APPARATUS AND METHOD FOR MANAGING AN ACCESS MODE OF A NODE B IN A WIRELESS COMMUNICATION SYSTEM
An apparatus and a method for managing an access mode of an NB in a wireless communication system. In the method for changing the access mode of a second NB at a first NB or a CN, an access mode change of the second NB is determined. An access mode change request message is transmitted to the second NB, requesting the access mode change of the second NB. An access mode change response message including an access mode control result is received from the second NB.
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The present application claims priority under 35 U.S.C. §119(a) to a Korean patent application filed in the Korean Intellectual Property Office on Jun. 9, 2009 and assigned Serial No. 10-2009-0051131, the entire disclosure of which is hereby incorporated by reference.
BACKGROUND OF THE INVENTION1. Field of the Invention
The present invention relates generally to an apparatus and a method for managing an access mode of a Node B (NB) in a wireless communication system. More particularly, the present invention relates to an apparatus and a method for determining and changing an access mode of an NB, depending on different factors in a wireless communication system.
2. Description of the Related Art
In a conventional cellular communication system, an NB, which is connected to a mobile communication core network, provides communication services to User Equipments (UEs) that located within a cell area of the NB.
When an amount of communication in a cell area of an NB is expected to increase temporarily, for example, during a large gathering such as a party or concert, a load of the cell is also expected to increase temporarily, which may affect the quality of the communication services provided by the NB. When this occurs, the load of the cell may be distributed by temporarily adding a mobile NB, e.g., an NB mounted on a vehicle, to the area where the amount of communication is expected to be large.
Additionally, in a conventional cellular communication system, a channel state often deteriorates due to a geographical condition inside a cell, an increased distance between a UE and an NB, or movement of a UE. For example, a shadowing area may be formed inside a building, such as an office or a house, which is located inside a coverage area of an NB. If a UE is located in the shadowing area, an NB may not be able perform sufficient communication because a channel state associated with the UE is poor.
In order to improve communication in areas with poor channel conditions, a femto-cell service may be utilized. A femto cell is a small cell area formed by a compact NB that is commonly installed inside an office or a house and that accesses a mobile communication core network via a broadband network. The compact NB is a low power NB, which is often installed by a user, not the service provider. and the compact NB may also be referred to as a micro NB, a self configurable NB, an indoor NB, a home NB, or a femto NB. In the following description, the compact NB is referred to as a femto NB.
There are three access modes of a femto NB that are currently under discussion in the current 3rd Generation Partnership Project Long Term Evolution (3GPP LTE), which are defined as follows.
1. Open Access Mode: a mode that grants access to all users that are not registered in an NB.
2. Closed Access Mode: a mode that grants access only to users that are registered in an NB.
3. Hybrid Access Mode: a mode that that grants access to a user that is registered in an NB, and also grants an access to users that are not registered in the NB.
The above-defined various access modes of the femto NB may also be applied to a mobile NB and a general macro NB.
Currently, when an NB is installed, e.g., a femto NB, a mobile NB, or a general macro NB, an NB access mode is permanently set. Accordingly, in an environment where neighbor NBs use the same frequency, when a UE that receives a service from an NB that utilizes an open access mode enters a coverage of an NB that utilizes a closed access mode, a serious interference factor is generated between the neighbor NBs that use the different access modes, which deteriorates communication quality.
SUMMARY OF THE INVENTIONThe present invention is designed to address at least the above-mentioned problems and/or disadvantages occurring in the prior art and to provide at least the advantages described below. Accordingly, an aspect of the present invention is to provide an apparatus and a method for managing an access mode of an NB in a wireless communication system.
Another aspect of the present invention is to provide an apparatus and a method for solving an interference problem that occurs between neighbor NBs using different access modes, but the same frequency, and providing a load balancing effect in a specific area or when an event occurs by determining and changing an access mode of an NB depending on different factors in a wireless communication system.
In accordance with an aspect of the present invention, a method for changing an access mode of a second Node B (NB) by a first NB or a Core Network (CN) of a wireless communication system is provided. The method includes determining to change the access mode of the second NB; transmitting, to the second NB, an access mode change request message that requests an access mode change of the second NB; and receiving, from the second NB, an access mode change response message including an access mode control result.
In accordance with another aspect of the present invention, a method for changing an access mode by a Node B (NB) of a wireless communication system is provided. The method includes receiving an access mode change request message requesting change of the access mode change of the NB from another NB or a Core Network (CN); determining whether to allow the access mode to change; and transmitting an access mode change response message including an access mode control result to the another NB or the CN.
In accordance with another aspect of the present invention, a method for changing an access mode by a Node B (NB) in a wireless communication system is provided. The method includes determining to change the access mode of the NB; transmitting, to a Core Network (CN), an access mode change request message that requests an access mode change of the NB; and receiving, from the CN, an access mode change response message including an access mode control result.
In accordance with another aspect of the present invention, a first Node B (NB) of a wireless communication system that changes an access mode of a second NB is provided. The first NB includes a controller for determining to change the access mode of the second NB; a transmission modem for transmitting, to the second NB, an access mode change request message requesting an access mode change of the second NB; and a reception modem for receiving, from the second NB, an access mode change response message including an access mode control result.
In accordance with another aspect of the present invention, a Node B (NB) of a wireless communication system that changes an access mode of the NB is provided. The NB includes a reception modem for receiving, from another NB or a Core Network (CN), an access mode change request message requesting an access mode change of the second NB; a controller for controlling the access mode of the NB, when the access mode change request message is received, to determine whether to allow the access mode change of the second NB; and a transmission modem for transmitting, to the first NB or the CN, an access mode change response message including an access mode control result.
In accordance with yet another aspect of the present invention, a Node B (NB) of a wireless communication system that changes an access mode of the NB is provided. The NB includes a controller for determining to change the access mode of the NB; a transmission modem for transmitting an access mode change request message to a Core Network (CN), requesting an access mode change of the NB; and a reception modem for receiving, from the CN, an access mode change response message including an access mode control result.
The above and other aspects, features, and advantages of certain embodiments of the present invention will be more apparent from the following detailed description taken in conjunction with the accompanying drawings, in which:
Throughout the drawings, like reference numerals will be understood to refer to like parts, components and structures.
DETAILED DESCRIPTION OF EMBODIMENTS OF THE INVENTIONVarious embodiments of the present invention are described herein below. The matters defined in the description such as detailed constructions and elements are provided to assist in a comprehensive understanding of the embodiments of the invention. Accordingly, those of ordinary skill in the art will recognize that various changes and modifications of the embodiments described herein can be made without departing from the scope and spirit of the invention. Also, descriptions of well-known functions and constructions are omitted for clarity and conciseness.
