KR20120026990A - System and method for managing resource in communication system - Google Patents

Abstract

PURPOSE: A resource management system and a method thereof in a communication system are provided to efficiently use frequency band in a plurality of systems by share of usable frequency band. CONSTITUTION: System information is transmitted and received between a CE(Coexistence Enabler)(140) and a DIS(Coexistence Discovery and Information Server)(110). A plurality of systems uses a usable frequency band through coexistence and frequency share in a first frequency band.

Description

System and method for managing resource in communication system

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

In the current communication system, active researches are being conducted to provide users with services of various quality of service (QoS) having a high transmission speed (hereinafter referred to as 'QoS'). In such a communication system, studies are being actively conducted to provide a large capacity service having various QoS using limited resources, for example, frequency resources. In particular, with 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 possible to optimize the performance of the communication system, for example, to maximize the spectral efficiency through multiple access, encoding, modulation, information compression, etc. Minimized interference has been proposed, and a frequency sharing scheme has been proposed to increase the efficiency of use of frequency resources by using a frequency band usable in a frequency band already in use, such as a TV band.

Here, frequency sharing in a frequency band usable in a frequency band already in use, such as the aforementioned TV band, is a frequency that can be used without interfering with a primary incumbent having preferential use rights for the TV band. Since the band should be used, it is important to detect the usable frequency band by checking whether the primary license holder uses the frequency band in the TV band. In addition, when there are a plurality of different systems that want to use the available frequency band detected in the TV band, the available frequency may be due to a difference in a communication method, for example, a wireless connection method, between the plurality of different systems. There is a problem in coexistence for using the band.

In other words, in the current communication system, when there are a plurality of different systems that want to use the available frequency band detected by the TV band as described above, the plurality of different systems efficiently uses the detected available frequency band. There is no specific resource management scheme for use, and in particular, no specific scheme for efficiently using frequency resources by coexisting systems of different communication schemes to use the available frequency band has not been proposed.

Therefore, after detecting a usable frequency band in a frequency band that is already in use, such as a TV band in a communication system, a plurality of different systems, for example, systems of different communication schemes, coexist to efficiently detect the available usable frequency band. A resource management plan is needed to use it.

Accordingly, an object of the present invention is 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 coexist (coexistence) in the frequency band available in the frequency band already in use in the communication system.

In addition, another object of the present invention, a system for managing frequency resources to use a frequency band available in the TV band to coexist by transmitting and receiving signals according to the interface for coexistence and frequency sharing of a plurality of systems in the communication system and In providing a method.

A system of the present invention for achieving the above objects is a resource management system in a communication system including a plurality of systems that do not have a right to use a first frequency band, wherein the plurality of systems in the 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 information of the plurality of systems; And a coexistence discovery and information server (CDIS) for supporting control of the coexistence manager for the plurality of systems; Information of the plurality of systems is controlled by the coexistence manager, the coexistence enabler, and the coexistence discovery and information server, respectively, through the interface defined by the coexistence manager, the coexistence enabler, and the coexistence discovery and information server. Is transmitted and received between; The plurality of systems use the available frequency band by coexistence and frequency sharing in the first frequency band by transmitting and receiving information of the plurality of systems through the respective defined interface.

According to an aspect of the present invention, there is provided a method of managing a resource of a first frequency band in a communication system including a plurality of systems that do not have a right to use a first frequency band. If a frequency band in which the plurality of systems is available in the frequency band is found, defining interfaces between objects in the usable frequency band for coexistence and frequency sharing of the plurality of systems in the usable frequency band, respectively; Transmitting and receiving information of the plurality of systems by the objects through the respective defined interfaces; And using the available frequency band by coexisting and frequency sharing of the plurality of systems in the usable frequency band by transmitting and receiving information of the plurality of systems.

