KR101581719B1 - System and method for managing resource in communication system - Google Patents

Abstract

The present invention relates to a resource management system and method for managing a plurality of frequency resources to be shared in a communication system including a plurality of systems having no right to use for a first frequency band, A plurality of coexistence managers (CM: Coexistence Managers) managing the plurality of systems for coexistence and frequency sharing of the plurality of systems in the usable frequency band, Subscription to a coexistence discovery and information server (CDIS) supporting control of the coexistence managers for the plurality of systems, discovery of adjacent systems in the plurality of systems, The coexistence information of the discovery adjacent systems is stored in the coexistence You should share between them the coexistence discovery and information server.

Description

[0001] The present invention relates to a resource management system and method in a communication system,

The present invention relates to a communication system, and more particularly, to a resource management system and method for managing a plurality of frequency resources to be shared in a communication system.

BACKGROUND ART [0002] In the current communication system, active research is being conducted to provide various quality of service (QoS) services having a high transmission rate to users. In such a communication system, studies are actively conducted to provide a large-capacity service having a variety of QoS using limited resources such as frequency resources. Particularly, due to the development of radio communication technology and the emergence of new wireless communication services, there is a need to use finite frequency resources more efficiently.

In order to increase the utilization efficiency of the limited frequency resources in the communication system, it is desirable to optimize the performance of the communication system, for example, to maximize the spectrum efficiency through multiple access, coding, modulation, information compression, In addition, a frequency sharing scheme has been proposed to increase the use efficiency of frequency resources by using available frequency bands in a frequency band already in use, such as a TV band.

Here, the frequency sharing in a frequency band that can be used in a frequency band that is already in use, such as the above-described TV band, is a frequency that can be used without interfering with a primary license having incumbent usage right for the TV band It is important to detect the usable frequency band by checking whether the frequency band of the first licensee is used in the TV band. In addition, when there are a plurality of different systems to use the usable frequency band detected in the TV band, due to the difference in the communication system between the plurality of different systems, for example, the radio access system, There is a problem in coexistence to use the band.

In other words, in the present communication system, when there are a plurality of different systems to use the usable frequency band detected in the TV band as described above, the plurality of different systems can efficiently detect the usable frequency band There is no specific resource management scheme for using the frequency resources, and in particular, there is no way to efficiently use frequency resources by coexisting systems of different communication systems to use the available frequency band.

Therefore, after a usable frequency band is detected in a frequency band already in use, such as a TV band in a communication system, a plurality of different systems, for example, systems of different communication systems coexist and the detected usable frequency band is efficiently There is a need for a resource management plan for use as a resource.

It is therefore an object of the present invention to provide a resource management system and method in a communication system.

It is another object of the present invention to provide a resource management system and method for efficiently using a plurality of systems coexistence frequency bands available in a frequency band already used in a communication system.

It is another object of the present invention to provide a system and method for managing frequency resources such that a plurality of systems coexist in a communication system to use a frequency band usable in a TV band.

It is another object of the present invention to provide a system and method for managing frequency resources such that a plurality of systems in a communication system use an available frequency band through effective coexistence and frequency sharing in a usable frequency band of a TV band have.

According to an aspect of the present invention, there is provided a resource management system in a communication system including a plurality of systems that do not have usage rights for a first frequency band, A coexistence manager (CM) for managing the plurality of systems for coexistence and frequency sharing of the plurality of systems in the usable frequency band when a usable frequency band is found; A coexistence enabler (CE) for transmitting and receiving the information of the plurality of systems and information of the coexistence manager; And a Coexistence Discovery and Information Server (CDIS) supporting control of the coexistence manager for the plurality of systems; Wherein the coexistence manager includes a plurality of coexistence managers corresponding to the plurality of systems, respectively; The coexistence discovery and information server, the plurality of coexistence managers, and the coexistence enabler each send and receive predetermined messages to discovery adjacent systems in the plurality of systems.

According to another aspect of the present invention, there is provided a method for managing resources of a first frequency band in a communication system including a plurality of systems having no usage right for a first frequency band, A plurality of coexistence managers (CMs) for managing the plurality of systems, for coexistence and frequency sharing of the plurality of systems in the usable frequency band, Subscription to a coexistence discovery and information server (CDIS) that supports control of the coexistence managers for the plurality of systems; Discovery of adjacent systems in the plurality of systems; And sharing the coexistence information of the discovery adjacent systems between the coexistence managers and the coexistence discovery and the information server.

The present invention manages frequency resources such that a plurality of systems in a communication system use an available frequency band in a frequency band already in use, such as a TV band, through coexistence and frequency sharing, The utilization efficiency of frequency resources can be improved.

BRIEF DESCRIPTION OF THE DRAWINGS Fig. 1 is a diagram schematically illustrating the structure of a resource management system in a communication system according to an embodiment of the present invention; Fig.
Figure 2 schematically illustrates a subscription procedure of a resource management system in a communication system according to an embodiment of the present invention;
3 schematically illustrates a subscription update procedure of a resource management system in a communication system according to an embodiment of the present invention.
FIGS. 4 to 9 schematically illustrate a neighbor discovery procedure of a resource management system in a communication system according to an embodiment of the present invention; FIG.
10 and 11 schematically illustrate a neighbor discovery update procedure of a resource management system in a communication system according to an embodiment of the present invention;

Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings. In the following description, only parts necessary for understanding the operation according to the present invention will be described, and the description of other parts will be omitted so as not to disturb the gist of the present invention.

The present invention can be applied to a frequency band that is already in use, such as in a communication system, such as a cognitive radio (CR) system, an IEEE 802.19 based system, or an IEEE 802.22 based system, A resource management system and method for detecting and using a usable frequency band, e.g., an unused frequency band (WS), is proposed. Although the CR system and the IEEE 802.19 and IEEE 802.22 based systems are described as an example in the embodiment of the present invention, the resource management scheme proposed in the present invention can be applied to other communication systems.

In addition, the embodiment of the present invention proposes a resource management system and method for efficiently using a frequency band usable in a TV band by coexistence of a plurality of different systems in a communication system. Here, in the embodiment of the present invention, each object of the resource management system for sharing a frequency band usable in the communication system mutually coexists and a plurality of different systems, in particular, different communication systems, for example, So as to share a usable frequency band in a frequency band already in use as in the TV band, thereby improving the use efficiency of the frequency resource.

That is, in the embodiment of the present invention, a resource management system for coexistence and frequency sharing among a plurality of different systems in a communication system shares a usable frequency band to improve usage efficiency of limited frequency resources. Herein, in the embodiment of the present invention, a frequency in a usable frequency band is shared in a frequency band that is already in use, such as a TV band, and a primary license having an exclusive use right for the TV band Since it is necessary to use the usable frequency band without interference, it is possible to detect a usable frequency band by checking whether the frequency band of the first licensee is used in the TV band, and to use the usable frequency band detected in the TV band A plurality of different systems selecting and using an operating channel in the detected usable frequency band through coexistence and frequency sharing. In other words, in the embodiment of the present invention, a resource management system for coexistence and frequency sharing among a plurality of different systems in a communication system selects an operation channel in WS for effective coexistence, To effectively select a channel, the available channels in the WS are classified and allocated channels.

Here, the resource management system performs a message transmission / reception procedure for efficient coexistence and frequency sharing among a plurality of systems different from each other in a band available in the TV band, i.e. TVWS. In other words, the resource management system transmits and receives messages among the objects of the resource management system for effective coexistence and frequency sharing of the plurality of systems using the TVWS, in particular, registration, coexistence information collection coexistence information gathering, coexistence decision making, reconfiguration, measurement, and event, so that the coexistence and frequency sharing efficiency of the plurality of systems in the TVWS .

