JP2008147835A - Data transmission apparatus and data transmission method - Google Patents

Abstract

In a data transmission processing system, a standby data transmission device is used more than being positioned as an alternative device to an operational data transmission device.
A base station apparatus 100 includes a monitoring control unit 101, a transmission / reception unit 102, a radio side switch unit 103, an RNC side switch unit 104, and an antenna unit, and an operation system transmission / reception unit A102a, an operation system When processing data congestion occurs in any of the transmission / reception unit B102b, the active transmission / reception unit C102c, or the active transmission / reception unit D102d, the active transmission / reception unit 102 and the standby transmission / reception unit 102e in which the processing data congestion has occurred It is controlled to function in parallel, and it is possible to distribute the load of data transmission / reception of processing data by the active transmission / reception unit 102 and the standby transmission / reception unit 102e.
[Selection] Figure 1

Description

  The present invention inputs and transmits transmission / reception data between a data transmission apparatus and a data reception apparatus to an operation data transmission / reception means, and when a failure occurs in the operation data transmission / reception means, the operation data BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a data transmission apparatus and a data transmission method for transmitting data by switching from a transmission / reception means to a standby data transmission / reception means. In particular, a standby data transmission apparatus is used as an alternative to an operational data transmission apparatus. The present invention relates to a data transmission apparatus and a data transmission method that can be used more efficiently and effectively than positioning.

  Conventionally, data transmission / reception devices such as mobile phone base stations and network relay devices perform data conversion processing, demultiplexing processing, modulation / demodulation processing, etc. on received data, and transmit the data to a destination terminal device. The redundant configuration includes a plurality of active data transmission / reception units and a standby data reception unit that functions as a backup in the event of a failure in the active data transmission / reception unit.

  For example, in Patent Document 1, when a data transmission / reception apparatus is a mobile phone base station and a failure occurs in the active data transmission / reception unit, data processing of the active data transmission / reception unit in which the failure has occurred is described. A technique for preventing data processing of the data transmitting / receiving unit from being interrupted by the standby data receiving unit taking over is disclosed.

  Further, in Patent Document 2, in a data transmission processing system having an active data transmission apparatus and a standby data transmission apparatus, when data processing congestion occurs in the active data transmission apparatus, the standby system Switch to the data transmission device to transfer the processing data. When the data processing congestion in the active data transmission device is resolved, the processing data is transferred from the standby data transmission device to the active data transmission device. A load distribution control method for performing control to restore the apparatus is disclosed.

JP 2002-280954 A Japanese Patent Laid-Open No. 2-98258

  However, in the prior art represented by the above-mentioned Patent Document 1, the standby data receiving unit is used only when a failure occurs in the active data transmission / reception unit, and in a normal time that is not when the failure occurs. It could not be said that it was used efficiently in data processing.

  Further, in the conventional technique represented by the above-mentioned Patent Document 2, when processing data is congested in the operational data transmission device, the processing data is switched to the standby data transmission device, and in this case The only data transmission device used for the standby system is a standby data transmission device.

  However, in this case, when the failure occurs, the use of the active data transmission device is stopped, and the standby data transmission device is used instead. This is no different from the idea that it is an alternative device when a failure occurs in a data transmission device. Therefore, it cannot be said that the standby data transmission device is effectively utilized more than just as a substitute device.

  The present invention has been made to solve the above problems (problems), and in a data transmission processing system having an active data transmission device and a standby data transmission device, a standby data transmission device. It is an object of the present invention to provide a data transmission apparatus and a data transmission method that can be used more efficiently and effectively than positioning as an alternative to an operational data transmission apparatus.

  In order to solve the above-described problems and achieve the object, the present invention inputs and transmits transmission / reception data between devices to an operational data transmission / reception means, and a failure occurs in the operational data transmission / reception means. A data transmission device for switching the input from the active data transmission / reception means to the standby data transmission / reception means and transmitting the transmission / reception data, wherein congestion of data input to the active data transmission / reception means is reduced. Data congestion monitoring means for monitoring, and when the data congestion monitoring means detects congestion of data input to the active data transmission / reception means, the standby data transmission / reception means together with the active data transmission / reception means And load distribution means for distributing the load of the transmission.

  Further, according to the present invention, in the above invention, it is assumed that the data congestion monitoring unit detects congestion when a queue length of data input to the operational data transmitting / receiving unit exceeds a predetermined threshold. It is characterized by.

  Further, according to the present invention, in the above invention, when congestion is detected by the data congestion monitoring unit and the standby data transmission / reception unit is made usable by the load distribution unit, new data among new data to be transmitted is added. The data having the control information is input to the standby data transmission / reception means, and data other than the data input to the standby data transmission / reception means is input to the active data transmission / reception means.

  Further, in the present invention, in the above invention, when a failure occurs in the operational data transmission / reception means during execution of the load distribution by the load distribution means, the load distribution by the load distribution means is immediately terminated, The operation data transmission / reception means is switched to the standby data transmission / reception means to transmit the data.

