US9271227B2 - Method and system for allowing low priority UEs to connect to a femtocell operating in a mixed mode based on path loss - Google Patents
Method and system for allowing low priority UEs to connect to a femtocell operating in a mixed mode based on path loss Download PDFInfo
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- US9271227B2 US9271227B2 US13/540,750 US201213540750A US9271227B2 US 9271227 B2 US9271227 B2 US 9271227B2 US 201213540750 A US201213540750 A US 201213540750A US 9271227 B2 US9271227 B2 US 9271227B2
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- low priority
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- H—ELECTRICITY
- H04—ELECTRIC COMMUNICATION TECHNIQUE
- H04W—WIRELESS COMMUNICATION NETWORKS
- H04W48/00—Access restriction; Network selection; Access point selection
- H04W48/20—Selecting an access point
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- H—ELECTRICITY
- H04—ELECTRIC COMMUNICATION TECHNIQUE
- H04W—WIRELESS COMMUNICATION NETWORKS
- H04W84/00—Network topologies
- H04W84/02—Hierarchically pre-organised networks, e.g. paging networks, cellular networks, WLAN [Wireless Local Area Network] or WLL [Wireless Local Loop]
- H04W84/04—Large scale networks; Deep hierarchical networks
- H04W84/042—Public Land Mobile systems, e.g. cellular systems
- H04W84/045—Public Land Mobile systems, e.g. cellular systems using private Base Stations, e.g. femto Base Stations, home Node B
Definitions
- the invention relates in general to a user equipment (UE) processing method and a femtocell system, and more particularly to a method for processing UE connection under a mixed mode and a femtocell system.
- UE user equipment
- a femtocell links user equipments (UE) located within a household or a small zone via an air interface, and further links the UE to a network of an operator via a broadband network so as to achieve mobile data offloading.
- UE user equipments
- a broadband network so as to achieve mobile data offloading.
- indoor communication quality is improved, and voice and data services may be provided at a lower cost.
- the femtocell such as a home node-B (HNB) and a home evolved node-B (HeNB), provides wireless coverage for the UE located within a household.
- the femtocell provides a connection service to the UE.
- the femtocell provides three connection modes, namely, the open mode, the mixed mode and the closed mode. Under the open mode, every UE is unconditionally allowed to connect to the femtocell. Under the mixed mode, some UEs can be connected to the femtocell with higher priority, and other UEs can be connected to the femtocell with lower priority. Under the closed mode, connection service is provided to specified UE(s) only.
- the mixed mode is an important mode for the femtocell. However, the connection under the mixed mode is still lacking of agreed protocols, and details for implementing priority are not yet provided.
- the invention is directed to user equipment (UE) processing method under a mixed mode and a femtocell system.
- UE user equipment
- a method for processing UE connection under a mixed mode for use in a femtocell includes the following steps.
- a connection request is received from a low priority UE under a mixed mode.
- Whether the measurement results corresponding to the femtocell satisfy threshold settings is determined in response to the connection request, wherein the measurement results include a path loss corresponding to the femtocell. If the measurement results satisfy the threshold settings, then the low priority UE is allowed to be connected to the femtocell.
- a femtocell system for processing the connection of a UE.
- the femtocell system includes a mobile communication unit and a processing unit.
- the processing unit is coupled to the mobile communication unit for controlling the mobile communication unit to operate under at least one mobile communication mode. Under the mixed mode, the processing unit receives a connection request from a low priority UE.
- the processing unit determines whether the measurement results corresponding to the femtocell satisfy threshold settings, wherein the measurement results include a path loss corresponding to the femtocell. If the measurement results satisfy the threshold settings, then the processing unit controls the mobile communication unit to allow the low priority UE to be connected to the femtocell.
- suitable resource allocation such as the allocation of power and code resource, is provided after the low priority UE is connected to the femtocell under the mixed mode.
- FIG. 1 shows an embodiment of a method for processing UE connection.
- FIG. 2A and FIG. 2B illustrate sequence diagrams of some embodiments in which the processing method of FIG. 1 is implemented between a UE and a femtocell by using RRC protocol.
- FIG. 3 shows an embodiment of a femtocell system with a mixed mode.
- Embodiments of a user equipment (UE) processing method under a mixed mode and a femtocell are disclosed below.
- the femtocell processes a connection request sent by a low priority UE under a mixed mode.
- the quality of the signal is used as a criterion for determining whether to allow the connection of the low priority UE.
- resource allocation under a mixed mode is performed.
- an embodiment of a femtocell with a mixed mode is provided.
- the femtocell Under the mixed mode, the femtocell needs to process the UE connection request of both high priority UE and low priority UE (or the low priority UE may be regarded as a non-prioritized UE). Under the mixed mode, the femtocell should prioritize the connection request of the high priority UE and accordingly allocate more resources to the high priority UE even when the signal quality is poor.
- the UE is conformed to the 3GPP standard, such as a UE for WCDMA or TD-SCDMA. Examples of the UE include communication devices such as a smart phone, a tablet PC, an e-book and so on.
- the femtocell In response to the request of high priority UE, the femtocell needs o make suitable allocation for resource saving.
- the femtocell adopts signal quality as a criterion for determining whether to allow the connection request of the low priority UE, wherein the criterion of the signal quality also includes the amount of path loss.
- FIG. 1 an embodiment of a method for processing UE connection is shown.
