JP2004355273A - Redundancy device and method - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To previously store all resource information in an immediately readable state for restarting signal processing early in the occurrence of a fault and minimizing the influence of the occurrence of the fault. <P>SOLUTION: In the occurrence of the faults in transmission signal processing parts 108-1 to 108-n, a control part 102 refers to the resource information of the respective transmission signal processing parts 108-1 to 108-n and selects an auxiliary transmission signal processing part 110 having an empty resource greater than those of the transmission signal processing parts 108-1 to 108-n causing the faults of the transmission signal processing parts 108-1 to 108-n. The control part 102 gives storage parts 107-1 to 107-n and 109 storing the resource information instructions to output the resource information. The auxiliary transmission signal processing part 110 or each of the transmission signal processing parts 108-1 to 108-n performs signal processings of the transmission signal processing parts 108-1 to 108-n causing the fault. <P>COPYRIGHT: (C)2005,JPO&NCIPI

Description

[0001]
TECHNICAL FIELD OF THE INVENTION
The present invention relates to a redundant device and a redundant method, and more particularly, to a redundant device and a redundant method in which processing in a failed unit is performed by an alternative unit when a failed unit occurs.
[0002]
[Prior art]
2. Description of the Related Art Conventionally, a duplex or N + 1 redundant system is known as a system used to prevent the system from going down when a failure occurs in the system. Duplication is a method in which even if two identical devices are installed and one fails, the normal device continues the operation. The N + 1 redundant system is a system in which one device is installed as a common spare for N devices (for example, see Patent Document 1).
[0003]
FIGS. 13 and 14 show a case where the N + 1 redundant system is applied to a base station device. As shown in FIG. 13, a cell, which is an area in which base station apparatus 1301 communicates with a terminal, is further subdivided into areas called sectors S1 to S6, and base station apparatus 1301 includes mobile stations existing in each sector. The signal transmitted to the device is processed by an independent processing unit for each sector. That is, as shown in FIG. 14, the base station apparatus 1301 includes signal processing units 1401-1 to 1401-6 corresponding to the sectors S1 to S6, and further includes a spare signal processing unit 1402. I have. 14, a transmission signal to be transmitted to a terminal existing in each sector is input to corresponding signal processing units 1401-1 to 1401-6 via bus 1403, and each signal processing unit 1401-1 to 1401-6. Processing such as modulation is performed in. The processed transmission signal is output to the bus 1404 and transmitted from an antenna (not shown) to terminals existing in the sectors S1 to S6.
[0004]
Then, in the base station apparatus 1301, for example, when the signal processing unit 1401-1 for a signal to be transmitted to the sector S1 becomes unusable due to a failure, the spare signal processing unit 1402 is started up and the failed signal processing unit The state of 1401-1 is shifted to the spare signal processing unit 1402, and the signal processing is performed by the spare signal processing unit 1402 until the failure is corrected. This can prevent the system down of the signal processing units 1401-1 to 1401-6 of the base station apparatus 1301.
[0005]
[Patent Document 1]
JP 2001-209627 A
[0006]
[Problems to be solved by the invention]
However, in the conventional redundant device and the redundant method, when switching from the active signal processing unit to the standby signal processing unit in the event of a failure, the standby signal processing unit is replaced with the failed signal processing unit or the like. Since it is necessary to read control commands and the like via a shared bus, it takes time to shift the operation state to the standby system, and although it can prevent the system from going down, there is a problem that it is greatly affected by the occurrence of a failure. is there.
[0007]
The present invention has been made in view of such a point, and by storing all the resource information in a state that can be immediately read out, signal processing can be restarted promptly when a failure occurs. It is an object of the present invention to provide a redundant device and a redundant method capable of minimizing the influence of the occurrence of a failure.
[0008]
[Means for Solving the Problems]
The redundant device of the present invention includes a plurality of signal processing units having the same function of performing signal processing by executing a control command, and a detection unit that detects an unusable signal processing unit that is a failed signal processing unit. A storage unit that is provided exclusively for each of the signal processing units and stores resource information for each of the signal processing units, and selects a signal processing unit based on the resource information; Instruction means for instructing the storage means dedicated to the selected signal processing means to output the resource information including the control command to the selected signal processing means.
[0009]
According to this configuration, the resource information is stored in the storage unit in advance, and when a failure occurs, the instruction unit only transmits an instruction message for switching to the alternative signal processing unit, and the alternative signal processing unit has a failure. Since the resource information of the signal processing unit is read from the dedicated storage unit, the instruction unit does not need to transmit the resource information of the failed signal processing unit to the substitute signal processing unit. Further, since the resource information can be read from the dedicated storage means, the alternative signal processing means can be brought into the operating state in a short time. Further, the resource information of the failed signal processing means can be read from the dedicated storage means, and it is not necessary to read the resource information into the alternative signal processing means via the shared bus after the failure has occurred. When transitioning to the state, it is possible to prevent information leakage from occurring due to an increase in traffic volume or the like. In addition, the instruction unit selects a signal processing unit that is an alternative to the failed signal processing unit from among the plurality of signal processing units based on the resource information. Therefore, for example, when using the N + 1 redundant system, If the signal processing means has already been used, the system may be shut down by selecting another signal processing means other than the standby signal processing means as an alternative signal processing means for the failed signal processing means. Can be prevented.