In the following description, a wireless communication system denotes, for example, a communication system that uses an Orthogonal Frequency Division Multiplexing (OFDM) scheme or an Orthogonal Frequency Division Multiple Access (OFDMA) scheme. Although certain embodiments of the present invention are described using a broadband wireless access communication system as an example, the present invention is also applicable to different wireless communication systems.
In the following description, an NB may be a macro NB or a femto NB. Further, an NB that operates in an open access mode is referred to as an open NB, an NB that operates in a closed access mode is referred to as a closed NB, and an NB that operates in a hybrid access mode is referred to as a hybrid NB. In addition, a UE that is registered in an NB that operates in the closed access mode and that is granted access is referred to as a closed user or a Closed Subscriber Group (CSG) UE, and the other UEs are referred to as open users or non-CSG UEs. Additionally, a coverage area of an NB that operates in an open access mode is referred to as an open cell, a coverage area of an NB that operates in a closed access mode is referred to as a closed cell, and a coverage area of an NB that operates in a hybrid access mode is referred to as a hybrid cell. Here, the closed cell may also be referred to as a CSG cell, and the open cell and the hybrid cell may also be referred to as a non-CSG cell.
In the following description, a Core Network (CN) denotes a Mobile Management Entity (MIME), a Serving General packet radio service (GPRS) Support Node (SGSN), a Mobile Switching Center (MSC), an Access Control Router (ACR), Operations & Maintenance (OAM), a Gate-Way(GW), etc.
The determination to change a current access mode and selection of a new access mode of the NB may be performed right after a new NB is installed or power is turned on, and an access mode change during an operation may be performed due to the following other factors. Also, an access mode change may be performed right after a new NB is installed or power is turned on due to the following other factors.
1. Interference factor: When neighbor NBs use the same frequency and a non-CSG UE receives a service from an NB that utilizes an open access mode, i.e., an open NB, or an NB that utilizes a hybrid access mode, i.e., a hybrid NB, enters a coverage of an NB hat utilizes a closed access mode, i.e., a closed NB, a serious interference factor is generated between the neighbor NBs that use the different access modes, seriously deteriorating communication quality. In this case, to reduce the interference generated between the neighbor NBs, the closed NB may provide a service by temporarily changing its access mode and granting access to a non-CSG UE.
2. Load distribution necessity factor: When an amount of communication in an area will greatly increase, e.g., during a concert or sporting event, and a load of a cell of an NB will increase, load distribution may be required. In this case, with respect to a closed NB, when the access mode is temporarily changed to an open access mode with permission of a person who has installed the closed NB, the load of the cell may be distributed without a separate procedure.
When a CSG UE registered in a femto NB is located inside a coverage of the femto NB in operation in the open access mode, the femto NB may provide a service by temporarily changing its access mode and allowing access by the CSG UE.
Due to the change of an NB access mode by the above-described factors, system information such as a Physical Cell Identifier (PCI) for identifying cells, a CSG indicator representing whether a cell is a CSG cell, a CSG IDentifier (ID) for identifying CSG cells, etc., is changed, and an NB notifies a UE that receives a service from the NB that the system information has changed and informs the UE of the changed system information.
Referring to
The open NB or hybrid NB 110, which is a serving NB of the non-CSG UE 100 may recognize that a CSG cell exists near the non-CSG UE 100 through a measurement report message of the non-CSG UE 100. That is, the serving NB 110 may recognize that a communication environment of the non-CSG UE 100 is degrading and that the CSG cell is transmitting a strong signal exists through the measurement report message of the non-CSG UE 100. At this point, the communication between the non-CSG UE 100 and the serving NB 110 becomes an interference factor acting on the CSG cell, and a strong signal that the non-CSG UE 100 receives from the CSG cell deteriorates communication quality of the non-CSG UE 100.
When the non-CSG UE 100 receives a strong signal in the CSG cell, and the non-CSG UE 100 causes interference while moving with low speed and remaining in the area, the serving NB 110 requests the closed NB 120 to change an access mode and allows the closed NB 120 to accept the non-CSG UE 100, thereby solving the interference problem.
Referring to
The serving NB 220 that has received the measurement report message from the non-CSG UE 200 determines whether the non-CSG UE 200 receives interference from the neighbor CSG cell, which is greater than a reference level, based on the PCI included in the measurement report message. If the non-CSG UE 200 receives interference that is greater than the reference level from the neighbor CSG cell, the non-CSG UE 200 may reduce the interference of the UE and improve communication quality by handing over the UE to the neighbor CSG cell, such that it receives a service from the neighbor CSG cell, i.e., the closed NB 230, rather than receiving a service from the serving NB 220. Therefore, when determining that the non-CSG UE 200 receives interference greater than the reference level from the neighbor CSG cell, in step 211, the serving NB 220 determines to perform a handover of the non-CSG UE 200, and determines an access mode change request to the closed NB 230, i.e., target NB, so that the target NB 230 may allow access of the non-CSG UE 200. Here, to prevent the handover decision and access mode change request decision from frequently occurring, the handover decision and the access mode change request decision may be performed when the non-CSG UE 200 receives interference greater than the reference level from the neighbor CSG cell and the velocity of the non-CSG UE 200 is less than a reference level.
To handover the non-CSG UE 200 and request an access mode change by the closed NB 230, the serving NB 220 requests additional CSG cell information, such as an Evolved Universal Mobile Telecommunications System (UMTS) Terrestrial Radio Access Network (E-UTRAN) Cell Global Identifier (ECGI), for more accurate cell identification than just the PCI, by transmitting an additional measurement control message to the non-CSG UE 200, in step 213. The non-CSG UE 200 collects the CSG cell information and transmits the collected information to the serving NB 220.
In step 215, the serving NB 220 transmits a Handover (HO) & access mode change request message to a CN 240 using the CSG cell information transmitted by the non-CSG UE 200. Here, the HO & access mode change request message requests the non-CSG UE 200 to perform a handover to the target NB 230, and requests the target NB 230 to change its access mode so that the non-CSG UE 200 may access the target NB 230. Though the handover request and the access mode change request are performed together in
The CN 240 controls an access mode of the target NB 230 in step 217. Specifically, when the CN 240 has an allowance authority regarding the handover and the access mode change, the CN 240 may determine whether to allow the handover and the access mode change through a separate handover & access mode change algorithm. However, when the CN 240 does not have the allowance authority regarding the handover and the access mode change, the CN 240 may determine allowance with respect to the handover and the access mode change unconditionally. When the CN 240 determines allowance regarding the handover of the non-CSG UE 200 and the access mode change of the target NB 230, the CN 240 transfers the HO & access mode change request message to the target NB 230 in step 219.