The present invention defines an interface for coexistence and frequency sharing of a plurality of systems in a communication system, and transmits and receives a signal according to the defined interface, thereby allowing the plurality of systems to coexist with the TV band through coexistence and frequency sharing. Likewise, the frequency resources are managed to use the available frequency bands in the frequency bands that are already in use. Accordingly, the limited efficiency of the frequency resources can be improved by more efficiently using the limited frequency resources.

1 is a view schematically showing the structure of a resource management system in a communication system according to an embodiment of the present invention.
2 is a diagram schematically illustrating a distributed topology structure of a resource management system in a communication system according to an embodiment of the present invention.
3 is a diagram schematically illustrating an operation process of a resource management system in a communication system according to an exemplary embodiment of the present invention.

Hereinafter, exemplary embodiments of the present invention will be described in detail with reference to the accompanying drawings. It should be noted that in the following description, only parts necessary for understanding the operation according to the present invention will be described, and descriptions of other parts will be omitted so as not to distract from the gist of the present invention.

The present invention relates to a frequency band already in use, such as in a TV band in a communication system, such as a Cognitive Radio (CR) system, an IEEE 802.19 based system, or an IEEE 802.22 based system. We propose a resource management system and method for detecting and efficiently using available frequency bands. Here, in the embodiment of the present invention, a CR system and a system based on IEEE 802.19 and IEEE 802.22 are described as an example, but the resource management scheme proposed by the present invention can be applied to other communication systems.

In addition, in an embodiment of the present invention, an interface for coexistence and frequency sharing of a plurality of different systems in a communication system is defined, and the plurality of systems are transmitted and received by transmitting and receiving signals according to the defined interface. We propose a resource management system and method for systems to coexist and share frequency so as to efficiently use a frequency band available in a TV band. Here, in the embodiment of the present invention, an interface between each object of the resource management system for sharing the frequency band usable in the communication system is defined, and each object of the resource management system according to the defined interface By transmitting and receiving a signal, a plurality of different systems, in particular, systems of different communication schemes, such as wireless access schemes, coexist, sharing a frequency band that is available in the frequency band already in use, such as in a TV band. Improve the efficiency of use of frequency resources.

That is, the embodiment of the present invention proposes an interface of a resource management system for coexistence and frequency sharing between a plurality of different systems in a communication system, and uses limited frequency resources by sharing a frequency band available through such an interface. Improve the efficiency. Here, in the embodiment of the present invention, a frequency in a frequency band that can be used in a frequency band that is already in use, such as a TV band, is shared, and at this time, to a primary incumbent who has preferential use rights for the TV band. Since the available frequency band should be used without interference, it is necessary to check whether the primary license holder uses the frequency band in the TV band, to detect the available frequency band, and to use the available frequency band detected in the TV band. A plurality of different systems uses the detected available frequency bands through coexistence and frequency sharing. Next, a resource management system in the communication system according to an exemplary embodiment of the present invention will be described in more detail with reference to FIG. 1.

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

Referring to FIG. 1, when the plurality of systems want to use a frequency band usable in a frequency band that is already in use, such as a TV band, the resource management system uses frequency sharing in the plurality of different systems. Shared devices that want to use the usable frequency band, such as TV band devices that want to use the TV band (TVBD: TVBD, hereinafter referred to as "TVBD") 150, the frequency of the TVBD 150 Coexistence Manager (CM) for managing TVBDs of the plurality of different systems to improve sharing efficiency, such as CM1 (120) and CM2 (130), for example, the TVBD ( 150) and the coexistence enabler (CE) (hereinafter referred to as "CE") that serves as a path between the CM1 (120), for example, CE1 (140), and TVBD of the CM (120, 130) Field Server that supports control, for example co-discovery and information server includes (hereinafter referred to as CDIS Coexistence Discovery and Information Server, hereinafter 'CIDS') (110). Here, the resource management system may be an external device, for example IEEE. The system may further include a database 102 of a TV idle frequency band (TVWS: TVWS), which is externally interacting with an 802.19 based system.

