KR100795580B1 - System, apparatus and method for providing bandwidth on demand leased line service on multi-service provisional platform - Google Patents

Abstract

A system, an apparatus and a method for processing a bandwidth on demand type leased line service on the basis of a multi service provisional platform are provided to enable a subscriber to manage dynamically an EoS(Ethernet over SDH(Synchronous Digital Hierarchy)) leased line's bandwidth. An apparatus for processing a bandwidth on demand type leased line service on the basis of a multi service provisional platform comprises a control signal transmitting module(112) and a bandwidth request processing module(113). The control signal transmitting module(112) receives a bandwidth adjustment request signal from a subscriber terminal and transmits a control signal to an EMS(Element Management System) or to an MSPP(Multi Service Provisional Platform). The bandwidth request processing module(113) transfers to one among plural states with different state values and processes a service for each bandwidth adjustment type according to a type of a received bandwidth adjustment request signal wherein the plural states includes a request state which expresses an initial waiting state, a reservation success/failure state which expresses a success or a failure in reserving a network resource, an in-service state which expresses that the network resource is allocated to the leased line, and a failure final state which expresses that processing a service is terminated because the allocation of the network resource is impossible.

Description

System, Apparatus and Method for Providing Bandwidth on Demand Leased Line Service on Multi-Service Provisional Platform}

1 is a block diagram schematically illustrating a bandwidth on-demand dedicated line service processing system based on a multi-service supporting platform according to an embodiment of the present invention.

2 is a block diagram schematically illustrating an internal configuration of a bandwidth on-demand dedicated line service processing apparatus based on a multi-service supporting platform according to an embodiment of the present invention.

3 is a diagram illustrating a method of operating a state transition machine according to a bandwidth adjustment request of an immediate-U type using a service processing apparatus according to an embodiment of the present invention.

4 is a diagram illustrating a method of operating a state transition machine according to an immediate-R type bandwidth adjustment request using a service processing apparatus according to an embodiment of the present invention.

5 is a diagram illustrating an operation of a state transition machine according to a bandwidth type adjustment request of a reserved type using a service processing apparatus according to an embodiment of the present invention.

FIG. 6 is a diagram illustrating an operation method of a state transition machine according to a bandwidth adjustment request of a reservation temporary type using a service processing apparatus according to an embodiment of the present invention.

7 is a diagram illustrating an operation method of a state transition machine according to a bandwidth adjustment request of a reservation periodic type using a service processing apparatus according to an embodiment of the present invention.

The present invention relates to a dynamic bandwidth fluctuation apparatus, and more particularly, to a bandwidth on-demand dedicated line service processing system, apparatus and method based on a multi-service support platform.

Multi-Service Provisional Platform (hereinafter referred to as MSPP) means Synchronous Optical Network (hereinafter referred to as "SONET") / Synchronous Digital Hierarchy (hereinafter referred to as "SDH") Based on optical transport and time slot exchange, it can additionally accommodate data interfaces such as Gigabit Ethernet as well as the classic E 1, T 1, Synchronous Transfer Module series of interfaces. It is the core equipment of next generation main transmission network.

MSPP can use existing SDH technology, new technologies such as Virtual Concatenation (VCAT) and Multi Protocol Label Switching to provide high-quality, high-reliability Ethernet services at the user's desired speed.

This combination of core features of MSPP is currently providing dedicated line services over the Ethernet over SDH (EoS).

The conventional EoS dedicated line service is performed manually by a network administrator, and only an administrator can set a line and increase or decrease bandwidth. In other words, a user who subscribes to the EoS dedicated line service requests a line connection to a telephone company, and the administrator receives the line connection and sets the line or adjusts the bandwidth.

The conventional EoS dedicated line service method takes a long time until the request of the subscriber is reflected in the network, there is a problem that the subscriber can not dynamically manage the bandwidth of the circuit.

In order to solve such a problem, the present invention is to provide a bandwidth on-demand dedicated line service processing system, apparatus and method based on a multi-service support platform for processing a bandwidth adjustment request.

