JP3952181B2 - Network equipment - Google Patents

Description

[0001]
BACKGROUND OF THE INVENTION
The present invention relates to a distributed object technology in which a plurality of objects cooperate to perform processing.
[0002]
[Prior art]
An object-oriented system in which an object that executes a certain function performs processing in cooperation with another object has been developed and widely used. In particular, a distributed object technology has been developed that performs processing in cooperation between objects distributed in different devices connected by a network, in combination with recent network technology. (For example, refer to Patent Document 1 and the like.) Various methods have been proposed as a method for linking objects in such a distributed environment, and among these, SOAP (Simple Object Access Protocol) is often used. In SOAP, a description at a higher level is specified, such as specifying an object as a destination or a return destination, but a lower level, for example, a communication protocol is optional and is left to the system.
[0003]
In order to link objects, the linked objects communicate with each other. At this time, some object cooperation technologies do not depend on the communication method, such as the above-mentioned SOAP, and some are defined up to communication between objects. Even if SOAP is used, various communication protocols such as HTTP and SMTP can be used as communication protocols. However, in actuality, any communication protocol may not be used. Depending on the communication protocol that can be used, the optimum protocol may be different.
[0004]
In such a situation, when communication is performed from one object to another object, it is necessary to determine what communication object should be used when the destination object is designated. However, the determination is generally difficult, and in practice, it is fixed to one of the communication protocols. In that case, there is a problem that the object cannot be used for an object that cannot be communicated with the communication protocol that is used in a fixed manner.
[0005]
[Patent Document 1]
JP 2000-132522 A
[0006]
[Problems to be solved by the invention]
The present invention has been made in view of the above-described circumstances, and provides a network device capable of performing inter-object communication using an optimal communication protocol in a distributed object environment and enabling a wide range of object cooperation. It is intended to do.
[0007]
[Means for Solving the Problems]
The present invention relates to a network device applicable to a distributed object environment, a reception unit that receives designation of another object from an object, a determination unit that determines a communication protocol and address information according to the specified object, and the determination unit A communication means for performing communication using the address information in accordance with the determined communication protocol, an object identifier for identifying the object, and a communication protocol and address information for performing communication with the object in association with each other, and a network serving as a gateway A communication selection table for storing communication protocol and address information for communication, and the determination unit receives an object identifier from the reception unit and refers to the object identifier received with reference to the communication selection table. Communication protocol and address information to be obtained, it is determined that the communication protocol and address information are to be used, and if the specified object is an internal object of the own device, the communication means When the communication protocol and address information corresponding to the specified object is not registered in the communication selection table, the communication protocol and address information for communicating with the network device serving as the gateway are obtained from the communication selection table. The specified object acquired and requested from the network device serving as the gateway to communicate with the specified object, and the network device serving as the gateway that received the request acquired from another network device having a communication selection table Compatible with It is characterized in that communication using a communication protocol and address information that.
Alternatively, in a network device applicable to a distributed object environment, a receiving unit that receives designation of another object from an object, a determining unit that determines a communication protocol and address information according to the specified object, and the determination unit A communication unit configured to perform communication using the address information according to a communication protocol, wherein the determination unit receives the object identifier from the reception unit, and performs communication between the object identifier and the object based on the object identifier. The communication protocol and address information are stored in association with each other, and the object identifier is stored in the object identifier for another network device having a communication selection table for storing the communication protocol and address information for communicating with the gateway network. Requesting and acquiring the corresponding communication protocol and address information, determining that the acquired communication protocol and address information are to be used, and if the specified object is an internal object of the own device, the communication means The communication protocol and address information for communicating with the network device serving as a gateway when the communication protocol and address information corresponding to the designated object is not registered in the communication selection table is performed. Obtained from the communication selection table, requested communication with the specified object to the network device serving as the gateway, and the network device serving as the gateway that received the request obtained from another network device having a communication selection table The specified object It is characterized in that communication using a communication protocol and address information corresponding to the defect.