  Further, the present invention inputs / transmits data transmitted / received between devices to an operational data transmission / reception process, and waits from the operational data transmission / reception process when a failure occurs in the operational data transmission / reception process. A data transmission method for switching to a system data transmission / reception step and transmitting the transmission / reception data, the data congestion monitoring step for monitoring congestion of data input to the data transmission / reception step of the operational system, and the data congestion When congestion of data input to the operational data transmission / reception step is detected by the monitoring step, the standby data transmission / reception step can be used for transmission of the transmission / reception data together with the operational data transmission / reception step. And a load balancing step for performing load balancing of transmission.

  According to the present invention, when congestion of data input to the operational data transmission / reception means occurs, the standby data transmission / reception means together with the active data transmission / reception means when performing load distribution of the transmission of the data Can be used for transmission of transmission data, so that it is possible to efficiently use both data transmission / reception means to perform load distribution. In addition, a new configuration for performing load distribution is not required, load distribution can be performed using an existing configuration, and data transmission / reception processing capability can be improved at low cost.

  In addition, according to the present invention, it is possible to set the timing at which load distribution is started by the load distribution means before congestion of data input to the operational data transmission / reception means actually occurs. As a result, data loss or omission occurs, so that it is possible to prevent data retransmission and suppress waste of data retransmission.

  In addition, according to the present invention, when congestion of data input to the operational data transmission / reception means occurs, new control among new data to be transmitted is performed when load distribution of the data transmission is performed. Since data having information is input to the standby data transmission / reception means and other data is continuously input to the active data transmission / reception means, data having new control information among data to be newly transmitted Has an effect that it can be transmitted smoothly while avoiding congestion.

  Further, according to the present invention, when congestion of data input to the operational data transmission / reception means occurs, the data to be newly transmitted is transferred to the standby data when load distribution of the data transmission is performed. Since it is input to the transmission / reception means, data to be newly transmitted can be transmitted smoothly while avoiding congestion.

  Further, according to the present invention, when congestion of data input to the operational data transmission / reception means occurs, when performing load distribution of the transmission of the data, the data to be newly transmitted is Since the data is alternately input to both the transmission / reception means and the standby data transmission / reception means, there is an effect that efficient load distribution is possible.

  Further, according to the present invention, priority is given to the operation of the redundant configuration of the normal operation system and standby system even during load distribution, so that the original purpose of the redundant configuration can be achieved while having the load distribution function. There is an effect.

  In addition, according to the present invention, when load is being distributed, load distribution is given priority over normal operation and standby system redundant configuration operations, and data congestion is prioritized, so data congestion is eliminated more quickly. The effect that it can be done.

  Exemplary embodiments according to a data transmission apparatus and a data transmission method of the present invention will be described below in detail with reference to the accompanying drawings. In the following embodiment, the data transmission device of the present invention is applied to a base station device (BTS (Base Transceiver Station)) of a mobile phone. The present invention is not limited to a communication relay device, and can also be applied to a relay device for wired communication (optical communication or electrical communication) represented by a router or the like.

  First, the structure of the base station apparatus concerning an Example is demonstrated. FIG. 1 is a functional block diagram of the configuration of the base station apparatus according to the embodiment. As shown in the figure, the base station device 100 includes a monitoring control unit 101, a transmission / reception unit 102, a radio side switch unit 103, an RNC (Radio Network Controller equipment) side switch unit 104, And an antenna portion 105.

  The monitoring control unit 101 is a functional unit that performs monitoring control of the entire base station apparatus 100. The monitoring control unit 101 further includes a device monitoring control unit 101a, a load distribution control function unit 101b, a transmission / reception channel setting information storage unit 101c, and a transmission / reception unit operation state information storage unit 101d.

  The device monitoring control unit 101a manages the operation status and operation setting for each base station device 100 based on a control instruction from the input unit of the control terminal device 300. The operation status managed by the device monitoring control unit 101a is stored in the transmission / reception unit operation state information storage unit 101d. The operation settings managed by the device monitoring control unit 101a are stored in the transmission / reception channel setting information storage unit 101c.

  The control instruction input from the input unit of the control terminal device 300 includes a threshold value of a data queue usage rate at which the processing data queued in the active transmission / reception unit 102 is determined to be in a congestion state. When a failure or congestion occurs in a certain active system transmission / reception unit 102a, the device monitoring control unit 101a takes over the operation settings of the active system transmission / reception unit in which the failure or congestion has occurred to the standby transmission / reception unit 102, 102 is switched to continue normal operation of the base station apparatus 100.

  In addition, the device monitoring control unit 101a displays information on the load distribution control status and data queue usage rate by the load distribution control function unit 101b, information on the takeover status of operation to the standby transmission / reception unit 102, and the like. Are displayed on the display means.

