WO2010058972A2 - Procédé et appareil d'identification des types et modes d'accès de cellules voisines dans un environnement femtocell - Google Patents

Procédé et appareil d'identification des types et modes d'accès de cellules voisines dans un environnement femtocell Download PDF

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Publication number
WO2010058972A2
WO2010058972A2 PCT/KR2009/006819 KR2009006819W WO2010058972A2 WO 2010058972 A2 WO2010058972 A2 WO 2010058972A2 KR 2009006819 W KR2009006819 W KR 2009006819W WO 2010058972 A2 WO2010058972 A2 WO 2010058972A2
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WIPO (PCT)
Prior art keywords
neighbor cell
user equipment
access mode
femtocell
cell
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PCT/KR2009/006819
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English (en)
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WO2010058972A3 (fr
Inventor
Ok Seon Lee
Jung Hoon Cheon
Young Hyun Jeon
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Samsung Electronics Co., Ltd.
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Application filed by Samsung Electronics Co., Ltd. filed Critical Samsung Electronics Co., Ltd.
Publication of WO2010058972A2 publication Critical patent/WO2010058972A2/fr
Publication of WO2010058972A3 publication Critical patent/WO2010058972A3/fr

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    • HELECTRICITY
    • H04ELECTRIC COMMUNICATION TECHNIQUE
    • H04WWIRELESS COMMUNICATION NETWORKS
    • H04W48/00Access restriction; Network selection; Access point selection
    • H04W48/08Access restriction or access information delivery, e.g. discovery data delivery
    • HELECTRICITY
    • H04ELECTRIC COMMUNICATION TECHNIQUE
    • H04WWIRELESS COMMUNICATION NETWORKS
    • H04W36/00Hand-off or reselection arrangements
    • H04W36/08Reselecting an access point
    • HELECTRICITY
    • H04ELECTRIC COMMUNICATION TECHNIQUE
    • H04WWIRELESS COMMUNICATION NETWORKS
    • H04W48/00Access restriction; Network selection; Access point selection
    • H04W48/16Discovering, processing access restriction or access information
    • HELECTRICITY
    • H04ELECTRIC COMMUNICATION TECHNIQUE
    • H04WWIRELESS COMMUNICATION NETWORKS
    • H04W48/00Access restriction; Network selection; Access point selection
    • H04W48/18Selecting a network or a communication service

Definitions

  • the present invention relates generally to identification of types and access modes of neighbor cells and, more particularly, to a method and apparatus that enables a user equipment to identify the types and access modes of neighbor cells on the basis of received neighbor cell identifiers.
  • a femtocell is an indoor cell in a home or office managed by a miniaturized base station that is connected through a broadband link to the core of a mobile communication network.
  • the word femtocell is a compound word formed from the word femto meaning 10-15 and the word cell meaning a coverage area for mobile communication, and refers to a cell having a radius of about 10m.
  • Femtocell base stations may contribute to extension of indoor cell coverage, enhancement of radio signal quality, and effective delivery of wired and wireless convergence services.
  • Femtocell base stations enable subscribers to receive high-quality data services, and are expected to play a major role in both existing third generation mobile communication systems and next generation mobile communication systems such as 3GPP (The 3rd Generation Partnership Project) LTE (Long Term Evolution).
  • 3GPP The 3rd Generation Partnership Project
  • LTE Long Term Evolution
  • a user equipment In an environment of macro cells, a user equipment is readily able to identify a particular cell while approaching the cell. However, in an environment where 5000 to 7000 femtocells may be deployed in a unit area of lkm 2 , a user equipment may have difficulty in identifying whether a neighbor cell is a macro cell or femtocell. Further, as discussed recently, a femtocell may operate in a closed access mode where the femtocell serves only a registered user, in an open access mode where the femtocell serves both a registered user and a non-registered user, or in a hybrid access mode where the closed access mode and open access mode are possible.
  • the present invention also provides a method and apparatus that enable a user equipment to enter one among plural searched neighbor cells having the highest priority where a femtocell in the closed access mode has priority over a femtocell in the open access mode and a femtocell in the open access mode has priority over a macro cell.
  • the present invention further provides a method and apparatus wherein, when a user equipment supporting a closed service mode receives an open access service from a femtocell in which the user equipment is registered, the service mode of the user equipment is transitioned to the closed service mode.