The target NB 230 controls its access mode in step 221. That is, the target NB 230 determines whether to accept the handover of the non-CSG UE 200, and determines whether to allow an access mode change so that the non-CSG UE 200 may access the target NB 230. When the target NB 230 is a femto NB, the target NB 230 may additionally receive an allowance from an owner of the femto NB to change the access mode.
The target NB 230 transmits an HO & access mode change response message including an access mode control result to the CN 240 in step 225, and the CN 240 transfers the HO & access mode change response message including a final access mode control result to the serving NB 220 in step 227. When allowance is determined with respect to the handover of the non-CSG UE 200 and the access mode change of the target NB 230 as the final access mode control result, the serving NB 220 orders the non-CSG UE 200 to perform the handover to the target NB 230 by transmitting a handover command message to the non-CSG UE 200 in step 229.
When the target NB 230 determines an allowance with respect to the handover of the non-CSG UE 200 and the access mode change of itself through the access mode control, the target NB 230 informs the CSG UE 210 that the access mode has changed, and accordingly the system information has changed, by transmitting a system information modification message to the CSG UE 210 in step 223. For example, the target NB 230 may change its access mode from a closed access mode to a hybrid access mode so that not only the CSG UE 210, but also the non-CSG UE 200, may access the target NB 230. In this case, the target NB 230 may transmit a hybrid access system info.-message including system information of the changed access mode to the CSG UE 210 and the non-CSG UE 200 in steps 231 and step 233.
In step 235, the non-CSG UE 200 accesses the target NB 230 and receives a service from the target NB 230 by performing a general handover procedure.
Though both the CN 240 and the target NB 230 perform the access mode control in
In
Referring to
In step 317, the target NB 330 controls its access mode. That is, the target NB 330 determines whether to accept a call of the non-CSG UE 300, and determines whether to allow an access mode change so that the non-CSG UE 300 may access the target NB 330. If the target NB 330 is a femto NB, the target NB may additionally receiving an allowance from an owner of the femto NB to change the access mode.
When the target NB 330 determines an allowance with respect to the handover of the non-CSG UE 300 and the access mode change of the target NB 330, the target NB 330 transfers the HO & access mode change request message to a CN 340 in step 319.
In step 321, the CN 340 controls the access mode of the target NB 330. Specifically, when the CN 340 has an allowance authority regarding the handover and the access mode change, the CN 340 determines whether to allow the handover and the access mode change through a separate handover & access mode change algorithm. However, when the CN 340 does not have the allowance authority regarding the handover and the access mode change, the CN 340 may determine allowance with respect to the handover and the access mode change unconditionally.
The CN 340 transmits an HO & access mode change response message including an access mode control result to the target NB 330 in step 323, and the target NB 330 transfers an HO & access mode change response message including a final access mode control result to the serving NB 320 in step 327. When allowance is determined with respect to the handover of the non-CSG UE 300 and the access mode change of the target NB 330 as the final access mode control result, the serving NB 320 may order the non-CSG UE 300 to perform the handover to the target NB 330 by transmitting a handover command message to the non-CSG UE 300 in step 329.
When the target NB 330 determines an allowance with respect to the handover of the non-CSG UE 300 and its access mode change as the final access mode control result, the target NB 330 informs the CSG UE 310 that the access mode has changed, and accordingly that the system information has changed, by transmitting a system information modification message to the CSG UE 310 in step 325. For example, the target NB 330 may change its access mode to a hybrid access mode so that not only the CSG UE 310, but also the non-CSG UE 300, may access the target NB 330. In this case, the target NB 330 may transmit a hybrid access system info.-message including system information of the changed access mode to the CSG UE 310 and the non-CSG UE 300 in step 331 and step 333, respectively.
The non-CSG UE 300 accesses the target NB 330 and receives a service from the target NB 330 by performing a general handover procedure in step 335.
Though both the CN 340 and the target NB 330 perform the access mode control in
Referring to
The CN 440 determines whether an NB whose cell load is greater than a reference level and an NB whose cell load is less than the reference level exist among NBs whose coverage areas overlap, based on the load information for each cell and an inter-NB coverage mapping table. If an NB whose cell load is greater than the reference level and an NB whose cell load is less than the reference level exist among the NBs with overlapping coverage areas, the CN 440 may distribute a cell load by changing an access mode of the NB whose cell load is less than the reference level so that a UE that receives a service from an NB whose cell load is greater than the reference level may perform a handover to the NB whose cell load is less than the reference level.
Referring to
In step 415, the CN 440 transmits an access mode change request message to the neighbor NB 430. Here, the access mode change request message requests the neighbor NB 430 to change its access mode so that the non-CSG UE 400 may access the neighbor NB 430.
In step 417, the neighbor NB 430 controls its access mode. Specifically, the neighbor NB 430 determines whether to allow its access mode to change so that the non-CSG UE 400 may access the neighbor NB 430. When the neighbor NB 430 is a femto NB, the neighbor NB may additionally receive an allowance from an owner of the femto NB to change its access mode. That is, the neighbor NB may transmit an access mode change request message to the owner 410 of the femto NB and receive an access mode change response message from the owner 410 of the femto NB in step 419.
In step 421, the neighbor NB 430 transmits an access mode change response message including an access mode control result to the CN 440. When determining an allowance with respect to its access mode, the neighbor NB 430 informs the CSG UE 410 that the access mode has changed, and accordingly, that the system information has changed, by transmitting a system information modification message to the CSG UE 410 in step 423. For example, the neighbor NB 430 may change its access mode to a hybrid access mode so that not only the CSG UE 410, but also the non-CSG UE 400, may access the neighbor NB 430. In this case, the neighbor NB 430 may transmit a hybrid access system info.-message including system information of the changed access mode to the CSG UE 410 and the non-CSG UE 400 in steps 425 and 427, respectively.
In step 429, the non-CSG UE 400 generates a measurement report message based on the system info.-message received from the neighbor NB 430, and transmits the same to the serving NB 420. The serving NB 420 determines a handover of the non-CSG UE 400 based on the measurement report message in step 431. When the serving NB transmits a handover command message to the non-CSG UE 400 according to the handover decision of the non-CSG UE 400, the non-CSG UE 400 is connected to the neighbor NB 430 and receives a service from the neighbor NB 430 by performing a general handover procedure in step 433.
