KR101995871B1 - M2M Exchange Platform for M2M Roaming - Google Patents

Abstract

The present invention provides a centralized interworking environment among a plurality of business operators, assures interoperability of monitoring and settlement between operators, assures quality of roaming service, and diversifies roaming service products (M2M) exchange platform that performs an exchange function for efficiently linking M2M network service capabilities (network service capability) such as application of a differential service according to a service level.

Description

M2M Exchange Platform for M2M Roaming [0002]

The present invention relates to an M2M exchange platform, and more particularly, to an M2M exchange platform for efficiently providing an M2M roaming service so that a user can easily receive M2M (machine to machine) And an M2M exchange platform that performs an exchange function for interworking with a service function (Network Service Capability).

Object communication is variously called M2M (Machine to Machine communication), MTC (Machine type communication), IoT (Internet of Thing), Smart Device communication, or Machine oriented communication. Object communication refers to all communication methods in which communication is performed without a person intervening in the communication process. In such object communication, M2M devices and gateways are managed and controlled by M2M platform which communicates with M2M devices installed in local network such as home network and gateway, and data is collected and the operation status of devices And M2M service for various monitoring such as environmental monitoring.

In particular, each provider can provide M2M services through the operation of M2M devices, gateways, and M2M platforms, but it is easy for users to interwork with networks for M2M services in other countries, It is necessary to make M2M service available in network areas of other operators. However, when the M2M service network interworking between operators is to be used merely by sharing computing / network resources in order to expand the service coverage such as 1: N or N: N structure between M2M platforms of respective operators, There is a problem that it is difficult to guarantee the quality of the roaming service and to diversify the roaming service product.

SUMMARY OF THE INVENTION Accordingly, the present invention has been made to solve the above-mentioned problems, and it is an object of the present invention to provide a centralized interworking environment between a plurality of business operators without prior agreement for supporting interoperability for each business entity, Providing an M2M exchange platform that performs Exchange function to efficiently interoperate with M2M network service capability (Network Service Capability) such as application of differentiated service according to service grade through quality assurance of roaming service and diversification of roaming service product I have to.

The present invention provides a method and apparatus for managing an M2M system that manages a device connected to a gateway through a central server on a network and provides an M2M service using data and control of the device, The M2M exchange platform searches for a list of M2M interworking service target M2M systems by referring to the database at the request of the registered M2M system registered through the registration process in the M2M exchange platform Responding; And supporting, in the M2M exchange platform, an M2M interworking service by interworking between the first M2M system of the provider who made the request and the second M2M interworking service object selected from the list.

The interworking service between the M2M systems includes a roaming service with an M2M system operated by an overseas business operator.

In the M2M exchange platform, referring to the database at the request of the registered provider M2M system, providing the inquiry service of the M2M systems interworking for the M2M interworking service.

In the M2M exchange platform, when receiving a request for monitoring information on another M2M system linked to the M2M system by the registered business M2M system, the management information of the other M2M system . ≪ / RTI >

The M2M exchange platform collects metering information according to exchange of information between M2M systems interworking for M2M interworking service and calculates and sets a fee to be distributed to the M2M exchange platform and each M2M system provider according to a commission policy .

In the M2M exchange platform, the step of receiving the service class information from the registered business M2M system and controlling the M2M interworking service so that the resources for the M2M interworking service are differentially applied to the M2M systems managed according to the service class .

And distributes the fees to the M2M systems interworking for the other M2M interworking services having different service classes.

The M2M system processes the M2M interworking service by separating the computing resources through the virtual machine according to the service class according to the control on the interworking M2M systems, And processes the message for the M2M interworking service.

The responding step includes transmitting the list of the M2M interworking service target M2M system to the first M2M system of the provider in the form of a URL (uniform resource locator) list.

A plurality of M2M exchange platforms may be operated to support mutual interworking of M2M interworking services between service areas operated by the respective M2M exchange platforms.

In accordance with another aspect of the present invention, there is provided an M2M interworking system for a M2M system for managing a device interworking with a gateway through a central server on a network and operating an M2M system for providing an M2M service using data and control of the device The M2M exchange platform for service includes first means for searching a list of M2M systems to be M2M interworking service by referring to a database at a request of a registered business M2M system through a subscription process and responding thereto; And a second means for supporting the M2M interworking service by interworking between the first M2M system of the provider who made the request and the second M2M interworking service object selected from the list.

