JP3844724B2 - Wide area network system and wide area network communication method - Google Patents

Description

[0001]
BACKGROUND OF THE INVENTION
The present invention relates to a wide area network system that provides a wide area network by connecting a plurality of closed area networks of different network systems, and more particularly to a network resource profile description method, and a resource search and acquisition method.
[0002]
[Prior art and problems to be solved by the invention]
Conventionally, in a wide area network system that connects multiple intra-closed area networks with different network methods, when a user uses network resources in each area to realize communication within a single area or across multiple areas, It is difficult to know whether network resources can be used without being aware of the network method, and it is difficult for the user to freely select appropriate network resources for each use. There is a problem that connection settings between network resources having different methods must be set in advance, and it is difficult to dynamically select a combination thereof.
[0003]
The present invention has been made in view of such circumstances, and provides a wide area network system and a wide area network communication method capable of easily performing network communication without being conscious of differences in network methods for each network area. For the purpose.
[0004]
[Means for Solving the Problems]
Book The present invention provides a wide area network system in which a plurality of closed area networks having different network systems are connected to each other, and provides a wide area network service across the closed area networks to a user terminal. A network function providing server that manages each network service and provides a service interface for securing each network service and providing the network, and is connected to each of the network function providing server and the user terminal via a communication path. A center function providing server that requests the network function providing server to provide a network service based on a network use request from the user terminal, the network function providing server, and the center function And a directory server provided with an interface for registering a network service from each network function providing server and an interface for retrieving a network service from the center function providing server. It is characterized by that.
[0005]
Book According to the present invention, the directory server is configured so that a service profile of each network service stored therein can be referred to from the outside, and the service profile uses a common service attribute and network service common to all resource providing services. Each of the service object attribute relating to the service object, the service transfer action attribute which is an attribute relating to the action related to the transfer given by the service to the service object, and the service output action attribute which is an attribute relating to the action relating to the output given to the service object by the service The attribute value is composed of all or a part thereof.
[0006]
Book In the invention, the service common attribute includes a service type attribute indicating a type of a resource providing service, an area ID attribute for uniquely identifying an area that is a resource providing service providing source, and a resource identifying service for uniquely identifying the resource providing service. Each attribute value of an access point attribute which is an attribute indicating a service ID attribute and a location of a network function providing server that is a resource providing service providing source is configured by all or a part thereof.
[0007]
Book The invention is characterized in that the service target attribute is configured such that one or a plurality of attribute values of a target specifying parameter type attribute indicating a parameter type for specifying a service target can be described.
[0008]
Book The service transfer action attribute includes an input edge NW address attribute indicating a network address of a service target input source, an output edge NW address attribute indicating a network address of a service target output destination, and a bandwidth control method for the service target. Bandwidth control method attribute, maximum bandwidth attribute indicating the maximum total bandwidth available for all service targets, minimum bandwidth attribute indicating the minimum total bandwidth available for all service targets, used by all service targets Average bandwidth attribute that indicates the average value of the total possible bandwidth, maximum burst length attribute that indicates the maximum allowable burst length for the service target, maximum service target number attribute that indicates the maximum number of service targets that can be used simultaneously, and data Delay attribute indicating the delay time at the time of transfer, fee metal indicating the fee charged for using the service , A set of charging unit type attribute indicating the type of unit for which the charge described in the charge attribute is charged and a charging unit number attribute indicating the number of units, and a restriction target indicating a parameter type to be used for restriction of use It is characterized by comprising all or part of each attribute value of a set of parameter type attribute and restriction target parameter value attribute indicating its parameter value.
[0009]
Book The invention is characterized in that the service output action attribute is constituted by an attribute value of an assigned parameter type attribute indicating a parameter type given to a service target at the time of output.
[0010]
Book The invention provides a service registration interface that allows the directory server to store the service profile as an argument by inputting the content of the service profile as an argument, and allows external reference, and attribute values in the service profile. It is characterized by providing a service profile acquisition interface that answers all or part of the attribute values of the corresponding service profile as return values by inputting all or part of them as arguments.
[0011]
Book In the invention, the network function providing server specifies a service target by inputting a parameter value and a service ID for each target specifying parameter type attribute in the service target attribute in the service profile as arguments, and transfers the service to the target. The service assignment interface that provides the service based on the contents of the action attribute and the service output action attribute, and the parameter value for each target specific parameter type attribute in the service target attribute are input as arguments to identify the specified It is characterized by providing a service cooperation interface that returns a parameter value for each assigned parameter type attribute for a target as a return value.