The present invention is also a communication system that performs inter-object communication in a network system in which a plurality of network devices are communicably connected via a network. The first network device includes an object identifier that identifies an object and the object. The communication protocol and address information for communication are stored in association with each other, and the communication protocol and address information for communication with the second network serving as a gateway are stored, and designation of other objects from the object is accepted. Communication means and address information corresponding to the specified object are acquired from the communication selection table and communication is performed using the address information in accordance with the communication protocol. When the communication protocol and address information are not registered in the communication selection table, the communication protocol and address information for communicating with the second network device serving as a gateway is acquired from the communication selection table and stored in the second network device. A communication selection table that requests communication with the designated object, and the third network device stores an object identifier for identifying the object in association with a communication protocol and address information used for communication with the object. When the second network device receives a request from the first network device, the second network device makes an inquiry to the third network device to obtain a communication protocol and address information corresponding to the designated object. , The communication protocol and address It is characterized in that it has a gateway communication means for communicating with the information.
Alternatively, a network in which at least the first, second, and fourth network devices are communicably connected by the first network, and at least the second and third network devices are communicably connected by the second network. A communication system for performing inter-object communication in a system, wherein the fourth network device includes an object identifier for identifying an object on at least the first network, and a communication protocol and address information for performing communication with the object And a communication selection table for storing address information and a communication protocol for communicating with a network device serving as a gateway, and the third network device identifies an object on at least the second network Do A communication selection table that stores a communication identifier and address information for communication between the object identifier and the object in association with each other, and the first network device receives the designation of another object from the object and is designated A communication protocol and address information corresponding to the object is requested and acquired from the fourth network device, and communication means for performing communication using the address information according to the communication protocol is provided, and communication corresponding to the designated object When protocol and address information is not registered in the communication selection table of the fourth network device, a communication protocol and address information for communicating with the second network device serving as a gateway is acquired from the fourth network device. The second network When the second network device receives a request from the first network device, the second network device makes an inquiry to the third network device and specifies the specified object. It has a gateway communication means for acquiring a communication protocol and address information corresponding to an object, and performing communication using the communication protocol and address information.
Furthermore, the present invention is a network device that is communicable through a plurality of networks and is applied to a distributed object environment and relays communication between objects, and a first communication means for performing communication using the first network, A second communication means for performing communication using the network of the first, an object identifier for identifying the object when there is a communication request from the object on the first network to the object on the second network, and the object The communication protocol and address information corresponding to the object requested from the network device on the second network having the communication selection table for storing the communication protocol and address information in association with each other are acquired, and the communication protocol And second using the address information It is characterized in that it has a communication determining means for communicating from the signal means.
[0008]
In this way, the optimal communication protocol for the object to be linked is determined by the determining means, and the communication means communicates with the object, so the inter-object communication is optimal regardless of whether the object is inside or outside the device itself. Can be performed using various communication protocols.
[0009]
In addition, when the communication protocol and address information corresponding to the designated object is not registered in the communication selection table, the determining unit acquires the communication protocol and address information for communicating with the network device serving as the gateway, and becomes the gateway. The network device is configured to request communication with a specified object. For example, when communicating with an object that exists in another network, direct communication may not be possible. In such a case, communication is performed with a network device serving as a gateway. What is necessary is just to request the communication with the designated object with respect to the network apparatus used as a gateway.
[0010]
DETAILED DESCRIPTION OF THE INVENTION
FIG. 1 is a schematic configuration diagram showing an example of a system including the first embodiment of the network device of the present invention. In the figure, 1 to 3 are network devices, 4 is a network, 11 and 21 are applications, 12 and 22 are objects, 13 and 23 are communication modules, 14 is a reception unit, 15 is a communication determination unit, 16 is a communication unit, 31 Is a communication selection table. The network devices 1 to 3 are communicably connected via the network 4. Of course, various other network devices may be connected to the network 4.