  The load distribution control function unit 101b switches the switches of the radio side switch unit 103 and the RNC side switch unit 104 based on an instruction from the device monitoring control unit 101a, and performs processing of the active transmission / reception unit 102 in which a failure or congestion has occurred. Taking over to the standby transmission / reception unit 102, normal operation of the base station apparatus 100 is continued.

  The transmission / reception unit 102 has four transmission / reception units of an active transmission / reception unit A102a, an active transmission / reception unit B102b, an active transmission / reception unit C102c, and an active transmission / reception unit D102d as standby transmission / reception units. Part 102e. That is, the base station apparatus 100 according to the embodiment includes four active transmission / reception units 102 as normal transmission / reception units, and one standby transmission / reception unit 102 as a transmission / reception unit used when a failure or congestion occurs. Yes. However, the present invention is not limited to this. As long as both the active system and the standby system are configured to include at least one transmission / reception unit, the active system and the standby system may include any number of transmission / reception units.

  The transmission / reception unit 102 receives a transmission data signal from the opposing data transmission device in accordance with control data from the opposing data transmission device and data reception device, that is, the wireless network control device 200 and the mobile terminal device or the monitoring control unit 101. The transmission data signal is converted and transmitted to the opposite data receiving apparatus.

  The wireless-side switch unit 103 includes a wireless-side switch unit A103a, an antenna 105b, an active system transceiver unit B102b, and / or a standby system transceiver unit that connect the antenna 105a to the active system transceiver unit A102a and / or the standby system transceiver unit 102e. Wireless side switch unit B103b and antenna 105c for connecting to 102e, and wireless side switch unit C103c, antenna 105d, and active system transmitting and receiving unit D102d for connecting the active transmission / reception unit C102c and / or standby transmission / reception unit 102e and / or The wireless side switch unit D103d is connected to the standby transmission / reception unit 102e.

  Further, the RNC side switch unit 104 includes an RNC side switch unit A 104a, a radio network control device 200, and an active system transmitting / receiving unit that connect the radio network control device 200 to the active system transmitting / receiving unit A 102a and / or the standby system transmitting / receiving unit 102e. RNC side switch unit B104b for connecting B102b and / or standby transmission / reception unit 102e, radio network control device 200, RNC side switch unit C104c for connecting active transmission / reception unit C102c and / or standby transmission / reception unit 102e, radio The network control device 200 includes an RNC-side switch D104d that connects the active transmission / reception unit D102d and / or the standby transmission / reception unit 102e.

  The radio network control device 200 is illustrated as a single device, but is not limited to this, and a different radio network control device 200 may be connected to each RNC side switch unit 104.

  With the above configuration, between the wireless network control device 200 and a certain portable terminal device, the RNC side switch unit A 104a, the active transmission / reception unit A 102a or the standby transmission / reception unit 102e, the wireless side switch unit A 103a, and the antenna 105a are used. Data is sent and received. In addition, data is transmitted and received between the radio network control device 200 and a certain mobile terminal device via the RNC side switch unit B104b, the active transmission / reception unit B102b or the standby transmission / reception unit 102e, the radio side switch unit B103b, and the antenna 105b. Is done.

  In addition, data transmission / reception between the radio network controller 200 and a portable terminal device via the RNC side switch unit C104c, the active transmission / reception unit C102c or the standby transmission / reception unit 102e, the radio side switch unit C103c, and the antenna 105c. Is done. In addition, data is transmitted / received between the radio network controller 200 and a certain portable terminal device via the RNC side switch unit D104d, the active system transceiver unit D102d or the standby system transceiver unit 102e, the radio side switch unit D103d, and the antenna 105d. Is done.

  Then, when processing data congestion occurs in any of the active transmission / reception unit A102a, the active transmission / reception unit B102b, the active transmission / reception unit C102c, or the active transmission / reception unit D102d, the operational transmission / reception in which the processing data congestion has occurred The control unit 102 and the standby transmission / reception unit 102e are controlled to function in parallel, and the operation transmission / reception unit 102 and the standby transmission / reception unit 102e can distribute the load of data transmission / reception of processing data.

  The radio side switch unit A103a and the RNC side switch unit A104a, the radio side switch unit B103b and the RNC side switch unit B104b, the radio side switch unit C103c and the RNC side switch unit C104c, the radio side switch unit D103d and the RNC side switch unit D104d are Under the control of the load distribution control function unit 101b, each is controlled synchronously so that only the active system or both the active system and the standby system are selected as the transmission / reception unit.

