KR20180078323A - How to switch communication systems, communication devices, and communicators - Google Patents

Abstract

In the communication system according to the present invention, the routing controller has a routing table, and the communication device 12 determines whether the communication device 11 has the identification number A and the communication device 12 has the identification number B , The communication device 11 changes its identification number to A, and when the communication device 11 receives a switching request requesting to switch the communication destination of the device from itself to the communication device 11, A path changing process is performed in which the identifier a is changed to the path identifier b stored in the routing table as the path identifier corresponding to the identification number B. [

Description

How to switch communication systems, communication devices, and communicators

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a multiplexed communication system, a communication apparatus in the communication system, and a method for switching a communication destination.

Description of the Related Art [0002] Conventionally, there is a technique of multiplexing a technique of providing a plurality of communication devices that can be communication destinations, that is, a communication device, to a communication device serving as a communication source. As described above, in the technique of multiplexing a communication apparatus, a device that is an actual communication destination is switched among a plurality of communication apparatuses, that is, a communication party is switched.

In a communication device serving as a communication source, there is a device that can switch the communication destination device but can not switch the communication destination device by changing settings such as changing the destination address of the data. In addition, even when the communication device serving as the communication source can change the setting, it takes time to change the setting, and the communication is interrupted. As a technology for switching a communication destination without requiring a setting change in a communication device serving as a communication source, a technology for switching a communication destination by a transaction routing controller is proposed in Patent Document 1.

In the technique described in Patent Document 1, the transaction routing controller duplicates an I / O (input / output) device to correspond to each of the master device and the slave device. In the technology described in Patent Document 1, the device IDs (IDentifiers: identifiers) of the master device and the slave devices are fixed, and when the transaction routing controller receives a transaction from the processor side, Retrieves the ID from the routing table, and transmits the transaction to the matching device. It is possible to switch between the master device and the slave device by updating the routing table.

In Patent Document 2, in a redundant controller system in which a plurality of pairs of CPU (Central Processing Unit) modules exist, the identification number of the parallel bus control unit of the CPU module to be a pair is changed, A technique of switching is proposed. Thus, the communication source can be switched without having the function corresponding to the switching by the CPU module of the communication source.

In Patent Document 3, in a communication system including a duplicated node, a node to which a counterpart node number is added in a transmission frame is transmitted by broadcasting, and a node set as a master device in a duplicated node performs transmission processing , The node set as the slave device does not perform the transmission processing. In the technology described in Patent Document 3, when the master device is switched in the duplicated node, the node number is changed to switch the communication destination. Thus, in the technique described in Patent Document 3, the node of the communication source can switch the communication destination without having a function corresponding to the switching.

Patent Document 1: JP-A-2009-193469 Patent Document 2: JP-A-2009-187314 Patent Document 3: JP-A-2005-45474

However, in the technique described in Patent Document 1, there is a problem that the transaction routing controller, which is a path controller, needs to have many functions, and the processing in the transaction routing controller becomes complicated. The transaction routing controller has at least five functions: "Receive transaction", "Retrieve routing information", "Determine transaction transmission to routing path", "Receive reply to transaction", and " in need.

In the technique described in Patent Document 2, since the communication party is switched by changing the identification number of the CPU module, that is, the communication device, a plurality of communication devices on the network temporarily have the same identification number. In this case, since there are a plurality of communication apparatuses having the same identification number, a plurality of responses are returned to one transaction preceding the identification number, thereby causing the communication source to inadvertently communicate with a plurality of communication apparatuses It happens.

In the technique described in Patent Document 3, transmission to all the nodes is performed by the always-on broadcast, so there is a problem that the communication load of the network is increased as compared with the one-to-one uni-cast communication .

SUMMARY OF THE INVENTION In view of the above, it is an object of the present invention to provide a communication system capable of suppressing a processing load in a path controller and suppressing a communication load without adding a switching function to a communication source do.

In order to solve the above-described problems, a communication system according to the present invention includes a first device, a second device, a third device, and a path controller, and the first device, the second device, The device has an identification number that is uniquely identifiable, and performs communication using the identification number. The path controller is connected to the first device, the second device, and the third device by different paths, respectively. The path controller corresponds to the path identifier according to the identifier of the destination of the received communication data based on the path information, which is the information indicating the correspondence between the identification number of the destination and the path identifier, And transmitting the communication data to the communication device. The second device requests the first device to switch the communication device of the third device from itself to the first device while the first device has the first number as the identification number and the second device has the second number as the identification number The first device, the second device or the path controller changes the path identifier corresponding to the first number in the path information to the path corresponding to the second number To the path identifier stored in the path information as the identifier.

The communication system according to the present invention achieves the effect that the processing load in the path converter can be suppressed and the communication load can be suppressed without switching the communication source to the communication source, thereby switching the communication destination.

1 is a diagram showing a configuration example of a communication system according to the first embodiment.
Fig. 2 is a diagram showing a configuration example of the communication device of Fig. 1;
3 is a diagram showing a configuration example of the routing controller shown in Fig.
4 is a diagram showing a configuration example of a routing table according to the first embodiment.
5 is a flowchart showing an example of a routing process procedure of the routing controller according to the first embodiment.
Fig. 6 is a flowchart showing an example of a process procedure in the case of performing communication device switching processing between communication devices according to the first embodiment; Fig.
7 is a diagram showing the identification number of the communication device and the state of the routing table in the communication device switching process in the first embodiment.
8 is a diagram showing a communication device that actually receives a transaction when a device or the like sends a transaction to each identification number during the switching process of the communication source according to the first embodiment.
9 is a diagram showing an example of the hardware configuration of the routing controller according to the first embodiment.
10 is a diagram showing a configuration example of a communication system according to the second embodiment.
11 is a diagram showing a configuration example of a routing controller according to the second embodiment.
12 is a diagram showing a configuration example of a multicast routing table according to the second embodiment.
13 is a flowchart showing an example of a routing processing procedure of a transaction of a multicast communication in the routing controller according to the second embodiment.
14 is a flowchart showing an example of a process procedure in the case where a communication party switching process is performed between communication devices according to the second embodiment.
15 is a diagram showing a configuration example of a communication system according to the third embodiment.
16 is a diagram showing a configuration example of a communication device according to the third embodiment.
17 is a flowchart showing an example of a communication processing procedure of a communication party between communication apparatuses according to the third embodiment.
18 is a flowchart showing an example of a switching process procedure in the routing controller of the fourth embodiment.
19 is a flowchart showing an example of a switching process procedure in the routing controller according to the fifth embodiment.

Hereinafter, a communication system, a communication device, and a switching method of a communication destination according to an embodiment of the present invention will be described in detail with reference to the drawings. The present invention is not limited to these embodiments.

Embodiment 1

1 is a diagram showing a configuration example of a communication system according to Embodiment 1 of the present invention. As shown in Fig. 1, the communication system 1 of the present embodiment includes communication devices 11 and 12 to be switched, a routing controller 21 as a path controller for routing, And a device 31 that is a device capable of communicating with the communication devices 11 and 12. [ Although Fig. 1 shows one device, two devices, or one set of communication devices, the number of devices may be two or more, and the number of communication devices may be two or more.

In the present embodiment, a description will be given of a method of switching a communication device, which is a communication destination of the device 31, between the communication device 11 and the communication device 12 when the device 31 is a communication source. In general, in the device serving as the communication source, the communication device can be switched by changing the identification number of the device to be the destination. However, the device 31 of the present embodiment does not have such a function of switching the communication device. In the present embodiment, a communication system capable of switching the communication destination even when the device 31 does not have the switching function of the communication source will be described. Alternatively, the device 31 will be described with respect to a communication system in which the device 31 does not need to switch the communication destination even if the device 31 has the function of switching the communication destination.