According to the M2M exchange platform according to the present invention, the environment for subscription withdrawal for interworking among a plurality of operators can be easily provided without prior consent for each interoperability support for each business entity, and the transparency of interlocking monitoring and settlement between providers And it is possible to guarantee the quality of the roaming service and to diversify the roaming service product by applying the differential service according to the service class. It also contributes to the activation of M2M-based business by providing convenience and efficiency of global expansion, and users can easily receive M2M service in network area of other carriers by using M2M roaming.

FIG. 1 is a block diagram of an M2M system for explaining an M2M service environment of each provider according to a temporal example of the present invention.
FIG. 2 is a diagram for explaining an M2M exchange function for centrally providing an interworking environment of M2M systems of a plurality of businesses according to a temporary example of the present invention.
3 is a view for explaining an environment for providing an M2M roaming service between M2M systems of a plurality of businesses through a plurality of M2M exchange functions according to a temporary example of the present invention.
FIG. 4 is a block diagram of an M2M exchange platform or ESCL (Exchange Service Capability Layer) for centrally providing an interworking environment of M2M systems according to a temporary example of the present invention.
5 is a view for explaining roaming interworking environment according to an M2M roaming service level through an M2M exchange platform according to a temporary example of the present invention.
FIG. 6 is a schematic diagram of an operation process of the M2M exchange platform 400 according to one example of the present invention.
FIG. 7 is a flowchart illustrating a process of registering and registering M2M systems of M2M service providers in the M2M exchange platform 400 according to one example of the present invention.
FIG. 8 is a flowchart illustrating a process of searching for and providing M2M systems of roaming-capable providers in an M2M exchange platform 400 according to a temporal example of the present invention.
FIG. 9 is a flowchart illustrating an interworking process between M2M systems for an M2M roaming service in an M2M exchange platform 400 according to a temporal example of the present invention.
FIG. 10 is a flowchart illustrating a control process according to a service class in the M2M exchange platform 400 according to one example of the present invention.
11 is a flowchart illustrating a process of monitoring an M2M roaming service in the M2M switching platform 400 according to one example of the present invention.
FIG. 12 is a flowchart illustrating a metering and settlement process in the M2M exchange platform 400 according to one example of the present invention.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS Reference will now be made in detail to the preferred embodiments of the present invention, examples of which are illustrated in the accompanying drawings, wherein like reference numerals refer to the like elements throughout.

FIG. 1 is a block diagram of an M2M system for explaining an M2M service environment of each provider according to a temporal example of the present invention.

As shown in FIG. 1, the M2M system of each provider according to a temporary example of the present invention comprises a network domain, a gateway domain, and an M2M device domain in order to provide M2M service through object communication.

The network domain includes an M2M platform (or a central server) equipped with NSCL (Network Service Capability Layer), a gateway domain includes a gateway (G) having a GSCL (Gateway Service Capability Layer) And various M2M devices (D, D ').

A gateway application (GA) for supporting services to the gateway (G) 121, and a DSC (Device Service Capability) for supporting the service are provided to the M2M devices D and D ' Layer) or a device application (DA) can be mounted.

 The M2M platform of the network domain may communicate with the M2M device (D, D ') or gateway (G) via the core network (e.g., mobile communication network by CDMA / WCDMA, (D, D ') and gateways with the aid of a network application (NA) by communicating over a wireless network (e.g., a wired network or a wireless local area network (Bluetooth, ZigBee, And M2M service (providing monitoring information to other server or user terminal using data collected from device), and interworking with legacy device (d) by supporting DSCL with middleware NIP (Network Interworking Proxy) , And network management functions. The M2M device (D, D ') supports the DSCL with a middleware DIP (Device Interworking Proxy), or the gateway G supports GSCL with a gateway interworking proxy (GIP) (d). All devices except the legacy device d have a device application DA in common. Here, the legacy device d indicates a device that can not be linked to a common standard of object communication due to its function and structure. Lt; / RTI >

Service Capabilities (NSCL, GSCL, DSCL), which is a set of service functions required to perform object communication, defined in the ETSI standard, is composed of respective interfaces: mIa (NA-NSCL interface), mId (Interface between the platform (NCSL) and the gateway (GSCL) / device (DSCL)), dIa (interface between the device (DA-DSCL) or the device (DA) and the gateway (GSCL) And resource information such as attributes necessary for providing services in the respective service functions (DSCL, GSCL, DSCL).