  Here, when the standby transmission / reception unit 102e is selected by the combination of one radio side switch unit 103 and RNC side switch unit 104, the standby transmission / reception unit 102e is connected to the other radio side switch unit 103 and RNC side switch unit. The combinations of 104 are not simultaneously selected. However, the present invention is not limited to this, and the standby transmission / reception unit 102e may be selected by a plurality of combinations of the radio side switch unit 103 and the RNC side switch unit 104. Moreover, it is possible to perform a load distribution of congestion in another combination of the radio side switch unit 103 and the RNC side switch unit 104 at the same time as replacing a certain combination of the radio side switch unit 103 and the RNC side switch unit 104 It may be controlled to be

  Next, the configuration of the transmission / reception unit 102 (active transmission / reception units 102a to 102d, standby transmission / reception unit 102e) of the base station apparatus 100 shown in FIG. 1 will be described. FIG. 2 is a functional block diagram showing a configuration of transmission / reception section 102 of base station apparatus 100 shown in FIG. As shown in the figure, the transmission / reception unit 102 includes a load monitoring function unit 102-1, a channel control unit 102-2, and a data processing unit 102-3.

  The load monitoring function unit 102-1 monitors the congestion state of the channel control unit 102-2. In addition, in cooperation with the load distribution control function unit 101b of the monitoring control unit 101, the state transition to the normal operation mode for performing normal redundancy control such as failure switching and the load distribution mode for performing load distribution control at the time of congestion is controlled. To do. Further, in the load distribution mode, the load monitoring function unit 102-1 can also pass control information such as channel setting information to the standby transmission / reception unit 102e and perform data signal transmission / reception processing by both the active system and the standby system. And A round-robin method is used for the operation system and standby system of control information. In the load distribution mode, when control information such as channel setting information is to be transferred only to the standby transmission / reception unit 102e, the control information is transmitted in order to enable data signal transmission / reception processing only from the standby system. Control to transfer only to the standby system.

  The channel control unit 102-2 sets and maintains a communication channel based on control information (control message) such as channel setting information of transmission / reception data, user identification information, and the processing included in the data processing unit 102-3 Monitors the queuing status of data queued in the waiting data queue.

  The data processing unit 102-3 includes a queue of processing data, and further includes an input / output data conversion unit 102-3a that converts the data format of the baseband signal, and a demultiplexing unit 102-3b that performs demultiplexing of the baseband signal. And a baseband signal modulation / demodulation processing unit 102-3c.

  The baseband signal input from the RNC-side switch unit 104 waits for processing in the queue of the data processing unit 102-3, and then the input / output data conversion unit 102-3a, demultiplexing unit 102-3b, and modulation / demodulation processing unit 102 The signal is transferred to the wireless side switch unit 103 through signal processing by −3c. Further, the baseband signal input from the wireless side switch unit 103 is subjected to processing waiting in the queue of the data processing unit 102-3, and then the input / output data conversion unit 102-3a, the demultiplexing unit 102-3b, and the modulation / demodulation processing The signal is processed by the unit 102-3c, and then passed to the RNC side switch unit 104.

  Next, the state of the switch units (radio-side switch unit 103 and RNC-side switch unit 104) shown in FIG. 1 will be described. FIG. 3A is a diagram illustrating a state of the switch unit at a normal time, and FIG. 3B is a diagram illustrating a state of the switch unit at the time of load distribution.

  As shown in FIG. 3A, during normal operation, only the contact between the antenna unit 105 or the wireless network control device 200 side and the contact of the active transmission / reception unit is on, and all data is The data is transmitted / received via the operational transmission / reception unit.

  On the other hand, as shown in FIG. 3B, at the time of load distribution, both the contact on the antenna unit 105 or the radio network controller 200 side, the contact on the active transmission / reception unit, and the contact on the standby transmission / reception unit are turned on. Data that arrives at the switch unit after the occurrence of congestion in the active transmission / reception unit is transmitted and received by detouring via the standby transmission / reception unit. In this way, when data congestion occurs, if data transmission / reception is performed using both the active transmission / reception unit and standby transmission / reception unit, load distribution can be achieved, congestion can be resolved early, and data loss / retransmission due to congestion can be achieved. Can be prevented.

  Next, the transition process from normal to load distribution performed in the base station apparatus 100 shown in FIG. 1 will be described. FIG. 4 is a sequence diagram showing a transition process from normal to load distribution performed in base station apparatus 100 shown in FIG. As a premise of the processing shown in the figure, it is assumed that base station apparatus 100 is operating in the normal mode. Further, as an example, a case where congestion occurs in the active transmission / reception unit A102a is shown.

  First, the monitoring control unit 101 transmits a control message to the active transmission / reception unit A 102a (step S101). The active transmission / reception unit A 102a that has received this control message performs a load state determination process (step S102). Here, since it is determined that the load distribution is necessary, the transmission / reception unit A 102a monitors the load distribution start request message in step S104 following the transmission of the response message in the next step S103. Transmit to the control unit 101. In step S102, if the active transmission / reception unit A 102a does not determine that the situation requires load distribution, the process from step S103 is not performed, and the transition process from normal to load distribution ends.

  Note that the determination of the load state in step S102 is performed based on whether or not the queuing number of control messages has reached a threshold value. However, the present invention is not limited to this, and whether or not the usage rate of a CPU (Central Processing Unit) has become a certain value or more continuously for a certain period of time, or until the control message is processed after the control message arrives. The time taken as the processing delay time may be used as a reference whether or not this processing delay time has become a certain value or more.