[0011]
In this example, there are applications including objects 12 and 22 for performing various processes on the network devices 1 and 2. These objects 12 and 22 can communicate with other objects and perform processing in cooperation with the other objects. The network devices 1 and 2 have communication modules 13 and 23, respectively. FIG. 1 illustrates a part of the internal configuration of the communication module 13. The communication module 13 will be mainly described here, but the communication module 23 includes the same configuration.
[0012]
When communication with another object is designated from the object 12 in the application 11 in the network device 1, the communication module 13 realizes inter-object communication with the designated object. Note that the specified object is not limited to an object existing in another network device, and may be an object in its own device. The communication module 13 receives a communication request from another network device to an object in the own device, and similarly realizes inter-object communication between the requested object and the request source object.
[0013]
The communication module 13 includes a reception unit 14, a communication determination unit 15, a communication unit 16, and the like. The accepting unit 14 accepts designation of another object from the object 12 and sends the object identifier of the designated object to the communication determining unit 15.
[0014]
The communication determination unit 15 determines a communication protocol and address information in accordance with the object specification received by the reception unit 14. At this time, the object identifier sent from the accepting unit 14 is received, and a communication protocol and address information corresponding to the received object identifier is requested to another device (the network device 3 in the example shown in FIG. 1). Then, it receives a communication protocol and address information sent from another device (network device 3), and decides to use the communication protocol and address information. In addition, when the designated object is an object inside the own apparatus at the time of receiving the designation of the object from the address information received from another apparatus or from the receiving unit 14, communication between network apparatuses is performed. Since there is no need, for example, an internal function call or the like may be determined as a communication protocol, and address information may be generated as a specific form of the function call.
[0015]
The communication unit 16 performs communication according to the communication protocol and address information determined by the communication determination unit 15 to realize communication between objects. Note that the partner device that actually communicates is not necessarily the network device in which the designated object exists. For example, when SMTP is used as the communication protocol, it is transmitted to the mail server in the form of electronic mail. However, the data transmitted from the communication unit 16 is finally communicated so as to reach the designated object, and inter-object communication is realized. In addition, a case where the designated object is an object in the own apparatus may be considered. For example, when the applications are different, communication between different objects may occur in the same device. Even in such a case, the communication unit 16 may perform a process of transferring data to an object in the own device.
[0016]
In addition, the communication unit 16 can be configured to receive a communication request from another network device to an object of its own device and realize inter-object communication with the object requested to communicate. For example, when a communication request from the object 22 of the network device 2 to the object 12 of the own device (network device 1) is received, the communication module 23 of the network device 2 communicates directly or indirectly to realize communication between the objects. To do. Of course, it is possible to provide a separate configuration for reception.
[0017]
The network device 3 holds a communication selection table 31 and searches the communication selection table 31 by the received object identifier in accordance with a request from other network devices 1 and 2 and the like, such as communication protocol and address information. Reply various information about.
[0018]
The communication selection table 31 is a table in which object identifiers are associated with information about objects such as communication protocols and address information. FIG. 2 is an explanatory diagram of an example of a communication selection table in an example of a system including the network device according to the first embodiment of this invention. In the example of the communication selection table 31 shown in FIG. 2, columns of object identifier, communication protocol, address information, and remarks are provided. For the object identifier “Object A”, it is assumed that HTTP is used as a communication protocol used when performing inter-object communication, and that address information at that time is “http: // sample / object A”. For the object identifier “ObjectB”, it is assumed that SMTP is used as a communication protocol used when performing inter-object communication, and the address information at that time is “mail @ sample”. In this way, the communication protocol can be changed according to the object of the communication partner, and address information corresponding to each communication protocol can be registered.
[0019]
It should be noted that, as shown as “Other” in the column of object identifiers, the default communication protocol and address information can be registered so as not to coincide with any other object identifier. In this example, HTTP is set as a default communication protocol, and “http: // default / object” is set as address information. The default communication protocol and address information can be communicated with a network device serving as a gateway for performing communication with another network as in a third embodiment to be described later. In addition, a server in which information related to all objects is registered is provided separately. For example, the communication selection table 31 registers information on frequently used objects, and defaults when communicating with other objects. The server can also be configured to make an inquiry using the communication protocol and address information. Alternatively, information for performing error processing may be registered.