In order to achieve the above technical problem, a service processing apparatus for providing a bandwidth on-demand service to a subscriber station apparatus according to a feature of the present invention, receives configuration of a bandwidth adjustment request signal from the subscriber terminal device to manage configuration for adjusting the bandwidth of a dedicated line. A control signal transmission module for transmitting a control signal to an element management system (EMS) or a control signal to a multi-service provisioning platform (MSPP); And a bandwidth request processing module that transitions a state value according to the received type of bandwidth adjustment request signal to process a service for each type of bandwidth adjustment type.

According to an aspect of the present invention, a service processing method for providing a bandwidth on-demand service to a subscriber station device includes: (a) analyzing availability of additional network resources by analyzing a bandwidth adjustment request signal of a leased line received from the subscriber station device; step; And (b) when the additional network resource is available, a service for bandwidth adjustment type performing a function of allocating, reserving, canceling, and releasing network resources by transitioning a state value according to the type of the bandwidth adjustment request signal of the dedicated line. It includes the step of processing.

According to another aspect of the present invention, there is provided a service processing system for providing a bandwidth-on-demand service to a subscriber station device, the multi-service support platform receiving a control signal for bandwidth adjustment and processing various transmission signals with the adjusted bandwidth; A configuration management system supporting unit system operation and applying a control signal for bandwidth adjustment to the multi-service supporting platform; And receiving a bandwidth adjustment request signal transmitted from the subscriber station device, applying a control signal for bandwidth adjustment to the configuration management system or the multi-service support platform, and according to the type of the received bandwidth adjustment request signal. It includes a service processing device for processing a service by bandwidth adjustment type for each type by changing the value.

DETAILED DESCRIPTION Hereinafter, exemplary embodiments of the present invention will be described in detail with reference to the accompanying drawings so that those skilled in the art may easily implement the present invention. As those skilled in the art would realize, the described embodiments may be modified in various different ways, all without departing from the spirit or scope of the present invention. In the drawings, parts irrelevant to the description are omitted in order to clearly describe the present invention, and like reference numerals designate like parts throughout the specification.

In addition, when a part is said to "include" a certain component, this means that it may further include other components, except to exclude other components unless otherwise stated.

In addition, the term module described herein refers to a unit for processing a specific function or operation, which may be implemented in hardware or software, or a combination of hardware and software.

Now, a bandwidth-based dedicated line service processing system, apparatus and method based on a multi-service supporting platform according to an embodiment of the present invention will be described in detail with reference to the accompanying drawings.

1 is a block diagram schematically illustrating a bandwidth on-demand dedicated line service processing system based on a multi-service supporting platform according to an embodiment of the present invention.

The service processing system according to the embodiment of the present invention includes a subscriber station apparatus 100, a service processing apparatus 110, and a configuration management system 120. As shown in Fig. 1, the service processing system includes a subscriber router 130 located at the subscriber side, a subscriber type MSPP 140, a station located at a telephone station and connected to the subscriber type MSPP 140 and a SONET / SDH optical transmission link. And a backbone transmission network 160 that provides a connection path between the small MSPP 150 and the local MSPP 150. In the following, the subscriber router 130, subscriber MSPP 140, local MSPP 150 and the time transmission network 160 will be easily understood by those skilled in the art, so a detailed description thereof will be omitted.

The subscriber station apparatus 100 accesses the service processing apparatus 110 and requests adjustment of the corresponding dedicated line bandwidth through a procedure such as user authentication. In addition, the subscriber station apparatus 100 generates a bandwidth adjustment request signal including a service request processing scheme, transmits the generated bandwidth adjustment request signal to the service processing apparatus 110, and receives an additional request bandwidth from the service processing apparatus 110.