  • a neighbor cell identification method in a mobile communication system including macro cells and femtocells including: transmitting, by a neighbor cell that is a macro cell or a femtocell, a neighbor cell identifier containing information regarding the type and access mode of the neighbor cell to a user equipment; identifying, after receiving the neighbor cell identifier, by the user equipment, the type and access mode of the neighbor cell; and accessing, by the user equipment, the neighbor cell according to the identification result.
  • the neighbor cell identifier may be a PCI or GCI whose value range reflects the cell type and access mode. Alternatively, the neighbor cell identifier may be included in system information. Alternatively, the neighbor cell identifier may be a combination of a PCI and CSG indicator. Alternatively, the neighbor cell identifier may be a combination of a PCI and HNB indicator.
  • a user equipment capable of neighbor cell identification may receive a neighbor cell identifier from a neighbor cell, identify the type and access mode of the neighbor cell, and access the neighbor cell according to the identification result.
  • a cell that may produce a cell identifier containing information regarding the type and access mode of the cell, and transmit the cell identifier to a user equipment to enable neighbor cell identification.
  • a user equipment can receive cell identifiers broadcast from neighbor cells and identify the types and access modes of the neighbor cells.
  • the user equipment can preferentially enter one of the neighbor cells having the highest priority, and communicate at low cost.
  • the service mode of the user equipment is tran- sitioned to the closed service mode for more adequate services.
  • FIGURE 1 illustrates a sequence diagram for a procedure for a user equipment to perform neighbor cell search and handover
  • FIGURE 2 illustrates a system in which a user equipment identifies the type of a neighbor cell as a macro cell or a femtocell and identifies the access mode of a femtocell according to an exemplary embodiment of the present invention
  • FIGURE 3 illustrates a procedure for a femtocell operating in the hybrid access mode to activate the closed access mode or the open access mode according to the presence of a registered user equipment
  • FIGURE 4 illustrates a procedure for a femtocell operating in the closed access mode to newly activate the open access mode
  • FIGURE 5 illustrates a control procedure for a user equipment to access a femtocell
  • FIGURE 6 illustrates a procedure for a user equipment executing an automatic search function to search for a femtocell with which the user equipment is registered;
  • FIGURE 7 illustrates a sequence diagram for a handover procedure for a user equipment employing the first embodiment for neighbor cell identification according to another exemplary embodiment of the present invention
  • FIGURE 8 illustrates an operating procedure for a femtocell employing the second embodiment for neighbor cell identification according to another exemplary embodiment of the present invention
  • FIGURE 9 illustrates a procedure for a user equipment employing the third embodiment for neighbor cell identification according to another exemplary embodiment of the present invention.
  • FIGURE 10 illustrates a detailed procedure for the user equipment of FIGURE 9 to identify a neighbor cell as a femtocell operating in the hybrid access mode;
  • FIGURE 11 illustrates a procedure for a user equipment employing the fourth em- bodiment for neighbor cell identification according to another exemplary embodiment of the present invention.
  • FIGURE 12 illustrates a detailed procedure for the user equipment of FIGURE 11 to identify a neighbor cell as a femtocell operating in the open access mode.
  • the terms ⁇ include> and ⁇ comprise,> as well as derivatives thereof mean inclusion without limitation;
  • the term ⁇ or,> is inclusive, meaning and/or;
  • the phrases ⁇ associated with> and ⁇ associated therewith,> as well as derivatives thereof, may mean to include, be included within, interconnect with, contain, be contained within, connect to or with, couple to or with, be communicable with, cooperate with, interleave, juxtapose, be proximate to, be bound to or with, have, have a property of, or the like;
  • the term ⁇ controller> means any device, system or part thereof that controls at least one operation, such a device may be implemented in hardware, firmware or software, or some combination of at least two of the same.
  • FIGURES 1 through 12 discussed below, and the various embodiments used to describe the principles of the present disclosure in this patent document are by way of illustration only and should not be construed in any way to limit the scope of the disclosure. Those skilled in the art will understand that the principles of the present disclosure may be implemented in any suitably arranged wireless communication system.
  • a femtocell may operate in a closed access mode where the femtocell serves only a registered user, in an open access mode where the femtocell serves both a registered user and a non- registered user, or in a hybrid access mode wherein both the closed access mode and open access mode are possible.
  • the user equipment may connect through the open access mode to the femtocell and then transition to the closed access mode if the mobile terminal has registered with the femtocell.
  • the user equipment identifies the operating mode of a femtocell and also determines whether a neighbor cell is a macro cell or a femtocell. [30] Next, embodiments of the present invention are described in relation to determining whether a neighbor cell is a macro cell or a femtocell, and to determining whether the found femtocell operates in the open access mode, in the closed access mode or in the hybrid access mode.