In
As another example, an NB may spontaneously request to change its access mode. That is, an NB whose cell load is less than a reference level may request to change its own access mode, which will be described in more detail with reference to
Referring to
In addition, NBs 520 and 530 exchange a load info.-message, including cell load information, with each other in steps 509 and 511. The NBs 520 and 530 determine whether an NB whose cell load is greater than a reference level and an NB whose cell load is less than the reference level exist among NBs including the NBs 520 and 530, whose coverage areas overlaps those of the NBs 520 and 530, based on the load information for each cell collected through the load info.-message exchange and an inter-NB coverage mapping table.
When an NB whose cell load is greater than the reference level and an NB whose cell load is less than the reference level exist among the NBs whose coverage areas overlap, the NBs 520 and 530 may distribute the cell load by changing an access mode of the NB whose cell load is less than the reference level so that a UE that receives a service from the NB whose cell load is greater than the reference level may perform a handover to the NB whose cell load is less than the reference level. Therefore, when an NB whose cell load is greater than the reference level and an NB whose cell load is less than the reference level exist among the NBs whose coverage areas overlap those of the NBs 520 and 530, the NB 520 or 530 determines whether the NB whose cell load is greater than the reference level is itself, and when the NB is itself, the NB 520 or 530 determines to request the NB whose cell load is less than the reference level to change an access mode in step 513.
For example, when the coverage of the serving NB 520 of the non-CSG UE 500 overlaps the coverage of the neighbor NB 530, the cell load of the serving NB 520 is greater than the reference level, and the cell load of the neighbor NB 530 is less than the reference level, the serving NB 520 determines whether to request the neighbor NB 530 to change an access mode so that the non-CSG UE 500 may perform a handover to the neighbor NB 530 whose cell load is less than the reference level to receive a service from the neighbor NB 530.
More specifically, the serving NB 520 transmits an access mode change request message to the neighbor NB 530 in step 515. Here, the access mode change request message requests the neighbor NB 530 to change its access mode so that the non-CSG UE 500 may access the neighbor NB 530.
In step 517, the neighbor NB 530 controls its access mode. Specifically, the neighbor NB 530 determines whether to allow its access mode to change so that the non-CSG UE 500 may access the neighbor NB 530.
When the neighbor NB 530 is a femto NB, the neighbor NB 530 may additionally receive an allowance from an owner of the femto NB to change the access mode. That is, the neighbor NB 530 may additionally transmit an access mode change request message to the owner 510 of the femto NB and receive an access mode change response message from the owner 510 of the femto NB in step 519.
When the neighbor NB 530 determines to allow its access mode to change, the neighbor NB 530 transfers the access mode change request message to a CN 540 in step 521.
In step 523, the CN 540 controls an access mode of the neighbor NB 530. Specifically, when the CN 540 has an allowance authority regarding the access mode change, the CN 540 may determine whether to allow the access mode change through a separate access mode change algorithm. However, when the CN 540 does not have the allowance authority regarding the access mode change, the CN 540 may unconditionally determine allowance with respect to the access mode change.
In step 525, the CN 540 transmits an access mode change response message including an access mode control result to the neighbor NB 530, and in step 527, the neighbor NB 530 transfers an access mode change response message including a final access mode control result to the serving NB 520.
When determining an allowance with respect to its access mode change as the final access mode control result, the neighbor NB 530 informs the CSG UE 510 that the access mode has changed, and accordingly, that the system information has changed, by transmitting a system information modification message to the CSG UE 510 in step 529. For example, the neighbor NB 530 may change its access mode to a hybrid access mode so that the CSG UE 510 and also the non-CSG UE 500 may access the neighbor NB 530. In this case, the neighbor NB 530 may transmit a hybrid access system info.-message including system information of the changed access mode to the CSG UE 510 and the non-CSG UE 500 in steps 531 and 533, respectively.
In step 535, the non-CSG UE 500 generates a measurement report message based on the system info.-message received from the neighbor NB 530, and transmits the same to the serving NB 520. The serving NB 520 determines a handover of the non-CSG UE 500 based on the measurement report message in step 537. When the serving NB 520 transmits a handover command message to the non-CSG UE 500 according to a handover decision of the non-CSG UE 500, the non-CSG UE 500 receives a service from the neighbor NB 530 by performing a general handover procedure and accessing the neighbor NB 530 in step 539.
Referring to
In addition, the NBs 620 and 630 exchange load info.-message including cell load information with each other. The NBs 620 and 630 determine whether an NB whose cell load is greater than a reference level and an NB whose cell load is less than the reference level exist among NBs including the NBs 620 and 630, whose coverage areas overlap those of the NBs 620 and 630, based on the load information for each cell collected through the load info.-message exchange and an inter-NB coverage mapping table.
When an NB whose cell load is greater than the reference level and an NB whose cell load is less than the reference level exist among the NBs whose coverage areas overlap, the NBs 620 and 630 may distribute the cell load by changing an access mode of the NB whose cell load is less than the reference level so that a UE that receives a service from the NB whose cell load is greater than the reference level may perform a handover to the NB whose cell load is less than the reference level.
Therefore, when an NB whose cell load is greater than the reference level and an NB whose cell load is less than the reference level exist among the NBs whose coverage areas overlap those of the NBs 620 and 630, the NB 620 or 630 determines whether the NB whose cell load is less than the reference level is itself, and when the NB is itself, the NB 620 or 630 determines whether to change its own access mode in step 609.
For example, when the coverage area of the serving NB 620 of the non-CSG UE 600 overlap the coverage area of the neighbor NB 630, the cell load of the serving NB 620 is greater than the reference level, and the cell load of the neighbor NB 630 is less than the reference level, the neighbor NB 630 determines to change its access mode so that the non-CSG UE 600 may perform a handover to the neighbor NB 630 to receive service from the neighbor NB 630.
Additionally, when the neighbor NB 630 is a femto NB, the neighbor NB may additionally receive an allowance from an owner of the femto NB to change the access mode. That is, the neighbor NB may additionally transmit an access mode change request message to the owner 610 of the femto NB and receive an access mode change response message from the owner 610 of the femto NB in step 611.
The neighbor NB 630 transmits an access mode change request message to the CN 640 in step 613. Here, the access mode change request message requests the neighbor NB 630 to change its access mode so that the non-CSG UE 600 may access the neighbor NB 630.