[0010]
In the redundant device of the present invention, in the above configuration, the instruction unit may use the free resource of a normal signal processing unit having a free resource equal to or greater than the resource of the unusable signal processing unit as a resource of the unusable signal processing unit. A configuration is adopted in which the signal processing means is selected by assignment.
[0011]
According to this configuration, in addition to the above effects, as an alternative to the unusable signal processing means, a normal signal processing means having free resources equal to or larger than the unavailable signal processing resources is selected. Alternative signal processing means can be selected.
[0012]
In the redundant device of the present invention, in the above configuration, the signal processing unit instructed to perform the signal processing of the unusable signal processing unit by the instruction unit, the signal processing of the unusable signal processing unit by the instruction unit. And the signal processing of the unusable signal processing means instructed by the instructing means is performed.
[0013]
According to this configuration, in addition to the above-described effects, even when the resource of the unusable signal processing unit is allocated, both the signal processing of the original allocated signal processing and the signal processing of the unusable signal processing unit are performed. Can be performed at the same time, so that it is possible to prevent a decrease in signal processing capability of the entire system when a failure occurs.
[0014]
In the redundant device of the present invention, in the above-mentioned configuration, the signal processing unit may operate as a spare signal processing unit that does not perform signal processing when a failure has not occurred and an operation that performs signal processing when a failure has not occurred. Signal processing means, wherein the indicating means first selects the spare signal processing means when a failure occurs, and free resources of the spare signal processing means are less than resources of the unusable signal processing means. In this case, the normal operation signal processing means is allocated by allocating the free resources of the normal operation signal processing means having free resources equal to or more than the resources of the unusable signal processing means as resources of the unusable signal processing means. Take a configuration to select.
[0015]
According to this configuration, in addition to the above-described effects, the normal operation signal processing means is used as an alternative signal processing means when a failure occurs, when the spare signal processing means has insufficient free resources. Further, it is possible to prevent the system from going down due to a shortage of resources of the standby signal processing means.
[0016]
The redundant device of the present invention, in the above configuration, includes the same number of the storage units and the signal processing units, and has a plurality of units each including one signal processing unit and one storage unit. Have a configuration in which each of the units performs signal processing independently.
[0017]
According to this configuration, in addition to the above-described effects, the unit is configured by a combination of each signal processing unit and the storage unit that stores the resource information of all the signal processing units. It is not necessary to share the transmission line when reading the data, and the resource information can be read quickly, and the signal processing means and the storage unit can be made into a card or the like. It is easy and can reduce the size of the device.
[0018]
A communication device according to the present invention employs a configuration including any of the redundant devices described above.
[0019]
According to this configuration, the resource information is stored in the storage unit in advance, and when a failure occurs, the instruction unit does not need to transmit the resource information of the failed signal processing unit to the substitute signal processing unit. Since the information can be read from the dedicated storage means, the alternative signal processing means can be brought into the operating state in a short time, and the influence of the occurrence of a fault during communication can be prevented. In addition, the instruction unit selects a signal processing unit that is an alternative to the failed signal processing unit from among the plurality of signal processing units based on the resource information. Therefore, for example, when using the N + 1 redundant system, If the signal processing means has already been used, the system may be shut down by selecting another signal processing means other than the standby signal processing means as an alternative signal processing means for the failed signal processing means. Can be prevented to prevent a state in which communication cannot be performed.
[0020]
The redundant method according to the present invention includes a step of detecting an unusable signal processing unit that is a failed signal processing unit, and a storage unit provided exclusively for each of the signal processing units. Storing the resource information; selecting the signal processing unit based on the resource information; and outputting the resource information including a control command of the unusable signal processing unit to the selected signal processing unit. And instructing the storage means dedicated to the selected signal processing means.
[0021]
According to this method, the resource information is stored in advance in the storage unit, and when a failure occurs, the instruction unit only transmits an instruction message for switching to the alternative signal processing unit, and the alternative signal processing unit has a failure. Since the resource information of the signal processing unit is read from the dedicated storage unit, the instruction unit does not need to transmit the resource information of the failed signal processing unit to the substitute signal processing unit, and the resource information is stored in the dedicated storage unit. Since the signal can be read, the alternative signal processing means can be brought into the operating state in a short time. Further, the resource information of the failed signal processing means can be read from the dedicated storage means, and it is not necessary to read the resource information into the alternative signal processing means via the shared bus after the failure has occurred. When transitioning to the state, it is possible to prevent information leakage from occurring due to an increase in traffic volume or the like. In addition, the instruction unit selects a signal processing unit that is an alternative to the failed signal processing unit from among the plurality of signal processing units based on the resource information. Therefore, for example, when using the N + 1 redundant system, If the signal processing means has already been used, the system may be shut down by selecting another signal processing means other than the standby signal processing means as an alternative signal processing means for the failed signal processing means. Can be prevented.
[0022]
BEST MODE FOR CARRYING OUT THE INVENTION
The gist of the present invention is that resource information for each signal processing unit is stored in a storage unit provided exclusively for each signal processing unit, and when a failure occurs in the signal processing unit, the signal processing unit in which the failure has occurred The alternative signal processing unit having a free resource that can allocate the resource is executed by executing a control command included in the resource information of the failed signal processing unit stored in the storage unit and the failure occurs. That is, the signal processing section processes the signal.
[0023]
Hereinafter, embodiments of the present invention will be described in detail with reference to the drawings.
[0024]
(Embodiment 1)
FIG. 1 is a diagram illustrating a configuration of transmitting apparatus 100 according to Embodiment 1.