The service processing apparatus 110 receives a bandwidth adjustment request transmitted from the subscriber station apparatus 100 and applies a control signal to the element management system (EMS) 120 of the subscriber type MSPP 140 to provide two subscribers. The bandwidth of the EoS leased line connected between the devices is adjusted. In this case, the service processing apparatus 110 may apply a control signal to the local MSPP 150 via the configuration management system 120, and directly control the local MSPP 150 without passing through the configuration management system 120. You can also apply a signal. Here, the configuration management system 120 is a system for effectively supporting the operation of the unit system by monitoring, controlling, analyzing and managing the network configuration. Here, the MSPP is a next-generation networking device that can transmit and process various types of data through one optical transmission device, and can process various transmission signals such as a synchronous digital layer or an Ethernet, which is established through an existing transmission network, in one device. MSPP is divided into subscriber equipment located at enterprise subscriber side and local equipment installed at local office of network operator according to switching capacity.

In such a service network configuration, the bandwidth adjustment request of the bandwidth on-demand dedicated line service from the subscriber station device 100 may be immediate-U, immediate-R, reserved, reserved and reserved according to the bandwidth on-demand service request processing method. It can be divided into periodic types.

Immediate-U is a type that immediately increases the bandwidth of the leased line currently in use and does not request the return of the bandwidth.

Immediate-R is a type that requests to increase the bandwidth of the leased line currently in use and at the same time suggests the point of return of the bandwidth.

Reserved type requests to increase the bandwidth of the leased line currently in use at a designated time and does not request return of the bandwidth.

The reservation temporary type is a type that requests to increase the bandwidth of the leased line currently in use at a designated time and at the same time suggests a point of return of the bandwidth.

The reservation periodic type is a type that requests to increase the bandwidth of the leased line currently in use at a designated time and, at the same time, if the bandwidth is returned to its original location, it is continuously applied until the specified date.

As such, the bandwidth adjustment request signal transmitted from the subscriber station device 100 includes the above-described method for processing a bandwidth on demand service request.

Next, a bandwidth-on-demand dedicated line service processing apparatus 110 based on a multi-service supporting platform will be described in detail with reference to FIG. 2.

2 is a block diagram schematically illustrating an internal configuration of a bandwidth on-demand dedicated line service processing apparatus 110 based on a multi-service supporting platform according to an embodiment of the present invention.

The service processing apparatus 110 according to the embodiment of the present invention includes a control signal transmission module 112, a bandwidth request processing module 113, a user interface 116, and a subscriber database 117.

The service processing apparatus 110 may execute a bandwidth on-demand dedicated line service subscription procedure through a homepage connection through a wired Internet or a portal connection through a wireless Internet connection in order to process a new subscription and registration of a bandwidth-on-demand service.

When the control signal transmission module 112 receives the bandwidth adjustment request signal from the subscriber station device 100, the configuration management system 120 of the MSPP to adjust the bandwidth of the EoS dedicated line according to the control of the bandwidth request processing module 113. The control signal is transmitted directly to the local MSPP 150 without passing the control signal or through the configuration management system 120.

The bandwidth request processing module 113 analyzes the received bandwidth adjustment request signal to determine whether network resources are available and, if available, allocates the network resources to the dedicated line bandwidth of the subscriber station apparatus 100. 112 is controlled to ensure that appropriate control signals are passed to the configuration management system 120 or the local MSPP 150.

The bandwidth request processing module 113 notifies the subscriber station apparatus 100 that the bandwidth adjustment request is denied when network resources are insufficient or resource allocation is not possible due to a network failure, and terminates the bandwidth on-demand service processing.

The bandwidth request processing module 113 sets the original return time point for the bandwidth adjustment request or processes reservation, cancellation, and release functions for network resources by using a designated time and a setting period.

The user interface 116 is provided in the form of a monitor so that an administrator who manages the service processing apparatus 110 can view the input / output status of various data, and manually add or update information contents of the subscriber database 117 manually. Is used for data entry.

Subscriber database 117 includes customer information (customer name and customer address), customer ID, password, fixed IP address, device number and port number and service profile information of network connection device to which customer is connected, network connection device. It stores data such as total bandwidth capacity, total used bandwidth capacity and port-specific bandwidth capacity, and used bandwidth capacity.

In order to process the service according to the bandwidth adjustment request type described above, the service processing apparatus 110 must maintain an appropriate state transition machine therein.