  • the user equipment utilizes a physical cell identity (PCI) reflecting the operating mode or a global cell identifier (GCI) from a neighbor cell as a neighbor cell identifier.
  • PCI physical cell identity
  • GCI global cell identifier
  • the user equipment utilizes a piece of system information as a neighbor cell identifier.
  • the user equipment utilizes a PCI reflecting the operating mode and a CSG indicator in system information block- 1 (SIB-I) as a neighbor cell identifier.
  • SIB-I system information block- 1
  • the user equipment utilizes a PCI reflecting the operating mode and a Home enodeB (HNB) indicator as a neighbor cell identifier.
  • HNB Home enodeB
  • FIGURES 1 to 6 commonly apply to the four embodiments
  • FIGURE 7 applies to the first embodiment
  • FIGURE 8 applies to the second embodiment
  • FIGURES 9 and 10 apply to the third embodiment
  • FIGURES 11 and 12 apply to the fourth embodiment.
  • FIGURE 1 illustrates a typical procedure for a user equipment 110 to perform neighbor cell search and handover.
  • the user equipment 110 supports access to closed access femtocells, it maintains a whitelist of accessible femtocells.
  • a target base station 130 for handover may be a macro cell base station or a femtocell base station.
  • the user equipment 110 searches for a neighbor cell.
  • the user equipment 110 receives a reference symbol from a target base station 130, and obtains the PCI 150.
  • One of 504 PCIs is assigned to the target base station 130.
  • the assigned PCI is not a unique identity usable for handover.
  • the user equipment 110 needs to acquire a GCI, which is regarded as a unique cell identity, of a public land mobile network (PLMN).
  • PLMN public land mobile network
  • the user equipment 100 sends a measurement report 155 containing the PCI of the target base station 130 to the serving base station 120.
  • the serving base station 120 obtains a GCI corresponding to the PCI sent by the user equipment 110 through a pre-stored PCI-GCI mapping table, and sends the obtained GCI 160 to the user equipment 110.
  • the user equipment 110 can obtain the unique cell identifier of a target base station 130 using only the PCI.
  • the user equipment 110 may have to receive SIB-I 145 directly from the target base station 130 during a measurement gap and check the GCI thereof.
  • the user equipment 110 receives SIB-I 145 broadcast from the target base station
  • the target base station 130 broadcasts SIB-I 145 at regular intervals.
  • the user equipment 110 receives SIB-I 145 from the target base station 130 during a measurement gap allocated by the serving base station 120.
  • a Boolean CSG indicator may be contained.
  • the user equipment 110 supporting access to closed access femtocells compares the CSG identifier (CSG ID) of the cell broadcasting SIB- 1 with the whitelist. If the CSG identity of the cell is in the whitelist (that is, accessible), the user equipment 110 informs the serving base station 120 of this accessibility via measurement report 165.
  • CSG ID CSG identifier
  • the serving base station 120 makes a handover decision 170 on the basis of the measurement report 165 from the user equipment 110, and performs operations for the handover procedure together with the user equipment 110 (such as handover request 175, handover acknowledgement 180, handover command 185 and RACH preamble 199.
  • An existing femtocell does not provide information regarding the current access mode (closed access mode, open access mode, or hybrid access mode). Hence, it is necessary to develop a means that enables a user equipment to determine whether a neighbor cell is a macro cell or a femtocell, and to identify the access mode of the found femtocell.
  • FIGURE 2 illustrates a system in which a user equipment identifies the type of a neighbor cell as a macro cell or a femtocell and identifies the access mode of a femtocell according to an exemplary embodiment of the present invention.
  • the identification system includes a macro cell 210, femtocell 220, femtocell base station 230, macro-cell base station 240, and user equipment 250.
  • the macro cell 210 may contain a plurality of femtocells 220.
  • a femtocell 220 is served by a miniaturized indoor base station located in a household or office. Normally, the femtocell 220 is deployed directly by the user at a desired location.
  • the femtocell base station 230 serves the corresponding femtocell 220.
  • the femtocell base station 230 is an indoor base station that may provide services to members and non-members of the associated CSG.
  • the femtocell base station 230 is connected through a radio network controller (not shown) to the core network (not shown), and provides a mobile communication service to the user equipment 250.
  • the words ⁇ femtocell> and ⁇ femtocell base station> may be used interchangeably.