In step 615, the CN 640 controls the access mode of the neighbor NB 630. Specifically, when the CN 640 has an allowance authority regarding the access mode change, the CN 640 may determine whether to allow the access mode change through a separate access mode change algorithm. However, when the CN 640 does not have the allowance authority regarding the access mode change, the CN 640 may unconditionally determine an allowance with respect to the access mode change.
The CN 640 transmits an access mode change response message including an access mode control result to the neighbor NB 630 in step 617. When determining an allowance with respect to the access mode change of the neighbor NB 630, the neighbor NB 630 informs the CSG UE 610 that the access mode has changed, and accordingly, that the system information has changed, by transmitting a system information modification message to the CSG UE 610 in step 619.
For example, the neighbor NB 630 may change its own access mode to a hybrid access mode so that the CSG UE 610 and the non-CSG UE 600 may access the neighbor NB 630. In this case, the neighbor NB 630 may transmit hybrid access system info:—messages including system information of the changed access mode to the CSG UE 610 and the non-CSG UE 600 in steps 621 and 623, respectively.
In step 625, the non-CSG UE 600 generates a measurement report message based on the system info.-message received from the neighbor NB 630, and transmits the same to the serving NB 620 of the non-CSG UE 600. The serving NB 620 determines a handover of the non-CSG UE 600 based on the measurement report message in step 627. When the serving NB 620 transmits a handover command message to the non-CSG UE 600, the non-CSG UE 600 is connected to the neighbor NB 630 in order to receive service from the neighbor NB 630 by performing a general handover procedure in step 629.
Referring to
In step 705, the CN 720 controls the access mode of the NB 710. Specifically, when the CN 720 has an allowance authority regarding the access mode decision, the CN 720 may determine whether to allow the access mode decision or determine a different access mode and allocate a suitable PCI through a separate access mode decision algorithm. However, when the CN 720 does not have the allowance authority regarding the access mode decision, the CN 720 may unconditionally determine an allowance with respect to the access mode decision, and allocate a suitable PCI.
In step 707, the CN 720 transmits an access mode change response message including an access mode control result to the NB 710. When the CN 720 determines an allowance with respect to the access mode decision of the NB 710 through the access mode control, the NB 710 transmits a system info.-message including system information of the determined access mode to a UE 700 in step 709.
The UE 700 generates a measurement report message based on the system info.-20 message received from the NB 710, and transmits the measurement report message to the serving NB to try a handover to the NB 710 or perform an initial access procedure to the NB 710 in step 711.
Referring to
The CN 820 controls an access mode of the NB 810 in step 805. Specifically, the CN 820 determines the access mode of the NB 810 through a separate access mode decision algorithm, and allocates a suitable PCI. The CN 820 transmits an access mode change response message including an access mode control result to the NB 810 in step 807.
In step 809, the NB 810 transmits a system info.-message including system information of the determined access mode to a UE 800.
The UE 800 generates a measurement report message based on the system info.-message received from the NB 800, and transmits the measurement report message to the serving NB to try a handover to the NB 810 or to perform an initial access procedure to the NB 810 in step 811.
Referring to
A neighbor NB 910 of the UE 900 determines to request a peripheral NB to change an access mode for the purpose of reducing an inter-cell interference in step 903. For example, the neighbor NB 910 may requests the serving NB 920 to change its access mode. The following description is described using the above example.
In step 905, the neighbor NB 910 transmits an access mode change request message to a CN 930. Here, the access mode change request message requests the serving NB 920 to change the access mode.
The CN 930 controls the access mode of the serving NB 920 in step 907. Specifically, when the CN 930 has an allowance authority regarding the access mode change, the CN 930 may determine whether to allow the access mode change through a separate access mode change algorithm. However, when the CN 930 does not have the allowance authority regarding the access mode change, the CN 930 may unconditionally determine allowance with respect to the access mode change.
When determining to allow the access mode change of the serving NB 920, the CN 930 transfers the access mode change request message to the serving NB 920 in step 909.
The serving NB 920 that has received the access mode change request message controls its own access mode in step 911. That is, the serving NB 920 determines whether to allow its access mode to change.
When the serving NB 920 is a femto NB, the serving NB 920 may additionally receive an allowance from an owner of the femto NB to change the access mode.
In step 913, the serving NB 920 transmits an access mode change response message including an access mode control result to the CN 930, and in step 917, the CN 930 transfers the access mode change response message including the final access mode control result to the neighbor NB 910.
When determining to allow the access mode change of the serving NB 920, the serving NB 920 informs the UE 900 that the access mode has changed, and accordingly, that the system information has changed, by transmitting a system information modification message to the UE 900 in step 915. In addition, the serving NB 920 may transmit a changed system info.-message including system information of the changed access mode to the UE 900 in step 919.
In conjunction with
Referring to
A neighbor NB 1010 of the UE 1000 may determine to request a peripheral NB to change an access mode for the purpose of reducing an inter-cell interference in step 1003. For example, the neighbor NB may request the serving NB 1020 to change its access mode. The following description is made using the above example.
The neighbor NB 1010 transmits an access mode change request message to the serving NB 1020 in step 1005. Here, the access mode change request message requests the serving NB 1020 to change the access mode.
In step 1007, the serving NB 1020 controls its own access mode. That is, the serving NB 1020 determines whether to allow its access mode to change.
When the serving NB 1020 is a femto NB, the serving NB may additionally receive an allowance from an owner of the femto NB to change the access mode.
When determining to allow its access mode change, the serving NB 1020 transfers the access mode change request message to a CN 1030 in step 1009.
The CN 1030 that has received the access mode change request message controls the access mode of the serving NB 1020 in step 1011. Specifically, when the CN 1030 has an allowance authority regarding the access mode change, the CN 1030 may determine whether to allow the access mode change through a separate access mode change algorithm. However, when the CN 1030 does not have the allowance authority regarding the access mode change, the CN 1030 may unconditionally determine allowance with respect to the access mode change.
The CN 1030 transmits an access mode change response message including an access mode control result to the serving NB 1020 in step 1013. The serving NB 1020 transfers the access mode change response message including the final access mode control result to the neighbor NB 1010 in step 1015.
Alternatively, instead of the two messages in steps 1013 and 1015, the CN 1030 may directly transfer the access mode change response message including the access mode control result to the neighbor NB 1010.
When determining to allow its access mode change, the serving NB 1020 informs the UE 1000 that the access mode has changed, and accordingly, that system information has changed, by transmitting a system information modification message to the UE 1000 in step 1017. In addition, the serving NB 1020 may transmit a system info.-message including system information of the changed access mode to the UE 1000 in step 1019.