That is, in the resource management system according to the embodiment of the present invention for effective coexistence and frequency sharing of a plurality of systems in the TVWS, a registration procedure and a message in the registration procedure are defined, a coexistence information gathering procedure, and a message in the coexistence information collection procedure. In the resource management system, a message in the coexistence decision making procedure and the coexistence decision making procedure is defined, a reconfiguration procedure and a message in the reconfiguration procedure are defined, and a management procedure a measurement procedure, a message in the management procedure, an event procedure, and a message in the event procedure, respectively. That is, for effective coexistence and frequency sharing in the TVWS of the plurality of systems, each defined message is transmitted and received between the respective objects of the resource management system as described above to perform each of the defined procedures, Thereby improving the coexistence and frequency sharing efficiency of the plurality of systems. Hereinafter, the resource management system in the communication system according to the embodiment of the present invention will be described in more detail with reference to FIG.

1 is a diagram schematically illustrating a structure of a resource management system in a communication system according to an embodiment of the present invention.

1, when a plurality of systems having different usable frequency bands, i.e., TVWS, are used by a plurality of systems, such as a TV band, For example, a TV band device (TVBD) 1 140 and a TVBD 2 160, which are intended to use the usable frequency band through sharing, A CM1 120 and a CM2 130 for managing the TVBDs 140 and 160 to improve the frequency sharing efficiency between the CMDs 140 and 160, A coexistence enabler (CE) is included in the TVBDs 140 and 160, or independently located, and serves as a channel between the TVBDs 140 and 160 and the CMs 120 and 130. [ ) For example, CE1 140 and CE2 170, a server supporting the control of the TVBs 140 and 160 of the CMs 120 and 130, for example, a coexistence discovery and information server (CDIS) And a TVWS DB (TVWS DB) 180 for providing channel information for the TVWS, which can be used in the TV band, do. Here, the resource management system includes CE, CM, CDIS, and TVWS DB as objects for coexistence and frequency sharing in TVWS of a plurality of systems, i.e., TVBDs.

As described above, the TVBDs 140 and 160 may be configured so that a primary licensee (hereinafter, referred to as a 'Primary System') having a preferential usage right for the TV band already has a predetermined When a frequency band is not used, another user (hereinafter, referred to as a 'secondary system') not having a preferential right to use the TV band is allowed to use a frequency band capable of using a predetermined frequency band in the TV band Quot; refers to a plurality of different systems, that is, sub-systems devices, which are to be detected and used in a band. Here, the TVBDs 140 and 160 share the predetermined frequency band through coexistence and frequency sharing in order to more efficiently use the limited frequency resources. That is, the TVBDs 140 and 160 receive channels through the TVWS and transmit and receive data.

As described above, the CEs 150 and 160 are independently located in the TVBDs 140 and 160, and transmit and receive information of the TVBDs 140 and 160 and information of the CMs 120 and 130, respectively. Although the CEs 150 and 160 are independently provided in the TVBDs 140 and 160 for convenience of description, the CEs 150 and 160 may include the TVBDs 140 and 160 Or may be included in the CMs 120 and 130. [

The CEs 150 and 160 may transmit context information related to the corresponding TVBDs 140 and 160 requested by the CMs 120 and 130 such as the radio access scheme, A threshold, and a position, from the TVBDs 140 and 160, and transmits the extracted information to the CMs 120 and 130. That is, the CEs 150 and 160 acquire communication-related information of each system as context information for different subsystems, and transmit the information to the CMs 120 and 130.

The CEs 150 and 160 receive a request of the CMs 120 and 130 for managing the TVBDs 140 and 160, for example, the context information and the configuration of the TVBDs 140 and 160 Updates the context information of the TVBDs 140 and 160 according to the request, and reconfigures or reconfigures the configuration of the TVBDs 140 and 160. In other words, the CEs 150 and 160 receive the changed information of the context information, that is, the event information of the TVBDs 140 and 160 in response to the context information of the TVBDs 140 and 160, And updates the context information of the TVBDs 140 and 160. The CEs 150 and 160 may also receive a component reset of the TVBDs 140 and 160 in response to a request for a configuration of the TVBDs 140 and 160 and may configure the components of the TVBDs 140 and 160 The element is reset, i.e., reconstructed.

The CMs 120 and 130 determine an operation frequency allocation, a transmission power allocation, and a transmission time allocation in order to improve frequency sharing efficiency between the TVBDs 140 and 160. In other words, the CMs 120 and 130 may be connected to the TVBs 140 and 160 in the available frequency band to improve the frequency sharing efficiency between the TVBDs 140 and 160 for the available frequency bands in the TV band described above. Performs operation frequency allocation, transmission power allocation, and transmission time allocation.

In order to further improve the frequency sharing efficiency between the TVBDs 140 and 160, the CMs 120 and 130 transmit and receive information to and from CMs of TVBDs that do not correspond to themselves, for example, neighboring CMs Transmits context information and event information of TVBDs, and performs operation frequency allocation, transmission power allocation, and transmission time allocation of the corresponding TVBD in the usable frequency band. At this time, the CMs 120 and 130 directly transmit and receive context information and event information of TVBDs that do not correspond to the CMs 120 and 130 with other CMs (for example, adjacent CMs) And acquires them. In addition, the CMs 120 and 130 may acquire information on spectrum use in the main system, that is, channel information about available channels in the TV band, through an external database, for example, the TVWS DB 180, To reset the components of their corresponding TVBDs.

The CDIS 110 supports control operations of the CMs 120 and 130 for frequency sharing of the TVBDs 140 and 160 with respect to frequency bands available in the TV band, as described above. That is, the CDIS 110 receives and stores the context information and the event information of the TVBDs 140 and 160 from the CMs 120 and 130. The CDIS 110 receives the context information and the event information of the TVBDs 140 and 160 from the CMs 120 and 130, To the CMs (120 and 130). In addition, the CDIS 110 acquires and stores information on spectrum use in the main system, that is, channel information on available channels in the TV band, through an external database, for example, the TVWS DB 180.

The TVWS DB 180 provides channel information on a channel available in the TVWS, that is, shared channel information, to the CMs 120 and 130. The channel information is registered in the TVWS DB 180, TVBD < / RTI >

The resource management system in the communication system according to this embodiment of the present invention uses a frequency band that can be used in a frequency band already used in a main system such as a TV band by sharing the sub-systems, that is, coexistence of the TVBDs 140 and 160 The CDIS 110, the CMs 120 and 130, and the CEs 140 and 160 for frequency sharing and frequency sharing. As described above, the TVBDs 140 and 160 are sub-systems devices for sharing and using the available frequency band. The TVBDs 140 and 160 include a base station (BS), an access point An access point (AP), a service access point (SAP), a terminal, and the like. In addition, the sub systems may be a plurality of systems different from each other in sharing available frequency bands as described above, and may be systems of different communication systems, such as an IEEE 802.19-based system and an IEEE 802.22-based system .

Also, in the communication system according to the embodiment of the present invention, for the coexistence and frequency sharing of the TVBDs 140 and 160 with respect to the usable frequency band in the frequency band already in use, For example, for efficient coexistence and frequency sharing of a plurality of systems, e.g., the TVBDs 140 and 160, to enable the plurality of systems in the TVWS to effectively coexist and improve frequency utilization efficiency through frequency sharing.

At this time, the resource management system is operated in a management mode and an autonomous mode (or an information mode), and the setting and the configuration of the frequency sharing device indicated by the CM in the management mode, i.e., TVBD, And the CE is made to make coexistence and frequency sharing decisions on the basis of the coexistence and frequency sharing related information provided by the CM in the autonomous mode and the coexistence and frequency sharing decision is reset to the setting and configuration of the TVBD To the TBVD. In addition, the resource management system is operated in a centralized topology and a distributed topology, and in the centralized topology, a plurality of CMs are provided with a plurality of A slave CM is connected, and the slave CMs are under the control of the master CM for coexistence and frequency sharing among the TVBDs. In the distributed topology, a plurality of CMs perform coexistence and frequency sharing among TVBDs through negotiation between any one CM and adjacent CMs of the one CM.