The bandwidth request processing module 113 according to an embodiment of the present invention provides a method of processing a bandwidth-on-demand dedicated line service request by providing a method of operating a state transition machine.

3 to 7 will be described the operation of the state transition machine according to the bandwidth adjustment request type.

3 is a diagram illustrating a method of operating a state transition machine according to an immediate-U type bandwidth adjustment request using the service processing apparatus 110 according to an embodiment of the present invention.

The service processing device 110 transitions from the request in the waiting state to the successful or failed completion state when the immediate-U type bandwidth adjustment request is generated from the subscriber station device 100. After this, bandwidth on demand service processing ends (S100, S102). Here, the Request is an initial state waiting for a bandwidth adjustment request from the subscriber station apparatus 100 to be given.

In addition, the transition to the successful state (S100) corresponds to the final state in which the additional request bandwidth of the subscriber station 100 is available in the network and the bandwidth on-demand service processing ends after the actual allocation is completed. Here, the transition to failure final (S102) occurs in the case of immediate-U or immediate-R type, occurs when there is insufficient resources in the network or resource allocation is not possible due to a failure. In the case of temporary and reserved periodic types, the reservation of resources is impossible due to lack of resources or other reasons, and corresponds to the final state in which bandwidth on-demand service processing is terminated.

4 is a diagram illustrating a method of operating a state transition machine according to a bandwidth adjustment request of an immediate-R type using the service processing apparatus 110 according to an embodiment of the present invention.

When the service processing device 110 receives an immediate-R type bandwidth adjustment request from the subscriber station device 100, the service processing device 110 may perform a service in progress or a failure final state in a request that is in a waiting state. (S102, S104). Here, in the transition to the service state (In Service) (S104), in the immediate-R, reservation temporary and reservation periodic type, the additional request bandwidth of the subscriber station 100 is available in the network, the actual bandwidth allocation This is a completed state.

In addition, the service processing apparatus 110 arrives at the original bandwidth recovery point in the service in-service state, and when the release of the network resource is performed, the service processing device 110 transitions to the complete state and the bandwidth-on-demand service processing ends (S106). . Subsequently, when the service processing apparatus 110 receives a cancellation request from the subscriber station apparatus 100 in a service in-service state, the service processing apparatus 110 transitions to the withdraw state and the bandwidth-on-demand service processing ends (S108). Here, the transition to the canceled (withdraw) state (S108) corresponds to the final state in which the bandwidth adjustment request is canceled and the bandwidth on-demand service processing ends.

5 is a diagram illustrating a method of operating a state transition machine according to a bandwidth type request of a reserved type using the service processing apparatus 110 according to an embodiment of the present invention.

When the bandwidth adjustment request of the reserved type is generated from the subscriber station device 100, the service processing device 110 transitions from the request in the waiting state to the reservation success or reservation failure state. (S110, S112). Here, the transition to the reservation success state (S110) is a reserved, scheduled temporary and scheduled periodic type, the additional request bandwidth from the subscriber station device 100 is available in the network to reserve resources for network resources This is a state that is made but not assigned to the dedicated line of the actual subscriber terminal device 100.

In addition, the transition to the reservation failure state (S112) is a state in which the reservation of the network resource is impossible due to the lack of available resources in the network or the failure in the reservation type, the reservation temporary type, and the reservation periodic type. Occurs in the event that the final state is terminated.

When the bandwidth allocation point arrives in the reservation successful state and the reserved network resource is allocated, the service processing apparatus 110 transitions to the Complete state and terminates the bandwidth on-demand service processing (S118). When receiving the cancellation request from the 100), the transition to the Withdraw state (Withdraw) state, the bandwidth on-demand service processing is terminated (S114). In addition, the service processing apparatus 110 transitions to a fail state when the reserved resource cannot be allocated due to a network failure in the reservation successful state (S116). Here, the transition to the failure state (S116) in the reservation type, reservation temporary type and the reservation period type, the bandwidth adjustment time has arrived, but due to the temporary failure of the network resources of the network allocated to the subscriber station apparatus 100 It is not allocated to dedicated line of).