[0020]
Such a communication selection table 31 may be provided in common to network devices, or a table that is partially or entirely different for each network device may be prepared.
[0021]
FIG. 3 is an explanatory diagram illustrating an example of an operation in an example of a system including the network device according to the first embodiment of this invention. Here, a case where inter-object communication is performed by requesting inter-object communication from the object 12 in the network apparatus 1 to the object 22 in the network apparatus 2 will be briefly described. In FIG. 3, the illustration of the configuration in the communication module 13 is omitted.
[0022]
When a communication request from the object 12 to the object 22 is made to the communication module 13 ((1)), the receiving unit 14 of the communication module 13 receives the request. At this time, the object identifier of the object 22 may be received from the object 12, or an object identifier corresponding to the object instructed by the receiving unit 14 may be generated. It also receives data to send. Then, an object identifier corresponding to the instructed object and data to be transmitted are passed to the communication determination unit 15.
[0023]
Upon receiving the object identifier and data to be transmitted from the receiving unit 14, the communication determining unit 15 uses the object identifier to inquire the network device 3 for information such as a corresponding communication protocol and address information ((2)). . In response to the inquiry from the network device 1, the network device 3 searches the communication selection table 31 with the received object identifier, and sends information related to the object such as the associated communication protocol and address information to the network device 1 that is the inquiry source. Return it ((3)).
[0024]
The communication determination unit 15 receives information about the object from the network device 3 and determines a communication protocol used for communication between objects and address information for performing communication with the object specified by the communication protocol from the received information. . The determined communication protocol and address information and data to be transmitted are sent to the communication unit 16. The communication unit 16 transmits data according to the address information using the communication protocol received from the communication determination unit 15 ((4)). In this example, communication with the network device 2 is performed, and data is transmitted to the network device 2.
[0025]
The communication module 23 of the network device 2 that has received communication from the communication module 13 (communication unit 16) of the network device 1 makes a function call to the object 22 in the own device ((5)). The received data is passed to the object 22. Thereby, the communication between the object 12 of the network device 1 and the object 22 of the network device 2 is substantially realized.
[0026]
Here, it has been described that the data is transmitted from the object 12 and the data is transferred to the object 22. However, for example, a response in the transferred data or a processing result is transmitted from the object 22 to the object 12. There is. In such a case, when a communication channel is secured as it is, for example, HTTP, according to each communication protocol, a response and a processing result may be returned using the communication channel. Further, in the case of a communication protocol that performs one-way communication such as SMTP, the response from the object 22 to the object 12 is also performed separately for the response and the processing result.
[0027]
In this way, it is possible to perform inter-object communication by selecting an optimal communication protocol corresponding to the object on the other side with which communication is performed. In addition, since such communication protocol selection is performed in the communication module, the upper application or object using the communication module does not need to know about the communication protocol and address. For example, even when the location of the object is changed, Inter-object communication can be performed without concern.
[0028]
FIG. 4 is a schematic configuration diagram showing an example of a system including the second embodiment of the network device of the present invention. In the figure, the same parts as those in FIG. Reference numeral 17 denotes a communication selection table. In the above-described first embodiment, an example in which the communication selection table is held and managed by another network device 3 has been described. The communication selection table is not limited to such an example, and may be held and managed by each network device, for example, and such an example is shown in the second embodiment.
[0029]
The communication selection table 17 is the same table as the communication selection table 31 in the first embodiment described above. In the second embodiment, since each network device is provided, it is possible to register objects in the device without distinguishing them.