Table 1 summarizes an operating method of an NB according to an access mode change of the NB.
Referring to Table 1, when an access mode change occurs, an NB notifies a system information change to a UE communicating with the NB in a previous access mode. Of course, in cases of cases 1 and 2 above, which allow all UEs that operate in a previous access mode to perform a handover, such a system information change notice is not required.
In cases 3 and 5, when an NB that is requested to change an access mode is a femto NB, receiving an allowance from an owner of the femto NB to change the access mode may be additionally performed.
Referring to
In step 1105, the NB 1120 may determine to change its access mode to a closed access mode. When determining to change its access mode, the NB 1120 reports the access mode change to a CN 1130 by transmitting an access mode change request message to the CN 1130 in step 1107.
In step 1109, the CN 1130 controls the access mode of the NB 1120. Specifically, when the CN 1130 has an allowance authority regarding the access mode decision, the CN 1130 may determine whether to allow the access mode decision or determine a different access mode and allocate a suitable PCI through a separate access mode decision algorithm. However, when the CN 1130 does not have the allowance authority regarding the access mode decision, the CN 1130 may unconditionally determine an allowance with respect to the access mode decision, and allocate a suitable PCI.
The CN 1130 transmits an access mode change response message including an access mode control result to the NB 1120 in step 1111. When the CN 1130 determines to allow the access mode decision of the NB 1120, the NB 1120 orders the non-CSG UE 1100 to perform a handover in step 1113, and transmits a closed access system info.-message including system information of the determined changed access mode to the CSG UE 1110 in step 1115.
The CSG UE 1110 generates a measurement report message based on the system info.-message received from the NB 1120, and transmits the measurement report message to the serving NB to try a handover to the NB 1120 or perform an initial access procedure to the NB 1120 in step 1117. In step 1119, the CSG UE 1110 is connected to the NB 1120, now in the closed access mode, to receive service.
Referring to
The NB 1220 may determine to change its access mode from a closed access mode to a hybrid access mode in step 1205. When determining to change its access mode, the NB 1220 transmits an access mode change request message to the CN 1230 in step 1207.
In step 1209, the CN 1230 controls the access mode of the NB 1220. Specifically, when the CN 1230 has an allowance authority regarding the access mode decision, the CN 1230 may determine whether to allow the access mode decision or determine a different access mode and allocate a suitable PCI through a separate access mode decision algorithm. However, when the CN 1230 does not have the allowance authority regarding the access mode decision, the CN 1230 may unconditionally determine an allowance with respect to the access mode decision, and allocate a suitable PCI.
In step 1211, the CN 1230 transmits an access mode change response message including an access mode control result to the NB 1220. When the CN 1230 determines to allow the access mode decision of the NB 1220, the NB 1220 informs the CSG UE 1210 that the access mode has changed, and accordingly, that system information has changed, by transmitting a system information modification message to the CSG UE 1210 in step 1213. In addition, the NB 1220 transmits a hybrid access system info.-message including system information of the changed access mode to the CSG UE 1210 and a non-CSG UE 1200 in steps 1215 and 1217, respectively.
In step 1219, the non-CSG UE 1200 generates a measurement report message based on the system information message received from the NB 1220, and transmits the measurement report message to the serving NB to try a handover to the NB 1220 or perform an initial access procedure to the NB 1220. In step 1221, the non-CSG UE 1200 is connected to the NB 1220 of the hybrid access mode as an open user to receive service.
In
Though description has been made using an example where an NB requests a CN to change its access mode with reference to
Referring to
A CN 1430 may determine to change the access mode of the NB 1420 from the closed access mode to a hybrid access mode in step 1405. When determining to change the access mode of the NB 1420, the CN 1430 requests the NB 1420 to change the access mode by transmitting an access mode change request message to the NB 1420 in step 1407.
When the NB 1420 is a femto NB, the NB 1420 may additionally receive an allowance from an owner of the femto NB to change the access mode. That is, the NB 1420 may additionally transmit an access mode change request message to the owner 1410 of the femto NB in step 1409, and receive an access mode change response message from the owner 1410 of the femto NB in step 1411.
The NB 1420 transmits an access mode change response message including an access mode change response to the CN 1430 in step 1413. When the owner 1410 of the femto NB allows the access mode change, the NB 1420 informs the CSG UE 1410 that the access mode has changed, and accordingly, that system information has changed, by transmitting a system information modification message to the CSG UE 1410 in step 1415. In addition, the NB 1420 transmits a hybrid access system info.-message including system information of the changed access mode to the CSG UE 1410 and a non-CSG UE 1400 in steps 1417 and 1419, respectively.
In step 1421, the non-CSG UE 1400 generates a measurement report message based on the system information message received from the NB 1420, and transmits the measurement report message to the serving NB to try a handover to the NB 1420 or perform an initial access procedure to the NB 1420. In step 1423, the non-CSG UE 1400 is connected to the NB 1420, now operating in the hybrid access mode, as an open user to receive service.
Referring to
The NB 1520 may determine to change its access mode to a hybrid access mode in step 1505. When determining to change its access mode, the NB 1520 transmits an access mode change request message to the CN 1530 in step 1507.
In step 1509, the CN 1530 controls an access mode of the NB 1520. Specifically, when the CN 1530 has an allowance authority regarding the access mode decision, the CN 1530 may determine whether to allow the access mode decision or determine a different access mode and allocate a suitable PCI through a separate access mode decision algorithm. However, when the CN 1530 does not have the allowance authority regarding the access mode decision, the CN 1530 may unconditionally determine an allowance with respect to the access mode decision, and allocate a suitable PCI.
In step 1511, the CN 1530 transmits an access mode change response message including an access mode control result to the NB 1520. When the CN 1530 determines an allowance with respect to the access mode decision of the NB 1520, the NB 1520 may determine a handover of the non-CSG UE 1500 depending on a resource shortage in step 1513. In addition, the NB 1520 informs the non-CSG UE 1500 that the access mode has changed, and accordingly, that system information has changed, by transmitting a system information modification message to the non-CSG UE 1500 in step 1515. In addition, the NB 1520 transmits a hybrid access system info,-message including system information of the changed access mode to the non-CSG UE 1500 and a CSG UE 1510 in steps 1517 and 1519, respectively.
In step 1521, the CSG UE 1510 generates a measurement report message based on the system information message received from the NB 1520, and transmits the measurement report message to the serving NB to try a handover to the NB 1520 or perform an initial access procedure to the NB 1520. In step 1523, the CSG UE 1510 is connected to the NB 1520, now operating in the hybrid access mode, as a closed user to receive a service.