  • the femtocell 220 may operate in the open access mode, closed access mode, or hybrid access mode. When operating in the open access mode, the femtocell 220 serves any user equipment in the coverage area regardless of registration. When operating in the closed access mode, the femtocell 220 serves only a registered user equipment.
  • the femtocell 220 When operating in the hybrid access mode, the femtocell 220 serves a registered user equipment and an unregistered user equipment. Unlike the open access mode, the femtocell 220 provides a more refined service to a registered user equipment according to the contents of registration.
  • the femtocell 220 operating in the hybrid access mode, reserves a portion of resources in order to give a preference for connection to a registered user equipment. That is, the femtocell 220 operating in the hybrid access mode gives access to any user equipment. Later, when resources for open access are exhausted, the femtocell 220 activates the closed access mode to give access only to a registered user equipment.
  • the femtocell 220 operating in the hybrid access mode allocates all resources to user equipments. Later, when a registered user equipment approaches, the femtocell 220 reserves a portion of the resources for the registered user equipment by handing over one or more of the connected user equipments to the corresponding macro cell 210. To achieve this, the macro cell 210 maintains a list of user equipments registered with the femtocells 220 within the coverage area. Later, when a user equipment in the list is connected, the macro cell 210 informs the corresponding femtocell 220 of this connection.
  • the macro-cell base station 240 serves the macro cell 210 to provide mobile communication services to user equipments in the macro cell 210.
  • the words ⁇ macro cell> and ⁇ macro-cell base station> may be used interchangeably.
  • the user equipment 250 establishes a communication link to the macro-cell base station 240 or to the femtocell base station 230 to receive a mobile communication service.
  • the user equipment 250 receives a neighbor cell identifier broadcast by the macro cell 210 or the femtocell 220.
  • the neighbor cell identifier may be a PCI, GCI, SIB-I or a combination thereof. After reception of the neighbor cell identifier, the user equipment 250 identifies the type and access mode of a neighbor cell in several ways.
  • the user equipment 250 receives a PCI reflecting the type and operating mode from the macro cell 210 or the femtocell 220, as a neighbor cell identifier.
  • each of the macro cell 210 and the femtocell 220 defines an access mode field indicating the type and access mode in SIB-I, and broadcasts the system information according to the current operating mode.
  • the user equipment 250 receives the system information as a neighbor cell identifier from a neighbor cell, and examines the access mode field to identify the type and access mode of the neighbor cell.
  • each of the macro cell 210 and the femtocell 220 broadcasts a PCI and a CSG indicator reflecting the type and access mode as a neighbor cell identifier.
  • the user equipment identifies the type and access mode of a neighbor cell on the basis of the combination of the PCI and CSG indicator.
  • each of the macro cell 210 and the femtocell 220 broadcasts a PCI and an HNB indicator reflecting the type and access mode.
  • the user equipment identifies the type and access mode of a neighbor cell on the basis of the combination of the PCI and HNB indicator.
  • the user equipment 250 after identifying the types and access modes of neighbor cells, assigns priority values to the identified neighbor cells in order of a closed access femtocell, an open access femtocell and a macro cell, and sends a priority-based list of the neighbor cells to the serving base station. Hence, the user equipment 250 can connect to a neighbor cell with the highest priority according to the priority-based list.
  • FIGURE 3 illustrates a procedure for the femtocell 220 operating in the hybrid access mode to activate the closed access mode or the open access mode according to the presence of a registered user equipment 250.
  • the femtocell 220 operating initially in the hybrid access mode activates the closed access mode or the open access mode depending upon the presence of a registered user equipment 250.
  • the femtocell 220 owns both a PCI for the open access mode and another PCI for the closed access mode.
  • the femtocell 220 checks whether a registered user equipment 250 is present in the service area (block 310). When a registered user equipment 250 is present in the service area, the femtocell 220 proceeds to block 350.
  • the femtocell 220 deactivates the closed access mode and activates the open access mode (block 320). That is, the femtocell 220 operates in the open access mode.
  • the femtocell 220 broadcasts a reference symbol containing a PCI indicating the open access mode (block 330).
  • the femtocell 220 checks whether a registered user equipment 250 is approaching
  • the femtocell 220 sends a list of registered user equipments to a macro cell having an overlapping service area. Later, when a user equipment enters the macro cell and the user equipment is in the list, the macro cell informs the femtocell 220 of the user equipment. Thereby, the femtocell 220 can determine whether a registered user equipment is approaching. [64] When a registered user equipment 250 approaches, the femtocell 220 activates the closed access mode (block 350). Here, the femtocell 220 may deactivate or sustain the open access mode.