When the allocation of network resources is made due to the removal of the failure in the failure state, the service processing device 110 transitions to the completion state to terminate the bandwidth on-demand service processing (S120), or the subscriber station device 100. When receiving a cancellation request from the (Transition) to the Withdraw state (Withdraw) state, the bandwidth on-demand service processing is terminated (S122).

FIG. 6 is a diagram illustrating a method of operating a state transition machine according to a bandwidth adjustment request of a reservation temporary type using the service processing apparatus 110 according to an embodiment of the present invention.

When the reservation processing type bandwidth adjustment request is generated from the subscriber station device 100, the service processing device 110 may change from a request that is in a waiting state to a reservation success or reservation failure state. Transition (S110, S112).

When the bandwidth allocation point arrives in the reservation success state and the reserved network resource is allocated, the service processing apparatus 110 transitions to the service in-service state (S122), and allocates the bandwidth due to a network failure. If this is impossible, the state transitions to a failure state (S116). In addition, when the service processing apparatus 110 receives a cancellation request from the subscriber station apparatus 100 in a reservation success state, the service processing apparatus 110 transitions to the withdraw state and the bandwidth-on-demand service processing ends (S114).

The service processing apparatus 110 transitions to the Complete state when the bandwidth resource recovery point arrives in the service state (In Service) and releases the network resource, thereby completing the bandwidth on-demand service processing (S106). When receiving the cancellation request from the device 100, the transition to the Withdraw state (Withdraw) state, the bandwidth on demand service processing is terminated (S124).

In addition, when the allocation of network resources is made due to the removal of the network failure in the failure state, the service processing apparatus 110 transitions to the service in-service state (S126), and cancels from the subscriber station apparatus 100. If the request is received, the state transitions to the Withdraw state and the bandwidth on-demand service processing ends (S122).

7 is a diagram illustrating an operation method of a state transition machine according to a bandwidth adjustment request of a reservation periodic type using the service processing apparatus 110 according to an embodiment of the present invention.

When a bandwidth adjustment request of the reservation periodic type is generated from the subscriber station device 100, the service processing device 110 may change from a request that is in a standby state to a reservation success or reservation failure state. Transition (S110, S112).

When the bandwidth allocation point arrives in the reservation success state and the reserved network resource is allocated, the service processing apparatus 110 transitions to the service in-service state (S122) or the bandwidth allocation due to the network failure occurs. If it is impossible, the state transitions to a failure state (S116).

 In addition, when the service processing device 110 receives a cancellation request from the subscriber station device 100 in a reservation success state, the service processing device 110 transitions to the withdraw state to terminate the bandwidth-on-demand service processing (S114), When the period of application period expires in the reservation periodic service, the transition to the successful state (S134).

When the service processing device 110 releases the network resource due to the arrival of the original bandwidth recovery point in service in-service state, and when the period of application of the period expires, the service processing device 110 transitions to the complete state and processes the bandwidth-on-demand service. Is terminated (S106), and if the period application period has not expired, the state transitions to a reservation success state (S132). In addition, when the service processing apparatus 110 receives a cancellation request from the subscriber station apparatus 100 after the release of the network resource has occurred due to the arrival of the original bandwidth recovery point in the in-service state, the withdraw The state transitions to the end of the bandwidth on-demand service processing (S124).

The service processing apparatus 110 transitions to a service in-service state (S126) or receives a cancellation request from the subscriber station apparatus 100 when the allocation of network resources is made due to the removal of a network failure in a failure state (S126). If so, the state transitions to the Withdraw state and the bandwidth on-demand service processing ends (S122). In addition, when the network resource allocation is made due to the removal of the network failure in the failure state, the service processing apparatus 110 transitions to the reservation success state when the failure resolution time exceeds the bandwidth request time ( S130). In addition, the service processing apparatus 110 transitions to the Complete state when the period of application of the periodic period of the reservation periodic service expires in the states of Reservation Success, In Service, and Failure. (S106, S128, S134).

The embodiments of the present invention described above are not implemented only through the apparatus and the method, but may be implemented through a program for realizing a function corresponding to the configuration of the embodiment of the present invention or a recording medium on which the program is recorded. Implementation may be easily implemented by those skilled in the art from the description of the above-described embodiments.