In addition, the M2M device installed in the M2M device domain can be used for various devices for acquiring the surrounding information such as fire, intrusion, elderly and child (observer) observation, private land security, A device such as a camera, a motion detection sensor, a temperature sensor, a humidity sensor, a wind direction sensor, a pressure sensor, a gyro sensor, an acceleration sensor and the like, a blood pressure meter for monitoring health information, a clinical thermometer, Various electronic devices for providing a home network service, and various devices for services of the present invention may be installed as needed.

Each M2M service provider (which may include overseas operators) manages resources that support service capabilities (NSCL, GSCL, DSCL) for the network domain, gateway domain, and M2M device domain, In the present invention, one or more platforms for an M2M exchanger function for providing an interlocking environment of M2M systems of a plurality of providers at a central location can be provided in the present invention .

FIG. 4 is a block diagram of an M2M exchange platform 400 for centrally providing an interworking environment of M2M systems according to one example of the present invention.

4, the M2M exchange platform 400 according to an exemplary embodiment of the present invention includes a subscription / withdrawal approval unit 410, a service monitoring unit 420, a service class control unit 430, an NSCL search interlock processing unit 440 A metering / settlement unit 450, and an inter-ESCL interlock processing unit 460.

The subscription / withdrawal approval unit 410 receives M2M roaming interworking services (interworking between domestic business systems and interworking between domestic and overseas business systems) from M2M systems operated by a plurality of businesses as shown in FIG. 2 and FIG. 3 After the information is received, it is stored in the database after the approval process, and the subscription process is processed. When the withdrawal request is made, the subscription process is performed by releasing the registration through the approval process.

The service monitoring unit 420 monitors the M2M roaming service quality provided by the M2M system of the currently interworking operators through each M2M system operated by the operators based on the information registered and registered in the database, Roaming monitoring function is performed. When the service monitoring unit 420 receives a monitoring request for a different M2M system (e.g., business entity # 2) linked to a corresponding business M2M system (e.g., business entity # 1) (For example, information on the service target area, bandwidth, data type, etc.) and the like to the provider M2M system (e.g., provider # 1) by requesting the service status from the service provider # 2.

The service class control unit 430 can receive the service class information (e.g., Gold, Silver, Bronze, etc.) according to the subscription or regular request of each provider M2M system and manage the service class information of the corresponding business M2M system in the database And includes an internal application 431 and a core component 432 as described in the following description of FIG. The internal application 431 generates virtual machines VM1 and VM2 for each M2M system for the M2M roaming service according to the service level and dynamically sets the virtual machines VM1 and VM2 according to the service level of each provider M2M system using the core components 432 It is possible to control the computing resources, network resources and message flow for the M2M roaming service. The service class control unit 430 will be described in more detail with reference to FIG.

The NSCL search interworking unit 440, in response to the NSCL (Network Service Capability Layer) request for M2M interworking between the carriers from each provider M2M system, transmits NSCL list (For example, provider # 1) and a selected provider M2M system (for example, provider # 2) by selecting one of the NSCL lists of the provider M2M systems to which the subscription is made as described above, 2) to support the M2M roaming service. Processing means for interlocking with the above search may be separately configured.

Accordingly, the metering / settlement unit 450 collects metering information, such as the amount of information exchange packets between the M2M systems of the operators according to the M2M roaming, based on the service fee settlement, and provides metering information , It is possible to calculate and settle the amount to be distributed to the M2M systems of the carriers participating in the M2M roaming through the M2M exchange platform 400. [ For example, when the subscriber of the M2M system of the provider # 2 receives the M2M roaming service from the M2M system of the carrier # 1, the fee to be charged to the user (for example, $ 10) 2: 1 (eg, $ 7: $ 2: $ 1) to each of the M2M system of M2M, M2M system of operator # 2, and M2M exchange platform 400.