[0012]
Book In the invention, the center function providing server acquires a service target attribute value of a plurality of adjacent network services from the directory server using a service profile acquisition interface, and requests use from the user terminal according to the value. An operation of transmitting a service securing interface to the network function providing server that manages each received network service, and a service securing interface and a service cooperation interface are both transmitted to the network function providing server that manages each network service; The operation of transmitting a service securing interface to the network function providing server that provides the network service of the connection destination using the return value of the service cooperation interface and the value of the service ID as arguments. And executes the one of the operation.
[0013]
Book In the invention, the directory server searches for a network service symptom that matches a condition by inputting a request condition for all or a part of the attribute values in the service profile as an argument, and outputs a service output of each network service. Provided is a service search interface that compares only the combination of network services whose connectivity has been confirmed by comparing the attribute value with the value of the service target attribute of the connected network service. .
[0014]
Book The present invention is a wide area network communication method in which a plurality of closed area networks having different network systems are connected to each other and a wide area network service across the closed area networks is provided to a user terminal. A process for transmitting a service search request including information for specifying service contents from a terminal, and a service profile in which service contents are defined in advance for each network in response to the service search request are included in the service search request. The method includes a step of searching for a service that provides service content that matches information specifying the service content, and a step of transmitting the search result to the user terminal as a response to a service search request.
[0015]
Book The present invention provides a process of transmitting a service securing request from the user terminal to a target network based on the response to the service search request, and receives the service securing request and sends the requested service to the user terminal. The method further includes providing a process.
[0016]
Book The invention further includes a process of transmitting a service cooperation request for realizing cooperation with an adjacent network service, and a process of transmitting an answer to the service cooperation request in response to the service cooperation request. .
[0017]
Book The present invention is a wide area network communication method in which a plurality of networks in a closed area having different network methods are connected to each other, and a wide area network service across the networks in the closed area is provided to a user terminal. A process of transmitting a service profile acquisition request in which service content is defined in the process, and a process of receiving all or part of the service profile as an answer to the service profile acquisition request in response to the service profile acquisition request It is characterized by having.
[0018]
DETAILED DESCRIPTION OF THE INVENTION
Hereinafter, a wide area network system according to an embodiment of the present invention will be described with reference to the drawings. FIG. 1 is a block diagram showing the configuration of the embodiment.
As shown in FIG. 1, the wide area network system according to the present invention connects a plurality of closed area networks N1, N2, and N3 having different network systems, and extends over the closed area networks N1, N2, and N3. The service is provided to the user terminal 1 and manages three network services in each closed area, and provides a service interface for securing each network service and providing network communication. Each of the network function providing servers 4, 5, 6 is connected to each of the network function providing servers 4, 5, 6, and the user terminal 1 through a communication path, and each network function is based on a network use request from the user terminal 1. Request the server to provide network services An interface for registering a network service from each network function providing server 4, 5, 6 connected to the center function providing server 2, each of the network function providing servers 4, 5, 6 and the center function providing server 2 through a communication path. And a directory server 3 having an interface for searching for a network service from the center function providing server 2.
[0019]
When providing a network service that provides a data transfer function of a specific section in the area provided from each of the closed area networks N1, N2, and N3 via the network function providing servers 4, 5, and 6, A service profile is created in which attribute values such as a service target attribute, a service transfer action attribute, and a service output action attribute are described without depending on the network method for each area. This service profile is registered in advance in the directory server 3 using the service registration interface 31 via each of the network function providing servers 4, 5, 6 in the area. When a user communicates on the wide area network system, a network service candidate is obtained by searching for a network service using the service search interface 11 via the user terminal 1, and if necessary, All or part of the service profiles are acquired using the service profile acquisition interface 13.
[0020]
The service search interface 11 is provided by the directory server 3 and compares the value of the service output action attribute of each network service with the value of the service target attribute of the connection destination network service, and the connectivity between these network services. Only combinations that have been confirmed are answered as service candidates. Based on this, the user terminal 1 selects a desired combination of network services using the service securing interface 12, thereby providing network function providing servers 4, 5, 6 that provide each network service from the center function providing server 2. On the other hand, one of the following operations (1) and (2) is executed.
(1) The service securing interface 21 is set with the parameter value for each parameter type attribute for specifying the target described in the service target attribute and the service ID as arguments. Use secure request The service target is specified by transmission, and the service is provided based on the values of the service transfer action attribute and the service output action attribute.