Because cases 5 and 6 are the same as the foregoing, repetitive detailed descriptions thereof are omitted.
Referring to
Referring to
When the access mode change request message requesting the neighbor NB to change the access mode is received from the CN or directly from the NB, the neighbor NB controls its access mode in step 1703. That is, the neighbor NB determines whether to allow its access mode to change.
When the neighbor NB is a femto NB, the neighbor NB may additionally receive an allowance from an owner of the femto NB to change the access mode. In addition, the neighbor NB may transfer the access mode change request message to the CN, receive an access mode change response message including an access mode control result from the CN, and finally determine whether to allow the access mode change of itself based on an access mode control result performed by the CN and an access mode control result performed by the neighbor NB.
The neighbor NB transmits an access mode change response message including a final access mode control result to the CN or the NB in step 1705.
The neighbor NB determines whether an allowance has been determined with respect to the access mode change of the neighbor NB as a final access mode control result in step 1707.
When the access mode change of the neighbor NB is not allowed in step 1707, the neighbor NB ends the procedure.
However, when the access mode change of the neighbor NB is allowed in step 1707, the neighbor NB informs a UE that the access mode has changed, and accordingly, that system information has changed, by transmitting a system information modification message to the UE in step 1709. In step 1711, the neighbor NB transmits a system information message including system information of the changed access mode to the UE.
Referring to
In step 1803, the NB transmits an access mode change request message to a CN, requesting to change its access mode, and in step 1805, receives an access mode change response message including an access mode control result from the CN.
The NB determines whether an allowance has been determined with respect to the access mode change of the NB as an access mode control result in step 1807.
When the access mode change of the NB has not been allowed in step 1807, the NB ends the procedure.
However, when the access mode change of the NB has been allowed in step 1807, the NB informs a UE that the access mode has changed, and accordingly, that system information has changed, by transmitting a system information modification message to the UE in step 1809. In step 1811, the NB transmits a system information message including system information of the changed access mode to the UE.
Referring to
The duplexer 1901 transmits a transmission signal provided from the transmission modem 1913 via an antenna, and provides a reception signal from the antenna to the reception modem 1903 according to a duplexing scheme.
The reception modem 1903 recovers data from a signal provided from the duplexer 1901, and transfers the data to the message processor 1905. For example, the reception modem 1903 includes a Radio Frequency (RF) reception block, a demodulation block, and a channel-decoding block. The RF reception block includes a filter and an RF pre-processor. When a wireless communication system utilizes OFDM scheme, the demodulation block includes a Fast Fourier Transform (FFT) operator for extracting data contained in each subcarrier. The channel-decoding block includes a demodulator, a deinterleaver, and a channel decoder.
The message processor 1905 extracts control information from a signal provided from the reception modem 1903 and provides the extracted control information to the controller 1907. For example, the message processor 1905 extracts a message related to an access mode change provided from a CN or a neighbor NB, and provides the extracted message to the controller 1907.
The controller 1907 controls an entire transmission/reception operation of the NB. Specifically, the controller 1907 determines to change an access mode of a neighbor NB or the NB for the purpose of reducing an interference or distributing a cell load, controls the message generator 1911 to generate an access mode change request message requesting the access mode change according to the decision, and controls the transmission modem 1913 to transmit the generated message to the CN or the neighbor NB. In addition, when an access mode change request message requesting the NB to change the access mode of the NB is received from the CN or the neighbor NB via the message processor 1905, the controller 1907 controls the access mode of the NB to determine whether to allow the access mode change of the NB, controls the message generator 1911 to generate an access mode change response message including an access mode control result according to the decision, and controls the transmission modem 1913 to transmit the generated message to the CN or the neighbor NB.
When the NB is a femto NB, the controller 1907 may additionally receive an allowance from an owner of the femto NB to change the access mode. In addition, when determining to change the access mode of the NB or performing an access mode control in response to a request of the CN or the neighbor NB to allow the access mode change of the NB, the controller 1907 controls the message generator 1911 to generate a system information modification message informing that the access mode has changed, and accordingly, that system information has changed, and generate a system information message including system information of the changed access mode, and controls the transmission modem 1913 to transmit the generated messages to the UE.
The access mode change unit 1909 changes the access mode of the NB according to the decision of the controller 1907.
The message generator 1911 generates a message to be transmitted to the CN, the neighbor NB, or the UE under control of the controller 1907, and provides the generated message to the transmission modem 1913. For example, the message generator 1911 generates a message related to the access mode change and provides the same to the transmission modem 1913.
The transmission modem 1913 converts a message or transmission data provided from the message generator 1911 into a form for transmission via a radio resource and provides the same to the duplexer 1901. For example, the transmission modem 1913 includes a channel encoding block, a modulation block, and an RF transmission block. The channel encoding block includes a modulator, an interleaves, and a channel encoder. When a wireless communication system utilizes the OFDM scheme, the modulation block includes an Inverse Fast Fourier Transform (IFFT) operator for mapping data to each subcarrier. The RF transmission block includes a filter and an RF pre-processor.
In the above description of
As described above, the various embodiments of the present invention solve an interference problem generated between neighbor NBs that use different access modes, while using the same frequency, and provide a load balancing effect in a specific area or when an event occurs by changing an access mode of an NB depending on different factors in a wireless communication system.
While the present invention has been shown and described with reference to certain embodiments thereof, it will be understood by those skilled in the art that various changes in form and details may be made therein without departing from the spirit and scope of the present invention as defined by the appended claims and their equivalents.
Claims
1. A method for changing an access mode of a second Node B (NB) by a first NB or a Core Network (CN) of a wireless communication system, the method comprising:
- determining to change the access mode of the second NB;
- transmitting, to the second NB, an access mode change request message that requests an access mode change of the second NB; and
- receiving, from the second NB, an access mode change response message including an access mode control result.
2. The method of claim 1, wherein determining to change the access mode of the second NB comprises:
- receiving a measurement report message from a User Equipment (UE);
- determining whether the UE receives interference that is greater than a reference level from the second NB, based on the received measurement report message; and
- when the UE receives interference that is greater than the reference level from the second NB, determining to change of the access mode of the second NB.
3. The method of claim 1, wherein determining, by the first NB, to change the access mode of the second NB comprises:
- exchanging, with a plurality of NBs, a load information message including cell load information;
- determining whether coverage areas of the first NB and the second NB overlap each other, whether a cell load of the first NB is greater than a reference level, and whether a cell load of the second NB is less than a reference level, based on load information for each cell collected through the load information message exchange, and an inter-NB coverage mapping table; and
- when the coverage areas of the first NB and the second NB overlap each other, the cell load of the first NB is greater than the reference level, and the cell load of the second NB is less than the reference level, determining to change the access mode of the second NB.
