JP3872005B2 - OVPN system, OVPN termination device, base device, centralized conversion device, and optical communication network - Google Patents

Description

[0001]
BACKGROUND OF THE INVENTION
The present invention relates to a VPN (Virtual Private Network). In particular, the present invention relates to a VPN that can accommodate various layer 1 signals and is called layer 1 VPN or OVPN (OVPN).
[0002]
[Prior art]
VPN is a service that provides a user with an environment in which a private network is used while using a public network. FIG. 13 is a diagram showing an example of a conventional OVPN configuration. In the conventional technology, as shown in FIG. 13, when a user configures an OVPN (OVPN) between bases, optical dedicated lines 123 to It is common to borrow 125 from a network provider and connect to configure an OVPN. In this case, the optical dedicated lines 123 to 125 are set by the optical cross-connect devices (hereinafter referred to as OXC) 10 to 12. The OXCs 10 to 12 are set by the dedicated control lines 1 to 6 from the OVPN control terminals 13 to 15. When the OVPN control terminals 13 to 15 are provided to the user, the user can control some functions of the OXCs 10 to 12 held by the network provider.
[0003]
In such an OVPN, there are technologies called SDH / SONET and OTN (Optical Transport Network) as a technology for configuring a dedicated line having a function of transmitting layer 1 signals transparently. Various layer 1 signals (eg PDH, Ethernet, Gigabit Ethernet, Fiberchannel, SDH / SONET, OTN, etc.), SDH / SONET path payload at the entrance of the network, or OTN optical channel (OCh) payload And providing a function for transparently transmitting a layer 1 digital signal by transmitting it through a signal converter accommodated in the network and a signal converter for extracting and outputting the layer 1 signal accommodated from the payload at the exit of the network. Yes.
[0004]
At the current technical level, a plurality of layer 1 signals cannot be handled by the same signal converter except for some exceptions such as Gigbit Ethernet and Fiber Channel. Therefore, when the OVPN is configured using the above-described signal converter, a user who uses the OVPN notifies the OVPN provider of the layer 1 signal to be used in advance, and the desired signal converter becomes an OVPN termination device. It must be deployed (see, for example, Non-Patent Document 1).
[0005]
[Non-Patent Document 1]
Misawa, Katayama, Okamoto, Yamanaka “Proposal of Optical VPN Service” 2002 Shingaku Society Conference SB-6-4
[0006]
[Problems to be solved by the invention]
As described above, in the conventional OVPN, it is possible to provide a function of transparently transmitting the layer 1 signal, but in response to a request that the OVPN user wants to change the accommodated layer 1 signal, the signal converter Therefore, there is a problem that it is impossible to immediately respond to a change request from the user.
[0007]
The present invention has been made in such a background, and an object of the present invention is to provide an OVPN that can immediately respond to a change request of a signal format applied by a user. It is another object of the present invention to provide an OVPN that can omit a signaling procedure that becomes invalid in OVPN operation.
[0008]
[Means for Solving the Problems]
In the present invention, it is possible to determine whether or not the OVPN user can realize the request after the OVPN terminator or OVPN system understands the request of what kind of layer 1 signal the OVPN user wants to connect to the OVPN. After the determination, the IP address and VPNID are assigned to the user device of the user, and the IP address and VPNID and the signal format type information used by the user device are registered. And
[0009]
As a result, for example, when the layer 1 signal that the user wants to connect to OVPN is currently unusable in OVPN, it becomes possible to avoid the assignment and registration of an invalid IP address and VPNID, which is invalid in OVPN operation. The signaling procedure can be omitted.
[0010]
This “unusable” has two meanings. The first is a case where the OVPN has no conversion function from the beginning. The second is a case where OVPN has a conversion function but others are in use. In the former case, it may be determined immediately that it cannot be used, but in the latter case, it may be registered as available for the time being and waiting for resources to be released.