As described above, the TVBD 150 has a predetermined frequency in the TV band by a primary license holder (hereinafter, referred to as a “primary system”) that has priority to use the TV band. If the band is not used, another user who does not have a preferential use right for the TV band (hereinafter referred to as 'Secondary System') can use a predetermined frequency band in the TV band. This means devices of a plurality of different systems, that is, sub-systems, to be detected and used. Here, the TVBD 150 shares and uses the predetermined frequency band through coexistence and frequency sharing in order to use limited frequency resources more efficiently.

As described above, the CE 140 transmits and receives information of the TVBD 150 and information of the CM1 120. Here, the CE 140 may exist as an object independent from the TVBD 150 as shown in FIG. 1, or may be included in the TVBD 150 as shown in FIG. 2.

In addition, the CE 140 may include context information related to the TVBD 150 requested by the CM1 120, such as a radio access method, a transmission power, a spectrum sensing threshold value, and a location of the TVBD 150. Information is extracted from the TVBD 150 and transmitted to the CM1 120. That is, the CE 140 obtains communication related information of each system as context information about the plurality of systems, that is, sub-systems, and transmits the information related to each system to the CM1 120.

The CE 140 receives a request of the CM1 120 for managing the TVBD 150, for example, a request for context information and configuration of the TVBD 150. Accordingly, the context information of the TVBD 150 is updated, and the configuration of the TVBD 150 is reset, that is, reconfigured. In addition, the CE 140 receives the changed information of the context information, that is, the event information of the TVBD 150 in response to the request for the context information of the TVBD 150, and the TVBD 150 according to the event information. Update the context information of). In addition, the CE 140 receives component reset related information, that is, reconfiguration information of the TVBD 150 in response to a request for reconfiguration of the TVBD 150, and in accordance with the component reset related information, the TVBD ( The component of 150 is reset, that is, the configuration of the TVBD 150 is reconfigured according to the reconfiguration information.

The CMs 120 and 130 determine an operation frequency allocation, a transmission power allocation, a transmission time allocation, and the like of the TVBD 150 to improve the frequency sharing efficiency of the TVBD 150. In other words, the CMs 120 and 130 may operate at the available frequency band of the TVBD 150 in order to improve the frequency sharing efficiency of the TVBD 150 with respect to the frequency band available in the aforementioned TV band. Assign, transmit power allocation, and transmit time allocation.

Here, the CMs 120 and 130 transmit and receive information to and from CMs of shared devices that do not correspond to them, for example, context information and event information of shared devices, in order to further improve the frequency sharing efficiency of the TVBD 150. Transmitting / receiving is performed to allocate operating frequency, transmit power, and transmit time of the corresponding TVBDs in the usable frequency band. In this case, the CMs 120 and 130 obtain and transmit and receive context information and event information of TVBDs that do not correspond to other CMs directly, or transmit and receive with other CMs through the CDIS 110. In addition, the CMs 120 and 130 obtain information on spectrum use in the main system through the TVWS database 102 or request other CMs to reset components of TVBDs corresponding to them. Request reconfiguration information of TVBDs.

As described above, the CDIS 110 supports a control operation of the CMs 120 and 130 for sharing the frequency of the TVBD 150 with respect to a frequency band usable in the TV band. That is, the CDIS 110 receives and stores the context information and the event information of the TVBD 150 from the CMs 120 and 130, and at the request of the CMs 120 and 130, the context of the TVBD 150. Information and event information are transmitted to the CMs 120 and 130. In addition, the CDIS 110 receives and stores information about spectrum use in the main system obtained by the CMs 120 and 130 through the database 102 of the TVWS.