  Subsequently, the monitoring control unit 101 that has received the load distribution start request performs operation state determination (step S105). Here, the current mode is determined, and since the current mode is the normal mode, it is determined that the shift to the load distribution mode is possible. Subsequently, the monitoring control unit 101 transmits a response to the load distribution start request to the active transmission / reception unit A 102a (step S106).

  Subsequently, the monitoring control unit 101 notifies the active transmission / reception unit A 102a of the shift to the load distribution mode (step S107). Subsequently, the monitoring control unit 101 notifies the standby transmission / reception unit 102e of the shift to the load distribution mode (step S108).

  The active transmission / reception unit A 102a that has received the notification of transition to the load distribution mode in step S107 notifies the monitoring control unit 101 of a load distribution mode transition response (step S109). The standby transmission / reception unit 102e that has received the load distribution mode transition notification in step S108 notifies the monitoring control unit 101 of a load distribution mode transition response (step S110).

  Subsequently, the monitoring control unit 101 notified of the load distribution mode transition response from the active transmission / reception unit A 102a and the standby transmission / reception unit 102e through step S109 and step S110 performs switch control (step S111). That is, by controlling the switches of the RNC side switch unit A 104a and the radio side switch unit A 103a, the active transmission / reception unit A 102a and the standby transmission / reception unit 102e function simultaneously. In this way, the process shifts to the load distribution mode thereafter.

  Next, the transition process from load distribution to normal performed in the base station apparatus 100 shown in FIG. 1 will be described. FIG. 5 is a sequence diagram showing a transition process from load distribution to normal performed in base station apparatus 100 shown in FIG. As a premise of the processing shown in the figure, it is assumed that base station apparatus 100 is operating in the load distribution mode. Further, as an example, a case where the active transmission / reception unit A102a is a load distribution target will be shown.

  First, the monitoring control unit 101 transmits a control message to the active transmission / reception unit A 102a (step S121). The active transmission / reception unit A102a that has received this control message performs a load state determination process (step S122). Here, since it is determined that the load distribution is unnecessary, the transmission / reception unit A 102a monitors the load distribution end request message in step S124 following the transmission of the response message in the next step S123. Transmit to the control unit 101. In step S122, if the active transmission / reception unit A102a does not determine that the load distribution is unnecessary, the process after step S123 is not performed, and the transition process from load distribution to normal ends. Note that the determination of the load state in step S122 is performed based on the same criteria as in step S102.

  Subsequently, the monitoring control unit 101 that has received the load distribution end request transmits a response to the load distribution end to the active transmission / reception unit A 102a (step S125). Subsequently, the monitoring control unit 101 notifies the active transmission / reception unit A 102a of the end of the load distribution mode (step S126). Subsequently, the monitoring control unit 101 notifies the standby transmission / reception unit 102e of the end of the load distribution mode (step S127).

  Subsequently, in step S127, the standby transmission / reception unit 102e that has received the load distribution mode end notification from the monitoring control unit 101 transmits channel information takeover information to the active transmission / reception unit A 102a (step S128). The active transmission / reception unit A102a that has received the channel takeover information sets the takeover channel information (step S129). Then, the active transmission / reception unit A 102a transmits a takeover channel information setting completion notification to the standby transmission / reception unit 102e (step S130).

  Subsequently, the active transmission / reception unit A 102a transmits a load distribution mode end response to the monitoring control unit 101 (step S131). The standby transmission / reception unit 102e also transmits a load distribution mode end response to the monitoring control unit 101 (step S132).

  Subsequently, the monitoring control unit 101 notified of the load distribution mode end response from the active transmission / reception unit A 102a and the standby transmission / reception unit 102e through step S131 and step S132 performs switch control (step S133). That is, the switches of the RNC side switch unit A104a and the radio side switch unit A103a are controlled to stop the function of the standby transmission / reception unit 102e, and only the active transmission / reception unit A102a functions. In this way, the process proceeds to the normal mode thereafter.

  Next, failure switching processing performed in base station apparatus 100 shown in FIG. 1 will be described. FIG. 6 is a sequence diagram showing a failure switching process performed in base station apparatus 100 shown in FIG. As a premise of the processing shown in the figure, it is assumed that the base station apparatus 100 is operating in the load distribution mode of the active transmission / reception unit A102a. In this case, as an example, a case where the active transmission / reception unit B102b is a target of failure switching is shown.

  First, it is detected that a failure has occurred in the active transmission / reception unit B102b, and the failure is notified to the monitoring control unit 101 (step S141). Upon receiving the failure notification from the active transmission / reception unit B102b, the monitoring control unit 101 detects a failure in the active transmission / reception unit B102b (step S142), and performs an operation state determination (step S143). Here, the current mode is determined, and since the current mode is the load distribution mode, it is determined that the transition to the normal mode is possible.