As shown in FIG. 3, when a plurality of platforms for an M2M exchange function for providing an interworking environment between M2M systems of a plurality of providers are operated, it is necessary to interwork with other M2M exchange platforms through the ESCL interworking processing unit 460 It can send and receive data and support M2M roaming service by interworking with other M2M exchange platform. For example, a plurality of M2M exchange platforms cover different areas to support the M2M roaming service, and the transmission / reception of the interworking data is relayed through the inter-ESCL interworking unit 460 between the plurality of M2M exchange platforms M2M service can be increased by interworking M2M roaming service between each service area.

The service class control unit 430 may receive the service level information (e.g., Gold, Silver, Bronze, etc.) according to the subscription or regular request of each provider M2M system and manage the service level information of the corresponding M2M system in the database . The metering / settlement unit 450 may calculate and settle a fee for each grade according to the service grade information. For example, in the above example, when the subscriber of the M2M system of the carrier # 2 is provided with the M2M roaming service by the M2M system of the carrier # 1, when the M2M system of the carrier # 2 is subscribed to the Gold rating, , And 7: 2: 1, respectively. At this time, when the subscriber of the M2M system of the provider # 3 is provided with the M2M roaming service by the M2M system of the provider # 1 and the M2M system of the provider # 3 is subscribed to the Bronze rating, the metering / For example, 5: 4: 1 to each of the M2M system of # 1, the M2M system of the business operator # 3, and the M2M exchange platform 400, and perform the settlement processing. That is, as the service level is high, a high rate is applied to the corresponding M2M system providing the roaming service, and the fee can be distributed by applying a low rate to the subscription M2M system of the user.

On the other hand, in the case where the M2M roaming service is provided to the subscriber (terminal) of the M2M system of the provider # 2 through the M2M system of the provider # 1, conventionally, for example, the function (e.g., DSCL1) And the M2M roaming service capability (for example, DSCL2) provided by the M2M system of the provider # 1, sharing the computing resources and the network resources, it is difficult to diversify the roaming service products among the operators and the quality differentiation according to the service grade is impossible . In addition, when a service request of a subscriber of the company (for example, provider # 1) is increased, not only a service in its own company (e.g., provider # 1) but also a roaming service There is a concern that quality degradation occurs and service dissatisfaction of the users may be increased.

FIG. 5 is a diagram for explaining roaming interworking environment according to an M2M roaming service level through an M2M exchange platform 400 according to a temporal example of the present invention.

For example, according to the process of the subscription / withdrawal approval unit 410, the M2M roaming service subscription of the M2M system of the business operators # 1, # 2, and # 3 is made and the subscriber of the M2M system of the business operators # When the M2M roaming service is provided to the M2M system of # 1, according to the processing of the service class control unit 430, the service levels of the M2M system of the business operators # 2 and # 3 are managed as Silver and Bronze respectively .

In the present invention, in order to guarantee the quality of the roaming service, according to the operation of the service class control unit 430 of the M2M exchange platform 400, computing resources for the M2M roaming service, network resources, message flow Can be controlled.

As shown in FIG. 5, the service class control unit 430 includes an internal application 431 and a core component 432. The core components 432 include a resource manager, a topology manager, a link discovery, a forwarding mean, and the like for controlling and managing each service M2M system according to service level. And the internal application 431 can dynamically control the computing resources, network resources, and message flow for the M2M roaming service according to the service level of each business M2M system by using the core components 432 have.

In the above example, as in the case where the subscriber of the M2M system of the business operators # 2 and # 3 is provided with the M2M roaming service from the M2M system of the business operator # 1, the M2M system of the business operators # 5, the internal application 431 controls the M2M system of the business entity # 1 to determine the relationship between the computing resources of the business units # 2 and # 3 separated from the computing resources of the NSCL in the platform of the M2M system of the business entity # 1 (VM1, VM2) for each service class for the M2M system and allocates the related resources. In addition, the internal application 431 transmits network resources (for example, Gold (40% of the total bandwidth), Silver (30% of the total bandwidth), Bronze %)), So that the M2M system of the provider # 1 controls the corresponding setting to process the message according to the limited bandwidth in the platform of the M2M system of the provider # 1. The internal application 431 can control the message flow of the M2M interworking service according to the computing resources and the network resources set according to the service class of each business entity M2M system.