(2) Subsequent to (1), the service cooperation interface 22 is set with the parameter value for each parameter type attribute for specifying the target described in the service target attribute as an argument. Use the collaboration request The network function providing server that manages the connection destination network service using the parameter value and service ID for each of the assigned parameter type attributes assigned by each network function providing server 4, 5, 6 as the return value. 4, 5, 6 for service securing interface 21 Use secure request Perform the transmission operation.
[0021]
In the center function providing server 2, both network functions that provide the network service of the connection source and the connection destination according to the value of the service target attribute of each service profile acquired from the directory server using the service profile acquisition interface 33. It is determined which operation (1) or (2) is performed on the providing server.
[0022]
Thus, it is possible to search for available network services and freely select an appropriate network service, and to freely select a combination of network services between areas with different network methods.
[0023]
Next, a specific example of the operation of the wide area network system shown in FIG. 1 will be described. FIG. 2 is a diagram illustrating the operation of the system of the wide area network system. Here, as different network systems, an MPLS (Multi Protocol Label Switching) network and a Diffserv network will be described as an example. Further, it is assumed that the closed area network N1 is an MPLS network and the closed area network N2 is a Diffserv network. The edge devices 41 and 42 and the core devices 43 and 44 in the closed area network N1 are MPLS-compatible routers or switches, and the edge device 41 has a function of assigning an MPLS label based on the source address and destination address of the packet. Have. The edge devices 51 and 52 and the core devices 53 and 54 in the closed area network N2 are Diffserv-compatible routers or switches. The edge device 51 is based on the source address and destination address of the packet, or the MPLS label. It has a function of assigning DSCP (Diffserv Code Point) based on the value. As a result, the MPLS label is given by the edge device 41 in the network N1 within the closed area and the DSCP is given by the edge device 51 in the network N2 within the closed area from each network function providing server 4 and 5, respectively. The
[0024]
Communication between the user terminal 1 and the directory server 3 and between each network function providing server 4, 5 and the directory server 3 is realized via the center function server 2. Common interface between the user terminal 1 and the center function providing server 2, between the center function providing server 2 and the directory server 3, and between the center function providing server 2 and each network function providing server 4 and 5. Message via In this example, XML / SOAP is used as a means of exchange, but the platform is not limited to this as long as it can transmit a common interface message. Communication between the user terminal 1 and the communication terminal 45 is realized by a unique interface, and a network service use request from the communication terminal 45 is made via the user terminal 1. Further, it is assumed that the service profile of the network service in each network is registered in advance in the directory server 3 using the service registration interface via each network function providing server 4, 5.
[0025]
Next, the configuration of the service profile will be described with reference to FIG. FIG. 3 is a diagram illustrating a configuration of a service profile of a network service. Each attribute is defined as shown below.
First, as service common attributes, a service type attribute, an area ID attribute, and a service ID attribute are defined as <service type>, <area ID>, and <service ID> elements that are subordinate elements of the <service common> element, respectively.
[0026]
Next, as the service target attribute, the target specific parameter type attribute is defined by using as many <parameter type> elements as subelements of the <service target> element, and the “source address” is set as the value of each element. Describe a character string indicating “,” “destination address”, “logical port number” or the like.
[0027]
Next, as the service transfer action attribute, the input edge NW address attribute and the output edge NW address attribute are defined as <input edge NW address> and <output edge NW address> elements, which are subelements of the <service transfer action> element, respectively. To do. In addition, a <policy> element is provided as a sub-element of the <service transfer action> element, and a bandwidth control method attribute, a maximum bandwidth attribute, a minimum bandwidth attribute, an average bandwidth attribute, a maximum service target number attribute, and a delay attribute are provided for each <policy>. It is defined using necessary elements among <band control method>, <maximum band>, <minimum band>, <average band>, <maximum number of service targets>, and <delay> elements that are sub-elements of the element. In addition, a <billing information> element is provided as a sub-element of the <policy> element, and a charge attribute is defined as a <charge> element that is a sub-element of the <billing information> element, and a charging unit type attribute and a charging unit number attribute are defined. Each set is defined by using the necessary number of sets of <unit type> elements and <number of units> elements that are subelements of the <billing unit> element that is a subelement of the <billing information> element.