Although the embodiments of the present invention have been described in detail above, the scope of the present invention is not limited thereto, and various modifications and improvements of those skilled in the art using the basic concepts of the present invention defined in the following claims are also provided. It belongs to the scope of rights.

By the above-described configuration, the present invention can expect the effect that the subscriber can dynamically manage the bandwidth by providing an automated processing method for the real-time bandwidth adjustment request of the EoS dedicated line.

Claims (23)

A service processing apparatus for providing a bandwidth on-demand service to a subscriber terminal device, In order to adjust the bandwidth of the leased line by receiving the bandwidth adjustment request signal from the subscriber station, the control signal is transmitted to an element management system (EMS) or to a multi-service support platform (MSPP). A control signal transmission module for transmitting a control signal; And A request indicating an initial waiting state, a reservation success / failure indicating a resource reservation for a network resource, a service progress in which the network resource is allocated to the leased line according to the type of the bandwidth adjustment request signal received, and the allocation of the network resource Bandwidth request processing module that transitions to any one state of failure completion where service processing is terminated because it is impossible, but transitions to a different state value for each type to process services for each type of bandwidth adjustment. Service processing apparatus comprising a. According to claim 1, The bandwidth request processing module determines whether network resources are available and, if available, allocates the network resources to the dedicated line bandwidth of the subscriber station device. According to claim 1, The bandwidth request processing module is configured to notify the subscriber station device that the bandwidth adjustment request has been denied and terminate the bandwidth on-demand service processing when resource allocation is not possible due to insufficient network resources or a network failure. According to claim 1, The bandwidth request processing module may be configured to set an original return time point for a bandwidth adjustment request or to process a reservation, cancellation, and release function for a network resource by using a setting time and a setting period. According to claim 1, The bandwidth request processing module, If it is determined that the received bandwidth adjustment request signal is a reserved temporary type, the service processing, characterized in that transition to a reservation success state (Reservation Success) state or a reservation failure state (Request) state in the standby state Device. The method of claim 5, The bandwidth request processing module, In the reservation success state, when a bandwidth allocation time arrives and a reserved network resource is allocated, a transition to an In Service state or a cancellation state is received when a cancellation request is received from the subscriber station device; If the bandwidth allocation is not possible due to a network failure, the service processing device, characterized in that the transition to any one of the (Failure) state. The method of claim 6, The bandwidth request processing module In the service progress state, when the bandwidth original recovery time arrives, the network resource is released, and when the network resource is released, the service state is changed to the successful state or the cancel state when the cancellation request is received from the subscriber station. Device. The method of claim 6, The bandwidth request processing module, And in the failing state, when network resources are allocated by resolving a network failure, transitioning to the canceled state when receiving a cancellation request from the service progress state or the subscriber station device. According to claim 1, The bandwidth request processing module, If it is determined that the received bandwidth adjustment request signal is a reservation periodic type, the service characterized in that the transition to the reservation success status (Reservation Success) or reservation failure (Reservation Failure) state from the request state (wait) state Processing unit. The method of claim 9, The bandwidth request processing module, In the reservation success state, when a bandwidth allocation time arrives and a reserved network resource is allocated, a transition to an In Service state or a cancellation state is received when a cancellation request is received from the subscriber station device. The service processing device, characterized in that the transition to any one of the failure state (Failure state) and the completion state (Complete) state when the period of application period expired when bandwidth allocation is impossible due to a network failure. The method of claim 10, The bandwidth request processing module, In the service progress state, when the bandwidth restoration time arrives, the release of network resources is performed, and the success state when the period application deadline expires, and the reservation success state when the period application deadline does not expire, and the bandwidth restoration And when the cancellation request is received from the subscriber station apparatus after the release of the network resource due to the arrival of a time point, the service processing apparatus transitions to any one of the cancellation states. The method of claim 10, The bandwidth request processing module, In the failed state, when the network resource is allocated due to the cancellation of the network failure, the service progress state, the cancellation state when the cancellation request is received from the subscriber station device, and the network resource is