  Subsequently, the monitoring control unit 101 notifies the active transmission / reception unit A 102a of the end of the load distribution mode (step S144). Subsequently, the monitoring control unit 101 notifies the standby transmission / reception unit 102e of the end of the load distribution mode (step S145).

  Subsequently, in step S144, the standby transmission / reception unit 102e that has received the load distribution mode end notification from the monitoring control unit 101 transmits channel information takeover information to the active transmission / reception unit A102a (step S146). The active transmission / reception unit A102a that has received the channel takeover information sets the takeover channel information (step S147). Then, the active transmission / reception unit A 102a transmits a takeover channel information setting completion notification to the standby transmission / reception unit 102e (step S148).

  Subsequently, the active transmission / reception unit A 102a transmits a load distribution mode end response to the monitoring control unit 101 (step S149). The standby transmission / reception unit 102e also transmits a load distribution mode end response to the monitoring control unit 101 (step S150).

  Subsequently, the monitoring control unit 101 notified of the load distribution mode end response from the active transmission / reception unit A 102a and the standby transmission / reception unit 102e through step S149 and step S150 performs switch control (step S151). That is, the switches of the RNC side switch unit A104a and the radio side switch unit A103a are controlled to stop the function of the standby transmission / reception unit 102e, and only the active transmission / reception unit A102a functions.

  Subsequently, the monitoring control unit 101 transmits the setting information of the active transmission / reception unit B102b to the standby transmission / reception unit 102e (step S152). The standby transmission / reception unit 102e that has received the setting information of the active transmission / reception unit B102b sets the setting information of the active transmission / reception unit B102b (step S153). Then, the standby transmission / reception unit 102e notifies the monitoring control unit 101 of the completion of setting of the setting information of the active transmission / reception unit B102b (step S154). Thus, after that, the operation mode transmission / reception unit B102b shifts to the normal mode which is the failure switching.

  According to the failure switching process described above, the failure switching process is prioritized over the load balancing process, so that the data transmission / reception process is achieved while the transmission / reception unit 102 of the base station apparatus 100 achieves the original purpose of taking a redundant configuration. When congestion occurs, load distribution can be performed.

  Next, another embodiment of the failure switching process performed in the base station apparatus 100 shown in FIG. 1 will be described. FIG. 7 is a sequence diagram showing another embodiment of the failure switching process performed in the base station apparatus 100 shown in FIG. As a premise of the processing shown in the figure, it is assumed that the base station apparatus 100 is operating in the load distribution mode of the active transmission / reception unit A102a. In this case, as an example, a case where the active transmission / reception unit B102b is a target of failure switching is shown.

  First, it is detected that a failure has occurred in the active transmission / reception unit B102b, and the failure is notified to the monitoring control unit 101 (step S161). The monitoring control unit 101 that has received the failure notification from the active transmission / reception unit B102b detects a failure in the active transmission / reception unit B102b (step S162), and performs an operation state determination (step S163). Here, the current mode is determined. Since the current mode is the load distribution mode, it is determined to continue the load distribution mode.

  Then, the load distribution mode is terminated by executing the transition process from load distribution to normal shown in FIG. After that, the normal mode is entered. Then, the monitoring control unit 101 performs operation state determination again (step S164). Here, the current mode is determined, and it is determined that the current mode is the normal mode.

  Subsequently, the monitoring control unit 101 performs switch control (step S165). That is, by controlling the switches of the RNC side switch unit B104b and the radio side switch unit B103b, the standby transmission / reception unit 102e functions together with the active transmission / reception unit A102a.

  Subsequently, the monitoring control unit 101 transmits the setting information of the active transmission / reception unit B102b to the standby transmission / reception unit 102e (step S166). The standby transmission / reception unit 102e that has received the setting information of the active transmission / reception unit B102b sets the setting information of the active transmission / reception unit B102b (step S167). Then, the standby transmission / reception unit 102e notifies the monitoring control unit 101 of the completion of setting of the setting information of the active transmission / reception unit B102b (step S168). Thus, after that, the operation mode transmission / reception unit B102b shifts to the normal mode which is the failure switching.

  According to the other embodiment of the failure switching process described above, the load distribution process is prioritized over the failure switching process. Therefore, when the data transmission / reception process occurring in the transmission / reception unit 102 of the base station apparatus 100 is congested, the process is promptly performed. It becomes possible to eliminate congestion.

  As mentioned above, although the Example of this invention was described, this invention is not limited to this, In the range of the technical idea described in the claim, even if it implements in a various different Example, it is. It ’s good. Moreover, the effect described in the Example is not limited to this.