[0030]
FIG. 5 is an explanatory diagram of an example of a communication selection table in an example of a system including the second embodiment of the network device of the present invention. Although it is almost the same as the example of the communication selection table shown in FIG. 2, an internal function call can be specifically described as a communication protocol and address information for an object in its own device. For example, for the object with the object identifier “ObjectC” in the own device, “function call” is written in the communication protocol column, and a specific function call is “CallObjectC (data)” in the address information column. It can be described.
[0031]
By adopting a configuration in which the communication selection table is held in each network device in this way, it becomes possible to set a communication protocol or the like according to the function and characteristics of each network device.
[0032]
In the reception unit 14, as in the first embodiment described above, the object identifier is designated from the object 12 and the object identifier is passed to the communication determination unit 15. When the communication determination unit 15 receives the object identifier from the reception unit 14, the communication determination unit 15 refers to the communication selection table 17, acquires the communication protocol and address information corresponding to the received object identifier from the communication selection table 17, and the communication protocol and address. Decide to use the information. The communication unit 16 is the same as that in the first embodiment described above, and performs communication according to the address information using the communication protocol received from the communication determination unit 15. Note that when a function call is received as a communication protocol from the communication determining unit, a function call is made to the internal system in accordance with the address information to realize inter-object communication within the own apparatus.
[0033]
As described above, if a function call for an object in the own device is also registered in the communication selection table 17, for example, when a communication request is received from another network device, a function call of the object that has received the communication request Can be acquired from the communication selection table 17. In this case, a column relating to address information at the time of request from the outside may be provided in the communication selection table 17.
[0034]
In the first embodiment and the second embodiment described above, the communication selection table is stored in a separate network device or is stored in each network device, but the first embodiment is different. In the configuration of being shared by being held in another apparatus as in the above form, for example, even if a change or the like occurs, the shared communication selection table may be changed and management is easy. On the other hand, in the configuration held in each network device as in the second embodiment, when a change occurs, the communication selection table held in each network device must be updated. Settings can be made according to the function of each network device. Therefore, for example, even when communication is performed with the same object, it is possible to set different communication protocols to be used for each network device.
[0035]
Of course, in the configuration in which the communication selection table is held for each network device as in the second embodiment, when the communication selection table of a certain network device is updated, the updated information is transferred to other network devices. It is also possible to notify the network device and automatically update the communication selection table in the system. As a result, the management burden of the communication selection table can be reduced.
[0036]
In addition, by combining the first and second embodiments described above, a common communication selection table is held in a predetermined network device, and each network device also holds a communication selection table as necessary. It can also be configured. For example, it can be configured such that which communication selection table has priority is set in advance, and communication protocols and address information are acquired by sequentially referring to communication selection tables having higher priorities. For example, only objects that are individually set are registered in the communication selection table in each network device, and for objects that are not registered in the communication selection table, the network device that holds the common communication selection table is inquired. Is possible.
[0037]
FIG. 6 is a schematic configuration diagram showing an example of a system including the third embodiment of the network device of the present invention. In the figure, the same parts as those in FIG. 5 to 7 are network devices, 8 is a network, 51 is a gateway communication module, 52 and 54 are communication units, 53 is a communication determination unit, 61 is an application, 62 is an object, 63 is a communication module, and 71 is a communication selection table. . In the third embodiment, a configuration example in which different networks are connected by a network device 5 serving as a gateway is shown. Note that, as in the first embodiment described above, an example is shown in which a communication selection table is held in a specific network device.
[0038]
The network device 6 and the network device 7 are both connected to the network 8 and have the same configuration as the network device 1 and the network device 3, respectively. The communication selection table 31 held in the network device 3 and the communication selection table 71 held in the network device 7 are both configured as shown in FIG. 2, for example, but the registration contents are different. In the communication selection table 31, information related to objects existing in the network device connected to the network 3 is registered. In the communication selection table 71, information related to objects existing in the network device connected to the network 8 is registered. Note that as the default communication protocol and address information in the communication selection table 31 of the network device 3 and the communication selection table 71 of the network device 7, a communication protocol and address information for performing communication with the network device 5 serving as a gateway are registered. It shall be. Of course, in addition to the default communication protocol and address information, a communication protocol and address information for communicating with the network device 5 serving as a gateway may be registered.