[0011]
In addition, the user himself / herself may notify the OVPN terminator or OVPN system of what kind of layer 1 signal the user wants to connect to the OVPN, but the layer 1 signal used by the user device prepared by the user is automatically used. The convenience of the user can be improved by automatically determining and automatically notifying the determination result to the OVPN terminating device or the OVPN system. In the present invention, a base device may be provided between the OVPN terminal device or the OVPN system of the user device, and the type of the layer 1 signal used by the user device can be automatically determined.
[0012]
That is, the first aspect of the present invention is an OVPN system, and the feature of the present invention is that the first signal format used by the user equipment of the OVPN subscriber and the second signal format used by the OVPN are as follows. The first signal format and the second signal format are mutually converted when they are different, and a plurality of the mutually converting means are provided corresponding to a plurality of different first signal formats. If the first signal format used by the user device is received and the first signal format is different from the second signal format, the presence / absence of means for converting the information corresponding to the type is determined. When the search means and the search result of the search means are “present”, the IP address and VP are given to the user device. Means for assigning an ID, and means for registering the IP address and VPNID assigned by the assigning means and the type information of the first signal format used by the user device to which the IP address and VPNID are assigned. It is in place.
[0013]
Alternatively, a first aspect of the present invention is an OVPN system, and a feature of the present invention is that a plurality of sub OVPNs are provided in an interconnected OVPN, and are used by adjacent sub OVPs. When the signal format is different from the second signal format used by the own sub-OVPN, the first signal format and the second signal format are mutually converted. A plurality of the signal formats corresponding to the first signal formats are provided.
[0014]
According to this, in the OVPN configuration in which a plurality of sub OVPNs are connected to form one OVPN, the difference in signal format between the sub OVPNs is absorbed, and various signals used by users connected to the sub OVPNs. Can correspond to the format.
[0015]
The second aspect of the present invention is the first signal format and the second signal format when the first signal format used by the user equipment of the OVPN subscriber is different from the second signal format used by the OVPN. Are mutually converted, and the means for converting between each other is an OVPN terminating device that accommodates a plurality of user devices of OVPN subscribers corresponding to a plurality of different first signal formats.
[0016]
Here, a feature of the present invention is that when the type information of the first signal format used by the user apparatus is received and the first signal format is different from the second signal format, the type is changed to the type. A means for searching for the presence / absence of the corresponding means for mutual conversion, a means for giving an IP address and a VPNID to the user device when the search result of the means for searching is “present”, and this assignment Means for registering the IP address and VPNID assigned by the means and the type information of the first signal format used by the user apparatus to which the IP address and VPNID are assigned.
[0017]
Further, upon receiving a call connection request from the user device, the signal format used by the called user based on the registered type information of the first signal format used by the user device for the source IP address included in the call connection request And a means for sending the type information selected by the selecting means to the destination user together with the call connection request.
[0018]
As a result, the signal format used for the subsequent communication can be designated for the incoming user. Even if the called user uses a signal format other than the specified signal format, if the called user can select a plurality of signal formats, the signal is sent according to the signal format notified together with the call connection request. Format changes can be made.
[0019]
Further, when a response to the call connection request is received, it is determined whether or not the signal format used by the user device matches the signal format applied by the called user, and if the signal format does not match, the user device is informed that the line setting has not been established. It is desirable to provide a means for notification.
[0020]
That is, if the signal format mismatch between the user device and the incoming user, information to that effect is returned as a response to the call connection request. In this case, the user device is used by the incoming user. Since it does not have a function of receiving the signal format, it cannot recognize why the line setting is not established. Therefore, the OVPN terminator capable of supporting a plurality of signal formats mediates, so that the user apparatus can know that the cause of the line failure is due to the mismatch of the signal formats.
[0021]
A means for notifying the user device of type information of the first signal format corresponding to the other vacant means for mutual conversion when the search result of the means for searching is “none”; desirable.
[0022]
As a result, it is possible to shorten the waiting time of a user who wishes to communicate by effectively using available network resources.
[0023]
Alternatively, when the search result of the means for searching is “None”, whether or not the other user device in use can be changed to another available means for converting the mutual conversion. A means for inquiring, and a means for requesting the other user device to change the means for mutual conversion and giving an IP address and a VPNID to the user device when the inquiry result of the means for inquiring is “OK” Can also be provided.