In the communication system according to the embodiment of the present invention, for the coexistence and frequency sharing of the TVBDs 140 and 160 with respect to the usable frequency band in the frequency band already in use, the resource management system may use the centralized topology or distributed CE1 150 and CM1 120 and neighboring other sharing devices such as TVBD2 160 and CE2 170. In this case, the neighboring frequency sharing device, i.e., a predetermined TVBD such as TVBD1 140, CE1 150, , And CM2 (130). Herein, in the resource management system, confirmation and determination operations for TVBD2 160, CE2 170, and CM2 130 adjacent to TVBD1 140, CE1 150, and CM1 120, the discovery operation is performed in CDIS 110, CM1 120, and CE1 150.

In addition, in the discovery of the adjacent frequency sharing device for the arbitrary frequency sharing device, the resource management system may be configured such that the same CM as the arbitrary frequency sharing device, for example, the TVBD1 140, that is, the adjacent TVBD (Not shown), i.e., intra-CM (intra-CM) neighbor TVBDs, and performs a discovery for neighboring TVBDs registered in the CMs 130, such as inter- CM) adjacent TVBDs, e.g., TVBD2 160. [ Here, the adjacent CMs between the CM1 120 and the CM2 130 are neighboring CMs. When the TVBDs registered in different CMs are adjacent TVBDs as described above, TVBDs mean among registered CMs. The CDIS 110, the CMs 120 and 130, and the CEs 150 and 170 of the resource management system perform a discovery operation for neighboring frequency sharing devices as described above. Therefore, in the discovery, Performs discovery for TVBDs and inter-CM neighbor TVBDs.

More specifically, in the communication system according to the embodiment of the present invention, the CMs 120 and 130 and the CDIS 110 of the resource management system, in particular, the CDS 110 of the resource management system, CM neighbor TVBDs, and performs neighbor discovery of the CMs 120 and 130 and the CDIS 110 at this time. The CMs 120 and 130 and the CDIS 110 perform the neighbor discovery through neighbor discovery subscriptions to the CMs 120 and 130 and the CDIS 110 for neighbor discovery , The intra-CM neighbor TVBDs, and the inter-CM neighbor TVBDs.

Here, the resource management system may be configured to perform the discovery of the intra-CM neighbor TVBDs by the CMs 120 and 130 and the discovery of the inter-CM neighbor TVBDs by the CDIS 110 Hereinafter referred to as 'method 1'); The CMs 120 and 130 do not perform the discovery operation for neighboring TVBDs themselves, but rather perform both discovery for the intra-CM neighbor TVBDs and discovery for the inter-CM neighbor TVBDs from the CDIS 110 (Hereinafter referred to as " scheme 2 "). At this time, the neighbor discovery subscription is updated by the CMs 120 and 130, and the resource management system updates the neighbor discovery subscription in one of the scheme 1 and scheme 2 according to the update result of the neighbor discovery subscription. Perform adjacent discovery.

When the resource management system performs the neighbor discovery through the method 1, the TVBDs of the resource management system first register with CMs corresponding to their own CEs, and the information of their own TVBDs, that is, ID, type, wireless access method, and the like to the registered CMs. In addition, the CMs inform other CMs, for example, adjacent CMs, of the information about the IDs and types of TVBDs registered to the CM itself, the type of wireless connection, and the like. That is, each of the CMs of the resource management system informs other CMs of information on all TVBDs registered therein, that is, the IDs and types of the TVBDs, the wireless access method, and the like, And information on the ID, type, wireless connection scheme, and the like of the TVBDs registered in the Internet.

Any CM that receives the information of the TVBDs registered in other CMs from other CMs can identify adjacent TVBDs with the TVBDs registered to the other CMs using the information of the received TVBD, That is, the IDs of the adjacent TVBDs, the type of the TVBDs, and the wireless connection scheme. At this time, when the new TVBD is registered or the change of the already registered TVBD occurs, the arbitrary CM updates the neighbor TVBD confirmation with the TVBDs registered to itself, CDIS will give you the information that is relevant to you in order to check if Discovery has been updated. That is, in order for the other CMs to identify the neighboring TVBDs, information is required for the TVBDs of any of the CMs themselves, so that after registering the arbitrary CMs in the CDIS, information on the TVBDs of the arbitrary CM itself The ID of an arbitrary CM, and the IDs and types of TVBDs registered in the CM, and the wireless access method.

Based on the information received from the CMs, that is, the ID, the type, and the wireless connection method of the TVBDs registered in the CM and the CM, the CDIS checks the adjacent TVBDs among the TVBDs registered in the CM And information on the IDs of the adjacent CMs, the IDs of the TVBDs of the adjacent TVBDs, the type, the wireless access method, and the like are checked on the adjacent TVBDs. At this time, as described above, if the new TVBD is registered in the CM or the change is present in the already registered TVBDs as described above, the CDIS can transmit the information received from the CM, that is, information to the TVBDs of the CM itself, The ID of the TVBDs registered in the CM, the type, the wireless access method, and the like of the TVBDs registered in the CM, and transmits confirmation information about the updated neighboring TVBDs to the corresponding CMs .

In addition, when the resource management system performs the neighbor discovery through the method 2, the TVBDs of the resource management system first register with the CMs corresponding to the TVBDs, and for the discovery to the adjacent TVBDs, And informs the registered CMs of the information of their own TVBDs, that is, the IDs and types of the TVBDs, the wireless access method, and the like. Also, after registering the CMs in the CDIS, the CMs inform the CDIS of the information necessary for identification of adjacent TVBDs, that is, the IDs of the CMs, the IDs and types of TVBDs registered in the CMs, and wireless connection schemes.

That is, each of the CMs of the resource management system informs the CDIS of information on all TVBDs registered therein, that is, the IDs and types of the TVBDs, the wireless access method, and the like. Here, if the new TVBD is registered or the change of the already registered TVBD occurs, the CM informs the corresponding information to the CDIS in order to check whether the discovery of the adjacent TVBS is updated. That is, the CM informs the CDIS of the ID of the CM, the ID of the TVBD registered in the CM, the type, the wireless access method, and the like.

Then, based on the information received from the CMs, that is, the ID of the CM, the ID of the TVBDs registered in the CM, the type, the wireless access method, and the like, And confirms information on the adjacent TVBDs, such as the ID of the adjacent CM in which the adjacent TVBDs are registered, and the ID, type, wireless connection scheme, and the like of the TVBDs of the adjacent TVBDs. At this time, as described above, if the new TVBD is registered in the CM or the change is present in the already registered TVBDs as described above, the CDIS can transmit the information received from the CM, that is, information to the TVBDs of the CM itself, The ID of the TVBDs registered in the CM, the type, the wireless access method, and the like of the TVBDs registered in the CM, and transmits confirmation information about the updated neighboring TVBDs to the corresponding CMs . Hereinafter, subscription in the discovery of the resource management system in the communication system according to the embodiment of the present invention will be described in more detail with reference to FIG. 2 and FIG.

FIG. 2 is a diagram schematically illustrating a subscription procedure of a resource management system in a communication system according to an embodiment of the present invention. Referring to FIG. Here, FIG. 2 is a diagram schematically illustrating a subscription procedure by a CM in a discovery of a resource management system in a communication system according to an embodiment of the present invention.

2, for neighbor discovery for coexistence and frequency sharing in the TVWS, the CM 202 must be subscription to the CDIS 204 and the CM 202 must be subscribed to the CDIS 204, The subscriber station 202 transmits a subscription request (Subscription_Request) message to the CDIS 204 (step 210). Here, the contents of the Subscription_Request message, that is, the header and payload of the Subscription_Request message can be represented as shown in Table 1, and the data type of the Subscription_Request message is shown in Table 2 As shown in Fig.

Header Information element Data type Description sourceIdentifier = CM_ID CX_ID Source identifier destinationIdentifier = CM_ID or CDIS_ID CX_ID Destination identifier ACKPolicy BOOLEAN Request to send an acknowledgment of reception Payload Information element Data type Description subscribedService SubscribedService Subscribed coexistence service

SubscribedService :: = ENUMERATED {
information,
management,
interCMNeighbors,
allNeighbors
}

In step 212, the CM 202 receives a Subscription Response (hereinafter referred to as 'Subscription_Response') message from the CDIS 204 in response to the Subscription_Request message. Here, the content of the Subscription_Response message, that is, the header and the payload of the Subscription_Response message, can be represented as shown in Table 3 below.