In the above example, when the subscriber of the M2M system of the business operators # 2 and # 3 receives the M2M roaming service by the M2M system of the business operator # 1 as the grade Silver and the grade Bronze, respectively, the M2M system of the business # The virtual bandwidths VM1 and VM2 for the M2M system of the service providers # 2 and # 3 in which the computing resources of the provider # 2 and the service provider # 3 are separated and allocated the related resources, Bronze 20% is allocated to the provider # 3 roaming for the M2M system, and 50% of the total bandwidth is allocated to the service (for example, provider # 1), which is not roaming, to provide the M2M service. The virtual machines VM1 and VM2 may be managed such that the operating system or resources to be used for roaming among the entire operating system of the NSCL or the computing resources as resources or the processing means resources (e.g., processor) for processing them are separately operated, With the support of each application (NA), the M2M system of the provider # 1 guarantees the quality of the M2M roaming service through the virtual machines (VM1, VM2) without degradation of the service quality of its own company .

The setting and control of the computing resource, the network resource, the message flow, and the like are managed so that the messages can be processed and managed in real time by being updated at any time by the processing of the request of each business M2M system.

The internal application 431 can be implemented with software support. With the utilization of the core components 432, it is easy to create necessary functions at any time and it is easy to expand, and the setting according to the service class , Control, etc., can be implemented dynamically and can be modified.

6, the specific operation of the M2M exchange platform 400 for providing the M2M roaming service by operating the M2M exchange platform 400 of FIG. 4 by linking the M2M systems of the M2M service providers is illustrated in FIG. 6, (Refer to FIG. 8) of the M2M system search and provision process of the roaming service providers, the interlocking process 12 of the M2M systems for the M2M roaming service 9), the control process 13 according to the service class (see FIG. 10), the monitoring process 14 (see FIG. 11) for the M2M roaming service and the metering and accounting process 15 (see FIG. 12) .

FIG. 7 is a flowchart illustrating a process of registering and registering M2M systems of M2M service providers in the M2M exchange platform 400 according to one example of the present invention.

In FIG. 7, each provider M2M system (e.g., provider # 1) transmits the subscription information (e.g., system identifier, service class, and other contract related information) necessary for joining the M2M roaming service to the M2M exchange platform 400 (001). The subscription / withdrawal approval unit 410 of the M2M exchange platform 400 receives the subscription information according to the ESCL (Exchange Service Capability Layer) function, and performs necessary authentication such as the absence of missing information (002) response (003). While the operator M2M system (e.g., provider # 1) waits (004), the affiliation / withdrawal approval unit 410 transmits setting information such as the ESCL identifier necessary for registration after authentication to the provider M2M system (e.g., provider # 1) The M2M system (e.g., business operator # 1) requests the registration confirmation (005) and accordingly the M2M system (e.g., business entity # 1) authenticates (006) The controller 410 configures resources required for interworking for the M2M roaming service according to the completion of the subscription procedure, performs necessary settings, stores and manages them in the database (008, 009). Each data such as the subscription information, configuration information, and resources managed and stored in the database is applied to the M2M roaming service, and the withdrawal procedure for deregistration based on the registration information of the M2M system stored and managed in the database is also performed as described above Can be similarly processed.

FIG. 8 is a flowchart illustrating a process of searching for and providing an M2M system of a roaming service provider in an M2M exchange platform 400 according to a temporal example of the present invention.

In FIG. 8, each provider M2M system (e.g., provider # 1) requests (001) an NSCL search for M2M roaming interworking according to the NSCL function and transmits the NSCL search to the NSCL search interworking unit 440 Searches for a list of compatible NSCL lists (or M2M system lists of carriers), for example, a corresponding URL (uniform resource locator) list of the current M2M roaming based on the information registered and registered in the database according to the ESCL function, , And may reply with the corresponding information to the M2M system (e.g., Business # 1) (003).

FIG. 9 is a flowchart illustrating an interworking process between M2M systems for an M2M roaming service in an M2M exchange platform 400 according to a temporal example of the present invention.