In the communication system according to the exemplary embodiment of the present invention, the resource management system may share a frequency band usable in a frequency band already used by the main system, such as a TV band, that is, the co-existence of the TVBD 150 and the like. The CDIS 110, the CMs 120 and 130, and the CE 140 are included for frequency sharing. Here, the TVBD 150 is a base station (BS) as devices of sub-systems for sharing and using the available frequency band as described above, and an access point (AP). : Access Point, hereinafter referred to as 'AP'), a service access point (SAP: Service Access Point, hereinafter referred to as 'SAP'), and a terminal. In addition, the sub-systems are a plurality of different systems to share the usable frequency band as described above, and may be systems of different communication methods, for example, an IEEE 802.19 based system and an IEEE 802.22 based system. .

In addition, the resource management system in the communication system according to an embodiment of the present invention, for coexistence and frequency sharing of each TVBD in a plurality of systems for the frequency band available in the frequency band that is already in use, that is, different communication schemes Define an interface to be shared and used by multiple systems. In particular, in the embodiment of the present invention, the CDIS 110, the CM (120, 130), and the CE (140) for each interface for coexistence and frequency sharing of different systems are defined. Here, in the embodiment of the present invention, the CDIS 110, the CMs 120 and 130, and the CEs 140 and 160 also define respective reference models for coexistence and frequency sharing of different systems.

In other words, in the communication system according to an embodiment of the present invention, the resource management system defines an interface between each object, that is, the CDIS 110, the CMs 120 and 130, and the CE 140. An interface between the CE 140 and the TVBD 150, an interface between the CM1 120 and the CE 140, an interface between the CM1 120 and the CDIS 110, an interface between the CMs 120 and 130, and Interfaces between the CM1 120 and the database 102 are respectively defined. In addition, the resource management system, through the intern interface between the CDIS (110), the CM (120, 130) and the CE (140) context information of the TVBDs in the plurality of systems, the configuration of the TVBDs reset Transmission and reception of related information, that is, reconfiguration information and event information of the TVBDs.

More specifically, in an embodiment of the present invention, the context information of TVBDs in a plurality of systems and the TVBD of the resource management system, for example, through the interface between the CE 140 and the TVBD 150 of the IEEE 802.19 based system, the TVBD Reconfiguration information as the configuration reconfiguration related information, and event information of the TVBDs to support the transmission and reception between the CDIS (110), the CM (120, 130), and the CE (140). Therefore, the resource management system according to an embodiment of the present invention more accurately identifies the context information of TVBDs in the plurality of systems for coexistence and frequency sharing of a plurality of systems in an available frequency band, for example, TVWS, Set or reset the configuration of the TVBDs to suit the frequency sharing environment of the TVWS, and detect the event information occurring in the TVBD, so as to use TVWS more efficiently among the TVBDs operating heterogeneously or independently in the TVWS. do.

Here, the resource management system according to an embodiment of the present invention, as an interface for transmitting and receiving signals between the CE 140 and the TVBD 150, that is, context information, reset related information, that is, reconfiguration information, event information, and the like. Define interface A, and define interface B1 as an interface for transmitting and receiving the context information, reset related information, event information, etc. between the CE 140 and the CM1 120, and the CM1 120 and the CDIS. An interface B2 is defined as an interface for transmitting and receiving the context information, reset related information, and event information between the 110 and the context information, reset related information, and event between the CM1 120 and the CM2 130. Interface B3 is defined as an interface for transmitting and receiving information. In addition, the resource management system according to an exemplary embodiment of the present invention defines an interface C as an interface for transmitting and receiving the context information, reset related information, and event information between the CM1 120 and the database 102. Next, a resource management system supporting coexistence and frequency sharing of a plurality of systems in a usable frequency band by transmitting and receiving information of TVBDs in a plurality of systems will be described in more detail with reference to FIG. 2.