Header Information element Data type Description sourceIdentifier = CDIS_ID CX_ID Source identifier destinationIdentifier = CE_ID or CM_ID CX_ID Destination identifier ACK Policy BOOLEAN Request to send an acknowledgment of reception Payload Information element Data type Description status BOOLEAN Status: successful or not

3 is a diagram schematically illustrating a subscription update procedure of a resource management system in a communication system according to an embodiment of the present invention. 3 is a diagram schematically illustrating a subscription update procedure by the CM in the discovery of the resource management system in the communication system according to the embodiment of the present invention.

Referring to FIG. 3, the CM 302 transmits a Subscription_Request message to the CDIS 304 (310) for updating the subscription after the subscription in the discovery, as described in FIG. 2 step). Here, the contents of the Subscription_Request message, that is, the header and payload of the Subscription_Request message can be represented as shown in Table 1, and the data type of the Subscription_Request message can be expressed as shown in Table 2.

In step 312, the CM 302 receives a Subscription_Response message from the CDIS 304 in response to the Subscription_Request message. Here, the content of the Subscription_Response message, that is, the header and the payload of the Subscription_Response message, can be represented as shown in Table 3 below. Hereinafter, the discovery operation of the resource management system in the communication system according to the embodiment of the present invention will be described in more detail with reference to FIG. 4 to FIG.

4 is a diagram schematically illustrating a neighbor discovery procedure of a resource management system in a communication system according to an embodiment of the present invention. 4 is a diagram schematically illustrating a procedure for a resource management system in a communication system according to an embodiment of the present invention to discovery an adjacent discovery procedure for TVBDs registered in the same CM, i.e., intra-CM neighbor TVBDs .

4, in order to discovery the intra-CM neighbor TVBDs after the subscription for neighbor discovery for coexistence and frequency sharing in the TVWS, the CM 404 sends an arbitrary i-th CE 402 (CE_CI_REQ: CE_CI_REQ) message requesting information on TVBDs to be registered to the CM 404 itself, that is, CE coexistence information, through the CE (Coexistence Information Request) 402 (step 410).

Here, the CE_CI_REQ message is a message for requesting coexistence information of TVBDs registered in the CM 404 via the CE 402 to perform discovery of the intra-CM neighbor TVBDs. Also, the CE_CI_REQ message is used in the centralized topology, the distributed topology, and the autonomous mode of the resource management system. The CE_CI_REQ message is used when the CM 404 requests the CE 402 to coexistence information of CEs, that is, coexistence information of TVBDs registered in the CM through the CE 402. [ In addition, the contents of the CE_CI_REQ message, that is, the header and the payload of the CE_CI_REQ message, can be represented as shown in Table 4 below.

Header Name Data Type Description SourceID CM ID Source identifier DestinationID CE ID Destination identifier Payload Name Data Type Description TVBDInformationIDs COEX_TVBD_INFO_IDS TVBD information IDs
- TVBD type
- TVBD network type
- TVBD antenna maximum gain
- TVBD antenna height
- TVBD geolocation
- TVBD service duty cycle
- TVBD service bandwidth
- TVBD service coverage
- TVBD interference range
- TVBD operating channel list
- TVBD channelization list
- TVBD TVWS DB channel list
- TVBD reconfigurable TVWS channel list

In step 412, the CM 404 transmits the CE_CI_REQ message to all CIs registered in the CM 404 to collect coexistence information of the CE, i.e., coexistence information on all TVBDs. In response to the CE_CI_REQ message, the CM 404 transmits a CE coexistence information response (CE_CI_RSP) including the coexistence information of the TVBD, for example, the context information of the TVBD, From the CE 402 (step 414).

Here, the CE_CI_RSP message is a response message of the CE_CI_REQ message requesting the coexistence information of the TVBDs for discovery of the intra-CM neighbor TVBDs for coexistence and frequency sharing in the TVWS of the TVBDs, Is a message for providing the CM 404 with the coexistence information of the TVBDs, that is, the information of the TVBDs that the CM 404 makes. The CE_CI_RSP message is used in a centralized topology, a distributed topology, and an autonomous mode of the resource management system. In addition, the contents of the CE_CI_RSP message, i.e., the header and the payload of the CE_CI_RSP message,

Header Name Data Type Description SourceID CE ID Source identifier DestinationID CM ID Destination identifier Payload Name Data Type Description RegisteredCEID STRING Registered CE ID RegisteredCETVBDType COEX_TVBD_TYPE TVBD type, categorized by
- Fixed device type
- Personal / portable mode I type
- Personal / portable mode II type RegisteredCENetworkType COEX_TVBD_NET_TYPE TVBD network type such as IEEE 802.11af, IEEE 802.22 and IEEE 802.16, etc. RegisteredCEAntennaMaxGain REAL TVBD antenna maximum gain RegisteredCEAntennaHeight REAL TVBD antenna height RegisteredCEGeolocation COEX_TVBD_GEOLOCATION TVBD geolocation, including
- Latitude
- Longitude
- Altitude RegisteredCEDutycycle REAL TVBD service duty cycle RegisteredCEBandwidth REAL TVBD service bandwidth RegisteredCECoverage REAL TVBD service coverage RegisteredCEInterferenceRange REAL TVBD interference range RegisteredCEOperatingChList SEQUENCE OF INTEGER TVBD operating channel list RegisteredCEChannelizationList SEQUENCE OF REAL TVBD channelization list RegisteredCETVWSDBChList COEX_TVBD_TVWS TVBD TVWS DB channel list, including
- Allowed TVWS channel list
- Channel use constraint

Based on the coexistence information included in the CE_CI_RSP, the CM 404 identifies the intra-CM neighbor TVBDs based on the coexistence information of the CEs and the TVBDs registered to the CM 404, for example, CM interferes with intra-CM neighbor TVBDs on the same operating channel due to location, transmission range, interference range, etc. for CM neighbor TVBDs (step 416). Hereinafter, with reference to FIG. 5, the discovery for inter-CM neighbor TVBDs of the resource management system in the communication system according to the embodiment of the present invention will be described in more detail.

5 is a diagram schematically illustrating a neighbor discovery procedure of a resource management system in a communication system according to an embodiment of the present invention. 5 is a view schematically showing a procedure for discovery of neighbor discovery procedures for TVBDs registered in different CMs, that is, inter-CM neighbor TVBDs, in the communication system according to the embodiment of the present invention. to be.

Referring to FIG. 5, after the subscription for neighbor discovery for coexistence and frequency sharing in TVWS, the CDIS 504, in order to discovery the inter-CM neighbor TVBDs, (CM_CI_REQ) message for requesting information on registered TVBDs, that is, CM coexistence information (CM_CI_REQ: hereinafter referred to as 'CM_CI_REQ') to the CM 502 ).

Here, the CM_CI_REQ message is a message for requesting coexistence information of TVBDs registered in the CM 502 in order to discovery the inter-CM neighbor TVBDs. Also, the CM_CI_REQ message is used in the centralized topology, distributed topology, and autonomous mode of the resource management system. The CM_CI_REQ message is used when the CDIS 502 requests coexistence information of the corresponding CM to the CM 502 as described above and the coexistence of TVBDs registered by the CE with the CM itself It is also used when requesting information. In addition, the contents of the CM_CI_REQ message, i.e., the header and the payload of the CE_CI_REQ message, can be represented as shown in Table 6 below.

Header Name Data Type Description SourceID CDIS ID / CE ID Source identifier DestinationID CM ID Destination identifier Payload Name Data Type Description RegisteredCMInformationIDs COEX_CM_INFO_IDS Registered CM information IDs
- Registered CE ID list
- Registered CE information
- TVBD type
- Network type
- Antenna maximum gain
- Antenna height
- Geolocation
- Service duty cycle
- Service bandwidth
- Service coverage
- Interference range
- Operating channel list
- Channelization list
- TVWS DB channel list
- Reconfigurable TVWS channel list

In step 512, the CDIS 504 transmits the CM_CI_REQ message to all the CMs registered in the CDIS 504 to collect coexistence information of the CMs, that is, coexistence information on TVBDs registered in all the CMs. In response to the CM_CI_REQ message, the CDIS 504 transmits a CM coexistence information response (CM_CI_RSP) including the coexistence information of TVBDs registered in the CM 502, for example, the context information of the TVBDs (Hereinafter, referred to as 'CM_CI_RSP') message from the CM 502 (step 514).