As shown in Fig. 1, the communication device 11 and the routing controller 21, which are the first devices, are connected by the path a, and the communication device 12 and the routing controller 21, which are the second devices, And the device 31, which is the third device, and the routing controller 21 are connected by the path c. Specifically, the paths a, b, and c are paths formed by a wire line or a wireless line, respectively, and a communication device such as a repeater may exist on the path. The paths a, b, and c may be a combination of a wire line and a wireless line. For example, when the paths a, b, and c are wire lines, the identifiers a, b, and c indicating the path correspond to the input / output port numbers in the routing controller 21. Alternatively, when the paths a, b, and c are wireless lines, the identifiers a, b, and c indicating the path are the identification numbers of devices that are repeaters in the wireless communication in the path toward the end point of each path Respectively.

The communication device 11, the communication device 12, the routing controller 21, and the device 31 are each set with a unique identification number. 1, the identification number of the communication device 11 is A, the identification number of the communication device 12 is B, and the identification number of the device 31 is C, as shown in Fig. That is, the communication device 11 as the first device, the communication device 12 as the second device, and the device 31 as the third device each have an identification number uniquely identifiable and perform communication using the identification number .

1, a procedure for a device in the communication system 1 of the first embodiment to perform communication will be described. When communicating with another device in the communication system 1, the communication device 11, the communication device 12, and the device 31 transmit the identification number of the transmitting source, that is, A transaction storing the identification number of the destination, that is, the identification number of the device of the communication destination, is transmitted. In addition, the transaction indicates communication data such as a transmission frame, a packet, and the like, and a bundle of communication data corresponding to the same communication process.

When the routing controller 21 receives a transaction from each route connected to the routing controller 21, the routing controller 21 transmits the transaction to the route based on the identification number of the destination stored in the transaction.

When the communication device 11, the communication device 12, and the device 31 receive a transaction from the path to which they are connected, the communication device 11, the communication device 12, and the device 31 determine whether the identification number of the destination stored in the transaction matches their identification number. In the case of coincidence, the communication device 11, the communication device 12, and the device 31 perform the receiving process for the transaction, and if not, the transaction is discarded.

When a response is returned to the transaction in which the reception processing is performed, the communication device 11, the communication device 12, and the device 31 use the identification number of the transmission source of the transaction as the identification number of the destination, As a transmission source identification number. When receiving the transaction of the response, the routing controller 21 transmits the transaction to the path based on the identification number of the destination stored in the transaction. When the communication device 11, the communication device 12 and the device 31 receive the transaction of the response, it is determined whether or not the identification number of the destination stored in the transaction matches the identification number of the communication device 11. [ If they match, the communication device 11, the communication device 12, and the device 31 perform the receiving process for the transaction, and if they do not match, the communication device 11, the communication device 12, (31) discards the transaction.

Fig. 2 is a diagram showing a configuration example of the communication device 11 and the communication device 12 in Fig. Since the communication devices 11 and 12 have the same configuration, the configuration and operation of the communication device 11 will be described as representatives. The configuration and operation of the communication device 12 are the same as those of the communication device 11. The communication device 11 includes a transmission / reception unit 101, an identification number processing unit 111, a data memory 121, a microprocessor 131, and a peripheral tool I / F 141. As shown in Fig. 2, the communication device 11 is connected to the peripheral tool 151. Fig. The peripheral tool 151 is a device capable of accepting input from a user and performing various settings for the communication device 11 based on the contents of the received input, for example, a personal computer or the like.

The transmission / reception unit 101 is a transmitter and a receiver that receive a transaction from a path n outside the communication device 11 and transmit the transaction to an external path n. The path n indicates a path through which the communication device 11 and the communication device 12 respectively connect. Specifically, the path n in the communication device 11 is the path a in Fig. 1, and the path n in the communication device 12 is the path b in Fig. The transmission / reception unit 101 refers to the data stored in the data memory 121 and updates the data stored in the data memory 121 based on the received transaction. The identification number processing unit 111 holds an identification number set in its own device, that is, an identification number used when transmitting / receiving a transaction in the transmission / reception unit 101 of the communication device 11. The data memory 121 holds data that can be referred to and updated by the transmission / reception unit 101.

The microprocessor 131 controls the operation of the communication device 11 and executes switching processing of the communication destination. The peripheral tool I / F 141 receives an arbitrary request from the external peripheral tool 151 to the microprocessor 131 and transmits a response from the microprocessor 131 to the peripheral tool 151.

Next, an operation of transmitting a transaction from the communication device 11 will be described with reference to Fig. The microprocessor 131 designates the identification number of the transmission destination, i.e., the destination, and requests the transmission / reception unit 101 to transmit the transaction. The content of this transaction is, for example, control information indicating a request or response to the device 31 or the like. Requests to be transmitted as transactions may require a response. When the microprocessor 131 requests the transmission of the transaction, the microprocessor 131 also instructs the transmission / reception unit 101 about the type of the transaction. The transaction type is, for example, a transaction that requests to acquire data, and it is predetermined whether or not a response is requested for each transaction type.

The transmission / reception unit 101 creates a transaction based on a request from the microprocessor 131. [ At this time, the transmission / reception unit 101 sets the specified identification number in the storage area of the identification number of the destination in the transaction, and sets the identification number of the own device acquired from the identification number processing unit 111 to the identification number of the transmission source in the transaction Set in the storage area. After creation of the transaction, the transceiver 101 transmits the transaction to the path n. When this transaction is a transaction requiring a response, the transceiver 101 stores the transmitted transaction.

Next, an operation in which the communication device 11 receives a transaction will be described with reference to Fig. When receiving the transaction from the path n, the transceiving unit 101 compares the identification number of the destination stored in the transaction with the identification number of the own device acquired from the identification number processing unit 111. [ When the identification number of the destination stored in the transaction coincides with the identification number of the destination, the transmission / reception unit 101 performs processing based on the receiving process, that is, the content of the transaction, If so, discard the transaction. However, when a number indicating a multicast or a number indicating a broadcast is stored as the identification number of the destination of the transaction, the reception processing is performed irrespective of the above comparison result.

When the received transaction is an access request to the data memory 121, the transmission / reception unit 101 performs reading or writing to the data memory 121 in accordance with the request. If the received transaction is a transaction in which a response is stored, the transceiving unit 101 searches for a transaction corresponding to the response among the stored transmitted transactions. When there is a transaction corresponding to the response, the transmitting / receiving unit 101 passes the response to the microprocessor 131. [ Then, the transmission / reception unit 101 deletes the corresponding transaction.

When the received transaction is a transaction requesting a response, the transmission / reception unit 101 stores the identification number of the transmission source stored in the transaction in the area of the identification number of the destination, and transmits the identification number of the destination of the transaction to the identification number The transaction for storing the response, that is, the transaction in which the response is stored, is created. Then, the transceiver 101 sends a response transaction to the path n.

Next, the routing procedure of the transaction by the routing controller 21 will be described with reference to Figs. 3 to 5. Fig. 3 is a diagram showing a configuration example of the routing controller 21 shown in Fig. As shown in FIG. 3, the routing controller 21 includes transmitters and receivers 201, 202, and 203 as transmitters and receivers that transmit a transaction to each connected path, receive a transaction from each path to be connected, 211). In addition, the routing controller 21 stores the routing table 221.

The transceiver 201 connects to the path a, the transceiver 202 connects to the path b, and the transceiver 203 connects to the path c. The routing processing unit 211 determines the transmission destination of the transaction received by the transmission / reception units 201, 202 and 203 and transfers the transaction to the transmission and reception units 201, 202 and 203 corresponding to the transmission path Or performs the receiving process itself. The routing table 221 is path information used in the routing processor 211 to determine the source. The routing table 221 is stored in, for example, a memory which is a storage unit in the routing controller 21.

4 is a diagram showing an example of the configuration of the routing table 221. As shown in FIG. As shown in Fig. 4, the routing table 221 is composed of an identification number and a source path that is a path corresponding to the identification number. In other words, each row of the routing table 221, that is, each record represents a routing path, i.e., routing information for each identification number. The routing table 221 does not have routing information in which the identification number is duplicated.