9, the provider M2M system (e.g., provider # 1) that has received the URL (uniform resource locator) list that can be interlocked as shown in FIG. 8 receives the target M2M system (e.g., provider # 2) (001), and may request registration with the M2M exchange platform 400 (002). Accordingly, the NSCL search interworking processor 440 of the M2M exchange platform 400 prepares for necessary registration processing (003) and creates (S300) the virtual machine VM (see FIG. 5) with the target M2M system (004), the target M2M system (e.g., Business # 2) creates (005) the corresponding virtual machine (VM) and informs it that it has completed (006). Accordingly, the NSCL search interworking unit 440 of the M2M exchange platform 400 completes the necessary registration update (007), and the necessary setting information such as the service class of the virtual machine (VM) And the target M2M system (for example, the business entity # 2) requests registration to the target M2M system (e.g., business entity # 2) along with the corresponding M2M system # 1), allocates computing resources of the virtual machine (VM) and sets network resources (009), and responds that it is set to the corresponding service class (010).

Meanwhile, the NSCL search interworking processor 440 of the M2M exchange platform 400 completes the necessary registration update (011), and then the virtual machine VM (see FIG. 5) is also returned to the M2M system (012), the M2M system (e.g., Business # 1) generates (013) the corresponding virtual machine (VM) and notifies (014) that it has completed. Accordingly, the NSCL search interworking unit 440 of the M2M exchange platform 400 completes the necessary registration update (015), and the necessary setting information such as the service class of the virtual machine (VM) And the M2M system (e.g., Business # 1) requests registration to the target M2M system (e.g., Business # 1) together with the corresponding M2M system (e.g., Business # 2), the allocation of computing resources of the virtual machine (VM), the setting of the network resources, and the like are performed (017), and it is possible to reply that it is set to the corresponding service class (018). Accordingly, the NSCL search interworking unit 440 of the M2M exchange platform 400 may complete the necessary registration update (019) and notify the target M2M system (e.g., Business # 2) that all the interworking procedures have been completed ( 020). Thereafter, the NSCL search interworking unit 440 performs a message exchange process so that the M2M roaming service between the provider M2M system (e.g., provider # 1) selected in the URL list and the selected provider M2M system (e.g., the provider # 2) can do.

FIG. 10 is a flowchart illustrating a control process according to a service class in the M2M exchange platform 400 according to one example of the present invention.

In FIG. 10, for example, the service class control unit 430 of the M2M exchange platform 400 can transmit a confirmation message for setting the service level to the corresponding business M2M system (e.g., Business # 1) (001) The M2M system (e.g., provider # 1) may respond to the service class currently set as (002) by processing according to the OVS (Open Virtual Switch) function (003). The service level control unit 430 may perform the process for updating the service level (004) and request the change of the service level (005). The service provider M2M system (e.g., provider # 1) (006) and transmits the result (007). Accordingly, the service class control unit 430 can update the service class for the provider M2M system (e.g., Business # 1) to manage the database (008).

 11 is a flowchart illustrating a process of monitoring an M2M roaming service in the M2M switching platform 400 according to one example of the present invention.

11, the business M2M system (e.g., Business # 1) can request service monitoring data (001) to the M2M exchange platform 400 and the service monitoring unit 420 of the M2M exchange platform 400 (002), and may request management information (e.g., information on a service target area, bandwidth, data type, etc.) with an associated M2M system (e.g., Business # 2) (003). Accordingly, the M2M system (e.g., the business entity # 2) performs related processing (004) and responds to the corresponding management information (005), and the service monitoring unit 420 of the M2M exchange platform 400 (006), and the received management information and the like can be notified to the business M2M system (e.g., business entity # 1) (007).

 FIG. 12 is a flowchart illustrating a metering and settlement process in the M2M exchange platform 400 according to one example of the present invention.