Here, the CM_CI_RSP message includes a response of the CM_CI_REQ message requesting coexistence information of TVBDs registered in the CM 502 to disband the inter-CM neighbor TVBDs for coexistence and frequency sharing in the TVWS of the TVBDs Message in which the CM 502 provides the coexistence information of the TVBDs, that is, the information of TVBDs registered in the CM 502, to the CDIS 504. The CM_CI_RSP message is used in the centralized topology, the distributed topology, and the autonomous mode of the resource management system. The CM_CI_RSP message is used when the CM 502 provides the coexistence information of the corresponding CM, that is, coexistence information of TVBDs registered in the corresponding CM, to the CDIS 504, It is also used to provide coexistence information, that is, coexistence information of registered TVBDs, in the CE. The contents of the CM_CI_RSP message, that is, the header and the payload of the CM_CI_RSP message, can be represented as shown in Table 7.

Header Name Data Type Description SourceID CE ID Source identifier DestinationID CM ID Destination identifier Payload Name Data Type Description RegisteredCEID STRING Registered CE ID RegisteredCETVBDType COEX_TVBD_TYPE TVBD type, categorized by
- Fixed device type
- Personal / portable mode I type
- Personal / portable mode II type RegisteredCENetworkType COEX_TVBD_NET_TYPE TVBD network type such as IEEE 802.11af, IEEE 802.22 and IEEE 802.16, etc. RegisteredCEAntennaMaxGain REAL TVBD antenna maximum gain RegisteredCEAntennaHeight REAL TVBD antenna height RegisteredCEGeolocation COEX_TVBD_GEOLOCATION TVBD geolocation, including
- Latitude
- Longitude
- Altitude RegisteredCEDutycycle REAL TVBD service duty cycle RegisteredCEBandwidth REAL TVBD service bandwidth RegisteredCECoverage REAL TVBD service coverage RegisteredCEInterferenceRange REAL TVBD interference range RegisteredCEOperatingChList SEQUENCE OF INTEGER TVBD operating channel list RegisteredCEChannelizationList SEQUENCE OF REAL TVBD channelization list RegisteredCETVWSDBChList COEX_TVBD_TVWS TVBD TVWS DB channel list, including
- Allowed TVWS channel list
- Channel use constraint

Based on the coexistence information included in the CM_CI_RSP, the CDIS 504 identifies the inter-CM neighbor TVBDs based on the coexistence information of the CMs registered to the CDIS 504, for example, To-interference neighboring TVBDs in the same operating channel due to location, transmission range, interference range, and so on. Hereinafter, the neighbor discovery operation by the CM in the resource management system discovery in the communication system according to the embodiment of the present invention will be described in more detail with reference to FIG. 6 and FIG.

6 and 7 are diagrams schematically illustrating a neighbor discovery procedure of a resource management system in a communication system according to an embodiment of the present invention. Here, FIGS. 6 and 7 are views schematically showing an adjacent deck coverage procedure by the CM of the resource management system.

Referring to FIG. 6, after a subscription for neighbor discovery for coexistence and frequency sharing in the TVWS, for neighbor discovery, the CDIS 604 obtains adjacent discovery between TVBDs registered in different CMs , I.e., neighbor discovery for the inter-CM neighbor TVBDs (step 610). The CDIS 604 checks the TVBDs registered in the CM adjacent to the CM 602 itself from the CM 602 while performing the adjacent discovery for the inter-CM neighbor TVBDs, that is, A CM Neighbor Discovery Request (CM_ND_REQ) message for confirming the CM neighbor TVBDs is received (operation 612). That is, the CM 602 obtains the CM_ND_REQ message from the CDIS 604 that has performed neighbor discovery for the inter-CM neighbor TVBDs to acquire information of the inter-CM neighbor TVBDs and perform neighbor discovery (Step 612).

Here, the CM_ND_REQ message is a message for requesting coexistence information of TVBDs registered in adjacent CMs in order to discovery the inter-CM neighbor TVBDs, as described above. In addition, the CM_ND_REQ message is used in a centralized topology, a distributed topology, and an autonomous mode of the resource management system. The CM_ND_REQ message is used when the CM 602 requests the CDIS 604 for neighbor discovery information for inter-CM neighbor TVBDs of the corresponding CM. The contents of the CM_ND_REQ message, that is, the header and the payload of the CM_ND_REQ message, can be represented as shown in Table 8.

Header Name Data Type Description SourceID CM ID Source identifier DestinationID CDIS ID Destination identifier Payload Name Data Type Description RegisteredCEIDList SEQUENCE OF STRING Registered CE ID list

In response to the CM_ND_REQ message, the CM 602 transmits a CM neighbor discovery request (CM_ND_RSP) including a neighbor discovery information for the inter-CM neighbor TVBDs From the CDIS 604 (step 614).

Here, the CM_ND_RSP message is a message for providing coexistence information of TVBDs registered in adjacent CMs in order to discovery the inter-CM neighbor TVBDs, as described above. The CM_ND_RSP message is also used in the centralized topology, distributed topology, and autonomous mode of the resource management system. The CM_ND_RSP message is used when the CDIS 604 provides the CM 602 with neighbor discovery information for the inter-CM neighbor TVBD of the corresponding CM. In addition, the contents of the CM_ND_RSP message, i.e., the header and the payload of the CM_ND_RSP message,

Header Name Data Type Description SourceID CDIS ID Source identifier DestinationID CM ID Destination identifier Payload Name Data Type Description CMFunction BOOLEAN To command a function of corresponding CM for the centralized topology
- Master CM
- Slave CM RegisteredCEIDList SEQUENCE OF
STRING Registered CE ID list The message contents below are repeated for each registered CE RegisteredCEID STRING Registered CE ID NeighborCMIDList SEQUENCE OF
STRING Neighbor CM ID list The message contents below are repeated for each neighbor CM NeighborCMID STRING Neighbor CM ID NeighborCEIDList SEQUENCE OF
STRING Neighbor CE ID list

7, after a subscription for neighbor discovery for coexistence and frequency sharing in the TVWS, for neighbor discovery, the CDIS 704 performs neighbor discovery for TVBDs, i. E. Inter- CM neighbor TVBDs and intra-CM neighbor TVBDs (step 710). In addition, the CDIS 704 receives neighbor discovery TVBDs corresponding to the CM 702 itself from the CM 702 while performing the neighbor discovery for the inter-CM neighbor TVBDs and the intra-CM neighbor TVBDs (NeighborList_Request) message to identify the inter-CM neighbor TVBDs and the intra-CM neighbor TVBDs in step 712. That is, the CM 702 acquires the information of the inter-CM neighbor TVBDs and the intra-CM neighbor TVBDs to perform neighbor discovery, and the inter-CM neighbor TVBDs and the intra- And transmits the NeighborList_Request message to the CDIS 704 that has performed the neighbor discovery for the neighbor list (step 712).

Here, the NeighborList_Request message is a message for requesting coexistence information of TVBDs to perform discovery of the inter-CM neighbor TVBDs and the intra-CM neighbor TVBDs, as described above. That is, when the CM 702 requests the CDIS 704 for the neighbor discovery information for the inter-CM neighbor TVBDs and the intra-CM neighbor TVBDs of the corresponding CM, that is, adjacent TVBD list information, the NeighborList_Request message . The contents of the NeighborList_Request message, that is, the header and the payload of the NeighborList_Request message may be represented as shown in Table 10, and the data type of the NeighborList_Request message may be expressed as in Table 11. [

Header Information element Data type Description sourceIdentifier = CM_ID CX_ID Source identifier destinationIdentifier = CDIS_ID CX_ID Destination identifier ACKPolicy BOOLEAN Request to send an acknowledgment of reception Payload Information element Data type Description listOfCEID SEQUENCE OF CX_ID OPTIONAL CE ID list

CX_ID :: = ENUMERATED {
CE_ID,
CM_ID,
CDIS_ID,
TVWSDB_ID
}

In response to the NeighborList_Request message, the CM 702 transmits a neighbor list response including neighbor discovery information for the inter-CM neighbor TVBDs and intra-CM neighbor TVBDs, i.e., neighbor TVBD list information NeighborList_Response ") message from the CDIS 704 (step 714).