[0039]
The network device 5 is connected to the network 4 and the network 8 and is configured to be able to communicate through both. As a configuration for that, the gateway communication module 51 is included, and the gateway communication module 51 further includes a communication unit 52 that performs communication using the network 4 and a communication unit 54 that performs communication using the network 8. .
[0040]
Further, the gateway communication module 51 has a communication determination unit 53. Similar to the communication determination unit 15 and the like described above, the communication determination unit 53 has a function of acquiring and determining a communication protocol and address information when performing inter-object communication. Since the network 5 functions as a gateway, the communication determination unit 53 acquires the communication protocol and address information from the communication selection table on the network where the communication destination object exists. For example, in the example shown in FIG. 6, when there is a communication request from an object on the network 4 to an object on the network 8, the network device 7 on the network 8 communicates with the communication destination object. Request and receive the communication protocol and address information to be used. Then, it is determined that the received communication protocol and address information are to be used and transmitted to the communication unit 54, and the communication unit 54 communicates with the communication destination object through the network 8. Conversely, when a communication request is made from an object on the network 8 to an object on the network 4, a communication protocol used when communicating with the communication destination object to the network device 3 on the network 4; Request and receive address information. Then, it is determined that the received communication protocol and address information are to be used and transmitted to the communication unit 52, and the communication unit 52 communicates with the communication destination object through the network 4. Note that communication with the network device 7 can be performed through the communication unit 54, and communication with the network device 3 can be performed through the communication unit 52.
[0041]
FIG. 7 is an explanatory diagram of an example of operation in an example of a system including the third embodiment of the network device of the present invention. Here, a brief description will be given of a case where inter-object communication is performed by requesting inter-object communication from the object 12 in the network device 1 to the object 62 in the network device 6. Note that the illustration of the configuration within the gateway communication module 51 is omitted.
[0042]
When a communication request from the object 12 to the object 62 is made to the communication module 13 ((1)), the communication module 13 accepts the request and transmission data, and information such as a communication protocol and address information corresponding to the object 62 is received. Is inquired to the network device 3 ((2)). In response to the inquiry from the network device 1, the network device 3 searches the communication selection table 31 using the received object identifier. At this time, since only the object on the network 4 is registered in the communication selection table 31 as described above, information on the object 62 on the network 8 is not registered. Therefore, the default communication protocol and address information are returned to the inquiring network device 1 ((3)). The default communication protocol and address information are used for communication with the network device 5 serving as a gateway.
[0043]
Upon acquiring the communication protocol and address information from the network device 3, the communication module 13 performs communication using the communication protocol and address information (4). As a result, communication with the network device 5 is performed, and transmission data is sent to the network device 5. At this time, the object identifier of the object 62 is also transmitted to the network device 5.
[0044]
In the network device 5, the communication unit 52 of the gateway communication module 51 receives communication from the network device 1, receives the object identifier and transmission data, and passes them to the communication determination unit 53. The communication determining unit 53 inquires of the network device 7 on the network 8 about information such as the communication protocol and address information corresponding to the object 62 to the network device 7 ((5)). In response to the inquiry from the network device 5, the network device 7 searches the communication selection table 71 using the received object identifier. Since information related to the object 62 is registered in the communication selection table 71, the communication protocol and address information corresponding to the object 62 are returned to the inquiring network device 5 ((6)).
[0045]
When the communication determination unit 53 acquires the communication protocol and address information from the network device 7, the communication determination unit 53 determines to use the communication protocol and address information, and passes the communication protocol and address information and transmission data to the communication unit 54. The communication unit 54 performs communication using the communication protocol and address information passed from the communication determination unit 53 ((7)). As a result, communication with the communication module 63 of the network device 6 is performed, and transmission data is transmitted to the network device 6. Further, the communication module 63 performs communication (for example, a function call) with the object 62 (8), and the transmission data reaches the object 62. By such a series of operations, inter-object communication between the object 12 and the object 62 is realized.