[0025]
The transmission signal processing units 108-1 to 108-n and the storage units 107-1 to 107-n are each unitized as a pair to form signal processing units 114-1 to 114-n. The spare transmission signal processing unit 110 and the storage unit 109 are unitized to form a spare signal processing unit 115. Also, the monitoring unit 101, the control unit 102, the resource information generation unit 103, the storage units 107-1 to 107-n, the transmission signal processing units 108-1 to 108-n, the storage unit 109, and the backup transmission signal processing unit 110 The redundant device 116 is configured.
[0026]
The monitoring unit 101, which is a detecting unit, monitors whether or not each of the transmission signal processing units 108-1 to 108-n has an unusable failure. The transmission signal processing units 108-1 to 108-n (disabled signal processing means) in which the failure has occurred are specified based on the information, and notified to the control unit 102.
[0027]
The control unit 102 serving as the instruction unit stores the resource information of each of the transmission signal processing units 108-1 to 108-n and the backup transmission signal processing unit 110 input from the resource information generation unit 103. When the control unit 102 receives the information of the failed transmission signal processing units 108-1 to 108-n from the monitoring unit 101, the control unit 102 first refers to the stored resource information, and Whether the transmission signal processing unit 110 is in use or not, and if it is in use, the free resources of the spare transmission signal processing unit 110 are equal to or greater than the resources of the failed transmission signal processing units 108-1 to 108-n. It is determined whether or not. The control unit 102 determines whether the spare transmission signal processing unit 110 is unused or the free resources of the spare transmission signal processing unit 110 are equal to or larger than the resources of the failed transmission signal processing units 108-1 to 108-n. In some cases, a message indicating that a control command included in the resource information of the failed transmission signal processing units 108-1 to 108-n is set to the dedicated storage unit 109 of the backup transmission signal processing unit 110. Is output to the transmission path. The transmission line 117 is shared by the transmission signal processing units 108-1 to 108-n and the backup transmission signal processing unit 110.
[0028]
On the other hand, when the available resources of the spare transmission signal processing unit 110 are less than the resources of the failed transmission signal processing units 108-1 to 108-n, the control unit 102 refers to the stored resource information. Then, the other normal transmission signal processing units 108-1 to 108-n having free resources to which the resources of the failed transmission signal processing units 108-1 to 108-n can be allocated are searched for. Control included in the resource information of the failed transmission signal processing units 108-1 to 108-n to the dedicated storage units 107-1 to 107-n of the normal transmission signal processing units 108-1 to 108-n. A message to the effect that a command is set is output to the transmission line 117. The details of the control unit 102 will be described later.
[0029]
The resource information generation unit 103 performs user management based on a plurality of pieces of user information included in a signal from a higher station (not shown). The user information is information necessary for maintaining communication such as information on a sector where the user is currently located and information on a type of service used by the user. Then, resource information generating section 103 generates resource information of each of transmission signal processing sections 108-1 to 108 -n from the user information, and outputs the generated resource information to control section 102 and storage sections 107-1 to 107-n. The resource information is information for each of the transmission signal processing units 108-1 to 108-n or for each of the backup transmission signal processing units 110, and includes the transmission signal processing units 108-1 to 108-n and the backup transmission signal processing unit 110. A control command consisting of information on required resources, information on free resources of the transmission signal processing units 108-1 to 108-n and the spare transmission signal processing unit 110, parameters for setting an environment for communication, and the like. Including.
[0030]
The encoding units 104-1 to 104-n encode the transmission signals and output the signals to the bus 105.
[0031]
The bus 105 is a transmission path of the transmission signal output from each of the encoding units 104-1 to 104-n, and outputs the transmission signal to the selector unit 106. The transmission signal transmitted on the bus 105 is processed by each of the transmission signal processing units 108-1 to 108-n.
[0032]
The selector unit 106 converts the transmission signals requested by the transmission signal processing units 108-1 to 108-n and the backup transmission signal processing unit 110 into the transmission signal processing units 108-1 to 108-n and the backup transmission signal processing. It selectively outputs to the unit 110. That is, when only the transmission signal to be processed by itself is requested from the transmission signal processing units 108-1 to 108-n, the selector unit 106 is processed by each of the transmission signal processing units 108-1 to 108-n. To the requested transmission signal processing units 108-1 to 108-n, and the transmission signal processing units 108-1 to 108-n process the transmission signals processed by the transmission signal processing units 108-1 to 108-n. When a request is made for a transmission signal that should have been processed by the units 108-1 to 108-n, the transmission signal processing unit 108-1 to 108-n in which the failure has occurred and its own transmission signal are requested. It outputs both the transmission signal and the transmission signal that should have been processed to the requested transmission signal processing units 108-1 to 108-n. In addition, when the spare transmission signal processing unit 110 requests a transmission signal that should have been processed by the failed transmission signal processing units 108-1 to 108-n, the selector 106 The transmission signal that should have been processed by the transmission signal processing units 108-1 to 108-n in which is generated is output to the backup transmission signal processing unit 110.
[0033]
The storage units 107-1 to 107-n, which are storage units, store the resource information of all the transmission signal processing units 108-1 to 108-n input from the control unit 102. The storage units 107-1 to 107-n transmit the control commands included in the resource information of the stored transmission signal processing units 108-1 to 108-n in which the fault has occurred in accordance with the instruction of the control unit 102. Output to the processing units 108-1 to 108-n. The storage units 107-1 to 107-n each output resource information only to one of the transmission signal processing units 108-1 to 108-n, and each of the storage units 107-1 to 107-n outputs any one of the transmission signal processing units 108. -1 to 108-n are provided exclusively.