Here, the NeighborList_Response message is a message for providing coexistence information of neighboring TVBDs in order to discover the inter-CM neighbor TVBDs and the intra-CM neighbor TVBDs, as described above. That is, the NeighborList_Response message provides the neighboring TVBD list information about the inter-CM neighbor TVBDs and the intra-CM neighbor TVBDs of the CM to the CM 702, . Table 12 shows the contents of the NeighborList_Response message, i.e., the header and payload of the NeighborList_Response message, and the data type of the NeighborList_Response message may be as shown in Table 13. [

Header Information element Data type Description sourceIdentifier = CDIS_ID CX_ID Source identifier destinationIdentifier = CM_ID CX_ID Destination identifier ACKPolicy BOOLEAN Request to send an acknowledgment of reception Payload Information element Data type Description Note: Information elements below are repeated for each TVBD network or device. CEID CX_ID CE ID Note: Information elements below are repeated for each neighbor CM neighborCMID CX_ID Neighbor CM ID Note: Information elements below are repeated for each neighbor TVBD network or device. networkID NetworkID E.g., BSSID networkTechnology NetworkTechnology E.g., 802.11af, 802.22 interferenceDirection InterferenceDirection Mutual, source or victim interferenceLevelFromNeighbor REAL Estimated worst case interference level caused by the neighbor interferenceLevelToNeighbor REAL Estimated worst case interference level caused by TVBD network or device for which neighbors are reported NetworkGeometryClass NetworkGeometryClass Network geometry class between a TVBD network and its neighbor TVBD network (s)

NetworkID :: = ENUMERATED {
BSSID,
...
}

NetworkTechnology :: = ENUMERATED {
IEEE802.11af,
IEEE802.22,
ECMA392,
...
}
InterferenceDirection :: = ENUMERATED {mutual, source, victim}
NetworkGeometryClass :: = CHOICE {Class # 1, Class # 2, Class # 3, Class # 4}

Hereinafter, the neighbor discovery operation by the CE in the discovery of the resource management system in the communication system according to the embodiment of the present invention will be described in more detail with reference to FIG. 8 and FIG.

8 and 9 are diagrams schematically illustrating a neighbor discovery procedure of a resource management system in a communication system according to an embodiment of the present invention. Here, FIGS. 8 and 9 are views schematically showing a neighboring deck coverage procedure by the CE of the resource management system.

8, after the subscription for neighbor discovery for coexistence and frequency sharing in the TVWS, for the adjacent discovery, the CM 804 transmits the same CM, the TVBDs registered to the CM 804 itself The neighbor discovery for the intra-CM neighbor TVBDs is performed (step 810), and the neighbor discovery between the TVBDs registered in the CMs adjacent to the different CMs, i.e., the CM 804 itself, is completed , I.e., neighbor discovery for the inter-CM neighbor TVBDs (step 812).

In this state, the CM 804 performs the neighbor discovery for the intra-CM neighbor TVBDs and the inter-CM neighbor TVBDs, and the neighboring discovery of the CM 804 that the CE 802 itself registers from the CE 802 Information about the adjacent TVBDs of the corresponding TVBD registered in the CM 804 via the CE 802 itself, i.e., the intra-CM neighbor TVBDs and the inter-CM neighbor TVBDs of the CM 804 A TVBD Neighbor Discovery Request (TVBD_ND_REQ) message is received (step 814). That is, the CE 802 obtains neighbor TVBD information for the TVBD corresponding to the CE 802 itself, that is, information about the intra-CM neighbor TVBDs and the inter-CM neighbor TVBDs of the CM 804 In step 814, the TVBD_ND_REQ message is transmitted to the CM 804 that has completed the neighbor discovery for the intra-CM neighbor TVBDs and the inter-CM neighbor TVBDs to perform the neighbor discovery.

Here, the TVBD_ND_REQ message is a message for requesting coexistence information of neighboring TVBDs to perform discovery of the intra-CM neighbor TVBDs and the inter-CM neighbor TVBDs, as described above. The TVBD_ND_REQ message is used in the centralized topology, the distributed topology, and the autonomous mode of the resource management system. In addition, the TVBD_ND_REQ message is used when the CE 802 requests neighboring discovery information for the intra-CM neighbor TVBDs of the TVBD and the inter-CM neighbor TVBDs to the CM 804. In addition, the contents of the TVBD_ND_REQ message, i.e., the header and the payload of the TVBD_ND_REQ message message,

Header Name Data Type Description SourceID CE ID Source identifier DestinationID CM ID Destination identifier Payload Name Data Type Description None

In response to the TVBD_ND_REQ message, the CE 804 transmits a TVBD neighbor discovery request (TVBD_ND_RSP: TVBD Neighbor Discovery Request) including neighbor discovery information for the intra-CM neighbor TVBDs and the inter- (Hereinafter referred to as " TVBD_ND_RSP ") message (step 816).

Here, the TVBD_ND_RSP message is a message for providing coexistence information of neighboring TVBDs in order to discovery the intra-CM neighbor TVBDs and the inter-CM neighbor TVBDs, as described above. The TVBD_ND_RSP message is used in the same manner in the centralized topology, the distributed topology, and the autonomous mode of the resource management system. In addition, the TVBD_ND_RSP message is used when the CM 804 provides the CE 802 with intra-CM neighbor TVBDs for the TVBD and adjacent discovery information for the inter-CM neighbor TVBDs. In addition, the contents of the TVBD_ND_RSP message, i.e., the header and the payload of the TVBD_ND_RSP message,

Header Name Data Type Description SourceID CM ID Source identifier DestinationID CE ID Destination identifier Payload Name Data Type Description NeighborCMIDList SEQUENCE OF STRING Neighbor CM ID list The message contents below are repeated for each neighbor CM NeighborCMID STRING Neighbor CM ID NeighborCEIDList SEQUENCE OF STRING Neighbor CE ID list

9, after subscription for neighbor discovery for coexistence and frequency sharing in the TVWS, for neighbor discovery, the CM 904 performs neighbor discovery for TVBDs, i.e., inter- CM Adjacent TVBDs and intra-CM Adjacent TVBDs (step 910). The CM 904 receives a CM 904 from which the CE 902 itself is registered from the CE 902 while performing neighbor discovery for the inter-CM neighbor TVBDs and the intra-CM neighbor TVBDs. Information about the neighbor TVBDs of the corresponding TVBD registered in the CM 904 via the CE 902 itself, i.e., the intra-CM neighbor TVBDs of the CM 904 and the inter-CM neighbor TVBDs of the CM 904, A neighbor report request (NeighborReport_Request, hereinafter referred to as 'NeighborReport_Request') message is received in step 912. That is, the CE 902 acquires the information of the inter-CM neighbor TVBDs and the intra-CM neighbor TVBDs to perform neighbor discovery, and the inter-CM neighbor TVBDs and the intra- And transmits the NeighborReport_Request message to the CM 904 that has performed the neighbor discovery for the MS 904 in step 912.

Here, the NeighborReport_Request message is a message for requesting coexistence information of TVBDs in order to discovery the inter-CM neighbor TVBDs and the intra-CM neighbor TVBDs, as described above. That is, the NeighborReport_Request message is used when the CE 902 requests the CM 904 for the neighbor discovery information for the inter-CM neighbor TVBDs and the intra-CM neighbor TVBDs of the corresponding TVBD. The contents of the NeighborReport_Request message, i.e., the header and the payload of the NeighborReport_Request message may be shown in Table 16.