As described above, the routing controller 21, which is a path controller, is connected to the communication device 11, the communication device 12, and the device 31 via different paths. The routing controller 21 has a path identifier A routing unit 211, which is a processing unit that sends communication data to a path corresponding to the path identifier corresponding to the destination identifier of the received communication data, based on the path information, Respectively.

Next, a procedure for updating the routing table 221 will be described with reference to Figs. 1 and 3. Fig. Any communication device among the communication devices 11 and 12 transmits an update request of the routing table 221 by a transaction to the routing controller 21 at an arbitrary timing. The routing controller 21 receives a transaction by a corresponding transceiver 201, 202, 203 via a path n that is a path to a communication device.

The transmission / reception unit 201 extracts the identification number of the destination from the transaction received from the corresponding route, and if the identification number of the destination is the identification number indicating the routing controller 21, the transmission / reception unit 201 sends the transaction to the routing processing unit 211. The routing processor 211 adds, changes or deletes the information of the routing table 221 according to the contents of the received transaction. When the routing table 221 is updated, the updated contents are immediately reflected in the determination of the transmission destination in the routing processing unit 211. [

The format of the update request of the routing table 221 transmitted by the communication device and the method of updating the routing table 221 by the routing processing unit 211 are not limited. For example, the routing controller 21 includes a memory in which the routing table 221 is stored, a method of overwriting the contents of the routing table 221 stored in the memory from each communication device, a routing table 221 ), And a method in which the communication device issues a database operation command such as a SQL (Structured Query Language) language and the routing processing unit 211 updates the routing table 221 .

The initial value of the routing table 221 can be set to any value. As an initial value of the routing table 221, a method of retaining only the routing information to the routing controller 21, a method of retaining routing information indicating a path previously set for each identification number for the identification number corresponding to all devices in the communication system And the like. The routing information addressed to the routing controller 21 is the identification number of the routing controller 21 and the destination path is the information indicating the routing processing unit 221 in the routing controller 21.

After setting the initial value of the routing table 221, the routing table 221 is updated with the contents according to the configuration of the communication system of Fig. 1 and the identification numbers set for the respective devices at the time of startup in the communication system shown in Fig. Concretely, for example, when the communication system is started, the routing table 221 according to the configuration of the communication system is transmitted to the representative communication device, which is one of the communication devices 11 and 12, via the peripheral tool 151 by the user, Is set. The representative communication device updates the routing table 221 of the routing controller 21 in accordance with the contents of the routing table 221 set from the peripheral tool 151. [ Alternatively, the initial value of the routing table 221 may be set first, and the identification number of each communication device and device may be set in accordance with the initial value of the routing table 221 through the peripheral tool 151 by the user at the start of the communication system May be used. Alternatively, the representative communication device may set the routing table 221, and thereafter, the representative communication device may set the identification number to another communication device and device 31. [

Next, the routing processing of the routing controller 21 will be described. 5 is a flowchart showing an example of a routing process procedure of the routing controller 21. As shown in Fig. As shown in Fig. 5, the routing controller 21 receives a transaction from any of the paths a to c by the corresponding transceivers 201 to 203 (step S1). Alternatively, when the routing controller 21 itself transmits a transaction, the routing processor 211 generates a transaction and sends it to the transceivers 201 to 203 corresponding to the destination. At this time, the routing processor 211, By itself referring to this transaction, it receives the transaction.

Next, the routing processing unit 211 searches the routing table 221 for the route corresponding to the transmission destination (step S2). Specifically, from the transaction received by the routing processing unit 211, it acquires the identification number corresponding to the destination of the transaction, that is, the transmission destination. Then, the routing processing unit 211 searches the routing table 221 for the routing information whose identification number matches the identification number of the transmission destination (step S2).

Then, the routing controller 21 transmits the transaction to the route to be searched by the search, that is, to the transmission destination path of the routing information whose identification number matches the identification number of the transmission destination (step S3). More specifically, the routing processing unit 211 passes the transaction to the transceivers 201 to 203 corresponding to the transmission path obtained by the search in step S2. Then, the transceivers 201 to 203 transmit the transaction to the source path. However, when the transmission source path is before the routing controller 21, the routing processing unit 211 receives the transaction. The routing process when the routing controller 21 receives the response transaction of the transaction is also performed in the same procedure.

As described above, in the present embodiment, the routing process performed by the routing controller 21 is simple, and the throughput is small.

Next, with reference to FIG. 6 to FIG. 8, a procedure for switching the communication destination in the communication system of the first embodiment will be described. The communication device is a communication device when the device 31, or a device other than the communication device 11 and the communication device 12 (not shown in Fig. 1) is used as a transmission source. Hereinafter, as an example, an example of using the device 31 as a transmission source will be described. The switching process of the communication destination is performed between the communication device 11 and the communication device 12 to be switched.

Fig. 6 is a flowchart showing an example of a process procedure in the case where communication device switching processing is performed between communication device 11 and communication device 12. Fig. 7 is a diagram showing the identification numbers of the communication device 11 and the communication device 12 and the state of the routing table 221 during the communication switching process. 8 is a diagram showing a communication device that actually receives a transaction when the device 31 or the like sends a transaction to each identification number during the switching process of the communication source.

The timing for starting the switching processing of the communication destination is the timing at which the communication device 11 or the communication device 12 is started when the user requests switching to the communication device 11 or the communication device 12 using the peripheral tool 151 When the communication device 11 or the communication device 12 receives a request from another communication device in the communication system when the communication device 11 or the communication device 11 automatically determines switching start according to a specific condition.

As shown in Fig. 6, the communication device 11 acquires the identification number B of the communication device 12 to be switched (step S11). Specifically, first, the communication device to be switched, that is, the device to which the communication device is to be switched, is determined to switch the communication device of the communication device 11. Any method can be used for determining the target device to which the communication party is to be switched, but it is possible to consider a method in which the user designates the identification number of the device to which the communication device 11 is connected using the peripheral tool 151. [ Alternatively, the candidate of the identification number indicating the candidate of the communication target device to which the communication device 11 is to be switched may be held in advance, and the user may use the peripheral tool 151 to select the target device for switching the communication destination, , A method of designating a target device to which the communication device is to be switched to the communication device 11, and the like. The microprocessor 131 of the communication device 11 transmits the identification number indicated by the peripheral tool 151 or the identification number corresponding to the indicated parameter via the peripheral tool I / F 141 to the communication destination As the identification number of the target device to be switched.

It is to be noted here that the communication device to which the communication device 11 is to be switched is the communication device 12, but the communication device to be switched may correspond to the switching process of the present embodiment, Is not limited to the communication device 12. For example, in addition to the communication devices 11 and 12 shown in Fig. 1, other communication devices are further connected to the routing controller 21, and among the communication devices 12 and 12, The communication device to be switched to may be selected.

The state of the communication device 11, the identification number of the communication device 12, and the state of the routing table 221 at the time of starting the process of step S11 is the state of P101 in Fig. The communication device that receives the actual transaction when the transaction is issued to the identification number at the time of starting the process of step S11 is as shown in P201 in Fig. That is, a transaction in which the identification number A is set as the identification number of the destination is received by the communication device 11, and the identification number B is set as the identification number of the destination is received by the communication device 12. [

Returning to the description of FIG. 6, the communication device 11 transmits a request for changing the identification number to the communication device 12 (step S12). Specifically, the microprocessor 131 of the communication device 11 instructs the transmission / reception unit 101 to transmit a transaction that stores the request for changing the identification number with the communication device 12 as a destination, The transmission / reception unit 101 transmits the transaction of the identification number change request to the communication device 12 based on the instruction. A method for requesting the identification number change is, for example, a method of transmitting a dedicated transaction such as an interruption to the communication device 12 at the request destination. The method of requesting the change of the identification number is not limited to this, and a method of writing a request to a specific address of the data memory 121 of the requesting communication device 12 may be used. Further, in the present embodiment, since the communication device 12 can recognize that the communication device 11 is switched from the communication device 11 to the communication device 11, The change request of the identification number of the form corresponds to a switching request for requesting the communication device 11 to switch the communication destination to the communication device 12. [

Next, when the communication device 12 receives a request for changing the identification number from the communication device 11 through the routing controller 21 (step S21), the communication device 12 acquires the identification number A which is the identification number of the communication device 12 itself Step S22). As a method of obtaining the identification number of the change destination, a method of storing the identification number of the change destination in the change request transmitted in step S12 and extracting the identification number of the change destination from the change request have. Alternatively, in step S12, the identification number to be changed is written to the specific address in the data memory 121, and the communication device 11 refers to the written value, or the communication device 11 , And a method of reading the identification number of the communication device 12 by the communication device 11 can be considered.