[0028]
In addition, a <usage constraint condition> element is provided as a sub-element of the <service transfer action> element, and the restriction target parameter type and its value are set as a sub-element of the <usage constraint condition> element and the sub-element of the element. This is defined by using as many pairs as necessary for the <parameter type> element and <parameter value>. As the description content, for example, in the <band control method> element, a character string indicating “fixed band guarantee”, “average band guarantee”, “best effort”, etc. is described. The <unit type> element, which is an element, describes a character string indicating "time", "bandwidth", "packet", "session", etc., and <parameter type that is a subelement of the <constraint parameter> element The> element describes a character string indicating “destination NW address”, “logical port number”, and the like.
[0029]
Next, as the service output action attribute, the assigned parameter type attribute is defined by using the necessary number of <parameter type> elements that are sub-elements of the <service output action> element, and “MPLS label” is set as the value of each element. A character string indicating “,“ DSCP ”or the like is described.
[0030]
Next, a specific example of a service profile will be described with reference to FIGS. FIG. 4 is a service profile description example corresponding to the services in the closed area networks N1 (FIG. 4 (a)) and N2 (FIG. 4 (b)) shown in FIG. Here, in the service profile of the network service in the network N2 within the closed area, “source address” and “destination address” are set as values of the <parameter type> element that is a lower element of the <service target> element. The case where it is described is assumed.
[0031]
FIG. 5 is also a service profile description example corresponding to the services in the closed area networks N1 (FIG. 5A) and N2 (FIG. 5B) shown in FIG. Here, it is assumed that “MPLS label” is described as the value of the <parameter type> element that is a lower element of the <service target> element in the service profile of the network service in the closed area network N2. is doing.
[0032]
Next, a network service search sequence in the case of performing data transfer from the communication terminal 45 to the communication terminal 55 shown in FIG. 2 will be described with reference to FIG.
First, a network service search request is made from the user terminal 1 to the center function providing server 2 by using the service search interface with the source address, destination address, bandwidth control method, and minimum bandwidth values as arguments (step S1). In response, the center function providing server 2 request Is transferred to the directory server 3 (step S2).
[0033]
Next, the directory server 3 searches for a network service that matches the input argument based on the service profile (step S3). For each network service candidate obtained as a result of this search, verify the connectivity between these services based on the contents of the <service output action> element and the contents of the <service target> element of the connection source service Then, only the connectable combinations are notified to the answer user terminal 1 for the service search (steps S4 and S5).
[0034]
Next, in order to realize cooperation with adjacent services, a content acquisition request for the <service target> element of each service is made to the directory server by the service profile acquisition interface for each network service that becomes a candidate (step S6). The obtained result is temporarily cached in the center function providing server 2 (step S7).
[0035]
Next, with reference to FIGS. 7 and 8, a sequence related to the acquisition of the network service performed following the sequence shown in FIG. 6 will be described. 7 is a sequence when the combination of the selected network services has the service profile shown in FIG. 4, and FIG. 8 is a sequence when the combination of the selected network services has the service profile shown in FIG. is there.
[0036]
First, a description will be given with reference to FIG. First, a service securing request is made from the user terminal 1 to the center function providing server 2 by using the service securing interface as arguments for the source address, destination address, minimum bandwidth, and service ID (step S11). In response to this, the center function providing server 2 sends this to the network function providing servers 4 and 5 that manage each service. request Is transferred (steps S12 and S13).
[0037]
Next, each network function providing server 4, a packet having a source address and a destination address input from the service securing interface to the edge device 41 and the edge device 51 from the network function providing servers 4 and 5, respectively. An instruction is given to assign the assigned parameter value determined in 5 (MPLS label in the closed area network N1 and DSCP in the closed area network N2) (steps S14 and S15).
[0038]
Next, a description will be given with reference to FIG. In FIG. 8, steps S21 to S23 are the same as steps S11 to 13 shown in FIG. A parameter value acquisition request for each assigned parameter type attribute for realizing cooperation with the adjacent network service from the center function providing server 2 to the network function providing server 4 using the source address and destination address as arguments by the service cooperation interface. It performs (step S24). In response, the network function providing server 4 returns the parameter value for each assigned parameter type attribute as a return value to the center function providing server 2 as an answer (step S25). The center function providing server 2 uses the returned value, the minimum bandwidth, and the service ID as arguments, and sets the service securing interface. Use secure request This is transmitted to the network function providing server 5 (step S26). In the network function providing server 5, an instruction is sent to the edge device 51 to assign the DSCP value determined by the network function providing server 5 to the packet assigned “1” as the MPLS label (step S27).