[0034]
The transmission signal processing units 108-1 to 108-n, which are signal processing units and operation signal processing units, perform signal processing independently of the other transmission signal processing units 108-1 to 108-n. By executing a control command included in the resource information stored in the storage units 107-1 to 107-n, the control unit 106 requests the selector unit 106 to send a transmission signal to be processed. That is, when a control command for processing only its own transmission signal is input from the storage units 107-1 to 107-n, the transmission signal processing units 108-1 to 108-n process only the transmission signal to be processed by themselves. A request is sent to the selector unit 106 for transmission, and a control command for processing its own transmission signal from the storage units 107-1 to 107-n is processed by the transmission signal processing units 108-1 to 108-n in which a failure has occurred. If both control commands, which are supposed to process the transmission signal, are input, the transmission command to be processed by itself and the transmission signal processing units 108-1 to 108-n in which the failure has occurred are processed. The selector 106 is requested to send both the transmission signal that should have been transmitted.
[0035]
Then, transmission signal processing sections 108-1 to 108-n perform W-CDMA signal processing such as signal spreading and multiplexing on the transmission signal input from selector section 106, and output the result to selector section 111. Note that the transmission signal processing units 108-1 to 108-n are not limited to processing W-CDMA signals, and may process signals such as OFDM or CDMA. Details of the transmission signal processing units 108-1 to 108-n will be described later.
[0036]
The storage unit 109 serving as a storage unit stores the resource information of all the transmission signal processing units 108-1 to 108-n input from the control unit 102. Then, storage section 109 outputs, to the transmission signal processing section 109, a control command included in the resource information of the stored transmission signal processing sections 108-1 to 108-n in which the failure has occurred, according to an instruction from the control section 102. .
[0037]
The spare transmission signal processing unit 110, which is a signal processing unit and a spare signal processing unit, is in a standby state in which signal processing is not performed when all the transmission signal processing units 108-1 to 108-n are normal. Become. The backup transmission signal processing unit 110 executes a control command included in the resource information input from the storage unit 109 when any of the transmission signal processing units 108-1 to 108-n has a failure. , Request the selector unit 106 to send a transmission signal to be processed.
[0038]
Then, the spare transmission signal processing unit 110 applies W-CDMA such as signal spreading and multiplexing processing to the transmission signals of the failed transmission signal processing units 108-1 to 108-n input from the selector unit 106. It performs signal processing and outputs the result to the selector unit 111. All the transmission signal processing units 108-1 to 108-n and the spare transmission signal processing unit 110 have the same physical configuration and the same function, and Is a standby transmission signal processing unit 110. The spare transmission signal processing unit 110 is not limited to processing W-CDMA signals, and may also process signals such as OFDM or CDMA.
[0039]
The selector unit 111 receives the transmission signal input from the transmission signal processing units 108-1 to 108-n, or the transmission signal input from the transmission signal processing units 108-1 to 108-n and the input from the backup transmission signal processing unit 110. The transmission signal is output to amplification section 112 so as to be transmitted to the corresponding sector. That is, when all the transmission signal processing units 108-1 to 108-n are normal, the selector unit 111 amplifies the signals so that the signals are transmitted to the sectors corresponding to the transmission signal processing units 108-1 to 108-n. If there is one or more transmission signal processing units 108-1 to 108-n which output to the unit 112 and one or more failures occur, the transmission signal input from the spare transmission signal processing unit 110 and the failure occur. The transmission signals input from the transmission signal processing units 108-1 to 108-n of the normal transmission signal processing units 108-1 to 108-n that have performed signal processing instead of the transmission signal processing units 108-1 to 108-n The transmission signal processing units 108-1 to 108-n in which the failure has occurred output to the amplifying unit 112 so as to be transmitted to the sector that should have originally transmitted.
[0040]
Amplifying section 112 amplifies the transmission signal input from selector section 111 and transmits the signal to a corresponding sector from antennas 113-1 to 113-n.
[0041]
Next, details of the transmission signal processing units 108-1 to 108-n will be described with reference to FIG. Since the transmission signal processing units 108-1 to 108-n all have the same function and the same configuration, only the transmission signal processing unit 108-1 will be described, and the transmission signal processing unit 108-n will be described. The description of 2-108-n is omitted.
[0042]
If the transmission signal requesting unit 201 is not instructed to process the transmission signal that should have been processed by the failed transmission signal processing units 108-2 to 108-n, the storage unit 107-1 By executing the control command included in the input resource information, the transmission signal processing unit 108-1 requests the selector 106 for a transmission signal to be originally processed. In addition, when the transmission signal requesting unit 201 is instructed to process the transmission signal that should have been processed by the transmission signal processing units 108-2 to 108-n in which the failure has occurred, the storage unit 107 By executing the control command included in the resource information input from -1, the transmission signal originally processed by the transmission signal processing unit 108-1 and the transmission signal processing units 108-2 to 108-n in which a failure has occurred are executed. The selector 106 requests the transmission signal to be processed.