[0046]
Contrary to the above example, when communicating from the object 62 in the network device 6 to the object 12 in the network device 1, first, the communication module 63 communicates with the network device 5 from the communication selection table 71. The communication protocol and address information for performing the communication are acquired, and communication with the network device 5 is performed. The network device 5 inquires the network device 3 this time, and acquires information on the object 12 registered in the communication selection table 31 in the network device 3. Then, the network device 5 can communicate with the network device 1 to realize inter-object communication between the object 62 and the object 12.
[0047]
Thus, in the third embodiment, communication between objects that do not exist on the same network can also be performed. At this time, different communication protocols and address information can be used on each network. In addition, the optimum communication protocol can be automatically selected and used, and the application (object) can perform inter-object communication without knowing the communication protocol, etc., and change the location of the object. Inter-object communication can be performed without worrying about. Furthermore, even if information regarding all objects is not registered in the communication selection table, if the communication protocol and address information are set so as to communicate with another network device, the object is transmitted via the other network device. Communication can be realized. Note that inter-object communication may be performed via a plurality of relay network devices.
[0048]
In the example described in the above-described third embodiment, a configuration in which a communication selection table is held in a network device provided separately is shown corresponding to the first embodiment. However, the present invention is not limited to this. For example, as in the above-described second embodiment, each network device may be configured to hold a communication selection table.
[0049]
【The invention's effect】
As is clear from the above description, according to the present invention, it is possible to perform inter-object communication by selecting an optimal communication protocol corresponding to an object on the other side with which communication is performed. In addition, since such communication protocol selection is performed automatically, there is no need to manage communication protocols and addresses in higher-level applications and objects. For example, even when the location of an object is changed There is an effect that communication between objects can be performed.
[Brief description of the drawings]
FIG. 1 is a schematic configuration diagram showing an example of a system including a first embodiment of a network device of the present invention.
FIG. 2 is an explanatory diagram of an example of a communication selection table in an example of a system including the network device according to the first embodiment of this invention;
FIG. 3 is an explanatory diagram showing an example of an operation in an example of a system including the first embodiment of the network device of the present invention;
FIG. 4 is a schematic configuration diagram showing an example of a system including a second embodiment of a network device of the present invention.
FIG. 5 is an explanatory diagram of an example of a communication selection table in an example of a system including a second embodiment of a network device according to the present invention;
FIG. 6 is a schematic configuration diagram showing an example of a system including a third embodiment of a network device of the present invention.
FIG. 7 is an explanatory diagram showing an example of an operation in an example of a system including the third embodiment of the network device of the present invention;
[Explanation of symbols]
DESCRIPTION OF SYMBOLS 1-3 ... Network device, 4 ... Network, 5-7 ... Network device, 8 ... Network, 11, 21 ... Application, 12, 22 ... Object, 13, 23 ... Communication module, 14 ... Reception part, 15 ... Communication decision , 16 ... Communication unit, 17 ... Communication selection table, 31 ... Communication selection table, 51 ... Gateway communication module, 52, 54 ... Communication unit, 53 ... Communication determination unit, 61 ... Application, 62 ... Object, 63 ... Communication module 71 ... Communication selection table.