  • the femtocell 220 After activating the closed access mode, the femtocell 220 broadcasts a reference symbol containing a PCI indicating the closed access mode (block 360). Thereby, the femtocell 220 gives priority for connection to the registered user equipment. [66] As described before, when operating in the hybrid access mode, the femtocell 220 owns both a PCI for the open access mode and another PCI for the closed access mode.
  • FIGURE 4 illustrates a procedure for a femtocell 220 operating in the closed access mode to newly activate the open access mode.
  • the femtocell 220 operates initially only in the closed access mode (block 410). In this case, the femtocell 220 owns and broadcasts a PCI for the closed access mode.
  • the femtocell 220 activates the open access mode (block 420). In the open access mode, it is necessary for the femtocell 220 to broadcast a PCI for the open access mode. However, the femtocell
  • the femtocell 220 may not own a PCI for the open access mode because it started to operate only in the closed access mode.
  • the femtocell 220 informs a higher layer entity such as the mobility management entity (MME) of the operating mode change toward the open access mode (block 430).
  • MME mobility management entity
  • the femtocell 220 receives a new PCI for the open access mode assigned by the higher layer entity (block 440).
  • the femtocell 220 may activate the open access mode in response to a request for load balancing from the network. In this case, it is also necessary for the femtocell 220 to receive a new PCI for the open access mode assigned by the higher layer entity (such as MME).
  • the higher layer entity such as MME
  • FIGURE 5 illustrates a control procedure for a user equipment 250 to access a femtocell.
  • the user equipment 250 determines whether handover (or cell reselection) is necessary (block 510). If handover is necessary, the user equipment 250 performs neighbor cell search (block 520).
  • the user equipment 250 determines whether the found cell is a femtocell operating in the hybrid access mode (block 530). If the found cell is not a femtocell operating in the hybrid access mode, the user equipment 250 performs a regular handover procedure (block 540).
  • the user equipment 250 checks whether it is capable of receiving a closed access service (block 545). If incapable of receiving a closed access service, the user equipment 250 performs a regular handover procedure (block 540).
  • the user equipment 250 checks whether it is a user equipment registered with the found femtocell (block 550). If a registered user equipment, the user equipment 250 requests the femtocell to offer a closed access service and performs handover to the femtocell operating in the closed access mode (block 560).
  • the user equipment 250 requests the femtocell to offer an open access service and performs handover to the femtocell operating in the open access mode (block 570).
  • FIGURE 6 illustrates a procedure for a user equipment executing an automatic search function to search for a femtocell with which the user equipment is registered.
  • the automatic search function refers to a function that enables a user equipment capable of receiving a closed access service to continue neighbor cell search until the user equipment is connected to a femtocell with which the user equipment is registered.
  • the user equipment 250 connects to the found open access femtocell first, and continues to perform neighbor cell search until a femtocell with which the user equipment 250 is registered is found.
  • the user equipment 250 capable of receiving a closed access service activates the automatic search function (block 605).
  • the user equipment 250 performs neighbor cell search (block 610).
  • the user equipment 250 checks whether the signal strength of a found neighbor cell is greater than or equal to a preset threshold (block 615). If the signal strength of the neighbor cell is greater than or equal to the preset threshold, the user equipment 250 receives SIB-I broadcast by the neighbor cell (block 620). The user equipment 250 checks whether the CSG indicator in SIB-I is set to ⁇ 1> (block 625). Here, the CSG indicator set to ⁇ 1> indicates that the cell operates in the closed access mode.
  • the user equipment 250 checks whether the automatic search function is still activated (block 630). If the automatic search function is still activated, the user equipment 250 determines whether a femtocell with which the user equipment 250 is registered is not present at the current location (block 631). If a femtocell with which the user equipment 250 is registered is not present at the current location, the user equipment 250 deactivates the automatic search function (block 632). If a femtocell with which the user equipment 250 is registered is present at the current location, the user equipment 250 returns to block 610 for neighbor cell search.
  • the user equipment 250 checks the possibility of receiving a closed access service from the found neighbor cell (block 635). That is, the user equipment 250 checks whether it has registered with the found neighbor cell. If registered with the neighbor cell, the user equipment 250 performs handover to the neighbor cell operating in the closed access mode (block 640).
  • the user equipment 250 checks whether the
  • PCI received from the neighbor cell is a PCI for the open access mode (block 645). That is, the user equipment 250 checks whether the neighbor cell supports both the closed access mode and the open access mode.