[0024]
According to this, it is possible to shorten the waiting time of a user who wishes to communicate by effectively using network resources that are more actively available.
[0025]
A third aspect of the present invention is a base device interposed between the OVPN system or OVPN termination device of the present invention and a user device accommodated in the OVPN system or the OVPN termination device. A feature is that a means for determining the type of the first signal format used by the user apparatus, a means for transmitting the information of the type determined by the determining means to the OVPN terminating apparatus, and And means for holding the IP address and VPNID.
[0026]
This reduces the functions provided in the user equipment in carrying out the present invention, and the user does not need to bear the cost required to provide the special user equipment, and the OVPN installation management company invites new subscribers. It can contribute to improvement of service quality in the above or operation.
[0027]
Alternatively, a first aspect of the present invention is an OVPN system, and a feature of the present invention is that a first signal format used by a user device of an OVPN subscriber and a second signal format used by the OVPN are as follows. The first signal format and the second signal format are mutually converted when they are different, and a plurality of the mutually converting means are provided corresponding to a plurality of different first signal formats. Receiving the type information of the plurality of first signal formats used by the user device and converting the information corresponding to the plurality of types when the first signal format is different from the second signal format. Means for searching for the presence / absence of means, and when the search result of the means for searching is “present”, And a means for assigning a plurality of IP addresses respectively corresponding to the plurality of types, a VPNID assigned by the assigning means, a plurality of IP addresses, and the user apparatus to which the VPNID and the plurality of IP addresses are assigned. A means for registering a plurality of types of information of the first signal format and a call connection request from the user apparatus, when the call connection request arrives, refer to the means for registration and set the source IP address included in the call connection request. And a means for applying the mutual conversion means having the function of converting the corresponding first signal format and the second signal format to communication after the call connection request.
[0028]
In this way, by assigning a plurality of IP addresses to one user apparatus and predetermining the signal format type corresponding to each IP address, the user notifies the OVPN of the signal format type used by the user. The signal format can be changed simply by changing the IP address. Thereby, the change procedure in the case of frequently changing the signal format type can be simplified.
[0029]
The second aspect of the present invention is the first signal format and the second signal format when the first signal format used by the user equipment of the OVPN subscriber is different from the second signal format used by the OVPN. Are mutually converted, and the means for converting between each other is an OVPN terminating device that accommodates a plurality of user devices of OVPN subscribers corresponding to a plurality of different first signal formats.
[0030]
Here, a feature of the present invention is that when a plurality of types of the first signal format used by the user apparatus are received and the first signal format is different from the second signal format, the plurality of first signal formats are used. Means for searching for the presence / absence of the means for mutual conversion corresponding to the type, and when the search result of the means for searching is “Yes”, corresponds to the VPN ID and the plurality of types for the user device, respectively. And a plurality of first signal formats used by the user apparatus to which the VPNID and the plurality of IP addresses and the VPNID and the plurality of IP addresses are assigned. When the call connection request from the user device arrives. The call connection means having the function of mutually converting the first signal format and the second signal format corresponding to the source IP address included in the call connection request with reference to the means. And means for applying communication after the request.
[0031]
A third aspect of the present invention is a base device interposed between the OVPN system or OVPN terminator of the present invention and a user device accommodated in the OVPN system or OVPN terminator. And means for determining the type of the first signal format used by the user apparatus, means for transmitting the information of the type determined by the determination means to the OVPN termination apparatus, and Means for holding a VPNID and a plurality of IP addresses together with a plurality of types of information of the first signal format corresponding to the IP addresses.
[0032]
This reduces the functions provided in the user equipment in carrying out the present invention, and the user does not need to bear the cost required to provide the special user equipment, and the OVPN installation management company invites new subscribers. It can contribute to improvement of service quality in the above or operation.
[0033]
In addition, the OVPN terminator of the present invention can include the above-described means for converting between the devices. That is, the means for mutual conversion may be a function on the OVPN side, or may be a function provided in the OVPN terminator.