[0043]
If the selector unit 202 is not instructed to process the transmission signal that should have been processed by the failed transmission signal processing units 108-2 to 108-n, the selector unit 202 receives its own signal input from the selector unit 106. The transmission signal to be processed by transmission signal processing section 108-1 is output to predetermined processing sections 203-1 to 203-n assigned according to the resource information input from storage section 107-1. In addition, when instructed to process the transmission signal that should have been processed by the transmission signal processing units 108-2 to 108-n in which the failure has occurred, the selector unit 202 receives an input from the selector unit 106. The transmission signal to be processed by its own transmission signal processing unit 108-1 is output to predetermined processing units 203-1 to 203-n assigned according to the resource information input from the storage unit 107-1, The transmission signal processing unit 108-2 to 108-n, which is input from the selector unit 106 and has failed, should be processed by the transmission signal processing unit 108-2 to 108-n. Output to
[0044]
Processing units 203-1 to 203-n perform W-CDMA signal processing such as signal spreading and multiplexing on the transmission signal input from selector 202, and output the result to multiplexing unit 203.
[0045]
The multiplexing unit 203 multiplexes the transmission signals input from the processing units 202-1 to 202-n and outputs the multiplexed transmission signals to the selector unit 111. The multiplexing unit 203 performs multiplexing for each transmission signal transmitted to each sector.
[0046]
Next, details of the control unit 102 will be described with reference to FIG.
[0047]
Storage section 301 stores the resource information of each of transmission signal processing sections 108-1 to 108-n input from resource information generation section 103. Then, the storage unit 301 outputs the search result according to the instruction of the search unit 302 to the search unit 302.
[0048]
When information indicating that a failure has occurred in any of the transmission signal processing units 108-1 to 108-n is input from the monitoring unit 101 to the search unit 302, the spare transmission signal processing unit 110 has failed. A search is performed to determine whether or not there are free resources equal to or greater than the resources of the transmission signal processing units 108-1 to 108-n. The search unit 302 has free resources equal to or greater than the resources of the transmission signal processing units 108-1 to 108-n when the backup transmission signal processing unit 110 is unused or when the backup transmission signal processing unit 110 has failed. In this case, an instruction signal for outputting the resource information of the failed transmission signal processing units 108-1 to 108-n is output to the dedicated storage unit 109 of the backup transmission signal processing unit 110. On the other hand, when the available resources of the spare transmission signal processing unit 110 are less than the resources of the failed transmission signal processing units 108-1 to 108-n, the search unit 302 is stored in the storage unit 301. From the resource information of each of the transmission signal processing units 108-1 to 108-n, the transmission signal processing units 108-1 to 108- having free resources equal to or greater than the resources of the failed transmission signal processing units 108-1 to 108-n. Search for n. Then, the search unit 302 selects the normal transmission signal processing units 108-1 to 108-n that perform signal processing in place of the failed transmission signal processing units 108-1 to 108-n. Output an instruction signal for instructing to output resource information of the failed transmission signal processing units 108-1 to 108-n to dedicated storage units 107-1 to 107-n of 108-1 to 108-n. I do. This instruction signal is a short message indicating that the signal processing of the failed transmission signal processing units 108-1 to 108-n is switched to the substitute normal transmission signal processing units 108-1 to 108-n. The amount of information is much smaller than information.
[0049]
Next, the operation of the redundant device 116 will be described with reference to FIG.
[0050]
First, monitoring section 101 monitors whether or not any of transmission signal processing sections 108-1 to 108-n in which a failure has occurred (step ST401).
[0051]
When a failure occurs in the transmission signal processing units 108-1 to 108-n, the control unit 102 sets the resources of the failed transmission signal processing units 108-1 to 108-n to the spare transmission signal processing unit 110. It is determined whether or not the available resources are equal to or less than the available resources (whether or not the spare transmission signal processing unit 110 can be used) (step ST402).
[0052]
If the resources of the failed transmission signal processing units 108-1 to 108-n are not less than the free resources of the spare transmission signal processing unit 110 (if the spare transmission signal processing unit 110 cannot be used), the control unit 102 Searches for normal transmission signal processing units 108-1 to 108-n having free resources equal to or greater than the resources of failed transmission signal processing units 108-1 to 108-n (step ST403). If there is no free resource as a result of the search, the corresponding unit is transited to the unusable state (blocked state), and the occurrence of a failure is notified to the monitoring device.
[0053]
Next, the control unit 102 transmits a fault to the normal transmission signal processing units 108-1 to 108-n having free resources equal to or more than the resources of the transmission signal processing units 108-1 to 108-n in which the failure has occurred. It instructs to set a control command included in the generated resource information of transmission signal processing sections 108-1 to 108-n (step ST404).
[0054]
Next, the normal transmission signal processing units 108-1 to 108-n in which a failure has not occurred are used as substitute transmission signal processing units 108-1 to 108-n for their own signal processing and other transmissions in which a failure has occurred. The signal processing sections 108-1 to 108-n perform both signal processing and the signal processing (step ST405).
[0055]
In step ST402, when the spare transmission signal processing unit 110 can be used, the control unit 102 transmits the resources of the transmission signal processing units 108-1 to 108-n in which the available resources of the spare transmission signal processing unit 110 have failed. Is assigned (step ST406).
[0056]
Next, when the resources of the failed transmission signal processing units 108-1 to 108-n are allocated, the spare transmission signal processing unit 110 generates the failed transmission signal processing units 108-1 to 108-n. (Step ST407).
[0057]
On the other hand, if no failure has occurred in step ST401, the signal processing is continued without searching for a free resource or the like (step ST408).