Next, the communication device 12 changes its identification number from B to A (step S23). That is, the communication device 12 transmits the communication device of the device 31 to the communication device (the communication device 12) in a state in which the communication device 11 has the first number A and the communication device 12 has the second number B That is, the communication device 12 is changed to the identification number A of the communication device 11, Specifically, the microprocessor 131 of the communication device 12 rewrites its own identification number held by the identification number processing unit 111 via the transmission / reception unit 101. [ In this step S23, the identification numbers of the communication device 11, the communication device 12, and the state of the routing table 221 change to the state of P102 in Fig. When a transaction is transmitted to the identification number, the communication device receiving the actual transaction changes to P202 in Fig. At this time, the identification numbers of the communication device 11 and the communication device 12 become the same A as shown in the state P102 in Fig. However, since the transactions to the communication device 11 and the communication device 12 are routed by the routing controller 21 and arrive at the communication device 11 and the communication device 12, as shown in state P202 in Fig. 8 , The transaction to the identification number A is received only by the communication device 11.

Returning to the description of FIG. 6, next, the communication device 12 transmits the completion of the change of the identification number (step S24). That is, after changing the identification number of the communication device 12 to A, the communication device 12 notifies the communication device 11 of the completion of the change of the identification number that is the conversion completion. Specifically, the microprocessor 131 of the communication device 12 instructs the transmission / reception unit 101 to transmit the completion of the change of the identification number to the communication device 11 as the transmission source of the change request of the identification number, (101) transmits the completion of the change of the identification number to the communication device (11). Alternatively, a method of notifying the completion of change may be a method of transmitting a dedicated transaction such as an interrupt to the communication device of the change request source, or may be completed to a specific address of the data memory 121 of the communication device 12 of the change request source A method of writing a notice, or the like may be used.

Next, when the communication device 11 receives the completion of the change of the identification number from the communication device 12 through the routing controller 21 (step S13), the communication device 11 transmits the identification number A And B are switched (step S14). That is, when the completion of the switching is notified, the communication device 11 stores the path identifier corresponding to the identification number A in the routing table 221, which is the path information, in the routing table 221 as the path identifier corresponding to the identification number B To b, which is the path identifier. After the communication device 12 changes the identification number to A which is the identification number of the communication device 11, the path identifier corresponding to the identification number B is changed to the identification number A before the identification number of the communication device 11 is changed To the path identifier a stored in the routing table 221 as the path identifier corresponding to the path identifier. Specifically, when the microprocessor 131 of the communication device 11 receives the completion of the change of the identification number through the transmission / reception unit 101, the microprocessor 131 of the communication device 11 transmits the identification number A and the identification number B of the routing table 221 of the routing controller 21 Is performed. Specifically, the path identifier corresponding to the transmission destination path of the routing information of the identification number A in the routing table 221 is updated from a to b, and the path identifier corresponding to the transmission destination path of the routing information of the identification number B in the routing table 221 Update the path identifier from b to a.

The processing for replacing the path of the identification numbers A and B of the routing table 221 of the routing controller 21, that is, the updating method of the routing table 221, is performed by a transaction to the routing controller 21 Alternatively, the contents of the routing table 221 may be updated by rewriting the information in the memory of the routing controller 21.

By this step S14, the identification number of the communication device 11, the communication device 12, and the state of the routing table 221 change to the state of P103 in Fig. When a transaction is transmitted to the identification number, the communication device receiving the actual transaction changes to P203 in Fig. At this time, the identification numbers of the communication device 11 and the communication device 12 become the same A as shown in the state P103 in Fig. However, since the transaction to the communication device 11 and the communication device 12 is routed by the routing controller 21, a transaction to the identification number A is received only by the communication device 12 do.

Returning to the description of FIG. 6, the communication device 11 changes its identification number from A to B (step S15). Specifically, the microprocessor 131 of the communication device 11 changes the identification number of the communication device 11 held by the identification number processing unit 111 from A to B via the transmission / reception unit 101. [

By this step S15, the identification numbers of the communication device 11, the communication device 12, and the state of the routing table 221 change to the state of P104 in Fig. When a transaction is transmitted to the identification number, the communication device receiving the actual transaction changes to P204 in Fig. By the above process, the transaction ahead of the identification number A is transmitted by the routing controller 21 on the path b and is received by the communication device 12. [

As described above, in the present embodiment, the communication device 11 has A as the communication identification number, and the communication device 12, which is another communication device capable of communicating with the external device 31, And transmits a switching request for requesting switching of the communication destination of the device 31 from the communication device 12 itself to the communication device 12 with the identification number B as the identification number. When the communication device 11 receives the completion of the switching from the communication device 12, the communication device 11 transmits the path identifier corresponding to the identification number A in the routing table 221 held by the routing controller 21, It changes to the path identifier stored in the routing table 221 as the path identifier, and changes its own identification number to B.

In the example shown in Fig. 6, the flow of the case of starting the switching process of the communication party from the communication device 11 has been described. When the switching process is started from the communication device 12, (12). Alternatively, the steps S11, S12, and S21 shown in FIG. 6 may be omitted, and the switching process of the communication destination may be started from step S22. 6, the communication device 11 and the communication device 12 are interchanged and the steps S11, S12, and S21 are omitted. In the case of the communication device 11, The switching processing may be started from the communication device 11. [

Next, the hardware configuration of the communication devices 11 and 12 and the routing controller 21 of the present embodiment will be described. The transmitting and receiving unit 101 of the communication devices 11 and 12 is a transmitter and a receiver. The data memory 121 is a memory, and the microprocessor 131 is a processor. The peripheral tool I / F 141 is a transmitter and a receiver. The identification number processing unit 111 is a memory. The function of the microprocessor 131 described above is realized by the microprocessor 131 reading and executing a program stored in a memory in the communication devices 11 and 12. [

Fig. 9 is a diagram showing an example of a hardware configuration of the routing controller 21. Fig. As shown in Fig. 9, the routing controller 21 can be configured by a processor 301, a memory 302, and a communication unit 303. Fig. The transmission / reception units 201 to 203 are realized by the communication unit 303. [ The routing processing unit 211 is realized by the processor 301 reading and executing the program stored in the memory 302. [ The routing table 221 is stored in the memory 302.

9 shows an example in which the routing processing unit 211 is realized by the processor 301, the routing processing unit 211 may be implemented by a processing circuit which is dedicated hardware. In this case, the processing circuitry may be, for example, a single circuit, a composite circuit, a programmed processor, a parallel programmed processor, an Application Specific Integrated Circuit (ASIC), a Field Programmable Gate Array (FPGA) .

As described above, in the first embodiment, the communication device 11 and the communication device 12 make the routing table 221 of the routing controller 21 changeable, and when switching the communication destination, the communication device 11, And the communication device (12), after the completion of the change of the identification number, the communication device (12) notifies the other of the completion of the switching, the communication device which has received the switching completion changes the identification number, To update the routing table 221 of FIG. Therefore, the device 31, which is the device of the communication source, can switch the communication destination on the network without having a function corresponding to the switching of the communication destination. There is a period in which a plurality of communication devices having the same identification number exists when the communication destination is switched, but since the transaction is routed by the routing controller 21 to the path corresponding to the identification number, There is no problem that the response of the response is returned. In addition, since unnecessary transmission of the transaction to each communication device is lost by performing the routing, the communication load can be suppressed as compared with the configuration using broadcasting or the like without routing.