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

Referring to FIG. 2, as described above with reference to FIG. 1, the resource management system may include TVBDs of a plurality of different systems, for example, TVBD1 (eg, TVBD1), which use a frequency band usable in a frequency band that is already in use, such as a TV band. 240, TVBD2 250, TVBD3 260, CMs managing the TVBDs 240, 250, 260 to improve frequency sharing efficiency of the TVBDs 240, 250, 260, eg, CM1 220 and CM2 230, CEs serving as a pathway between the TVBDs 240, 250, 260 and the CMs 220, 230, such as CE1 245, CE2 255, CE3 265, and the TVBDs of the CMs 220, 230 ( 240, 250, 260 includes a server that supports control, such as CDIS 210. Here, the resource management system may be an external device, for example IEEE. It may further include a database 204 of TVWS that interacts externally with an 802.19 based system.

Here, detailed descriptions of the objects included in the resource management system, that is, the TVBDs 240, 250, 260, the CMs 220, 230, the CEs 245, 255, 265, and the CDIS 210 will be described with reference to FIG. 1. Therefore, detailed description thereof will be omitted here. In FIG. 2, for convenience of description, an IEEE 802.19 based system will be described based on a structure of a distributed topology as an example of the resource management system. However, the resource management system according to an embodiment of the present invention is an IEEE 802.19 based system. The same can be applied to centralized topologies and independent topologies. In addition, the CEs 245, 255, and 265 may exist independently of the TVBD as shown in FIG. 1, and hereinafter, the CEs 245, 255, and 265 are included in the TVBDs 240, 250, and 260 for convenience of description. This will be described.

In more detail, the CEs 245, 255, and 265 transmit and receive signals to and from the TVBDs 240, 250, and 260 through a defined interface, that is, interface A, that is, the TVBDs 240, 250, and 260 of a plurality of systems in an available frequency band. In order to coexist and share frequency, context information, reset related information, and event information of the TVBDs 240, 250, and 260 are transmitted and received. In addition, the CEs 245, 255, and 265 may manage corresponding CMs that manage context information, reset related information, and event information of the TVBDs 240, 250, and 260 through interfaces defined with the CMs 220 and 230, that is, interface B1. Send and receive with

In other words, the CEs 245, 255, and 265 obtain context information, reset related information, and event information of the TVBDs 240, 250, and 260 from the TVBDs 240, 250, and 260, and transmit them to the CMs 220, 230. In addition, the context information, resetting related information, and event information of the TVBDs 240, 250, and 260 are received from the CMs 220 and 230 and transmitted to the TVBDs 240, 250, and 260. That is, the CE1 245 transmits and receives the context information, the reset related information, and the event information of the TVBD1 240 through the interface B1 to and from the CM1 220, and the context information and the reset of the TVBD1 240 through the interface A. The related information and the event information are transmitted and received with the TVBD1 240. The CE2 255 transmits and receives the context information, the reset related information, and the event information of the TVBD2 250 and the event information to and from the CM1 220 through the interface B1, and the context information and the reset of the TVBD2 250 through the interface A. The related information and the event information are transmitted and received with the TVBD2 250. In addition, the CE3 265 transmits and receives the context information, the reset related information, and the event information of the TVBD3 260 and the event information with the CM2 230 through the interface B1, and the context information and the reset of the TVBD3 260 through the interface A. The related information and the event information are transmitted and received with the TVBD3 260.

As described above, the CMs 220 and 230 transmit and receive the context information, the reset related information, and the event information of the TVBDs 240, 250 and 260 and the event information with the CEs 245, 255 and 265 through the interface B1 and through the interface B3. Context information, reset related information, and event information of the TVBD corresponding to the CMs adjacent to the self are transmitted and received with the adjacent CMs. In addition, the CMs 220 and 230 transmit and receive the context information, reset related information, and event information of the TVBDs 240, 250 and 260 and the event information to the CIDS 210 through the interface B2. Here, the CM1 220 transmits / receives information of the TVBD corresponding to the adjacent CM and the adjacent CM through the interface B3, for example, context information of the CM2 230 and the TVBD3 260, reset related information, and an event. Information is transmitted and received, and the CM2 230 transmits and receives information of a TVBD corresponding to the adjacent CM and the adjacent CM through the interface B3, for example, the context of the CM1 220, the TVBD1 240, and the TVBD2 250. Send and receive information, reset related information, and event information. In addition, the CM1 220 and the CM2 230 transmit and receive the context information, the reset related information, and the event information of the TVBDs 240, 250, and 260 and the event information through the interface C, respectively.