[0058]
Next, control section 102 determines whether or not to end the signal processing (step ST409), and if not, repeats the processing of steps ST401 to ST408.
[0059]
Next, a method of allocating the resources of the failed transmission signal processing units 108-1 to 108-n to the free resources of the normal transmission signal processing units 108-1 to 108-n will be described with reference to FIGS. explain.
[0060]
5 to 7 have the same configuration as the transmission signal processing units 108-1 to 108-n and have the same configuration as the n (n is a natural number of 2 or more) transmission signal processing units and the spare transmission signal processing unit 110. The figure shows a case where a certain spare transmission signal processing unit is provided. FIG. 5 shows the used resources and the free resources of the transmission signal processing units # 1 to #n and the spare transmission signal processing unit when all the transmission signal processing units # 1 to #n are normal. . FIG. 6 shows the used resources and the free resources of the transmission signal processing units # 1 to #n and the spare transmission signal processing unit when the transmission signal processing unit # 2 fails. FIG. 7 shows the used resources and the free resources of the transmission signal processing units # 1 to #n and the spare transmission signal processing unit when the transmission signal processing units # 2 and # 3 fail. is there.
[0061]
When all the transmission signal processing units are normal, as shown in FIG. 5, the transmission signal processing unit # 1 uses 30% of the resource # 501 for its own signal processing, and the free resource # 502 70%. The transmission signal processor # 2 uses 70% of the resource # 503 for its own signal processing, and the free resource # 504 becomes 30%. The transmission signal processing unit # 3 uses 50% of the resource # 505 for its own signal processing, and the free resource # 506 becomes 50%. Further, since the spare transmission signal processing unit is not used, the used resources are 0%, and the free resources are 100%.
[0062]
When the transmission signal processing unit # 2 fails from the state where all the transmission signal processing units are normal, as shown in FIG. 6, the transmission signal processing unit # 1 uses 30% of the resource # 501 for its own signal processing. , And the free resource # 502 becomes 70%. The transmission signal processing unit # 2 is in an unusable state due to a failure. The transmission signal processing unit # 3 uses 50% of the resource # 505 for its own signal processing, and the free resource # 506 becomes 50%. In addition, since the resource # 503 of the transmission signal processing unit # 2 in which the failure has occurred is allocated to the backup transmission signal processing unit in accordance with an instruction from the control unit 102, 70% of the resource is used for the signal processing of the transmission signal processing unit # 2. # 503 is used, and the free resource # 601 becomes 30%.
[0063]
When the transmission signal processing unit # 2 further fails from the state where the transmission signal processing unit # 2 has failed, as shown in FIG. 7, the free resource # 601 of the spare transmission signal processing unit is 30%, and Since the resource # 505 of the signal processing unit # 3 is 50%, the resources of the transmission signal processing unit # 3 cannot be allocated to the free resources # 601 of the spare transmission signal processing unit. Therefore, the control unit 102 searches for the transmission signal processing unit # 1 in which the free resource # 502 is 70%, and assigns the resource of the failed transmission signal processing unit # 3 to the free resource # 502 of the transmission signal processing unit # 1. Decide to assign. As a result, the transmission signal processing unit # 1 uses 30% of the resource # 501 for its own signal processing, and uses 50% of the resource # 505 for the signal processing of the transmission signal processing unit # 3. The resource is used, and the free resource # 701 becomes 20%. The spare transmission signal processing unit uses 70% of the resource # 503 for signal processing of the transmission signal processing unit # 2, and the free resource # 601 becomes 30%.
[0064]
As described above, according to the first embodiment, each of transmission signal processing units 108-1 to 108-n stores in advance the resource information of all transmission signal processing units 108-1 to 108-n in the storage unit. Therefore, when a failure occurs, the control unit 102 transmits a substitute transmission signal processing unit 108-1 to 108-n for the failed transmission signal processing unit 108-1 to 108-n or a spare transmission signal. Only a short message instructing the switching needs to be transmitted to the processing unit 110. As a result, the alternative transmission signal processing units 108-1 to 108-n can be switched to the operation state in a short time, so that the signal processing of the failed transmission signal processing units 108-1 to 108-n can be performed early. And the effect of the occurrence of the failure can be minimized. Further, the control unit 102 replaces the resource information of the failed transmission signal processing units 108-1 to 108-n after the failure has occurred with the transmission signal processing units 108-1 to 108-n or the spare transmission signal processing unit 110. Since there is no need to transmit the information to the server, information leakage does not occur due to a failure during transmission or the like, and reliability can be improved.
[0065]
Further, according to the first embodiment, when the spare transmission signal processing unit 110 is already in use and a new failure occurs in the transmission signal processing units 108-1 to 108-n, the failure occurs. The normal transmission signal processing units 108-1 to 108-n having free resources equal to or larger than the resources of the transmission signal processing units 108-1 to 108-n in which Since the resources of the failed transmission signal processing units 108-1 to 108-n are allocated to the available resources of 108-n, it is possible to prevent the system from going down due to the shortage of the alternative transmission signal processing units.
[0066]
(Embodiment 2)
FIG. 8 is a diagram showing a configuration of a transmitting apparatus 800 according to the second embodiment. Transmitting apparatus 800 eliminates auxiliary signal processing unit 115 from transmitting apparatus 100 according to Embodiment 1 shown in FIG. The same components as those in FIG. 1 are denoted by the same reference numerals, and description thereof is omitted.