[0039]
Note that which sequence shown in FIGS. 7 and 8 is applied depends on the contents of the <service target> element of each service obtained by the service profile acquisition interface cached by executing the sequence shown in FIG. Is determined and determined by the center function providing server 2. Specifically, if the selected combination has the service profile shown in FIG. 4, the value of the <parameter type> element that is a subelement of the <service target> element of the network service of the network N2 in the closed area is used. Since the “source address” and “destination address” are described and the network function providing server 4 does not need to notify the network function providing server 5 of the parameter type and the value assigned to the service target, it is shown in FIG. When the sequence is applied and the selected combination has the service profile shown in FIG. 5, “MPLS” is set as the value of the <parameter type> element that is a subelement of the <service target> element of the network service of the network N2 in the closed area. Label ”is described and the network function providing server Sequence shown in Figure 8 the parameter type and its value is given to the service object it is necessary to notify the network function providing server 5 applies at.
[0040]
In addition, wide area network communication is performed by recording a program for realizing the functions of each server shown in FIG. 1 in a computer-readable recording medium, causing the computer system to read and execute the program recorded in the recording medium. Processing may be performed. Here, the “computer system” includes an OS and hardware such as peripheral devices. Further, the “computer system” includes a homepage providing environment (or display environment) if a WWW system is used. The “computer-readable recording medium” refers to a storage device such as a flexible medium, a magneto-optical disk, a portable medium such as a ROM and a CD-ROM, and a hard disk incorporated in a computer system. Further, the “computer-readable recording medium” refers to a volatile memory (RAM) in a computer system that becomes a server or a client when a program is transmitted via a network such as the Internet or a communication line such as a telephone line. In addition, those holding programs for a certain period of time are also included.
[0041]
The program may be transmitted from a computer system storing the program in a storage device or the like to another computer system via a transmission medium or by a transmission wave in the transmission medium. Here, the “transmission medium” for transmitting the program refers to a medium having a function of transmitting information, such as a network (communication network) such as the Internet or a communication line (communication line) such as a telephone line. The program may be for realizing a part of the functions described above. Furthermore, what can implement | achieve the function mentioned above in combination with the program already recorded on the computer system, and what is called a difference file (difference program) may be sufficient.
[0042]
【The invention's effect】
As described above, according to the present invention, in a wide area network system for connecting a plurality of closed area networks having different network methods, a network within each area is realized in order to realize communication within a single area or across a plurality of areas. When using resources, it is possible to know what network resources are available, and it is possible for the user to freely select appropriate network resources for each use. In addition, in communication across multiple areas, it is possible to dynamically set connection between network resources with different methods for each area, and users can use these combinations without being aware of differences in network methods for each area. Can be freely selected.
[Brief description of the drawings]
FIG. 1 is a block diagram showing a configuration of an embodiment of the present invention.
FIG. 2 is a diagram illustrating a specific example of a wide area network system.
FIG. 3 is a diagram illustrating a configuration example of a service profile.
FIG. 4 is a diagram illustrating a description example of a service profile.
FIG. 5 is a diagram illustrating a description example of a service profile.
FIG. 6 is a sequence diagram showing an operation of network service search.
FIG. 7 is a sequence diagram illustrating an operation for acquiring a network service.
FIG. 8 is a sequence diagram showing an operation of acquiring a network service.
