radio reception signal is received, a radio frame synchronization circuit that determines a line abnormality and outputs a downlink disconnection alarm;
A link control circuit that receives a downlink disconnection alarm, generates and notifies a forced link disconnection control signal,
A LAN that receives a forced link disconnection control signal, forcibly disconnects the data link of the local station wired transmission path, and notifies the local station network device that there is a failure in the upstream and downstream wireless transmission paths A wireless transmission device comprising: a signal termination circuit. A radio frame multiplexing circuit for generating a radio transmission signal by multiplexing the line disconnection alarm in an overhead region of a radio frame, and transmitting the radio transmission signal to the opposite station radio transmission device via a radio transmission path;
The radio transmission apparatus according to claim 1, wherein a fault notification is also sent to a counter station network device connected to a counter station radio transmission apparatus at a reverse link destination where no reception fault has occurred. When a failure occurs in the uplink radio transmission path and the opposite station reception frame signal is received from the opposite station radio transmission apparatus via the downlink radio transmission path, the uplink line multiplexed in the opposite station transmission apparatus It has a counter station reception fault alarm extraction circuit that extracts line disconnection information and generates and outputs a counter station fault alarm.
The link control circuit receives the opposite station failure alarm, generates and outputs a forced link disconnection control signal,
The LAN signal termination circuit receives the forced link disconnection control signal, forcibly disconnects the data link of the local station wired transmission path, and fails in the upstream and downstream radio transmission paths with respect to the network equipment of the local station. The wireless transmission device according to claim 2, wherein notification is provided. In addition, it has a transfer protection circuit that detects local link disconnection information,
When a connection failure occurs in any one of the wired transmission paths and the data link in the one wired transmission path is disconnected, the LAN signal termination circuit connected to the wired transmission path is connected to the one wired transmission path. When data link breakage is detected, the local station link breakage information is generated and output,
The radio transmission apparatus according to claim 3, wherein the transfer protection circuit receives the local station link disconnection information, generates a link disconnection transfer signal, and outputs the link disconnection transfer signal to the radio frame multiplexing circuit. When a connection failure occurs in the other wired transmission path and the data link in the other wired transmission path is disconnected, the opposite station link disconnection transfer signal is received from the received frame signal received through the local station radio frame circuit. To generate opposite station link disconnection information, and to output the opposite station link disconnection information to the link control circuit and the transfer protection circuit,
The link control circuit receives opposite station link disconnection information, generates and outputs a forced link disconnection control signal,
The LAN signal termination circuit receives the forced link disconnection control signal, forcibly disconnects the data link of the one wired transmission path, and connects the upstream and downstream wireless transmission paths to the network device of the local station. The wireless transmission device according to claim 4, wherein notification is made that there is a failure.   Output the transfer mask signal so that the link disconnection transfer signal is not output until the time required until the link is established from the local station link disconnection state is detected after the opposite station link disconnection information is detected or canceled, 6. The wireless transmission apparatus according to claim 5, wherein the output of the transfer mask signal is stopped after the elapse of time. The transfer protection circuit includes:
A transfer mask circuit that detects link disconnection information of the own station, generates a link disconnection transfer signal, and outputs the link disconnection transfer signal;
A protection timer circuit having a function of outputting the transfer mask signal until a predetermined protection time elapses after receiving the opposite link disconnection information and after the opposite station link disconnection information is released;
The wireless transmission device according to claim 4, further comprising: When the connection failure of the one wired transmission path is recovered, the data link of the wired transmission path is established,
The LAN signal termination circuit detects the establishment of the data link and cancels the local station link disconnection information,
The radio transmission apparatus according to claim 7, wherein the local station transfer protection circuit detects the cancellation of the local station link disconnection information, cancels the link disconnection transfer signal, and notifies the opposite station radio transmission apparatus. The opposite station link information extraction circuit receives the received frame signal via the radio frame synchronization circuit, extracts the opposite station link disconnection information, detects that the notification is released, and releases the opposite station link disconnection information. Done
The link control circuit receives the cancellation of the opposite station link disconnection information and cancels the forced link disconnection control signal.
9. The wireless transmission device according to claim 8, wherein the LAN signal termination circuit receives the cancellation of the forced link disconnection control signal, establishes a link of the wired transmission path, and restores the line.   The radio transmission apparatus according to claim 1, wherein a radio relay apparatus is arranged between the local station radio transmission apparatus and the opposite station radio transmission apparatus. In the SDH wireless transmission apparatus connected to the opposite station wireless transmission apparatus via the uplink and downlink wireless transmission paths and connected to the network equipment of the own station via the own station wired transmission path,
When a line failure occurs in the downlink wireless transmission path and an abnormal radio reception signal is received, a radio frame synchronization circuit that determines a line abnormality and outputs a downlink disconnection alarm;
A link control circuit that receives a downlink disconnection alarm, generates and notifies a forced link disconnection control signal,
Receives a forced link disconnection control signal, forcibly disconnects the data link of the local station wired transmission path, and notifies the network equipment of the local station that there is a failure in the upstream and downstream wireless transmission paths A SDH wireless transmission device comprising: a LAN signal termination circuit. An SDH multiplexing circuit that generates a wireless transmission signal by multiplexing the line disconnection alarm in an SDH overhead region and transmits the wireless transmission signal to the opposite-station wireless transmission device via a wireless transmission path;
The SDH radio transmission apparatus according to claim 11, wherein a fault notification is also sent to a counter station network device connected to a counter station radio transmission apparatus at a reverse link destination where no reception fault has occurred.

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