[0034]
In addition, the base apparatus of the present invention can include means for separating the user apparatus and the OVPN, and means for returning the test light transmitted from the OVPN back to the OVPN.
[0035]
Thereby, the OVPN installation management business operator can separate the user device and the OVPN side and perform the test when a failure occurs.
[0036]
A fourth aspect of the present invention is a centralized conversion apparatus, which is characterized in that a first signal format used by a user apparatus of an OVPN subscriber is different from a second signal format used by the OVPN. In this case, the first signal format and the second signal format are provided with a means for mutually converting, and the means for mutually converting is provided in correspondence with a plurality of different first signal formats, A plurality of OVPN terminators of the present invention are provided with means for providing the function of the means for mutual conversion in common.
[0037]
Thereby, it is not necessary to provide the OVPN terminator with the means for mutual conversion, and the configuration of the OVPN terminator can be simplified and reduced in cost.
[0038]
According to a fifth aspect of the present invention, there is provided an optical communication network comprising the OVPN system, the OVPN termination device, the base device, or the central control device of the present invention.
[0039]
DETAILED DESCRIPTION OF THE INVENTION
(First Example)
A first embodiment will be described with reference to FIGS. FIG. 1 is a diagram for explaining the OVPN configuration of the first embodiment. 2 and 4 are sequence diagrams showing the line setting procedure of the first embodiment. FIG. 3 is a block diagram of the optical switch control device of the first embodiment. In order to simplify the explanation, FIG. 1 shows an example in which a signal is transmitted from the upper left user devices 20-1 and 21-1 to the lower left user device 20-2. At the same time, signals are transmitted in the opposite direction. Further, the OVPN termination devices 30 and 80, the network control devices 40 and 60, and the optical cross-connect devices 50 and 70 shown in FIG. 1 are devices having the same configuration, respectively. The device 30, the network control device 40, and the optical cross-connect device 50 will be described, and descriptions of the same contents of the OVPN termination device 80, the network control device 60, and the optical cross-connect device 70 will be omitted. In the present embodiment, SDH will be described, but SONET can be similarly described.
[0040]
The network controller 40 sets a route for the optical cross-connect device 50, and an OVPN is configured between the bases via the SDH network. The network control device 40 can be controlled by the user devices 20-1 and 21-1 at each site.
[0041]
In the first embodiment, the OVPN terminator 30 is the first signal format applied to the user equipment 20-1, 20-2, 21-1, Gigabit Ethernet or the first applied to ATM and OVPN. Converters 33 and 34 are signal converters that mutually convert SDH, which is a second signal format different from the signal format, and the converters 33 and 34 correspond to a plurality of different first signal formats. Are provided. Which converter 33 or 34 is used is determined by controlling the optical switch 32.
[0042]
Note that if the user apparatus and the OVPN have the same signal format, no signal conversion is required, and communication can be performed without going through the converters 33 and 34. Since it is meaningless in explaining the features, the explanation is omitted.
[0043]
Further, if the signal can be converted even if the user device 20-1 and the user device 20-2 use different signal formats, the OVPN can be used. However, here, in order to make the description easy to understand, the same signal format will be described. .
[0044]
Next, the operation of the first embodiment will be described with reference to FIGS. Here, a case where the user device 20-1 is connected to the OVPN termination device 30 will be described. When the user device 20-1 is connected to the line connection terminal with the OVPN termination device 30 on the outgoing user side (step 1), the user device 20-1 uses itself for the optical switch control device 31. Registration of the L1 signal is performed (step 2). The user device 20-1 notifies the L1 signal type information used by the user device 20-1 to the signal conversion availability determination unit 16 of the optical switch control device 31 via the control line. The L1 signal type information that can be converted by the converters 33 and 34 and the usage status information of the optical switch 32 are input to the signal conversion possibility determination unit 16, and the current air / busy status of the converters 33 and 34 can be determined. It has recognized. The signal conversion availability determination unit 16 refers to the L1 signal type information notified from the user device 20-1 and the usage status information input from the optical switch 32, and the L1 signal type desired to be used by the user device 20-1 is determined. Determine whether it is currently available.