[0067]
The monitoring unit 101, the control unit 102, the resource information generation unit 103, the storage units 107-1 to 107-n, and the transmission signal processing units 108-1 to 108-n constitute a redundant device 801.
[0068]
Next, the operation of the redundant device 801 will be described with reference to FIG.
[0069]
First, monitoring section 101 monitors whether or not transmission signal processing sections 108-1 to 108-n in which a failure has occurred (step ST901).
[0070]
Control section 102 searches for normal transmission signal processing sections 108-1 to 108-n having free resources equal to or greater than the resources of failed transmission signal processing sections 108-1 to 108-n (step ST902). If there is no free resource as a result of the search, the corresponding unit is transited to the unusable state (blocked state), and the occurrence of a failure is notified to the monitoring device.
[0071]
Next, the control unit 102 transmits a fault to the normal transmission signal processing units 108-1 to 108-n having free resources equal to or more than the resources of the transmission signal processing units 108-1 to 108-n in which the failure has occurred. It instructs to set a control command included in the generated resource information of transmission signal processing sections 108-1 to 108-n (step ST903).
[0072]
Next, the normal transmission signal processing units 108-1 to 108-n in which no failure has occurred perform their own signal processing and the signal processing of the other transmission signal processing units 108-1 to 108-n in which the failure has occurred. Are performed (step ST904).
[0073]
On the other hand, if no failure has occurred in step ST901, the signal processing is continued as it is (step ST905).
[0074]
Next, control section 102 determines whether or not to end the signal processing (step ST906), and if not, repeats the processing of steps ST901 to ST905.
[0075]
Next, a method of allocating the resources of the failed transmission signal processing units 108-1 to 108-n to the free resources of the normal transmission signal processing units 108-1 to 108-n will be described with reference to FIGS. explain.
[0076]
10 to 12 show n (n is a natural number of 2 or more) transmission signal processing units having the same configuration as the transmission signal processing units 108-1 to 108-n. FIG. 10 shows the used resources and the free resources of the transmission signal processing units # 1 to #n when all the transmission signal processing units # 1 to #n are normal. FIG. 11 shows used resources and free resources of the transmission signal processing units # 1 to #n when the transmission signal processing unit # 2 fails. FIG. 12 shows the used resources and the free resources of the transmission signal processing units # 1 to #n when the transmission signal processing units # 2 and # 3 fail.
[0077]
When all the transmission signal processing units are normal, as shown in FIG. 10, the transmission signal processing unit # 1 uses 30% of the resource # 1001 for its own signal processing, and the free resource # 1002 70%. The transmission signal processing unit # 2 uses 70% of the resource # 1003 for its own signal processing, and the free resource # 1004 becomes 30%. The transmission signal processing unit # 3 uses 50% of the resource # 1005 for its own signal processing, and the free resource # 1006 becomes 50%. Also, the transmission signal processing unit #n uses 10% of the resource # 1007 for its own signal processing, and the free resource # 1008 becomes 90%.
[0078]
When the transmission signal processing unit # 2 fails from the state where all the transmission signal processing units are normal, as shown in FIG. 11, the transmission signal processing unit # 1 and the transmission signal processing unit # 3 are different from the case of FIG. It performs its own signal processing using the same resources as it is. The transmission signal processing unit # 2 is in an unusable state due to a failure. The control unit 102 searches for the transmission signal processing unit #n in which the available resource # 1008 is 90%, and allocates the resource # 1003 of the transmission signal processing unit # 2 in which the failure has occurred. Therefore, the transmission signal processing unit #n uses 10% of the resource # 1007 for its own signal processing, and uses 70% of the resource # 1003 for the signal processing of the transmission signal processing unit # 2. % Resources are used, and the free resource # 1101 becomes 20%.
[0079]
When the transmission signal processing section # 3 further fails from the state where the transmission signal processing section # 2 has failed, as shown in FIG. The transmission signal processing unit # 1 having the transmission signal processing unit 1002 is searched, and the resource # 1005 of the transmission signal processing unit # 3 in which the failure has occurred is allocated. Therefore, transmission signal processing section # 1 uses 30% resource # 1001 for its own signal processing, 50% resource # 1005 for signal processing of transmission signal processing section # 3, and uses free resources # 1201 becomes 20%. The transmission signal processing unit #n performs signal processing with the same resource allocation as in FIG.
[0080]
As described above, according to the second embodiment, each of transmission signal processing units 108-1 to 108-n stores resource information of all transmission signal processing units 108-1 to 108-n in the storage unit in advance. Therefore, when a failure occurs, the control unit 102 switches to the transmission signal processing units 108-1 to 108-n as alternatives to the transmission signal processing units 108-1 to 108-n in which the failure has occurred. Only a short message instructing is sent. As a result, the alternative transmission signal processing units 108-1 to 108-n can be switched to the operation state in a short time, so that the signal processing of the failed transmission signal processing units 108-1 to 108-n can be performed early. And the effect of the occurrence of the failure can be minimized. Further, since the control unit 102 does not need to transmit the resource information of the failed transmission signal processing units 108-1 to 108-n to the alternative transmission signal processing units 108-1 to 108-n after the failure, Information leakage does not occur due to a failure during transmission or the like, and reliability can be improved.