  • the user equipment 250 performs handover to the neighbor cell operating in the open access mode (block 650). If the received PCI is not a PCI for the open access mode, the user equipment 250 checks whether the automatic search function is still activated (block 665). If the automatic search function is still activated, the user equipment 250 returns to block 610 for neighbor cell search. If the automatic search function is not activated, the user equipment 250 finishes the process. When the user equipment 250 travels and enters a region where a femtocell with which the user equipment 250 is registered is not present, the automatic search function is deactivated.
  • the PCI is designed to reflect the type and access mode of the corresponding cell.
  • PCI value ranges may be arranged in a manner shown in Table 1.
  • the PCI value ranges may be arranged in other ways.
  • GCI value ranges may be arranged in a similar manner.
  • values a, b and c are integers greater than zero.
  • the user equipment 250, macro cell 210 and femtocells 220 share information on the PCI value ranges. Values a, b and c may be dynamically adjusted according to the number of corresponding base stations.
  • FIGURE 7 illustrates a handover procedure for a user equipment 250 employing the first embodiment for neighbor cell identification according to another exemplary embodiment of the present invention.
  • the user equipment 250 receives a PCI from a target base station 130 and reports the received PCI to the serving base station 120.
  • the target base station 130 corresponds to a neighbor cell to which the user equipment 250 attempts to hand over, and may correspond to the macro cell 210 or a femtocell 220.
  • the target base station 130 and user equipment 250 share information regarding PCI or GCI value ranges reflecting the cell types and access modes (block 705).
  • the target base station 130 broadcasts its PCI 710.
  • the user equipment 250 near the target base station 130 receives the broadcast PCI.
  • FIGURE 7 depicts that the user equipment 250 receives a PCI from a single base station, the user equipment 250 receives PCIs from all nearby base stations.
  • the user equipment 250 identifies the type and access mode of the target base station
  • the user equipment 250 makes a priority -based list of neighbor base stations according to their types and access modes (block 715). Making a priority -based list of neighbor base stations (or neighbor cells) according to their types and access modes commonly applies to the four embodiments of the present invention.
  • the user equipment 250 assigns priority values to neighbor cells of the priority-based list in order of a closed access femtocell, an open access femtocell and a macro cell.
  • the user equipment 250 transmits a measurement report 720 containing the priority- based list to the serving base station 120.
  • the serving base station 120 makes a handover decision 725 for the user equipment
  • handover procedure is performed through handover request 730, handover acknowledgement 735, handover command 740 and handover 745.
  • the handover procedure is well known to a person in the art, and a detailed description thereof is omitted.
  • a femtocell operating in the hybrid access mode may give access to any user equipment regardless of registration, and may provide a closed access service to a registered user equipment.
  • each of the macro cell 210 and the femtocell 220 broadcasts system information containing an access mode field at Cell Access Related Information.
  • the system information may be SIB-I (system information block 1) or MIB (master information block).
  • a neighbor cell may broadcast an SIB-I or MIB containing the access mode field if necessary.
  • the access mode field may be defined in any other system information block that can be broadcast.
  • Table 2 illustrates an example of an access mode field defined at Cell Access Related Information in SIB-I.
  • the access mode field may also be defined in MIB in a similar way.
  • ⁇ access model>, ⁇ access mode2>, ⁇ access mode3>, and ⁇ access mode4> shown in Table 2 may be matched respectively with ⁇ macro cell>, ⁇ open access mode>, ⁇ closed access mode>, and ⁇ hybrid access mode>.
  • FIGURE 8 illustrates an operating procedure for a femtocell 220 employing the second embodiment for neighbor cell identification according to another exemplary embodiment of the present invention.
  • the femtocell 220 determines whether it is operable only in the open access mode (block 810). If operable only in the open access mode, the femtocell 220 determines whether it uses a dedicated channel (block 820). The use of a dedicated channel indicates that the femtocell 220 utilizes a frequency band different from that used by the macro cell 210.
  • the serving base station 120 sends a neighbor cell list (NCL) to the user equipment 250 (block 830). Thereafter, the femtocell 220 broadcasts system information containing the access mode field (block 840). Upon reception of the system information, the user equipment 250 can identify the access mode of the cell broadcasting the system information. As described above, the system information may be SIB-I or MIB.
  • the operability of the femtocell 220 may be found not to be limited to the open access mode at block 810. That is, the femtocell 220 is also operable in the closed access mode. [109] If operable in the closed access mode, the femtocell 220 determines whether sufficient resources are available for providing a closed access service (block 850). If sufficient resources are available, the femtocell 220 returns to block 820. If sufficient resources are not available, the femtocell 220 sends a command for handover toward another cell to one or more unregistered user equipments.