4. The method of claim 1, wherein determining, by the CN, to change the access mode of the second NB comprises:
- receiving, from a plurality of NBs, load information messages include cell load information;
- determining whether an NB whose coverage overlaps that of the second NB and whose cell load is greater than a reference level exists, and whether a cell load of the second NB is less than the reference level, based on load information for each cell collected through the reception of the load information messages, and an inter-NB coverage mapping table; and
- when the NB whose coverage overlaps that of the second NB and whose cell load is greater than a reference level exists, and that the cell load of the second NB is less than the reference level, determining to change the access mode of the second NB.
5. A method for changing an access mode by a Node B (NB) of a wireless communication system, the method comprising:
- receiving an access mode change request message requesting change of the access mode of the NB from another NB or a Core Network (CN);
- determining whether to allow the access mode to change; and
- transmitting an access mode change response message including an access mode control result to the another NB or the CN.
6. The method of claim 5, wherein the NB is a femto NB, further comprising:
- transmitting an access mode change request message to an owner of the NB; and
- receiving an access mode change response message representing whether to allow an access mode change of the NB from the owner of the NB.
7. The method of claim 5, further comprising:
- when determining to allow the access mode change of the NB, transmitting, to a User Equipment (UE), a system information modification message informing that system information has changed according to a changed access mode; and
- transmitting, to the UE, a system information message including system information of the changed access mode.
8. A method for changing an access mode by a Node B (NB) in a wireless communication system, the method comprising:
- determining to change the access mode of the NB;
- transmitting, to a Core Network (CN), an access mode change request message that requests an access mode change of the NB; and
- receiving, from the CN, an access mode change response message including an access mode control result.
9. The method of claim 8, wherein the NB is a femto NB, further comprising:
- transmitting an access mode change request message to an owner of the NB; and
- receiving an access mode change response message that indicates whether to allow the access mode change of the NB from the owner of the NB.
10. The method of claim 8, further comprising:
- when the CN determines to allow the access mode change of the NB, transmitting, to a User Equipment (UE), a system information modification message informing that system information has changed according to a changed access mode; and
- transmitting, to the UE, a system information message including system information of the changed access mode.
11. The method of claim 8, wherein determining to change the access mode of the NB comprises:
- exchanging a load information message including cell load information with a plurality of NBs;
- determining whether coverage areas of the NB and a neighbor NB overlap each other, whether a cell load of the neighbor NB is greater than a reference level, and whether a cell load of the NB is less than the reference level, based on load information for each cell collected through the load information message exchange, and an inter-NB coverage mapping table; and
- when determining the coverage areas of the NB and the neighbor NB overlap each other, the cell load of the neighbor NB is greater than the reference level, and the cell load of the NB is less than the reference level, determining to change the access mode of the NB.
12. A first Node B (NB) of a wireless communication system that changes an access mode of a second NB, the first NB comprising:
- a controller for determining to change the access mode of the second NB;
- a transmission modem for transmitting, to the second NB, an access mode change request message requesting an access mode change of the second NB; and
- a reception modem for receiving, from the second NB, an access mode change response message including an access mode control result.
13. The first NB of claim 12, wherein the reception modem receives a measurement report message from a User Equipment (UE), and
- wherein the controller determines to change the access mode of the second NB when determining that the UE receives an interference of more than a reference level from the second NB, based on the measurement report message.
14. The first NB of claim 12, wherein the reception modem receives load information messages including cell load information from a plurality of NBs, and
- wherein the controller determines to change the access mode of the second NB when determining that the coverage areas of the first NB and the second NB overlap each other, a cell load of the first NB is greater than a reference level, and a cell load of the second NB is less than the reference level, based on the load information for each cell collected through the reception of the load information message and an inter-NB coverage mapping table.
15. A Node B (NB) of a wireless communication system that changes an access mode of the NB, the NB comprising:
- a reception modem for receiving, from another NB or a Core Network (CN), an access mode change request message requesting an access mode change of the NB;
- a controller for controlling the access mode of the NB, when the access mode change request message is received, to determine whether to allow the access mode change of the NB; and
- a transmission modem for transmitting, to the another NB or the CN, an access mode change response message including an access mode control result.
16. The NB of claim 15, wherein when the NB is a femto NB, the transmission modem transmits an access mode change request message to an owner of the NB, and
- wherein the reception modem receives an access mode change response message indicating whether to allow the access mode change of the NB from the owner of the NB.
17. The NB of claim 15, wherein when the controller determines to allow the access mode change of the NB, the transmission modem transmits, to a User Equipment (UE), a system information modification message informing that system information has changed according to a changed access mode, and transmits, to the UE, a system information message comprising system information of the changed access mode.
18. A Node B (NB) of a wireless communication system that changes an access mode of the NB, the NB comprising:
- a controller for determining to change the access mode of the NB;
- a transmission modem for transmitting an access mode change request message to a Core Network (CN), requesting an access mode change of the NB; and
- a reception modem for receiving, from the CN, an access mode change response message including an access mode control result.
19. The NB of claim 18, wherein when the NB is a femto NB, the transmission modem transmits an access mode change request message to an owner of the NB, and
- wherein the reception modem receives an access mode change response message representing whether to allow the access mode change of the NB from the owner of the NB.
20. The NB of claim 18, wherein when the CN determines to allow the access mode change of the NB, the transmission modem transmits, to a User Equipment (UE), a system information modification message informing that system information has changed according to a changed access mode, and transmits, to the UE, a system information message including system information of the changed access mode.
21. The NB of claim 18, wherein the reception modem receives load information messages including cell load information from a plurality of NBs, and
- wherein the controller determines to change the access mode of the NB when determining that coverage areas of the NB and a neighbor NB overlap each other, a cell load of the neighbor NB is greater than a reference level, and a cell load of the NB is less than a reference level, based on the load information for each cell collected through the reception of the load information messages and an inter-NB coverage mapping table.
Type: Application
Filed: Jun 9, 2010
Publication Date: Dec 9, 2010
Applicant: Samsung Electronics Co., Ltd. (Suwon-si)
Inventors: Ok-Seon LEE (Suwon-si), Yung-Soo Kim (Seongnam-si)
Application Number: 12/797,271
International Classification: H04W 80/00 (20090101); H04W 24/00 (20090101);