Header Information element Data type Description sourceIdentifier = CE_ID CX_ID Source identifier destinationIdentifier = CM_ID CX_ID Destination identifier ACKPolicy BOOLEAN Request to send an acknowledgment of reception Payload Information element Data type Description None

In response to the NeighborReport_Request message, the CE 902 transmits a NeighborReport_Response (NeighborReport_Response) including neighbor discovery information for the inter-CM neighbor TVBDs and the intra-CM neighbor TVBDs Message from the CM 904 (step 914).

Here, the NeighborReport_Response message is a message for providing coexistence information of neighboring TVBDs in order to discovery the inter-CM neighbor TVBDs and the intra-CM neighbor TVBDs, as described above. That is, the NeighborReport_Response message is used when the CM 904 provides the CE 902 with neighbor discovery information for the inter-CM neighbor TVBDs and intra-CM neighbor TVBDs of the corresponding TVBD. The contents of the NeighborReport_Response message, that is, the header and the payload of the NeighborReport_Response message can be shown in Table 17, and the data type of the NeighborReport_Response message can be shown in Table 18. [

Header Information element Data type Description sourceIdentifier = CM_ID CX_ID Source identifier destinationIdentifier = CE_ID CX_ID Destination identifier ACKPolicy BOOLEAN Request to send an acknowledgment of reception Payload Information element Data type Description Note: Information elements below are repeated for each neighbor CM neighborCMID CX_ID Neighbor CM ID Note: Information elements below are repeated for each neighbor TVBD network or device. networkID NetworkID E.g., BSSID networkTechnology NetworkTechnology E.g., 802.11af, 802.22 interferenceDirection InterferenceDirection Mutual, source or victim interferenceLevelFromNeighbor REAL Estimated worst case interference level caused by the neighbor interferenceLevelToNeighbor REAL Estimated worst case interference level caused by TVBD network or device for which neighbors are reported listOfOperatingChannelNumber ListOfOperatingChannelNumber
OPTIONAL List of operating channel number listOfOperatingFrequencies ListOfOperatingFrequencies OPTIONAL List of operating frequencies radioEnvironmentInformation RadioEnvironmentInformation OPTIONAL Radio environment information NetworkGeometryClass NetworkGeometryClass Network geometry class between a TVBD network and its neighbor TVBD network (s)
ListOfOperatingChNumber :: = SEQUENCE OF INTEGER
ListOfOperatingFrequencies :: = SEQUENCE OF SEQUENCE {
startFreq REAL,
stopFreq REAL,
occupancy REAL,
totalOccupancy REAL OPTIONAL
}
FreqDescription :: = SEQUENCE {
networkID NetworkID OPTIONAL,
networkTechnology NetworkTechnology OPTIONAL,
coexType ENUMERATED {known, unknown},
interferenceDirection InterferenceDirection,
occupancy REAL OPTIONAL,
totalOccupancy REAL OPTIONAL
}

RadioEnvironmentInformation :: = SEQUENCE OF SEQUENCE {
startFreq REAL,
stopFreq REAL,
state ENUMERATED {free, occupiedKnown, occupiedUnknown,
notMeasured},
freqDescription FreqDescription OPTIONAL
}

delete

Hereinafter, the neighbor discovery update operation in the discovery of the resource management system in the communication system according to the embodiment of the present invention will be described in more detail with reference to FIGS. 10 and 11. FIG.

10 and 11 are diagrams schematically illustrating a neighbor discovery update procedure of a resource management system in a communication system according to an embodiment of the present invention. FIG. 10 is a diagram schematically illustrating a procedure for updating a neighbor discovery by the CDIS of the resource management system, and FIG. 11 is a diagram schematically illustrating a procedure for updating a neighbor discovery by the CM of the resource management system.

10, subscription and neighbor discovery for neighboring discovery for coexistence and frequency sharing in the TVWS are performed, and then a new TVBD is registered in the CM or a TVBD If a change occurs, the CDIS 1004 performs update of the TVBD neighbor discovery with respect to the change of the TVBD in which the new TVBD is registered or already registered (Step 1010). The CDIS 1004 updates the updated TVBD neighbor discovery information of the corresponding CM to the corresponding CM in the state that the new TVBD is registered or the TVBD neighbor discovery is updated with respect to the changes of the already registered TVBD (NeighborList_Announcement) message to the CM 1002 (1012) to provide the NeighborList_Announcement message.

Herein, the NeighborList_Announcement message is a message indicating that the new TVBD is registered in the corresponding CM or the TVBD of the already registered TVBD after completion of discovery for the inter-CM neighbor TVBDs and the intra-CM neighboring TVBDs, And updates the TVBD Neighbor Discovery according to the change, and informs the corresponding CM of the update of the TVBD Neighbor Discovery. That is, when the CDIS 1004 provides the updated TVBD neighbor discovery information to the CM 1002 that has completed the discovery for the inter-CM neighbor TVBDs and the intra-CM neighbor TVBDs, the NeighborList_Announcement message Is used. In addition, the contents of the NeighborList_Announcement message, i.e., the header and the payload of the NeighborList_Announcement message, can be shown in Table 19.

Header Information element Data type Description sourceIdentifier = CDIS_ID CX_ID Source identifier destinationIdentifier = CM_ID CX_ID Destination identifier ACKPolicy BOOLEAN Request to send an acknowledgment of reception Payload Information element Data type Description Note: Information elements below are repeated for each neighbor CM. neighbourCMID = CM_ID CX_ID Neighbor CM ID Note: Information elements below are repeated for each neighbor TVBD network or device. networkID NetworkID E.g., BSSID networkTechnology NetworkTechnology E.g., 802.11af, 802.22 interferenceDirection InterferenceDirection Mutual, source or victim interferenceLevelFromNeighbor REAL Estimated worst case interference level caused by the neighbor interferenceLevelToNeighbor REAL Estimated worst case interference level caused by TVBD network or device for which neighbors are reported NetworkGeometryClass NetworkGeometryClass Network geometry class between a TVBD network and its neighbor TVBD network (s)

11, subscription and neighbor discovery for neighboring discovery for coexistence and frequency sharing in the TVWS is performed, and then a new TVBD is registered in the CM 1104, If a change in the registered TVBD occurs, the CM 1104 performs an update of the TVBD neighbor discovery with respect to the change of the TVBD in which the new TVBD is registered or already registered (Step 1110). The CM 1104 updates the updated TVBD of the corresponding TVBD registered through the CE 1102 in a state in which the new TVBD is registered or the update of the TVBD neighbor discovery about the changes of the already registered TVBD is performed, (NeighborList_Announcement) message to the CE 1102 to provide neighbor discovery information to the corresponding CM (1112).

Herein, the NeighborReport_Announcement message is a message indicating that the new TVBD is registered in the corresponding CM or the TVBD of the already registered TVBD after completion of discovery for the inter-CM neighbor TVBDs and the intra-CM neighbor TVBDs, And updates the TVBD Neighbor Discovery according to the change, and informs the corresponding TVBD of the update of the TVBD Neighbor Discovery. That is, the NeighborReport_Announcement message indicates that the CM 1104 transmits updated TVBD neighbor discovery information to the corresponding TVBDs for which the inter-CM neighbor TVBDs and the intra-CM neighbor TVBDs have been disassociated, It is used when it is provided through. In addition, the contents of the NeighborReport_Announcement message, i.e., the header and the payload of the NeighborReport_Announcement message,

Header Information element Data type Description sourceIdentifier = CM_ID CX_ID Source identifier destinationIdentifier = CE_ID CX_ID Destination identifier ACKPolicy BOOLEAN Request to send an acknowledgment of reception Payload Information element Data type Description Note: Information elements below are repeated for each neighbor TVBD network or device. networkID NetworkID E.g., BSSID networkTechnology NetworkTechnology E.g., 802.11af, 802.22 interferenceDirection InterferenceDirection Mutual, source or victim interferenceLevelFromNeighbor REAL Estimated worst case interference level caused by the neighbor interferenceLevelToNeighbor REAL Estimated worst case interference level caused by TVBD network or device for which neighbors are reported listOfOperatingChannelNumber ListOfOperatingChannelNumber
OPTIONAL List of operating channel number listOfOperatingFrequencies ListOfOperatingFrequencies
OPTIONAL List of operating frequencies radioEnvironmentInformation RadioEnvironmentInformation
OPTIONAL Radio environment information NetworkGeometryClass NetworkGeometryClass Network geometry class between a TVBD network and its neighbor TVBD network (s)

In this way, in the communication system according to the embodiment of the present invention, for the coexistence and frequency sharing in the TVWS, by performing discovery on adjacent frequency sharing devices, i.e., adjacent TVBDs, I.e., coexistence and frequency sharing between TVBDs.