  • the type and access mode of a cell is determined on the basis of a combination of the PCI value range and CSG indicator.
  • Table 3 illustrates combinations of the PCI value range and CSG indicator for identification of the cell type and access mode. Table 3 is only for illustrative purposes, and the present invention is not necessarily limited to the contents of Table 3.
  • case 1 where the PCI is within the value range for the closed access mode and the CSG indicator in SIB-I is set to ⁇ true> (or ⁇ 1>), indicates that the corresponding cell is a femtocell operating in the closed access mode.
  • Case 2 where the PCI is within the value range for the closed access mode and the CSG indicator in SIB- 1 is set to ⁇ false> (or ⁇ 0>), indicates that the corresponding cell is an overloaded femtocell operating in the closed access mode.
  • FIGURE 9 illustrates a procedure for a user equipment 250 employing the third embodiment for neighbor cell identification according to another exemplary embodiment of the present invention.
  • the user equipment 250 receives a PCI and SIB-I from a neighbor cell.
  • the user equipment 250 receives a PCI and SIB-I containing a CSG indicator as a neighbor cell identifier from a neighbor cell (block 910).
  • the user equipment 250 checks the combination of the PCI and CSG indicator to identify the type and access mode of the neighbor cell (block 920).
  • the combinations of the PCI and CSG indicator are described in connection with Table 3, and a description thereof is omitted.
  • the user equipment 250 regards the neighbor cell as a femtocell operating in the closed access mode (block 930).
  • the user equipment 250 regards the neighbor cell as an overloaded femtocell operating in the closed access mode (block 940). The user equipment 250 determines whether it has registered with the neighbor cell (block 950). When registered with the neighbor cell, the user equipment 250 sends a standby notification to the neighbor cell (block 960). After the neighbor cell releases a connection to one or more user equipments in response to the standby notification, the user equipment 250 may preferentially connect to the neighbor cell.
  • the user equipment 250 regards the neighbor cell as a femtocell operating in the hybrid access mode (block 970). Block 970 is described further in connection with FIGURE 10.
  • the user equipment 250 regards the neighbor cell as a macro cell (block 980).
  • FIGURE 10 illustrates a detailed procedure for the user equipment 250 of FIGURE 9 to identify a neighbor cell as a femtocell operating in the hybrid access mode.
  • the user equipment 250 when identifying a neighbor cell as a femtocell operating in the hybrid access mode, the user equipment 250 may have to determine the type of service to receive from the neighbor cell. Hence, the user equipment 250 determines whether it is capable of receiving a closed access service (block 1010). If incapable of receiving a closed access service, the user equipment 250 regards the neighbor cell as a femtocell operating in the open access mode (block 1050), and may perform a corresponding handover procedure.
  • the user equipment 250 checks whether the automatic search function is activated (block 1020). If the automatic search function is not activated, the user equipment 250 regards the neighbor cell as a femtocell operating in the open access mode (block 1050), and may perform a corresponding handover procedure. [125] If the automatic search function is activated, the user equipment 250 determines whether it has registered with the neighbor cell (block 1030). If not having registered with the neighbor cell, the user equipment 250 regards the neighbor cell as a femtocell operating in the open access mode (block 1050), and may perform a corresponding handover procedure. If having registered with the neighbor cell, the user equipment 250 regards the neighbor cell as a femtocell operating in the closed access mode (block 1040), and may perform a corresponding handover procedure.
  • the HNB indicator may be newly defined as a Boolean value at SIB-I, or the CSG indicator may be used as the HNB indicator.
  • the HNB indicator may be defined by the use of a field indicating whether the corresponding cell is a femtocell.
  • the type and access mode of a cell is determined on the basis of a combination of the PCI value range and HNB indicator.
  • Table 4 illustrates combinations of the PCI value range and HNB indicator for identification of the cell type and access mode. Table 4 is only for illustrative purposes, and the present invention is not necessarily limited to the contents of Table 4.
  • case 1 where the PCI is within the value range for the closed access mode and the HNB indicator is set to ⁇ true> (or ⁇ 1>), indicates that the corresponding cell is a femtocell operating in the closed access mode.
  • Case 2 where the PCI is within the value range for the closed access mode and the HNB indicator is set to ⁇ false> (or ⁇ 0>), indicates that the corresponding cell is an overloaded femtocell operating in the closed access mode.