In addition, the CIDS 210 transmits / receives context information, reset related information, and event information of the CMs 220 and 230 and the TVBDs 240, 250 and 260 through the interface B2. In other words, the CIDS 210 transmits / receives context information, reset related information, and event information of the CM1 220, the TVBD1 240, and the TVBD2 250, the event information, and the event information through the interface B2. The CM2 220 and the TVBD3 260 transmit and receive context information, reset related information, and event information.

Thus, the resource management system according to the embodiment of the present invention, between the objects, that is, between the TVBDs (245, 255, 265) and CEs (245, 255, 265), between the CEs (245, 255, 265) and the CMs (220, 230), adjacent to a predetermined CM. Interfaces between CMs, for example, between the CMs 220 and 230, between the CMs 220 and 230 and the CDIS 210, and between the CMs 220 and 230 and the database 204, respectively. In addition, the resource management system, through each of the defined interface, the respective objects share the frequency sharing information for coexistence and frequency sharing of a plurality of systems, that is, context information, resetting information, and event of the TVBDs (245, 255, 265) Send and receive information.

That is, the resource system may be used for each of the objects, namely, TVBDs 245, 255, 265, CEs 245, 255, 265, CMs 220, 230, and CDIS, for coexistence and frequency sharing of a plurality of systems in an available frequency band, for example, TVWS. 210 and an interface to the database 204, respectively, and through the respective defined interface, each of the objects receives the frequency sharing related information, that is, context information, reset related information, and event information of the plurality of systems. By transmitting and receiving, the plurality of systems coexist and frequency share in the TVWS. Therefore, the resource management system more accurately identifies the context information of the TVBDs in the plurality of systems, sets or resets the TVBD to suit the available frequency band, for example, the frequency sharing environment of the TVWS, and within the TVBD. Detecting event information of each object, in particular, the event information of the TVBD, enables the plurality of systems to more efficiently use TVWS between TVBDs operating heterogeneously or independently through coexistence and frequency sharing in the TVWS. Next, the transmission and reception of information between objects for coexistence and frequency sharing of the plurality of systems in the resource management system according to an embodiment of the present invention will be described in more detail with reference to FIG. 3.

3 is a diagram schematically illustrating an operation process of a resource management system in a communication system according to an exemplary embodiment of the present invention.

Referring to FIG. 3, in step 310, when the resource management system receives a request for permission to use the TVWS from a plurality of systems that want to use an available frequency band, for example, TVWS, for example, TVBD, configuration and setting of the TVBD. The CE collects the relevant information, that is, the context information of the TVBD from the TVBD, that is, the context information of the TVBD, which is the configuration and configuration related information of the TVBD, is received from the TVBD.

Here, the configuration and configuration related information of the TVBD is context information of the TVBD, and as described above, a TVBD identifier (ID), a TVBD type, a TVBD radio interface, a TVBD option, a TVBD location information, and a TVBD measurement information. , TVBD sensing threshold, TVBD transmit power level, TVBD cell coverage area, and the like. That is, the resource management system is a context information of the TVBD for coexistence and frequency sharing in the TVWS, TVBD identifier, TVBD type, TVBD radio interface, TVBD option, TVBD location information, TVBD measurement information, TVBD sensing threshold value, TVBD transmits and receives information on a power level, a TVBD cell area, and the like.