Embodiment 2 Fig.

10 is a diagram showing a configuration example of a communication system according to Embodiment 2 of the present invention. The communication system 1a of the present embodiment includes the communication devices 11 and 12, the routing controller 41 which is the path controller of the second embodiment, and the device 31 similar to the first embodiment. Components having the same functions as those of the first embodiment are denoted by the same reference numerals as those of the first embodiment, and redundant description is omitted. Hereinafter, differences from the first embodiment will be described. The communication device 11 and the communication device 12 have the same configuration as the communication device 11 and the communication device 12 of the first embodiment. The operations of the communication device 11 and the communication device 12 are the same as those of the communication device 11 and the communication device 12 except that a part of the operation is different from the communication device 11 and the communication device 12 of the first embodiment Is the same as the operation of the communication device 11 and the communication device 12 of Mode 1.

As described above, in the first embodiment, since the identification number A of the communication device 11 is changed to B after the identification number A is temporarily shared by the communication devices 11 and 12 and the routing table 221 is changed , It was possible to switch the communication destination without the device corresponding to the identification number A becoming a member (absence). Therefore, in the case where the communication apparatus switching method of Embodiment 1 is applied in a form in which the communication apparatus 11 and the communication apparatus 12 are made redundant, when the identification number of the main system is A, the main system temporarily It is possible to switch without becoming a member.

However, since the communication apparatus 11, which is the main system before switching, needs to change the routing table 221 of the routing controller 21, when the communication system is switched due to failure of the main system, There is a problem in that the routing table 221 of the routing controller 21 must be changed by the router 11.

In the second embodiment, the communication device 12, to which the identification number A is set after changing the communication destination, changes the routing table 221. Therefore, in the present embodiment, the routing table 221 can be changed by the non-hardened communication device 12 other than the main system at the time of failure of the main system in the redundant configuration.

The routing controller 41 of the present embodiment routes a transaction of unicast communication and multicast communication. 11 is a diagram showing a configuration example of the routing controller 41 of the present embodiment. 11, the routing controller 41 of the present embodiment is provided with a multicast-corresponding routing processor 231 instead of the routing processor 211 of the first embodiment, and holds the multicast routing table 241 The same as the routing controller 21 of the first embodiment.

Next, the operation of the present embodiment will be described. In the second embodiment, the procedures for transmitting and receiving transactions between the communication device 11 and the communication device 12 are the same as those in the first embodiment. The communication device 11, the communication device 12 and the device 31 are the same in the first embodiment. However, when a transaction is transmitted by multicast, the identification number of the destination is used as the identification number of the multicast group In group number.

In the second embodiment, the routing procedure of the transaction of the unicast communication by the routing controller 41 is the same as the routing procedure of the transaction by the routing controller 21 of the first embodiment. That is, the multicast-corresponding routing processor 231 of the routing controller 41 performs routing similar to the routing processor 211 of the first embodiment for the unicast communication transaction.

Next, the routing processing of the transaction of the multicast communication by the routing controller 41 will be described. 12 is a diagram showing a configuration example of the routing table 241 for multicasting. As shown in Fig. 12, the multicast routing table 241 stores the group number, which is the identification number of the multicast group, and the routing information composed of the source route corresponding to the group number, in each group number. The source route in the multicast routing table 241 is provided with a column corresponding to each of all the routes to which the routing controller 41 connects and in the column corresponding to each route, , Or False (not transmitted) is stored. In the routing table 241 for multicasting, it indicates that a corresponding transaction is to be sent to a path where the transmission information is True. In addition, the multicast routing table 241 does not have routing information in which group numbers are duplicated.

The update method of the multicast routing table 241 is the same as the update method of the routing table 221 described in the first embodiment, and any communication device transmits the multicast routing table 241 Can be updated. The updated contents of the routing information of the multicast routing table 241 are immediately reflected in the judgment of the dispatch destination of the multicast corresponding routing processing unit 231. [

As an initial value of the multicast routing table 241, an arbitrary value can be set. For example, the initial value of the multicast routing table 241 may be a method that does not have any routing information, or a method that has any number of preset routing information.

A method of setting or adding routing information corresponding to a multicast group for use in switching processing of a communication source at the start of the communication system 1a after setting the initial value of the multicast routing table 241, A method of setting or adding routing information corresponding to a multicast group for use in the switching processing of the communication party can be considered.

In the following description, an example of adding routing information of the multicast routing table 241 at the time of starting the communication system will be described. The multicasting routing table 241 shown in FIG. 12 adds routing information of the group number G11 as routing information to be used in the switching process of the communication destination in the second embodiment. The group number G11 is a multicast group defined for use in the switching processing of the communication destination in the second embodiment. In the example shown in Fig. 12, as the transmission destination route corresponding to the group number G11, the route a is set to True, and the other routes are set to False. 12, the routing controller 41 transmits the transaction to the group number G11 on the path a, and does not transmit the transaction to the group number G11 on the other path Do not.

Next, the routing processing of the transaction of the multicast communication in the routing controller 41 will be described. 13 is a flow chart showing an example of a routing process procedure of a transaction of the multicast communication in the routing controller 41. Fig.

The routing controller 41 receives the multicast communication transaction from the arbitrary path among the paths a to c by the corresponding transceivers 201 to 203 (step S31). The transmission / reception units 201 to 203 transmit the received transaction to the multicast-corresponding routing processing unit 231. [

The multicast-corresponding routing processing section 231 searches the multicast routing table 241 for the route corresponding to the destination (step S32). Specifically, the multicast-corresponding routing processing unit 231 extracts the group number stored in the transmission destination stored in the received transaction, that is, the identification number of the destination, and transmits the routing information corresponding to the extracted group number to the multicast routing table (241).

Then, the multicast-corresponding routing processing section 231 subjects one of all the routes of the record found by the search, that is, the routing information, to the processing (step S33). The multicast-corresponding routing processing unit 231 determines whether the route to be processed of the routing information is set to True (step S34). That is, the multicast-corresponding routing processing unit 231 refers to the transmission information corresponding to the route to be processed in the routing information, and determines whether the transmission information is True.

If the path is set to True (Yes at step S34), the multicast-corresponding routing processing unit 231 transmits a transaction to the route (step S35), and determines whether all the routes in the record, that is, (Step S37). When the processing is ended for all the paths of the record (Yes at step S37), the multicast-corresponding routing processing unit 231 ends the routing processing.

If the processing has not been completed for all the routes of the record (No at step S37), the multicast-corresponding routing processing unit 231 changes the route to be processed (step S38), and returns to step S34. If the path is not set to True in step S34 (No in step S34), the process proceeds to step S37 without transmitting a transaction to the path (step S36).

Next, the switching process of the communication destination in the embodiment will be described. 14 is a flowchart showing an example of a process procedure in the case where communication device switching processing is performed between the communication device 11 and the communication device 12 of the present embodiment. Step S41 is the same as step S11. In step S42, the communication device 11 transmits a communication destination switching request for requesting the communication device 12 to switch the communication destination with the communication device 11 (step S42). The method for requesting the communication party switching can be performed by the same method as the request method for changing the identification number described in the first embodiment.

The communication device 12 receives the communication location change request from the communication device 11 via the routing controller 41 (step S51). The communication device 12 acquires the identification number A of the communication device 11 that switches the communication destination with the communication device 12 (step S52). This identification number can be obtained by the same method as the identification number acquisition method in step S22 of the first embodiment.