[0045]
There are two cases in this “determination of availability”. The first is a case where the OVPN has no conversion function from the beginning. The second is a case where OVPN has a conversion function but others are in use. In the former case, it may be determined that it cannot be used immediately, but in the latter case, it may be determined that it can be used for the time being, and the resource may be released. In the latter case, a determination policy regarding whether to immediately disable use or whether to enable use for the time being is determined according to the usage form of the OVPN. That is, if the user uses the actual communication form immediately after the registration is completed, it is determined that the conversion resource is unavailable even if the user has the conversion resource but is currently blocked. In addition, if the usage mode is such that actual communication is started after a user completes registration, if the user has a conversion resource, it is determined that the user can use the conversion resource regardless of the empty state.
[0046]
If it is available (the corresponding L1 resource is available), the address generation unit 17 generates an IP address and VPNID that do not overlap with other user apparatuses. The generated IP address and VPNID are notified to the user device 20-1. Further, the generated IP address and VPNID, and the L1 signal type used by the user device 20-1 having the IP address and VPNID are recorded in the database 18 (step 3).
[0047]
As a result, the user apparatus 20-1 transmits to the network using the L1 signal of the type desired by the user apparatus 20-1 (step 4). At this time, a similar IP address and VPNID are also given on the incoming user side, and the user device 20-1 makes a call by designating the destination IP address. Thereby, signaling with the called user side is performed (step 5), and the line setting is completed (step 6).
[0048]
At this time, when receiving the call connection request from the user device 20-1, the OVPN terminating device 30 applies the registered first device to the user device 20-1 for the source IP address included in the call connection request. The signal format used by the incoming user is selected based on the type information of the signal format, and the selected type information is sent to the incoming user together with the call connection request.
[0049]
Instead of the converters 33 and 34, the first signal format # 1 transmitted from the user devices 20-1 and 21-1 is encapsulated by the second signal format # 2 and transferred to the SDH network. It is also possible to provide a encapsulation unit that decapsulates the signal encapsulated in the second signal format # 2 transmitted from the first signal format # 1 and transfers it to the user apparatus 20-2.
[0050]
Also, as shown in FIG. 4, when the L1 signal is registered from the user device (step 2), if the corresponding L1 resource is not available, other vacant L1 resource information is notified to the user device (step 3). ). The user apparatus changes the L1 if possible, and registers the changed L1 signal again (step 4). If the corresponding L1 resource is available for the changed L1 signal, the IP address and VPNID are assigned as described above. When the user device cannot change L1, the user device performs L1 registration again after a while. Alternatively, registration is performed again after changing to another L1.
[0051]
(Second embodiment)
A second embodiment will be described with reference to FIG. FIG. 5 is a sequence diagram for explaining the line setting procedure of the second embodiment. The description will be given focusing on the user device 20-1. Since the procedure up to step 3 is the same as that of the first embodiment, the description and illustration are omitted. When the OVPN terminating device 30 receives a call connection request (outgoing) from the user device 20-1 (step 4), the call connection request for the incoming user of the destination IP address included in the call connection request is sent to the user device 20-1. It is sent together with the type information of the registered first signal format to be applied (step 5). The called user refers to the type information to determine whether or not he / she is the same as the type of the signal format that can be received at present, and if the incoming call is possible, the communication is started as described in the first embodiment. If the incoming user cannot receive the incoming call, the incoming user changes the signal format in which the incoming call can be received (step 7), and notifies the originating user that the incoming call is possible (steps 8 and 9). Thereby, the incoming user can receive the signal from the user device 20-1 by L1 that can be received by the incoming user.
[0052]
When there is no signal format that can be received by the called user, a message to that effect is sent to the user device 20-1 as a response to the call connection request (broken line). In this case, since the user device 20-1 does not have a function of receiving the signal format of the response returned from the incoming user, the OVPN terminating device 30 receives the response and the line setting is not established because the signal formats do not match. This is notified to the user device 20-1.