In step 320, the resource management system collects and acquires information on the reset capability of the TVBD, that is, the reset related information of the TVBD, that is, receives the reset related information of the TVBD. Here, the reset related information of the TVBD includes information on a TVBD network ID, TVBD channel allocation, TVBD time scheduling allocation, TVBD sensing threshold allocation, TVBD transmission power level allocation, and TVBD cell region allocation. That is, the resource management system is a TVBD network ID, TVBD channel assignments, TVBD time scheduling assignments, TVBD sensing threshold assignments, TVBD transmission power level assignments, and the like. Transmits and receives information on TVBD cell area allocation.

Next, in step 330, the resource management system determines whether the TVBD coexists with the TVWS and shares the frequency through the context information and the reset related information of the TVBD, and grants the right to use the TVWS. In step 340, the resource management system, when the coexistence and frequency sharing of the TVBD is possible for the TVWS, that is, when the usage rights for the TVWS is granted, the TVBD for coexistence and frequency sharing in the TVWS The configuration and reconstruction values of the TD are transmitted, that is, context information and reset related information of the TVBD are transmitted to the TVBD.

Next, in step 350, the resource management system checks the event list provided by the TVBD to determine whether an event occurs in each entity, in particular, the TVBD. In other words, the event information of the TVBD is checked. Then, in step 360, the resource management system checks the event to be included in the event information of the TVBD to join / leave, that is, the event to be provided from the TVBD in the event list.

In step 370, the resource management system determines whether the checked events occur in each of the objects, in particular, the TVBD, and transmits and receives event information of the TVBD corresponding to the generated event. Here, the event information of the TVBD includes a TVBD position change, a TVBD measurement information change, a TVBD transmission power level change, a TVBD cell area change, a primary user detection within an operating frequency of the TVBD, a secondary user detection within an operating frequency of the TVBD, and the like. Contains information. That is, the resource management system is the event information of the TVBD for coexistence and frequency sharing in the TVWS, the TVBD position change, TVBD measurement information change, TVBD transmission power level change, TVBD cell region change, TVBD within the operating frequency Sends and receives information about primary user detection and secondary user detection within the operating frequency of the TVBD.

Next, in step 380, the resource management system coexists and shares the frequency in the TVWS as an operation channel through coexistence and frequency sharing in the TVWS through transmission and reception of context information, reset related information, and event information of the TVBD as described above. use.

As described above, the resource management system according to an embodiment of the present invention transmits and receives context information, reset related information, and event information of a plurality of systems among the CDIS, CM, CE, and TVBD. Allows systems to coexist and share, thereby making efficient use of the available frequency band by the plurality of systems.

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 to the described embodiments, but should be determined not only by the scope of the following claims, but also by the equivalents of the claims.

Claims (19)