  Specifically, the present invention can also be applied to a general data transmission apparatus having a redundant configuration of transmission / reception units as shown in FIG. That is, when the wireless network control device 200 that is one data transmission / reception device of the base station device 100 shown in FIG. 1 is the data transmission / reception device 600a, and the mobile terminal device that is the other data transmission / reception device is the data transmission / reception device 600b. The switch unit 1-A503a mediates the connection between the data transmission / reception device 600a and the active transmission / reception unit A102a and / or the standby transmission / reception unit 102e, and the switch unit 1-B503b communicates with the data transmission / reception device 600a. Part B102b and / or the standby transmission / reception part 102e, and the switch part 1-C503c mediates the connection between the data transmission / reception device 600a and the active transmission / reception part C102c and / or standby transmission / reception part 102e. The switch unit 1-D503d is connected to the data transmitting / receiving device 600a. Mediate a connection with the active system transceiver D102d and / or standby transceiver 102e.

  Similarly, the switch unit 2-A504a mediates the connection between the data transmission / reception device 600b and the active transmission / reception unit A102a and / or the standby transmission / reception unit 102e, and the switch unit 2-B504b is connected to the data transmission / reception device 600b. The switch unit 2-C504c connects the data transmission / reception device 600b with the active transmission / reception unit C102c and / or the standby transmission / reception unit 102e, mediating the connection with the active transmission / reception unit B102b and / or the standby transmission / reception unit 102e. The switch unit 2-D504d mediates the connection between the data transmission / reception device 600b and the active transmission / reception unit D102d and / or the standby transmission / reception unit 102e.

  As described above, even when the data transmission / reception device 600a and the data transmission / reception device 600b that transmit and receive data face each other in the wired network, the present invention can be used when the data transmission / reception processing is congested. Can function in parallel with the operational transmission / reception unit 102 to enable early resolution of congestion.

  Of the processes described in the above embodiments, all or part of the processes described as being automatically performed can be manually performed, or all or all of the processes described as being manually performed can be performed. A part can be automatically performed by a known method. In addition, the processing procedure, control procedure, specific name, information including various data and parameters shown in the above embodiment can be arbitrarily changed unless otherwise specified.

  Each component of each illustrated device is functionally conceptual and does not necessarily need to be physically configured as illustrated. In other words, the specific form of distribution / integration of each device is not limited to that shown in the figure, and all or a part thereof may be functionally or physically distributed or arbitrarily distributed in arbitrary units according to various loads or usage conditions. Can be integrated and configured.

  Furthermore, each or all of the processing functions performed in each device are entirely or partially a CPU (Central Processing Unit) (or a microcomputer such as an MPU (Micro Processing Unit) or MCU (Micro Controller Unit)) and It may be realized by a program that is analyzed and executed by the CPU (or a microcomputer such as MPU or MCU), or may be realized as hardware by wired logic.

(Appendix 1) Transmission / reception data between devices is input to the active data transmission / reception means and transmitted, and when a failure occurs in the active data transmission / reception means, the active data transmission / reception means sends the data to the standby system. A data transmission device for switching and inputting data to the data transmission / reception means and transmitting the transmission / reception data,
Data congestion monitoring means for monitoring congestion of data input to the operational data transmission / reception means;
When the congestion of data input to the active data transmission / reception means is detected by the data congestion monitoring means, the standby data transmission / reception means is used for transmission of the transmission / reception data together with the active data transmission / reception means. A data transmission apparatus comprising load distribution means for performing load distribution of the transmission as possible.

(Appendix 2) The appendix 1 is characterized in that the data congestion monitoring means detects that congestion is detected when a queue length of data input to the active data transmitting / receiving means exceeds a predetermined threshold. The data transmission device described in 1.

(Supplementary note 3) When congestion is detected by the data congestion monitoring unit and the standby data transmission / reception unit is enabled by the load distribution unit, data having new control information among data to be newly transmitted 3 is input to the standby data transmission / reception means, and data other than the data input to the standby data transmission / reception means is input to the active data transmission / reception means. Data transmission equipment.

(Supplementary Note 4) When congestion is detected by the data congestion monitoring unit and the standby data transmission / reception unit is enabled by the load distribution unit, data to be newly transmitted to the standby data transmission / reception unit The data transmission device according to appendix 1 or 2, wherein the data transmission device is input.

(Supplementary Note 5) When congestion is detected by the data congestion monitoring unit and the standby data transmission / reception unit is enabled by the load distribution unit, data to be newly transmitted is transmitted to the active system data transmission / reception unit and The data transmission apparatus according to appendix 1 or 2, wherein the data is alternately input to both of the standby system data transmission / reception means.

(Supplementary Note 6) When a failure occurs in the data transmission / reception unit of the active system during execution of the load distribution by the load distribution unit, the load distribution by the load distribution unit is immediately terminated and the data transmission / reception of the active system is performed. 6. The data transmission apparatus according to any one of appendices 1 to 5, wherein the data is transmitted by switching from the means to the standby data transmission / reception means.

(Supplementary Note 7) When a failure occurs in the active data transmission / reception means during execution of the load distribution by the load distribution means, the data input to the active data transmission / reception means by the data congestion monitoring means The data transmission apparatus according to any one of appendices 1 to 5, wherein after the congestion detection is completed, the data is transmitted by switching from the active data transmission / reception means to the standby data transmission / reception means. .