[0053]
(Third embodiment)
A third embodiment will be described with reference to FIG. FIG. 6 is a sequence diagram for explaining the line setting procedure of the third embodiment. In the third embodiment, when registering the L1 signal of the user apparatus 20-1 (step 2), the OVPN terminating apparatus 30 determines that the L1 resource search result is “None” based on the optical switch usage status information. A search is made for another user device that is using the resource, and the other user device is inquired of whether or not it is possible to change to another vacant L1 resource (step 3). 4) A request to change the L1 resource is made to the other user device, and an IP address and a VPNID are given to the user device 20-1 (steps 5 and 6).
[0054]
(Fourth embodiment)
A fourth embodiment will be described with reference to FIGS. FIG. 7 is a diagram showing an example of the OVPN configuration of the fourth embodiment. FIG. 8 is a block diagram of the base apparatus of the fourth embodiment. In the fourth embodiment, the OVPN termination device 30 includes a base device 23 that identifies the type of the first signal format transmitted from the user devices 20-1 and 21-1, and the optical switch control device 31 includes the base device. Based on the identification result of 23, the signal conversion enable / disable determination and the assignment and registration of the IP address and VPNID described in the first embodiment are executed.
[0055]
The configuration of the base device 23 is as shown in FIG. The base device 23 includes a plurality of error detection units 7-1 to 7-3 and a signal determination unit 8. The error detection units 7-1 to 7-3 are each configured to execute a calculation simulation process for a specific signal format. This calculation simulation process is designed to always generate an error in a signal format other than one specific type of signal format. The signal determination unit 8 monitors the result of the arithmetic simulation process by the error detection units 7-1 to 7-3, and detects which of the error detection units 7-1 to 7-3 has no error. Thus, the type of the input signal format is specified. This determination result is notified to the optical switch control device 31. The subsequent operation is the same as that described in the first embodiment.
[0056]
In addition, an address holding unit 9 that holds the IP address and VPNID assigned to the user device 20-1 is provided, and the IP address and VPNID are notified in response to an inquiry from the user device 20-1.
[0057]
As another method for determining the type of signal format, the optical switch 32 sequentially inputs input signals to the converters 33 and 34, monitors the occurrence of errors, and finds a converter 33 or 34 in which no error occurs. It can be specified that the signal format handled by the converter is the signal format of the input signal.
[0058]
(Fifth embodiment)
A fifth embodiment will be described with reference to FIG. FIG. 9 is a sequence diagram for explaining the line setting procedure of the fifth embodiment. In the fifth embodiment, the user apparatus 20-1 can register a plurality of L1 signals to which the user apparatus 20-1 can be applied. When the user apparatus 20-1 registers a plurality of L1 signals (step 2), the signal conversion availability determination unit 16 refers to the optical switch usage status information, grasps the vacancy status of the corresponding L1 resource, and is empty. A corresponding IP address and VPNID are assigned to the L1 signal (step 3). That is, one IP address is assigned to one L1 signal type.
[0059]
When the user apparatus 20-1 performs communication by selecting one L1 signal from among a plurality of L1 signals that can be used by the user apparatus 20-1, the user apparatus 20-1 performs a call using an IP address corresponding to the L1 signal (step S1). 4). The OVPN termination device 30 recognizes the L1 signal corresponding to the IP address and switches the route of the optical switch 32 to a predetermined route.
[0060]
Further, as the base device, the address holding unit 9 described with reference to FIG. 8 holds the VPNID and the plurality of IP addresses together with the type information of the plurality of L1 signal formats corresponding to the IP address.
[0061]
(Sixth embodiment)
A sixth embodiment will be described with reference to FIG. FIG. 10 is a diagram showing a test apparatus configuration in the base apparatus of the sixth embodiment. The test apparatus shown in FIG. 10 is provided in the base apparatus, and includes a return controller 90 and an optical switch 91 for separating the user device 20-1 and OVPN and returning the test light transmitted from the OVPN back to the OVPN.