A resource management system in a communication system including a plurality of systems that do not have a right to use a first frequency band,
A coexistence manager (CM) that manages the plurality of systems for coexistence and frequency sharing of the plurality of systems in the usable frequency band when the frequency band available for the plurality of systems is found in the first frequency band. );
A coexistence enabler (CE) for transmitting and receiving information of the plurality of systems; And
A coexistence discovery and information server (CDIS) supporting control of the coexistence manager for the plurality of systems;
Information of the plurality of systems is controlled by the coexistence manager, the coexistence enabler, and the coexistence discovery and information server, respectively, through the interface defined by the coexistence manager, the coexistence enabler, and the coexistence discovery and information server. Sent and received between;
And the plurality of systems use the available frequency band by coexistence and frequency sharing in the first frequency band by transmitting and receiving information of the plurality of systems through the respective defined interface.
The method of claim 1,
And the information of the plurality of systems includes context information, reset related information, and event information.
The method of claim 2,
And the coexistence manager, the coexistence enabler, and the coexistence discovery and information server transmit and receive the context information, reset related information, and event information through the defined interface.
The method of claim 3,
The context information may include at least one of a TVBD identifier, a TVBD type, a TVBD radio interface, a TVBD option, a TVBD location information, a TVBD measurement information, a TVBD sensing threshold value, a TVBD transmission power level, and a TVBD cell area of the plurality of systems. Resource management system comprising the information of.
The method of claim 3,
The reset related information includes information about at least one of TVBD channel allocation, TVBD time scheduling allocation, TVBD sensing threshold allocation, TVBD transmission power level allocation, and TVBD cell region allocation of the plurality of systems. Resource management system.
The method of claim 3,
The event information may include at least one of TVBD position change information, TVBD measurement information, first user sensing information within an operating frequency, and second user sensing information within the operating frequency of the plurality of systems. Resource management system.
The method of claim 3,
The interface may be between the coexistence enabler and a TV Band Device (TVBD) of the plurality of systems, between the coexistence manager and the coexistence enabler, between the coexistence manager and the coexistence discovery and information server, respectively. Resource management system, characterized in that defined. The method of claim 7, wherein
The coexistence manager includes a plurality of coexistence managers corresponding respectively to the plurality of systems;
And the interface is defined between a first coexistence manager and a neighbor coexistence manager in the plurality of coexistence managers.
The method of claim 1,
The coexistence manager determines operating frequency allocation, transmission power allocation, and transmission time allocation of the plurality of systems in the usable frequency band, and transmits and receives context information, reset related information, and event information of the plurality of systems. Resource management system, characterized in that.
10. The method of claim 9,
The coexistence enabler is configured to transmit and receive context information, reset related information, and event information of the plurality of systems with the coexistence manager in the usable frequency band;
The context information of the plurality of systems, the resource management system, characterized in that including information on the radio access method, transmission power, spectrum sensing threshold value, and location of the plurality of systems.
A method of managing resources of a first frequency band in a communication system including a plurality of systems that do not have a right to use a first frequency band,
When a frequency band in which the plurality of systems is available in the first frequency band is found, each interface between objects in the usable frequency band is defined for coexistence and frequency sharing of the plurality of systems in the usable frequency band. Making;
Transmitting and receiving information of the plurality of systems by the objects through the respective defined interfaces; And
And transmitting and receiving information of the plurality of systems to coexist and share the frequencies in the usable frequency bands to use the usable frequency bands.
The method of claim 11,
The information of the plurality of systems, context information, reset information, and event information management method characterized in that it comprises event information. The method of claim 12,
The object includes a coexistence manager (CM), a coexistence enabler (CE), and a coexistence discovery and information server (CDIS).
The method of claim 13,
Transmitting / receiving information of the plurality of systems may include: the coexistence manager, the coexistence enabler, and the coexistence discovery and information server, through the respective defined interfaces, the context information, reset related information, and event information. Resource management method, characterized in that for transmitting and receiving.
The method of claim 14,
The context information may include at least one of a TVBD identifier, a TVBD type, a TVBD radio interface, a TVBD option, a TVBD location information, a TVBD measurement information, a TVBD sensing threshold, a TVBD transmission power level, and a TVBD cell area of the plurality of systems. Resource management method comprising the information of. The method of claim 14,
The reset related information includes information about at least one of TVBD channel allocation, TVBD time scheduling allocation, TVBD sensing threshold allocation, TVBD transmission power level allocation, and TVBD cell region allocation of the plurality of systems. Resource management methods.
The method of claim 14,
The event information may include at least one of TVBD position change information, TVBD measurement information, first user sensing information within an operating frequency, and second user sensing information within the operating frequency of the plurality of systems. Resource management method.
The method of claim 14,
The interface may be between the coexistence enabler and a TV Band Device (TVBD) of the plurality of systems, between the coexistence manager and the coexistence enabler, between the coexistence manager and the coexistence discovery and information server, respectively. Resource management method, characterized in that defined. The method of claim 18,
The coexistence manager includes a plurality of coexistence managers corresponding respectively to the plurality of systems;
And the interface is defined between a first coexistence manager and a neighbor coexistence manager in the plurality of coexistence managers.

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