Next, the communication device 12 changes its identification number from B to A in the same manner as in step S23 of the first embodiment (step S53). In this step S53, the identification numbers of the communication device 11, the communication device 12, and the state of the routing table 221 change to the state of P102 in Fig. When a transaction is transmitted to the identification number, the communication device receiving the actual transaction changes to P202 in Fig. At this time, as in the case after step S23, the identification numbers of the communication device 11 and the communication device 12 are the same. However, since the transactions to the communication device 11 and the communication device 12 are routed by the routing controller 41 and arrive at the communication device 11 and the communication device 12 as in the first embodiment, The transaction to the identification number A is received only by the communication device 11, as shown in state P202 of FIG.

Next, the communication device 12 switches the route of the identification numbers A and B of the routing table 221 of the routing controller 41 (step S54). That is, the communication device 12 performs a route changing process for switching the route of the identification numbers A and B of the routing table 221 of the routing controller 41 to each other. The method of changing the routing table 221 of the routing controller 41 by the communication device 12 is the same as the method of changing the routing table 221 of the routing controller 21 by the communication device 11 in step S14.

In this step S54, the identification number of the communication device 11, the communication device 12 and the state of the routing table 221 change to the state of P103 in Fig. 7 similarly to the case of the step S14 of the first embodiment . In addition, when a transaction is transmitted to the identification number, the communication device receiving the actual transaction changes to P203 in Fig. At this time, the identification numbers of the communication device 11 and the communication device 12 become the same A as shown in the state P103 in Fig. However, since the transaction to the communication device 11 and the communication device 12 is routed by the routing controller 41 in the same manner as in the first embodiment, the transaction to the identification number A is performed by communication Is received only by the device (12).

Next, the communication device 12 transmits the completion of switching of the communication destination in the multicast communication G11 (step S55). That is, after the route changing process of step S54 is executed, the communication device 12 transmits the switching completion by the multicast with the preset group number as the destination. The multicast communication G11 is a multicast communication in which the destination is the group number G11. As shown in state P103 in Fig. 7, at this point, since the identification number corresponding to the communication device 11 does not exist, the communication device 12 transmits it to the communication device 11 by multicast communication. As shown in Fig. 12, the multicast routing table 241 has routing information set so as to be routed only to the path a as routing information corresponding to the group number G11. This setting is performed, for example, at the time of starting the communication system 1a as described above. With the above setting, the routing controller 41, which is the path controller of the second embodiment, transmits to the communication device 11 the completion of switching having the group number G11 as a destination.

When the communication device 11 receives the completion of switching of the communication destination via the routing controller 41 (step S43), the communication device 11 changes its identification number from A to B in the same manner as in step S15 of the first embodiment (step S44) . In other words, when the communication device 11 is notified of the completion of the conversion, the communication device 11 changes its identification number to B.

By this step S44, the identification number of the communication device 11, the communication device 12, and the state of the routing table 221 change to the state of P104 in Fig. When a transaction is transmitted to the identification number, the communication device receiving the actual transaction changes to P204 in Fig. By the above process, the transaction ahead of the identification number A is transferred by the routing controller 41 to the path b, and is received by the communication device 12. [

In the example shown in Fig. 14, the flow of the case of starting the communication process of changing the communication destination from the communication device 11 has been described. In the case of starting the switching process from the communication device 12, The processing of the communication device 12 may be switched. Alternatively, the steps S41, S42, and S51 shown in FIG. 14 may be omitted, and the switching process of the communication destination may be started from step S52. 14, the communication device 11 and the communication device 12 are interchanged and the steps S41, S42, and S51 are omitted. In the case of the communication device 11, The switching processing may be started from the communication device 11. [

As described above, in the communication device 12 of this embodiment, the communication device 11, which is another communication device capable of communicating with the device 31, has A as an identification number for communication and B , It changes its identification number to A upon receiving a switching request for requesting the communication device 11 to switch the communication device of the device 31 from itself. Thereafter, the communication device 12 stores the path identifier corresponding to the identification number A in the routing table 221 held by the routing controller 41 as the path identifier corresponding to the identification number B in the routing table 221 , And changes its own identification number to B.

The communication device 11 of the present embodiment is an example of the communication device 12 that indicates that the switching from the communication device itself of the device 31 to the communication device 12 is completed from the communication device 12 that is another communication device capable of communicating with the device 31 Upon receiving the conversion completion, it changes its identification number for communication to the identification number B used by the communication device 12 before switching.

The hardware configuration of the routing controller 41 of the present embodiment can use the configuration shown in Fig. 9 similarly to the routing controller 21 of the first embodiment. The transmission / reception units 201 to 203 are realized by the communication unit 303. [ The multicast-corresponding routing processing unit 231 is realized by the processor 301 reading and executing a program stored in the memory 302. [ The routing table 221 and the multicast routing table 241 are stored in the memory 302. [

9 shows an example in which the multicast-compatible routing processor 231 is implemented by the processor 301, the multicast-compatible routing processor 231 may be implemented by a processing circuit that is dedicated hardware.

As described above, in the second embodiment, the routing controller 41 maintains the routing information corresponding to the group number for switching the communication destination in the routing table 241 for multicasting. Then, after the communication device to be the communication target of the communication destination changes its own identification number, it changes the routing table 221, and thereafter transmits the completion of switching of the communication destination by multicast, A communication device has changed its identification number. Therefore, when the configuration and operation of the second embodiment are applied in a form in which the same effect as that of the first embodiment is obtained and the redundant configuration of the communication device 11 and the communication device 12 is made, , It is possible to switch the communication destination by the communication device which is not yet broken, without making the communication device corresponding to the identification number of the main system into a state of absence.

Embodiment 3:

15 is a diagram showing a configuration example of a communication system according to Embodiment 3 of the present invention. The communication system 1b of the present embodiment includes communication devices 51 and 52 which are communication devices capable of arbitrarily receiving transactions other than their own identification numbers, a routing controller 21 similar to the first embodiment, And a device 31 similar to that of FIG. Components having the same functions as those of the first embodiment are denoted by the same reference numerals as those of the first embodiment, and redundant description is omitted. Hereinafter, differences from the first embodiment or the second embodiment will be described.

In the second embodiment, multicast communication is used when transmitting the switching completion from the communication device 12 to the communication device 11. For this reason, a routing controller capable of routing multicast communication is required. In the third embodiment, the configuration and operation for changing the routing table 221 without using the multicast communication by the communication device 52 retaining the identification number A after the communication party is switched will be described. When the configuration and operation of Embodiment 3 are applied, it is possible not to use the routing controller corresponding to the routing of the multicast communication, but to cause the failure of the main system in the redundancy configuration The routing table 221 can be changed.

16 is a diagram showing a configuration example of the communication devices 51 and 52 of the present embodiment. As shown in Fig. 16, the communication devices 51 and 52 receive a transaction from an external path and transmit a transaction to an external path instead of the transmission / reception unit 101 of the first embodiment, Reception section 161 capable of arbitrarily invalidating the determination.

In this embodiment, the operation of the communication devices 51 and 52 when the destination determination is valid is the same as that of the communication devices 11 and 12 according to the second embodiment. When receiving the transaction, The reception processing is performed when the identification number of the terminal device matches the identification number of the terminal device.

When the destination determination is invalidated, the transmission / reception unit 161 performs the reception processing on the transaction regardless of the destination of the transaction, that is, without performing the destination determination, when the transaction is received from the path n. The operation after the transaction reception processing is performed is the same as that of the communication device 11 and the communication device 12 of the first embodiment.

The microprocessor 131 performs the invalidation and validation of the destination determination at the time of transaction reception in the transmission / reception unit 161. Examples of the method of invalidating and validating the destination determination include a method in which the transmission and reception unit 161 invalidates or validates the determination of the destination when the microprocessor 131 stores a specific identification number in the identification number processing unit 111, 161) to invalidate or validate the determination of the destination. It is also possible to consider a method in which the transmitting / receiving unit 161 receives a specific transaction from the outside to invalidate or validate the destination determination. When the destination determination is invalidated or validated by a specific transaction, the external communication device directly invalidates or validates the destination determination of the transmission / reception unit 161 without passing through the microprocessor 131 of the communication devices 51 and 52 .