[Explanation of symbols]
1 ... User terminal
2. Center function providing server
3 ... Directory server
4, 5, 6 ... Network function providing server
N1, N2, N3 ... Network in closed area

Claims (9)

A wide area network system in which a plurality of closed area networks having different network methods are connected to each other, and a wide area network service across the closed area network is provided to a user terminal,
A plurality of network function providing servers that manage each network service in a closed area network, secure each network service and provide the network service;
A center function providing server that is connected to each of the network function providing server and the user terminal through a communication path and requests the network function providing server to provide a network service based on a network use request from the user terminal. When,
A service common attribute that is connected to each of the network function providing server and the center function providing server through a communication path and is common to resource providing services, a service target attribute relating to a service target using the network service, and a service for the service target It consists of all or part of the service transfer action attribute that is an attribute related to the transfer given by the service and each attribute value of the service output action attribute that is an attribute related to the output given to the service target by the service. The contents of the service profile to be input from the network function providing server, the input service profile is stored in the inside, and the service profile can be referred to from the outside, and the attribute value in the service profile A request including a condition for a part of the request is input from the user terminal via the center function providing server, and the request profile is met by referring to the service profile stored therein. The network service candidate is searched, and only the combination of network services whose connectivity is confirmed by comparing the value of the service output action attribute of each network service with the value of the service target attribute of the connection destination network service. A directory server comprising service search means for responding to a request ;
Wide area network system, characterized in that in that it consists of. The service common attribute includes a service type attribute indicating the type of the resource providing service, an area ID attribute for uniquely identifying the area that provides the resource providing service, and a service ID attribute for uniquely identifying the resource providing service 2. The wide area according to claim 1 , wherein each attribute value of an access point attribute, which is an attribute indicating a location of a network function providing server as a resource providing service provider, is configured by all or a part thereof. Network system. The wide area network system according to claim 1 , wherein the service target attribute is configured such that one or a plurality of attribute values of a target specifying parameter type attribute indicating a parameter type for specifying a service target can be described. The service transfer action attribute includes an input edge NW address attribute indicating a network address of an input source of a service target, an output edge NW address attribute indicating a network address of an output destination of the service target, and a band control indicating a control method of a band for the service target. Method attribute, maximum bandwidth attribute indicating the maximum total bandwidth available for all service targets, minimum bandwidth attribute indicating the minimum total bandwidth available for all service targets, total available for all service targets Average bandwidth attribute indicating the average value of the bandwidth, Maximum burst length attribute indicating the maximum burst length allowable for the service target, Maximum service target number attribute indicating the maximum number of service targets that can be used simultaneously, Data transfer Delay attribute indicating delay time, Charge attribute indicating charge charged for use of service, Charge Restriction target parameter type indicating a set of charging unit type attribute indicating the type of unit charged for the fee described in the property and a charging unit number attribute indicating the number of units, and a parameter type to be restricted for use restriction 2. The wide area network system according to claim 1 , wherein the wide area network system is configured by all or a part of each attribute value of a set of a restriction target parameter value attribute indicating an attribute and its parameter value. The wide area network system according to claim 1 , wherein the service output action attribute is configured by an attribute value of an assigned parameter type attribute indicating a parameter type assigned at the time of output to a service target. The directory server is
Said all attribute values in the service profile, or enter a request including a portion thereof, further comprising a service profile acquisition means to respond to the request all or part of the attribute value of the corresponding service profile The wide area network system according to claim 1 . The network function providing server is:
A service target is specified by inputting a parameter value and a service ID for each target specifying parameter type attribute in the service target attribute in the service profile from the center function providing server, and the service transfer action attribute and the service output action attribute of the service target Service securing means for providing services based on the contents of
A service cooperation means for inputting a parameter value request for each target specific parameter type attribute in the service target attribute from the center function providing server , and answering the parameter value for each assigned parameter type attribute of the request target to the request ; The wide area network system according to claim 1 , further comprising: The center function providing server is:
Get the value of the service object attributes of a plurality network services adjacent from the directory server, depending on the value, utilized for the network function providing server for managing the network services subject to a use request from the user terminal Means for sending the request ;
Both sends a service reservation request and service cooperation request said network function providing server for managing each network service, the network function that provides the connection of the network service the values of the service ID of the answer to the service cooperation request wide area network system according to claim 7, characterized in that a means to be transmitted to the providing server. A plurality of network function providing servers and a center function are provided in order to provide a user terminal with a wide area network service across a plurality of closed area networks with different network systems connected to each other. A wide area network communication method in a wide area network system in which a server and a directory server are connected via communication paths ,
The plurality of network function providing servers manage each network service in a closed area network, secure each network service and provide the network service;
The center function providing server requesting the network function providing server to provide a network service based on a network use request from the user terminal;
A service common attribute common to resource providing services by the directory server, a service target attribute related to a service target using a network service, and a service transfer action attribute that is an attribute relating to a transfer related to a service given to the service target; The contents of the service profile constituted by all or part of each attribute value of the service output action attribute, which is an attribute relating to the action related to the output given by the service to the service target, is input from the network function providing server. The process of accumulating the input service profile inside and making it possible to refer to the service profile from the outside,
The directory server inputs a request including a condition for all or part of the attribute values in the service profile from the user terminal via the center function providing server, and the service stored inside the directory server Refer to the profile, search for network service candidates that match the requirements of the request, and compare the value of the service output action attribute of each network service with the value of the service target attribute of the connected network service. A wide area network communication method comprising: replying to the request with only a combination of network services whose connectivity has been confirmed .

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