12, when the subscriber of the M2M system of the provider # 1 receives the M2M roaming service from the M2M system of the provider # 2 and the service is completed, the metering / settlement unit 450 of the M2M switching platform 400, The M2M system of the provider # 2 can request the metering information for the billing of the information exchange packet amount between the M2M system of the provider according to the M2M roaming (001), the M2M system of the provider # 2 performs the related processing (003) Information (003). Accordingly, the metering / settlement unit 450 can update the database with the information necessary for the billing of the M2M system of the provider # 2, such as accumulation of metering information (004). In addition, the metering / settlement unit 450 can transmit metering information for accounting such as the amount of information exchange packets between the M2M system of the carrier # 2 and the M2M system of the carrier according to M2M roaming with the M2M system of the carrier # 2 (Metering information of # 2 can be notified) (005), M2M system of provider # 1 performs billing function processing to the subscriber (management information of the provider # 2 can be managed in the database) (006) Metering / (007). Accordingly, the metering / settlement unit 450 can update the database with information necessary for billing such as accumulation of metering information for the M2M system of the provider # 1 (008). In this way, the related metering information and the like received from the M2M system of the business entity # 1 can be transmitted to the M2M system of the business entity # 2 (009) and managed in the database (010).

While the invention has been shown and described with reference to certain preferred embodiments thereof, it will be understood by those of ordinary skill in the art that various changes in form and details may be made therein without departing from the spirit and scope of the invention as defined by the appended claims. This is possible. Therefore, the scope of the present invention should not be limited to the described embodiments, but should be determined by the equivalents of the claims, as well as the claims.

M2M exchange platform (400)
The subscription / withdrawal approval unit 410,
The service monitoring unit 420
The service class control unit 430
The internal application 431
The core components 432
The NSCL search interworking unit 440
The metering /
The inter-ESCL interworking processor 460

Claims (11)

A method of operating an M2M exchange platform for interworking services between M2M systems of a company operating an M2M system that manages devices connected to a gateway through a central server on the network and provides M2M services using device control and data ,
In the M2M exchange platform, referring to a database at a request of a registered M2M system registered through a subscription process, searching for and responding to a list of M2M systems to be M2M interworking service; And
In the M2M exchange platform, supporting the M2M interworking service by interworking between the first M2M system of the provider who made the request and the second M2M interworking service object selected from the list
The method comprising the steps of: The method according to claim 1,
Wherein the interworking service between the M2M systems includes a roaming service with an M2M system operated by an overseas business operator. The method according to claim 1,
In the M2M exchange platform, referring to the database at the request of the registered provider M2M system, providing the inquiry service of the M2M systems interworking for the M2M interworking service
Further comprising the steps of: The method according to claim 1,
In the M2M exchange platform, when receiving a request for monitoring information on another M2M system linked to the M2M system by the registered business M2M system, the management information of the other M2M system ≪ / RTI >
Further comprising the steps of: The method according to claim 1,
The M2M exchange platform collects metering information according to exchange of information between M2M systems interworking for M2M interworking service and calculates and sets a fee to be distributed to the M2M exchange platform and each M2M system provider according to a commission policy step
Further comprising the steps of: The method according to claim 1,
In the M2M exchange platform, receiving the service class information from the registered provider M2M system, managing it in the database, and controlling resources to be differentially applied to the M2M interworking service to the M2M systems interworking according to the service class
Further comprising the steps of: The method according to claim 6,
And distributing the fees to the M2M systems interlinked for the other M2M interworking service. The method according to claim 6,
The M2M system processes the M2M interworking service by separating the computing resources through the virtual machine according to the service class according to the control on the interworking M2M systems, And processes the message for the M2M interworking service. The method according to claim 1,
Wherein the responding comprises:
The list of the M2M interworking service target M2M system is transmitted to the first M2M system of the provider in the form of a URL (uniform resource locator) list
The method comprising the steps of: The method according to claim 1,
Wherein a plurality of the M2M exchange platforms are operated to support mutual interworking of M2M interworking services between service areas operated by the respective M2M exchange platforms. An M2M exchange platform for an M2M interworking service between M2M systems of a company operating an M2M system for managing a device interworking with a gateway through a central server on a network and providing an M2M service using data and control of the device,
A first means for retrieving and responding to a list of M2M systems to be connected with the M2M by referring to the database at the request of the registered M2M system through the registration process; And
A second means for supporting an M2M interworking service by interworking between a first M2M system of the provider who made the request and a second M2M system of the M2M interworking service object selected from the list,
Gt; M2M < / RTI > exchange platform.

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