17 is a flowchart showing an example of a procedure for switching the communication party between the communication device 51 and the communication device 52 of the present embodiment. Here, the flow of the case where the switching processing is started from the communication device 51 will be described.

Steps S61, S62, S71, and S72 are the same as those in the second embodiment. In step S73, the communication device 52 requests the communication device 51 to invalidate the destination decision upon receipt of the transaction (step S73). That is, the communication device 52 as the second device instructs the communication device 51, which is the first device, to invalidate the destination determination in the communication device 51. A method of requesting invalidation of destination determination is a method of writing a request to a specific address in a data memory 121 of a requesting communication device, a method of transmitting a specific transaction for invalidating a destination decision to a requesting communication device, A method of directly invalidating the destination determination of the destination node 161 may be considered. Here, it is assumed that the invalidation of the destination determination is requested by the latter.

When the communication device 51 receives a request to invalidate the destination determination via the routing controller 21 (step S63), it changes the setting of its own transceiver 161 and invalidates the destination determination (step S64) . In other words, when the communication device 51 is instructed to invalidate the destination determination, the communication device 51 performs reception processing on communication data of all destinations. Also, in the case where the destination determination of the transmission / reception unit 161 of the communication party is directly invalidated in a specific transaction, step S63 is automatically performed by the transmission / reception unit 161 after step S73.

Steps S74 and S75 are the same as steps S53 and S54 in the second embodiment. After step S75, the communication device 52 transmits the completion of switching of the communication destination with the identification number B as the destination (step S76). In other words, the communication device 52 performs the route changing process, which is the process of the step S75, after the instruction to invalidate the destination determination, and transmits the switching completion with the identification number B as the destination after the route changing process. The communication device 51 is the identification number A, but the transaction whose destination is the identification number A is not routed to the communication device 51 because the setting of the routing table 221 is changed. On the other hand, since the transaction whose destination is the identification number B is routed to the communication device 51 and the communication device 51 receives the transaction without determining it as the destination identification number in step S64, 51 to send the transaction with the destination as the identification number B, it is possible to notify the communication device 51 of the transaction.

When the communication device 51 receives the completion of switching of the communication destination via the routing controller 21 (step S65), it changes the setting of its own transceiver 161 and validates the destination determination (step S66). Step S67 is the same as step S44 of the second embodiment. That is, when the communication device 51 receives the completion of switching, it changes its identification number to B.

Further, in the case of transmitting a specific transaction and directly invalidating the destination determination of the transmission / reception unit 161, by using the transaction requesting the response, the communication device 52 transmits the response to the communication device 51 The completion of the steps S63 and S64 in the case of FIG. In this case, the communication device 52 confirms the response and then proceeds to step S74, thereby ensuring that steps S64 and S74 are performed in the order shown in FIG.

In the example of Fig. 17, the example in which the communication device switching process is started from the communication device 51 has been described, but the communication device switching process from the communication device 52 can be performed by the communication device 51 The processing of the communication device 52 is switched. It is also possible to omit steps S61, S62, and S71 and to start processing from the communication device 52. [ Steps S61, S62, and S71 may be omitted, and the processing of the communication device 51 and the communication device 52 may be interchanged in the process shown in Fig. 17, and the switching process from the communication device 51 may be started.

As described above, in the third embodiment, it is made possible to invalidate the destination determination of the communication device, and when the communication device transmits the completion of the switching of the communication destination, As a destination. Therefore, the same effect as that of the second embodiment can be obtained, and the function of the routing controller 21 can be simplified as compared with the routing controller 41 used in the second embodiment.

As described above, the communication system, the communication device, the routing controller, and the communication destination switching method according to the present invention are useful for switching the communication destination in the network to which the device having no function corresponding to the communication destination switching is connected. In addition, according to the present invention, it is possible to realize redundancy configuration of a communication device by a communication system with a device having a simple function while preventing duplication of a communication party.

Embodiment 4.

In the first to third embodiments described above, the communication device 11 or the communication device 12 has described an example in which the routing table in the routing controller is changed. In the fourth embodiment, however, Will be described. In the fourth embodiment, when the routing controller 21 changes the routing table 221, an example in which the request for changing the identification number is transmitted by multicast as in the second embodiment will be described. The configuration of the communication system 1a of the present embodiment is the same as that of the communication system 1a of the second embodiment. The configuration of the routing controller 41 which is the path controller of the fourth embodiment is the same as that of the routing controller 41 of the second embodiment. However, as described below, the switching operation of the communication destination performed by the multicast-corresponding routing processing unit 231 is different from that of the second embodiment. The communication device 11 and the communication device 12 of the fourth embodiment have the same configuration as the communication device 11 and the communication device 12 of the second embodiment. The operations of the communication device 11 and the communication device 12 are the same as those of the embodiment 2 except that the process of transmitting the request for changing the identification number and the process of rewriting the routing table 221 of the routing controller 41 are not performed 2 of the communication device 11 and the communication device 12. As shown in Fig. Hereinafter, differences from the second embodiment will be described.

The routing processing of the transaction of the multicast communication according to the present embodiment is the same as the second embodiment. The switching processing of the communication destination of the present embodiment will be described as an example in the case where the communication destination of the device 31 is switched from the communication device 11 to the communication device 12. [ It is assumed that the multicast routing table 241 is set as shown in Fig. 12, similarly to the second embodiment. 18 is a flowchart showing an example of a switching processing procedure in the routing controller 41 of the present embodiment. When the condition for switching the communication destination of the device 31 from the communication device 11 to the communication device 12 is satisfied, the routing controller 41 starts the change process, and first the communication device 12 changes the identification number (Step S111). Specifically, the multicast-corresponding routing processing unit 231 transmits a request for changing the identification number to the communication device 12 via the transmission / reception unit 202. [

When the communication device 12 receives a request for changing the identification number from the routing controller 41 (step S112), the communication device 12 acquires the identification number A which is the identification number of the changing destination (step S113). Steps S113 and S114 are the same as steps S22 and S23 of the first embodiment.

After step S111, the routing controller 41 replaces the paths of the identification numbers A and B of the routing table 221 (step S115). 7, the identification number of the communication device 11, the communication device 12, and the state of the routing table 221 are changed to the state of P103 in Fig. 7, similarly to the step S54 of the second embodiment, do. In addition, when a transaction is transmitted to the identification number, the communication device receiving the actual transaction changes to P203 in Fig. Since the transaction to the communication device 11 and the communication device 12 is routed by the routing controller 41, a transaction to the identification number A is received only by the communication device 12, as shown in state P203 of Fig.

Next, the routing controller 41 transmits a request for changing the identification number in the multicast communication G11 (step S116). When the communication device 11 receives a request for changing the identification number by the multicast communication G11 from the routing controller 41 (step S117), similarly to steps S22 and S23 of the first embodiment, the communication device 11 changes the identification number from A to B (Steps S118 and S119).

As described above, in the present embodiment, when the communication controller is switched, the routing controller 41 changes the routing table 221 and transmits the change request of the identification number to the communication device 11 and the communication device 12 And the identification number change request after the change of the routing table 221 is transmitted by multicast. Therefore, in the communication system of the present embodiment, the communication device 11 and the communication device 12 can achieve the same effects as those of the first embodiment without changing the routing table 221. [

Embodiment 5:

In the fifth embodiment, an example in which the routing controller 21 changes the routing table 221 is described using communication devices 51 and 52 capable of arbitrarily receiving transactions other than the identification number of the communication device itself, as in the third embodiment Explain. The configuration of the communication system 1b of the present embodiment is the same as that of the communication system 1b of the third embodiment. The configuration of the routing controller 21 that is the path controller of the fifth embodiment is the same as that of the routing controller 21 of the third embodiment. However, as described below, the switching operation of the communication destination performed by the routing processing unit 211 differs from that of the third embodiment. The communication device 51 and the communication device 52 of the fifth embodiment have the same configuration as the communication device 51 and the communication device 52 of the third embodiment. The operations of the communication device 51 and the communication device 52 are the same as those of the embodiment 2 except that the process of transmitting the request for changing the identification number and the process of rewriting the routing table 221 of the routing controller 21 are not performed 3 of the communication device 51 and the communication device 52, respectively. Hereinafter, differences from the third embodiment will be described.