[0062]
(Seventh embodiment)
A seventh embodiment will be described with reference to FIG. FIG. 11 is a diagram for explaining the OVPN configuration of the seventh embodiment. In the OVPN configuration of FIG. 11, the converters 35 and 36 are not provided in the OVPN termination devices 30-1 and 30-2, the centralized conversion device 100 is provided in the OVPN, and the optical switch control device 131 and the optical switch are provided in the centralized conversion device 100. A switch 132 and converters 35 and 36 are provided so that a plurality of OVPN terminators 30-1 and 30-2 can use the converters 35 and 36 in common. When a plurality of centralized conversion devices are provided, the centralized conversion device that selects the shortest path from the local OVPN termination device is selected. At this time, if the concentrated conversion device that is the shortest path is blocked, the concentrated conversion device that is the next shortest path is selected.
[0063]
(Eighth Example)
An eighth embodiment will be described with reference to FIG. FIG. 12 is a diagram for explaining the OVPN configuration of the eighth embodiment. In the OVPN configuration of FIG. 12, a plurality of sub OVPNs are connected to each other. An L1 signal converter 110 is provided between each sub-OVPN, and can handle a plurality of L1 signal types while converting L1 signals. The configuration of the L1 signal conversion device 110 is the same as the configuration of the optical switch control device 31, the optical switch 32, and the converters 35 and 36 in the OVPN termination device.
[0064]
【The invention's effect】
As described above, according to the present invention, it is possible to provide an OVPN that can immediately respond to a change in a setting request of a signal format applied by a user. In addition, a signaling procedure that becomes invalid in OVPN operation can be omitted.
[Brief description of the drawings]
FIG. 1 is a diagram for explaining an OVPN configuration of a first embodiment.
FIG. 2 is a sequence diagram showing a line setting procedure according to the first embodiment.
FIG. 3 is a block diagram of the optical switch control device of the first embodiment.
FIG. 4 is a sequence diagram showing a line setting procedure of the first embodiment.
FIG. 5 is a sequence diagram showing a line setting procedure of the second embodiment.
FIG. 6 is a sequence diagram showing a line setting procedure according to the third embodiment.
FIG. 7 is a diagram for explaining an OVPN configuration according to a fourth embodiment;
FIG. 8 is a diagram for explaining a base device according to a fourth embodiment;
FIG. 9 is a sequence diagram for explaining a line setting procedure according to a fifth embodiment.
FIG. 10 is a diagram for explaining a base apparatus according to a sixth embodiment.
FIG. 11 is a diagram for explaining an OVPN configuration according to a seventh embodiment.
FIG. 12 is a diagram for explaining an OVPN configuration according to an eighth embodiment;
FIG. 13 is a diagram showing a conventional OVPN configuration example.
[Explanation of symbols]
1, 3, 5, 6, 123, 124, 125 Optical dedicated line
7-1 to 7-3 Error detector
8 Signal judgment part
9 Address holding part
10, 11, 12, 50, 51, 70 Optical cross-connect device
13, 14, 15 OVPN control terminal
16 Signal conversion availability determination unit
17 Address generator
18 L1 signal registration database
20-1, 20-2, 21-1, 21-2, 22-1, 22-2 User device
23 Base equipment
30, 30-1, 30-2, 80 OVPN terminator
31, 81, 131 Optical switch control device
32, 82, 91, 132 Optical switch
33-36 Converter
40, 41, 60 Network control device
90 Folding controller
100 Centralized conversion device
110 L1 signal converter

Claims (5)

In order to provide an OVPN ( Optical Virtual Private Network ) environment as if using an optical network privately using a public network, it is provided between a public network and a user device.