  • Case 3 where the PCI is within the value range for the open access mode and the HNB indicator is set to ⁇ true> (or ⁇ 1>), indicates that the corre- sponding cell is a femtocell operating in the open access mode.
  • Case 4 where the PCI is within the value range for the open access mode and the HNB indicator is set to ⁇ false> (or ⁇ 0>), indicates that the corresponding cell is a macro cell.
  • a user equipment 250 cannot determine whether a found cell is a femtocell operating in the hybrid access mode. This is because the HNB indicator indicates whether the cell is a femtocell but does not indicate the access mode of the cell.
  • a hybrid access femtocell broadcasts information indicating the open access mode (case 3) as a neighbor cell identifier. This femtocell operates in the open access mode, and gives access to unregistered user equipments. Later, when a registered user equipment is present, the femtocell provides a closed access service to the registered user equipment.
  • FIGURE 11 illustrates a procedure for a user equipment 250 employing the fourth embodiment for neighbor cell identification according to another exemplary embodiment of the present invention.
  • the user equipment 250 receives a PCI and HNB indicator from a neighbor cell.
  • the user equipment 250 receives a PCI and HNB indicator as a neighbor cell identifier from a neighbor cell (block 1110).
  • the user equipment 250 checks the combination of the PCI and HNB indicator to identify the type and access mode of the neighbor cell (block 1120).
  • the combinations of the PCI and HNB indicator are described in connection with Table 4, and a description thereof is omitted.
  • the user equipment 250 regards the neighbor cell as a femtocell operating in the closed access mode (block 1130).
  • the user equipment 250 regards the neighbor cell as an overloaded femtocell operating in the closed access mode (block 1140). The user equipment 250 determines whether it has registered with the neighbor cell (block 1150). When having registered with the neighbor cell, the user equipment 250 sends a standby notification to the neighbor cell (block 1160). After the neighbor cell releases a connection to one or more user equipments in response to the standby notification, the user equipment 250 may preferentially connect to the neighbor cell.
  • the user equipment 250 regards the neighbor cell as a femtocell operating in the hybrid access mode (block 1170). Block 1170 is described further in connection with FIGURE 12.
  • the user equipment 250 regards the neighbor cell as a macro cell (block 1180).
  • FIGURE 12 illustrates a detailed procedure for the user equipment 250 of FIGURE 11 to identify a neighbor cell as a femtocell operating in the open access mode.
  • the user equipment 250 cannot readily determine whether a neighbor cell is a femtocell operating in the hybrid access mode. In this case, the user equipment 250 connects to a femtocell operating in the open access mode, and checks whether it has registered with the femtocell.
  • the user equipment 250 connects to the neighbor cell for an open access service (block 1205).
  • the user equipment 250 checks whether the automatic search function is activated (block 1210). If the automatic search function is activated, the user equipment 250 checks whether an open access femtocell is found (block 1220). In this case, the user equipment 250 has already found an open access femtocell and connected to it. The user equipment 250 checks whether it has registered with the connected femtocell (block 1230).
  • the user equipment 250 informs the serving base station of registration and changes the connection for a closed access service (block 1240). If having registered with the femtocell, the user equipment 250 informs the serving base station of non-registration, sustains the connection for an open access service (block 1250), and returns to step 1210 for continued femtocell search while the automatic search function is activated.

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  • Engineering & Computer Science (AREA)
  • Computer Networks & Wireless Communication (AREA)
  • Signal Processing (AREA)
  • Computer Security & Cryptography (AREA)
  • Mobile Radio Communication Systems (AREA)

Abstract

Le système de communication mobile comprenant des macro cellules et des femtocells s’accompagne d’un procédé d’identification de cellules voisines comportant les phases suivantes : transmission, par une cellule voisine qui peut être une macro cellule ou une femtocell, d’un identificateur de cellule voisine contenant des informations concernant le type et le mode d’accès de la cellule voisine vers un équipement utilisateur. L’équipement utilisateur identifie, après réception de l’identificateur de cellule voisine, le type et le mode d’accès de la cellule voisine. L’équipement utilisateur accède également à la cellule voisine en fonction du résultat de l’identification.
PCT/KR2009/006819 2008-11-19 2009-11-19 Procédé et appareil d'identification des types et modes d'accès de cellules voisines dans un environnement femtocell WO2010058972A2 (fr)

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KR20100056116A (ko) 2010-05-27
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US20100124179A1 (en) 2010-05-20
WO2010058972A3 (fr) 2010-07-29

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