allocated due to the cancellation of the network failure. And after the failure resolution time exceeds the bandwidth request time, transition to one of the success state when the reservation success state and the period application period expire. A service processing method for providing a bandwidth on-demand service to a subscriber station device, (a) analyzing the bandwidth adjustment request signal of the dedicated line received from the subscriber station device to determine whether additional network resources are available; And (b) When the additional network resource is available, a request indicating an initial waiting state according to the type of bandwidth adjustment request signal of the dedicated line received, a reservation success / failure indicating a resource reservation for a network resource, and the network resource The service is allocated to the leased line and the network resource cannot be allocated and the service process is transitioned to one of the failed completions of the service processing. The network resource is allocated, reserved, and canceled by transitioning to a different state value for each type. Processing bandwidth-specific type of services that perform and release functions Service processing method comprising a. The method of claim 13, In step (b), If it is determined that the bandwidth adjustment request signal is of the first immediate type, transitioning from a request state in a waiting state to a complete state or a fail final state; Service processing method comprising a. The method of claim 13, In step (b), If it is determined that the bandwidth adjustment request signal is the second immediate type, transitioning from a request state in a waiting state to an in service state or a failure final state; Service processing method comprising a. The method of claim 15, In the service progress state, when a bandwidth original recovery time arrives and network resource is released, a cancellation is performed in which a bandwidth on demand service process is terminated when a successful state or a cancellation request is received from the subscriber station device. Transition to the) state Service processing method comprising a. The method of claim 13, In step (b), If it is determined that the bandwidth adjustment request signal is a reserved type, transitioning from a standby request state to a reservation success state or a reservation failure state; Service processing method comprising a. The method of claim 17, In the reservation success state, when a bandwidth allocation time arrives and a reserved network resource is allocated, a transition to a successful state or a cancellation state and a failure when receiving a cancellation request from the subscriber station device ( Transition to any of the Failure states Service processing method comprising a. The method of claim 18, Transitioning to the canceled state when the network resource is allocated in the failed state by the cancellation of the network failure, when a cancellation request is received from the successful state or the subscriber station apparatus; Service processing method comprising a. In the service processing system for providing a bandwidth on-demand service to the subscriber terminal device, A multi-service support platform receiving a control signal for bandwidth adjustment and processing various transmission signals with the adjusted bandwidth; A configuration management system supporting unit system operation and applying a control signal for bandwidth adjustment to the multi-service supporting platform; And Receives a bandwidth adjustment request signal transmitted from the subscriber station device, applies a control signal for bandwidth adjustment to the configuration management system or the multi-service support platform, the initial standby according to the type of the received bandwidth adjustment request signal Any one of a request indicating a status, a reservation success / failure indicating a resource reservation for a network resource, a service progress in which the network resource is allocated to the leased line, and a failure completion in which service processing is terminated because the network resource cannot be allocated. A service processing device that transitions to a state, but transitions to a different state value for each type to process a service for each type of bandwidth adjustment for each type. Service processing system comprising a. The method of claim 20, The service processing device, A control signal transmission module for generating the control signal and adjusting the bandwidth of the leased line to the configuration management system or the multi-service supporting platform; Analyzing the received bandwidth adjustment request signal to determine whether additional network resources are available, and if the additional network resources are available, allocating, reserving, canceling, and releasing network resources according to the type of the bandwidth adjustment request signal. A bandwidth request processing module for performing; And Subscriber database that stores information of at least one of an ID, a password, a device number and a port number of a connected network access device, a total bandwidth capacity of the network access device, and a total used bandwidth capacity. Service processing system comprising a. The method of claim 21, The bandwidth request processing module may notify the subscriber station device that the bandwidth adjustment request is denied and terminate the bandwidth-on-demand service processing when resource allocation is not possible due to insufficient network resources or a network failure. The method of claim 21, The bandwidth request processing module is configured to set an original return time point for a bandwidth adjustment request or process a reservation, cancellation and release function for a network resource by using a setting time and a setting period.

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