Converting the said first signal format and the second signal format mutually when the second signal format in which the first signal format and said public network OVP N subscribers of user equipment used is used is different With means,
A plurality of the means for mutual conversion are provided corresponding to a plurality of different first signal formats,
When the type information of the first signal format used by the user device is received and the first signal format is different from the second signal format, the presence / absence of the means for mutual conversion corresponding to the type is searched for Means to
A means for giving an IP address and a VPNID to the user device when the search result of the means for searching is "Yes"
Means for registering the IP address and VPNID assigned by the assigning means and the type information of the first signal format used by the user device to which the IP address and VPNID are assigned;
In an OVPN termination device comprising:
A means for notifying the user device of type information of the first signal format corresponding to the vacant means for mutual conversion when the search result of the means for searching is “none”; An OVPN terminator characterized by the above. In order to provide an OVPN environment as if using an optical network privately using a public network, it is provided between the public network and a user device,
Means for mutually converting the first signal format and the second signal format when the first signal format used by the user equipment of the OVPN subscriber is different from the second signal format used by the public network; Prepared,
A plurality of the means for mutual conversion are provided corresponding to a plurality of different first signal formats,
When the type information of the first signal format used by the user device is received and the first signal format is different from the second signal format, the presence / absence of the means for mutual conversion corresponding to the type is searched for Means to
A means for giving an IP address and a VPNID to the user device when the search result of the means for searching is "Yes"
Means for registering the IP address and VPNID assigned by the assigning means and the type information of the first signal format used by the user device to which the IP address and VPNID are assigned;
In an OVPN termination device comprising:
When the search result of the means for searching is "none", means for inquiring whether other user devices that are using the means for converting to each other are allowed to change to another available means for converting to each other When,
When the inquiry result of the inquiring means is "Yes", it and means for applying an IP address and VPNID to the user device performs a change request means for converting the other user device the mutually An OVPN terminator characterized by the above. In order to provide an OVPN environment as if using an optical network privately using a public network, a first signal format used by a user device of an OVPN subscriber and a second signal format used by the public network Means for mutually converting the first signal format and the second signal format when
A plurality of the means for mutual conversion are provided corresponding to a plurality of different first signal formats,
Means for receiving the type information of the plurality of first signal formats used by the user apparatus and converting the information corresponding to the plurality of types when the first signal format is different from the second signal format A means of searching for the presence of
Means for assigning a VPNID and a plurality of IP addresses respectively corresponding to the plurality of types to the user device when the search result of the means for searching is “present”;
Means for registering the VPNID and a plurality of IP addresses given by the means for giving, and the type information of the plurality of first signal formats used by the user apparatus to which the VPNID and the plurality of IP addresses are assigned;
When a call connection request from the user apparatus arrives, the first signal format and the second signal format corresponding to the source IP address included in the call connection request are referred to by referring to the registering means. An OVPN system, comprising: means for converting the mutual conversion function having a function of converting into a communication after the call connection request. In order to provide an OVPN environment as if using an optical network privately using a public network, a first signal format used by a user device of an OVPN subscriber and a second signal format used by the public network In the case where the first signal format and the second signal format are mutually converted, a plurality of the means for mutually converting are provided corresponding to the plurality of different first signal formats. In an OVPN terminator that accommodates a user device of a designated OVPN subscriber,
Means for receiving the type information of the plurality of first signal formats used by the user apparatus and converting the information corresponding to the plurality of types when the first signal format is different from the second signal format A means of searching for the presence of
Means for assigning a VPNID and a plurality of IP addresses respectively corresponding to the plurality of types to the user device when the search result of the means for searching is “present”;
Means for registering the VPNID and a plurality of IP addresses given by the means for giving, and the type information of the plurality of first signal formats used by the user apparatus to which the VPNID and the plurality of IP addresses are assigned;
When a call connection request from the user apparatus arrives, the first signal format and the second signal format corresponding to the source IP address included in the call connection request are referred to by referring to the registering means. An OVPN termination apparatus comprising: means for converting the mutual conversion function having a function of converting into a communication after the call connection request. At the site device interposed between the user equipment accommodated in the OVPN terminating device and the OVPN system or the OVPN terminating device OVPN system or claim 4, wherein according to claim 3,
Means for determining the type of the first signal format used by the user device;
Means for transmitting the type of information determined by the determining means to the OVPN terminating device;
Means for holding the assigned VPNID and a plurality of IP addresses together with a plurality of types of information of the first signal format corresponding to the IP addresses.

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