While the invention has been shown and described with reference to certain preferred embodiments thereof, it will be understood by those skilled in the art that various changes and modifications may be made without departing from the spirit and scope of the invention. Therefore, the scope of the present invention should not be limited by the described embodiments, but should be determined by the scope of the appended claims, as well as the appended claims.

Claims (20)

CLAIMS What is claimed is: 1. A resource management system in a communication system including a plurality of systems that do not have usage rights for a first frequency band,
A coexistence manager (CM) for managing the plurality of systems for coexistence and frequency sharing of the plurality of systems in the usable frequency band when a frequency band in which the plurality of systems are available in the first frequency band is found; );
A coexistence enabler (CE) for transmitting and receiving the information of the plurality of systems and information of the coexistence manager; And
And a coexistence discovery and information server (CDIS) supporting control of the coexistence manager for the plurality of systems;
Wherein the coexistence manager includes a plurality of coexistence managers corresponding to the plurality of systems, respectively;
Wherein the coexistence discovery and information server, the plurality of coexistence managers, and the coexistence enabler each send and receive predetermined messages to discovery adjacent systems in the plurality of systems;
The resource management system performs adjacent discovery through a first scheme or a second scheme;
In the first scheme, the plurality of coexistence managers perform intra neighbor discovery, and the coexistence discovery and information server performs inter neighbor discovery;
In the second scheme, the coexistence discovery and information server performs the intra-adjacent discovery and the inter-neighbor discovery.
The method according to claim 1,
Wherein the plurality of coexistence managers discovers neighboring systems among intra-neighbor systems between a plurality of systems registered in the plurality of coexistence managers.
3. The method of claim 2,
Wherein the plurality of coexistence managers transmit a request message requesting coexistence information of the plurality of systems to the coexistence enabler and transmit a response message including coexistence information of the plurality of systems in response to the request message to the coexistence enabler Receiving from the enabler, discovery of the intra-neighbor systems;
Wherein the request message and the response message include a header, a payload, and a data type.
3. The method of claim 2,
Wherein the coexistence discovery and information server further comprises a plurality of systems registered in the first coexistence manager and a plurality of systems registered in the second coexistence manager in the plurality of coexistence managers, The resource management system comprising:
5. The method of claim 4,
Wherein the coexistence discovery and information server transmits a request message requesting coexistence information of the plurality of systems to the plurality of coexistence managers and transmits a response message including coexistence information of the plurality of systems in response to the request message Receiving from the plurality of coexistence managers and discovery of the inter-neighbor systems;
Wherein the request message and the response message include a header, a payload, and a data type.
5. The method of claim 4,
Wherein the plurality of coexistence managers transmit a request message requesting coexistence information of the inter-neighbor systems to the coexistence discovery and information server, and transmit a response message including coexistence information of the inter-neighbor systems in response to the request message From the coexistence discovery and information server, and discovers the inter-neighbor systems. The method according to claim 6,
The coexistence enabler sends a request message requesting coexistence information of the inter-neighbor systems and the intra-adjacent systems to the coexistence managers, and in response to the request message, the inter-neighbor systems and the intra- Receiving a response message including coexistence information of adjacent systems from the plurality of coexistence managers and discovery of the inter-neighbor systems and the intra-adjacent systems;
Wherein the request message and the response message include a header, a payload, and a data type.
8. The method of claim 7,
Wherein the plurality of coexistence managers update discovery of the inter-neighbor systems and the intra-adjacent systems when a change occurs in a plurality of systems registered to the inter-neighbor systems, To the coexistence enabler, a notification message including coexistence information of the coexistence enabler;
Wherein the notification message includes a header, a payload, and a data type. The method according to claim 6,
Wherein the coexistence discovery and information server updates discovery of the inter-neighbor systems and the intra-adjacent systems when a change occurs in a plurality of systems registered to the plurality of coexistence managers, Systems, and intra-neighbor systems, to the plurality of coexistence managers;
Wherein the notification message includes a header, a payload, and a data type.
The method according to claim 6,
Wherein the request messages and the response messages include a header, a payload, and a data type.
The method according to claim 1,
Wherein the coexistence discovery and information server further comprises a plurality of systems registered in the first coexistence manager and a plurality of systems registered in the second coexistence manager in the plurality of coexistence managers, The resource management system comprising:
12. The method of claim 11,
Wherein the coexistence discovery and information server transmits a request message requesting coexistence information of the plurality of systems to the plurality of coexistence managers and transmits a response message including coexistence information of the plurality of systems in response to the request message From the plurality of coexistence managers, and discovers the inter-neighbor systems.
13. The method of claim 12,
Wherein the coexistence discovery and information server discovers adjacent systems to intra-adjacent systems among a plurality of systems registered in the same coexistence manager in the plurality of coexistence managers.
14. The method of claim 13,
Wherein the plurality of coexistence managers transmit to the coexistence discovery and information server a request message requesting coexistence information of the inter-neighbor systems and the intra-adjacent systems, and in response to the request message, And receives a response message including coexistence information of adjacent systems from the coexistence discovery and information server, and discovers the inter-neighbor systems and the intra-adjacent systems.
15. The method of claim 14,
The coexistence enabler sends a request message requesting coexistence information of the inter-neighbor systems and the intra-adjacent systems to the coexistence managers, and in response to the request message, the inter-neighbor systems and the intra- Receiving a response message including coexistence information of adjacent systems from the plurality of coexistence managers and discovery of the inter-neighbor systems and the intra-adjacent systems;
Wherein the request message and the response message include a header, a payload, and a data type.
16. The method of claim 15,
Wherein the coexistence discovery and information server updates discovery of the inter-neighbor systems and the intra-adjacent systems when a change occurs in a plurality of systems registered to the plurality of coexistence managers, Systems, and intra-neighbor systems, to the plurality of coexistence managers;
Wherein the notification message includes a header, a payload, and a data type.
15. The method of claim 14,
Wherein the request messages and the response messages include a header, a payload, and a data type.
The method according to claim 1,
Wherein the plurality of coexistence managers send a request message to the coexistence discovery and information server and receive a response message from the coexistence discovery and information server in response to the request message to provide the coexistence discovery and information server with a subscription subscription);
Wherein the request message and the response message include a header, a payload, and a data type.
A method for managing resources in a first frequency band in a communication system including a plurality of systems that do not have usage rights for a first frequency band,
A plurality of coexistence managers (CMs) for managing the plurality of systems, for coexistence and frequency sharing of the plurality of systems in the usable frequency band, (Coexistence Manager) subscriptions to a coexistence discovery and information server (CDIS) supporting control of the coexistence managers for the plurality of systems;
Discovery of adjacent systems in the plurality of systems; And
And sharing the coexistence information of the discovery adjacent systems between the coexistence managers and the coexistence discovery and the information server;
The resource management system performs adjacent discovery through a first scheme or a second scheme;
In the first scheme, the plurality of coexistence managers perform intra neighbor discovery, and the coexistence discovery and information server performs inter neighbor discovery;
In the second scheme, the coexistence discovery and information server performs the intra-neighbor discovery and the inter-neighbor discovery.
20. The method of claim 19,
Wherein the plurality of coexistence managers discovers adjacent systems among the plurality of systems registered to itself with intra neighbor systems;
Wherein the coexistence discovery and information server is a system in which adjacent systems between a plurality of systems registered in a first coexistence manager and a plurality of systems registered in a second coexistence manager are inter- And discovery of the resources.

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