(Supplementary note 8) When transmission / reception data between devices is input to an active data transmission / reception process and transmitted, and a failure occurs in the active data transmission / reception process, from the active data transmission / reception process to the standby system A data transmission method for switching to a data transmission / reception step and inputting the transmission / reception data,
A data congestion monitoring step for monitoring congestion of data input to the operational data transmission / reception step;
When congestion of data input to the active data transmission / reception step is detected by the data congestion monitoring step, the standby data transmission / reception step is used for transmission of the transmission / reception data together with the active data transmission / reception step. And a load distribution step for distributing the load of the transmission as possible.

  The present invention relates to a data transmission processing system having an active data transmission device and a standby data transmission device, and the efficiency of the standby data transmission device exceeds the position as an alternative device of the active data transmission device. This is useful when you want to make effective use of the data, especially in the case of processing data congestion in the operational data transmission device, using the standby data transmission device to distribute the data processing load. It is effective when you want to do it.

It is a functional block diagram which shows the structure of the base station apparatus concerning an Example. It is a functional block diagram which shows the structure of the transmission / reception part of a base station apparatus. It is a figure which shows the state of the switch part at the time of normal. It is a figure which shows the state of the switch part at the time of load distribution. It is a sequence diagram which shows the transfer process from normal to load distribution. It is a sequence diagram which shows the transfer process from load distribution to normal. It is a sequence diagram which shows a failure switching process. It is a sequence diagram which shows the other Example of a failure switching process. It is a functional block diagram which shows the structure of the general data transmission apparatus concerning this invention.

Explanation of symbols

DESCRIPTION OF SYMBOLS 100 Base station apparatus 101 Monitoring control part 101a Apparatus monitoring control part 101b Load distribution control function part 101c Transmission / reception channel setting information storage part 101d Transmission / reception part operation | movement state information storage part 102 Transmission / reception part 102a Active transmission / reception part A
102b Active transmission / reception unit B
102c Active transmission / reception unit C
102d Active transmission / reception unit D
102e Standby transmission / reception unit 102-1 Load monitoring function unit 102-2 Channel control unit 102-3 Data processing unit 102-3a Input / output data conversion unit 102-3b Demultiplexing unit 102-3c Modulation / demodulation processing unit 103 Radio side switch Part 103a Radio side switch part A
103b Wireless side switch part B
103c Wireless side switch section C
103d Wireless side switch part D
104 RNC side switch part 104a RNC side switch part A
104b RNC side switch part B
104c RNC side switch part C
104d RNC side switch part D
105 antenna unit 105a, 105b, 105c, 105d antenna 200 wireless network control device 300 control terminal device 600a, 600b data transmission / reception device

Claims (5)

Transmission / reception data between devices is input to and transmitted to the active data transmission / reception means, and when a failure occurs in the active data transmission / reception means, from the active data transmission / reception means to the standby data transmission / reception means A data transmission apparatus for switching and inputting and transmitting the transmission / reception data,
Data congestion monitoring means for monitoring congestion of data input to the operational data transmission / reception means;
When the congestion of data input to the active data transmission / reception means is detected by the data congestion monitoring means, the standby data transmission / reception means is used for transmission of the transmission / reception data together with the active data transmission / reception means. A data transmission apparatus comprising load distribution means for performing load distribution of the transmission as possible.   2. The data congestion monitoring unit according to claim 1, wherein the data congestion monitoring unit detects congestion when a queue length of data input to the active data transmitting / receiving unit exceeds a predetermined threshold. Data transmission equipment.   When congestion is detected by the data congestion monitoring unit and the standby data transmission / reception unit is enabled by the load distribution unit, data having new control information among data to be newly transmitted is transferred to the standby system. 3. The data transmission apparatus according to claim 1, wherein data other than the data input to the standby data transmission / reception means is input to the active data transmission / reception means. .   If a failure occurs in the active data transmission / reception means during execution of the load distribution by the load distribution means, the load distribution by the load distribution means is immediately terminated, and the standby data transmission / reception means sends the standby 4. The data transmission apparatus according to claim 1, wherein the data is transmitted by switching to a system data transmission / reception means. Transmission / reception data between devices is input and transmitted to the data transmission / reception process of the active system, and when a failure occurs in the data transmission / reception process of the operation system, the data transmission / reception process of the operation system is transferred to the data transmission / reception process of the standby system. A data transmission method for switching and inputting and transmitting the transmission / reception data,
A data congestion monitoring step for monitoring congestion of data input to the operational data transmission / reception step;
When congestion of data input to the active data transmission / reception step is detected by the data congestion monitoring step, the standby data transmission / reception step is used for transmission of the transmission / reception data together with the active data transmission / reception step. And a load distribution step for distributing the load of the transmission as possible.

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