The switching process of the communication device of the present embodiment will be described as an example of the case of switching the communication device 51 from the communication device 51 to the communication device 52 as an example. Fig. 19 is a flowchart showing an example of a switching processing procedure in the routing controller 21 of the present embodiment. When the condition for switching the communication destination of the device 31 from the communication device 51 to the communication device 52 is satisfied, the routing controller 21 starts the change process and first determines whether the destination is the communication device 51 An invalidation request is transmitted (step S141). Specifically, the routing processing unit 211 transmits a destination decision invalidation request to the communication devices 51 and 52 via the transmission / reception unit 201 and the transmission / reception unit 202. [ When receiving the destination decision invalidation request, the communication devices 51 and 52 invalidate the destination determination as in the third embodiment.

Next, the routing controller 21 replaces the paths of the identification numbers A and B of the routing table 221 (step S142). Then, the routing controller 21 transmits an identification number change request to each of the identification numbers A and B (step S143). Since the routing table 221 has been changed, the request for changing the identification number to the identification number A is received by the communication device 52 via the path b, and the request for changing the identification number to the identification number B is received by the path a And is received by the communication device 51 via the network. Since both the communication device 51 and the communication device 52 invalidate the destination determination, the communication device 51 receives the request for changing the identification number and changes the identification number. Specifically, the communication device 51 changes the identification number from A to B, and the communication device 52 changes the identification number from B to A.

As described above, in the present embodiment, the routing controller 21 instructs the communication device 51 and the communication device 52, which can invalidate the destination determination, to invalidate the destination determination when switching the communication destination, After changing the routing table 221, the request for changing the identification number is transmitted. Therefore, in the communication system of the present embodiment, the communication device 51 and the communication device 52 can achieve the same effect as that of the third embodiment without changing the routing table 221. [

The configuration shown in the above embodiment represents one example of the content of the present invention and can be combined with other known technology and a part of the configuration can be omitted or changed within a range not departing from the gist of the present invention Do.

1, 1a, 1b: communication system 11, 12, 51, 52: communication device
21, 41: routing controller 31: device
101, 161, 201 to 203: transmission / reception unit 111: identification number processor
121: Data memory 131: Microprocessor
141: peripheral tool I / F 211: routing processing section
221: Routing table
231: Multicast-compatible routing processor
241: Routing table for multicast

Claims (14)

A first device, a second device, a third device, and a path controller,
Wherein the first device, the second device, and the third device each have an identification number uniquely identifiable, and perform communication using the identification number,
Wherein the path controller is connected to each of the first device, the second device and the third device by a different path,
Wherein the path controller comprises:
A storage unit that stores route information that is information indicating a correspondence between an identification number of a destination and a path identifier that is an identifier indicating a path;
And a processing unit for transmitting the communication data to a path corresponding to the path identifier according to the identification number of the destination of the received communication data based on the path information,
Wherein the second device is a state in which the first device has a first number as the identification number and the second device has a second number as the identification number, When it receives a switching request requesting to switch to itself, changes its identification number to the first number,
Wherein the first device, the second device, or the path controller transmits, as the path identifier corresponding to the second number, a path identifier corresponding to the first number in the path information, as the path identifier stored in the path information The route changing process is performed. The method according to claim 1,
After the second device changes the identification number to the first number, the first device or the second device transmits the path identifier corresponding to the second number to the first device or the second device before changing the identification number of the first device To a path identifier stored in the path information as a path identifier corresponding to the first number,
Wherein the first device changes its identification number to the second number after the path identifier corresponding to the second number in the path information is changed. The method according to claim 1 or 2,
The second device changes its identification number to the first number, notifies the first device of completion of switching,
And the first device performs the route changing process when the completion of the switching is notified. The method according to claim 1 or 2,
The second device performs the route changing process, and after the route changing process is executed, the second device transmits the switching completion by the multicast whose destination is the preset group number,
Wherein the path controller transmits the switching completion to the first device with the group number as a destination,
And the first device changes its identification number to the second number when notified of the completion of the switching. The method of claim 4,
The second device instructs the first device to invalidate the destination determination in the first device and performs the route changing process after the instruction to invalidate the destination determination, Transmits the completion of switching with the second number as a destination,
The first device performs reception processing on the communication data of all the destinations when instructed to invalidate the destination determination and changes its identification number to the second number upon receiving the completion of the switching Communication system. The method according to claim 1,
The path controller transmits a request for changing the identification number to the second device, and after the second device, which has received the change request, changes the identification number to the first number, Changes the corresponding path identifier to the path identifier stored in the path information as a path identifier corresponding to the first number before changing the path identifier corresponding to the first number,
After the path identifier corresponding to the second number in the path information is changed, the path controller transmits a change request for the identification number to the first device, and the first device, which has received the change request, 2 < / RTI > number. The method of claim 6,
The second device changes its identification number to the first number, notifies the path controller of completion of switching,
And the route controller performs the route changing process when it is notified of the completion of the switching. The method of claim 6,
Wherein the route controller performs the route changing process and transmits the switching request by multicast using a preset group number as a destination after the execution of the route changing process,
And when the first device is notified of the completion of the switching, changes the identification number of the first device to the second number. The method of claim 6,
The route controller instructs the first device and the second device to invalidate the destination determination and performs the route changing process after the instruction of the invalidation of the destination determination is performed and after the execution of the route changing process, The second number, and the second number as destinations,
The first device performs reception processing on communication data of all destinations when instructed to invalidate the destination determination and changes its identification number to the second number upon receiving the switching request,
When receiving the instruction to invalidate the destination determination, the second device performs reception processing on communication data of all destinations and, upon receiving the switching request, changes the identification number of the destination to the first number Communication system. In a state in which a communication device having a first number as its identification number for communication and another communication device capable of communicating with an external device has a second number as a communication identification number, And when receiving the completion of switching from the other communication device, transmits to the first communication device a request for switching to the first number among the path information held by the path controller connected to the other communication device, the device and the other communication device Changes the corresponding path identifier to the path identifier stored in the path information as the path identifier corresponding to the second number, and changes its own identification number to the second number. In a state in which another communication device capable of communicating with an external device has a first number as an identification number for communication and a second number as its communication identification number, the communication destination of the device is switched from itself to the other communication device The control unit changes its own identification number to the first number, and changes the first number among the path information held by the path controller connected to the other communication apparatus, the apparatus, and the other communication apparatus And changes the corresponding path identifier to the path identifier stored in the path information as a path identifier corresponding to the second number. When receiving the switching completion indicating that the switching from the communication destination of the device itself to the another communication device is completed from another communication device capable of communicating with the external device, To the identification number used by the communication device. The method of claim 12,
Wherein the switching completion is received by unicast having a destination other than the identification number for communication possessed by the communication device. Wherein the first device, the second device, and the third device each have an identification number that is uniquely identifiable, the identification number of the first device, the second device, Wherein the path controller is connected to the first device, the second device, and the third device by different paths, respectively, the method comprising:
A first step of storing path information which is information indicating a correspondence between an identification number of a destination and a path identifier which is an identifier indicating a path;
A second step of sending, based on the route information, the communication data to a route corresponding to the route identifier according to an identifier of a destination of the received communication data;
Wherein the second device is a state in which the first device has the first number as the identification number and the second device has the second number as the identification number, A third step of changing a self identification number to the first number upon receiving a switching request requesting to switch to itself,
Wherein the first device, the second device, or the path controller changes a path identifier corresponding to the first number in the path information to a path identifier stored in the path information as a path identifier corresponding to the second number And a fourth step of performing a route changing process for changing the communication destination.

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