[0081]
According to the second embodiment, a plurality of normal transmission signal processing units 108-1 to 108-n having free resources equal to or larger than the resources of failed transmission signal processing units 108-1 to 108-n A normal transmission signal processing unit 108-1 to 108-n as a substitute for the transmission signal processing unit 108-1 to 108-n in which a failure has occurred is searched from among the transmission signal processing units 108-1 to 108-n. Since the resources of the failed transmission signal processing units 108-1 to 108-n are allocated to the -n free resources, it is possible to prevent the system from going down due to a shortage of alternative transmission signal processing units.
[0082]
Further, according to the second embodiment, since it is not necessary to provide a spare transmission signal processing unit, the circuit scale can be reduced, and the entire device can be downsized.
[0083]
In Embodiments 1 and 2, the redundant device is applied to the transmitting device. However, the present invention is not limited to this, and can be applied to any device such as a receiving device. In the first and second embodiments, the redundant device is applied to a transmitting device that transmits wirelessly. However, the present invention is not limited to this, and a redundant device that transmits a transmitting signal using a cable such as an optical fiber is used. The present invention is also applicable to a wired communication device that receives a reception signal using a cable such as an optical fiber.
[0084]
【The invention's effect】
As described above, according to the present invention, by storing all the resource information in a state where it can be immediately read out, signal processing can be restarted early when a failure occurs, Can be minimized.
[Brief description of the drawings]
FIG. 1 is a block diagram showing a configuration of a transmitting apparatus according to Embodiment 1 of the present invention.
FIG. 2 is a block diagram showing a configuration of a transmission signal processing unit according to Embodiment 1 of the present invention.
FIG. 3 is a block diagram illustrating a configuration of a control unit according to the first embodiment of the present invention.
FIG. 4 is a flowchart showing an operation of the redundant device according to the first embodiment of the present invention;
FIG. 5 is a diagram showing resources and free resources of a transmission signal processing unit and a spare transmission signal processing unit according to Embodiment 1 of the present invention.
FIG. 6 is a diagram showing resources and free resources of a transmission signal processing unit and a spare transmission signal processing unit according to Embodiment 1 of the present invention.
FIG. 7 is a diagram showing resources and free resources of a transmission signal processing unit and a spare transmission signal processing unit according to Embodiment 1 of the present invention;
FIG. 8 is a block diagram showing a configuration of a transmitting apparatus according to Embodiment 2 of the present invention.
FIG. 9 is a flowchart showing the operation of the redundant device according to the second embodiment of the present invention.
FIG. 10 is a diagram showing resources and free resources of a transmission signal processing unit and a spare transmission signal processing unit according to Embodiment 2 of the present invention.
FIG. 11 is a diagram showing resources and free resources of a transmission signal processing unit and a spare transmission signal processing unit according to Embodiment 2 of the present invention.
FIG. 12 is a diagram showing resources and free resources of a transmission signal processing unit and a spare transmission signal processing unit according to Embodiment 2 of the present invention.
FIG. 13 is a diagram showing sectors for subdividing cells.
FIG. 14 is a diagram showing a configuration of a signal processing unit of a conventional base station apparatus.
[Explanation of symbols]
100 transmitting device
101 Monitoring unit
102 control unit
103 Resource information generator
107-1 to 107-n, 109 storage unit
108-1 to 108-n transmission signal processing unit
110 spare transmission signal processing unit
114-1 to 114-n signal processing unit
115 Spare signal processing unit
116 Redundant device

Claims (7)

A plurality of signal processing means having the same function of performing signal processing by executing a control command,
Detecting means for detecting an unusable signal processing means which is a failed signal processing means;
Storage means that is provided exclusively for each of the signal processing means and stores resource information for each of the signal processing means;
A signal processing unit is selected based on the resource information, and the resource information including the control command of the unusable signal processing unit is output to the selected signal processing unit. Instruction means for instructing the storage means;
A redundant device, comprising: The instruction means selects the signal processing means by allocating the free resources of the normal signal processing means having free resources equal to or more than the resources of the unusable signal processing means as resources of the unusable signal processing means. The redundant device according to claim 1, wherein: The signal processing unit instructed by the instruction unit to perform the signal processing of the unusable signal processing unit includes the signal processing and the instruction before the instruction unit performs the signal processing of the unusable signal processing unit. 3. The redundant device according to claim 1, wherein both the signal processing and the signal processing of the unusable signal processing means specified by the means are performed. The signal processing unit includes a spare signal processing unit that does not perform signal processing when a failure has not occurred and an operation signal processing unit that performs signal processing when a failure has not occurred. In the event of a failure, the spare signal processing means is selected first, and if the available resources of the spare signal processing means are less than the resources of the unusable signal processing means, 2. The normal operation signal processing means is selected by allocating the free resources of the normal operation signal processing means having free resources equal to or more than resources as resources of the unusable signal processing means. The redundant device according to any one of claims 1 to 3. The same number of the storage units and the signal processing units are provided, and a plurality of units each including one signal processing unit and one storage unit are provided, and each of the plurality of units independently performs signal processing. The redundant device according to any one of claims 1 to 4, wherein: A communication device comprising the redundant device according to claim 1. Detecting an unusable signal processing unit which is a failed signal processing unit;
A step of storing resource information for each signal processing unit in a storage unit provided exclusively for each of the signal processing units;
Selecting the signal processing means based on the resource information;
Instructing the storage unit dedicated to the selected signal processing unit to output the resource information including the control command of the unusable signal processing unit to the selected signal processing unit;
A redundancy method, comprising:

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