Claims (5)

  A receiving unit that receives designation of another object from the object, a determining unit that determines a communication protocol and address information according to the specified object, and a communication that performs communication using the address information according to the communication protocol determined by the determining unit A communication selection table for storing means, an object identifier for identifying an object, and a communication protocol and address information for communicating with the object, and storing a communication protocol and address information for communicating with a network serving as a gateway The determination unit receives an object identifier from the reception unit, acquires a communication protocol and address information corresponding to the received object identifier by referring to the communication selection table, and receives the communication protocol and address. If the specified object is an object inside the own device, the communication means performs inter-object communication within the own device, and performs communication corresponding to the specified object. When the protocol and address information are not registered in the communication selection table, the communication protocol and address information for communicating with the network device serving as the gateway is acquired from the communication selection table and specified for the network device serving as the gateway. Requesting communication with the selected object, and the network device serving as the gateway that has received the request performs communication using the communication protocol and address information corresponding to the specified object acquired from the other network device having the communication selection table It is characterized by Ttowaku apparatus.   A receiving unit that receives designation of another object from the object, a determining unit that determines a communication protocol and address information according to the specified object, and a communication that performs communication using the address information according to the communication protocol determined by the determining unit The determination means receives the object identifier from the reception means, and stores the communication protocol and address information associated with the object identifier and the communication based on the object identifier in association with each other. The communication protocol and address information corresponding to the object identifier is requested and acquired from another network device having a communication selection table for storing the communication protocol and address information for communication with the network as a gateway, and the acquired communication When it is determined that the protocol and address information are to be used, and the specified object is an internal object of the own device, the communication means performs inter-object communication within the own device and corresponds to the specified object. When the communication protocol and address information to be transmitted are not registered in the communication selection table, the communication protocol and address information for communicating with the network device serving as a gateway is acquired from the communication selection table and specified for the network device serving as the gateway. Requesting communication with the requested object, and using the communication protocol and address information corresponding to the designated object acquired from the other network device having the communication selection table by the network device serving as the gateway that has received the request. To do Network device according to claim.   A communication system that performs inter-object communication in a network system in which a plurality of network devices are communicably connected via a network, wherein the first network device is used for communication between an object identifier that identifies an object and the object. A communication selection table storing a communication protocol and address information for storing communication protocol and address information in association with each other and a gateway serving as a gateway, and an object specified by receiving specification of another object from the object Communication means and address information corresponding to the communication protocol, and communication means for communicating using the address information according to the communication protocol, and a communication protocol corresponding to the specified object When the address information is not registered in the communication selection table, the communication protocol and address information for communicating with the second network device serving as a gateway are acquired from the communication selection table and the second network device is obtained. Requesting communication with the designated object, the third network device has a communication selection table for storing the object identifier for identifying the object and the communication protocol and address information for communicating with the object in association with each other. When the second network device receives a request from the first network device, the second network device inquires the third network device to obtain a communication protocol and address information corresponding to the designated object, and Using communication protocol and address information Communication system, comprising a gateway communication means for signal.   In a network system in which at least first, second, and fourth network devices are communicably connected by a first network, and at least second and third network devices are communicably connected by a second network. A communication system for performing inter-object communication, wherein the fourth network device corresponds to at least an object identifier for identifying an object on the first network and a communication protocol and address information for performing communication with the object. And a communication selection table for storing address information and a communication protocol for communicating with a network device as a gateway, and the third network device is an object for identifying an object on at least the second network. A communication selection table for storing a communication protocol and address information for communication between the identifier and the object, and the first network device accepts designation of another object from the object, and is designated A communication protocol corresponding to a designated object, having communication means for requesting and acquiring the communication protocol and address information corresponding to the fourth network device, and performing communication using the address information according to the communication protocol When the address information is not registered in the communication selection table of the fourth network device, a communication protocol and address information for communicating with the second network device serving as a gateway are acquired from the fourth network device. In the second network device Requesting communication with the designated object, and upon receipt of the request from the first network device, the second network device inquires of the third network device and corresponds to the designated object. A communication system comprising gateway communication means for acquiring communication protocol and address information to be communicated and performing communication using the communication protocol and address information.   In a network device capable of communicating through a plurality of networks and relaying communication between objects, first communication means for performing communication using the first network and second communication for performing communication using the second network Means, an object identifier for identifying an object, and a communication protocol and address information for communication with the object when there is a communication request from the object on the first network to the object on the second network. A communication protocol and address information corresponding to an object requested from a network device on the second network having a communication selection table stored in association with each other is acquired, and the second communication means uses the communication protocol and address information. Having communication determining means for performing communication Network device and butterflies.

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