- step S 10 a connection request from a low priority UE is received under a mixed mode.
- step S 20 in response to the connection request, whether the measurement results corresponding to the femtocell satisfy the threshold settings is determined, wherein the measurement results include the path loss corresponding to the femtocell.
- step S 40 the low priority UE is allowed to connect to the femtocell if the measurement results satisfy the threshold settings.
- step S 20 may include step S 123 so as to determine whether the measurement results corresponding to the femtocell satisfy the threshold settings, wherein the connection request carries the measurement results corresponding to the femtocell.
- the measurement results for the femtocell may be indicated by using, for example, an information element (IE) of measured results on random access channel (RACH) of a radio resource control (RRC) connection request according to the 3GPP standard.
- IE information element
- RACH random access channel
- RRC radio resource control
- the IE of the measurement results carried by the RCC connection request includes an Ec/N0 value of a common pilot channel (CPICH) corresponding to a particular cell (e.g., the femtocell), a received signal code power (RSCP) value from the CPICH, and a path loss value.
- CPICH common pilot channel
- RSCP received signal code power
- the low priority UE When the signal quality is good enough (that is, the measurement results corresponding to the femtocell satisfy the threshold settings; e.g., the Ec/N0 value, the RSCP value, and the path loss value satisfy respective thresholds), will the low priority UE be linked to the femtocell. For example, if the path loss value of the measurement results is less than a path loss threshold (such as less than 60 dB), then the low priority UE is allowed to connect to the femtocell, as shown in step S 40 .
- the threshold settings such as the above three thresholds, may be set according to the resource allocation of the femtocell or the needs of the bearers allocated to the UE, or obtained from the core network.
- the femtocell does not allow the connection of the low priority UE. For example, if the path loss value is greater than a path loss threshold (such as greater than 60 dB), then the connection request of the low priority UE is rejected, as shown in step S 125 . Particularly, if the path loss does not satisfy a path loss threshold of the threshold settings, a message is sent to inform that the connection request of the low priority UE is rejected, as shown in step S 125 .
- a path loss threshold such as greater than 60 dB
- That the path loss does not satisfy the path loss threshold has a physical meaning that the distance between the UE and the femtocell has been over a specific distance, and the femtocell will need to increase its output power if the connection request of the UE is allowed. Under such circumstance, the femtocell will reject the connection request of the low priority UE so as to avoid wasting more resources. In other words, such approach reserves the resources for the high priority UE.
- step S 20 may be implemented to include such as step S 121 , so as to determine whether the connection request carries measurement results corresponding to the femtocell. If not, as shown in step S 131 , a measurement control request is sent to the low priority UE so as to obtain the path loss corresponding to the femtocell. In step S 133 , whether the path loss satisfies a path loss threshold of the threshold settings is determined. If not, then the process proceeds to step S 135 so as to release the link.
- the method for processing the connection request of low priority UE as shown in FIG. 1 may be implemented between the UE and the femtocell according to the RRC protocol.
- the sequence diagrams illustrate the interaction between the UE and the femtocell.
- the femtocell layer 1 (FL1) unit denotes a logic unit or hardware unit for interconnections between the femtocell and the UE, for example, by using layer 1 Uu air interface of 3G mobile communication.
- the femtocell radio resource management (FRRM) unit denotes a logic unit or hardware unit for performing the operation related to radio resource management (RRM) between the FL1 unit and the core network OAM (such as the network of the operator).
- RRM radio resource management
- the FL1 unit and the FRRM unit can be combined as a physical device of the femtocell.
- the FRRM unit can be implemented as a dedicated device.
- step S 210 indicates that the user equipment UE sends an RRC connection request carrying measurement results corresponding to the femtocell.
- the FL1 unit receives and further transmits the connection request to the FRRM unit.
- the FRRM unit determines whether the RRC connection request carries measurement results (like the step S 121 of FIG. 1 ).
- the FRRM unit sends a threshold capture message to the core network OAM.
- the core network OAM sends a signal strength threshold.
- the FRRM unit determines whether the measurement results satisfy the threshold settings. If not, as shown in step S 235 , the FRRM unit sends an RRC reject message through a common control channel (CCCH).
- the RRC reject message is transmitted to the user equipment UE through the FL1 unit.
- CCCH common control channel
- step S 210 the user equipment UE sends an RRC connection request without carrying measurement results corresponding to the femtocell.
- the FL1 unit receives and further transmits the request to the FRRM unit.
- FRRM unit determines that the RRC connection request does not carry measurement results.
- steps S 260 to S 290 an RRC link is first set up between the femtocell and the FRRM unit, according to the RCC protocol. Then, the process proceeds to step S 305 .
- step S 305 an RRC measurement control message is sent to obtain the measurement results for further determination.
- the FRRM unit sends a radio link setup request (such as an NBAP RL setup request) to the FL1 unit to request the FL1 unit (that is, Node B) to allocate particular RRC resources.
- the FL1 unit in response to the message, sends a radio link setup response (such as an NBAP RL setup response) to the FRRM.
- the process proceeds to step S 270 , the FRRM unit sends an RRC connection setup message to the FL1 unit.
- the FL1 unit transmits the RRC connection setup message to the user equipment UE.
- the user equipment UE sends an RRC connection setup complete message to the FL1 unit.
- step S 290 indicates that the FL1 unit sends the RRC connection setup complete message to the FRRM unit.
- the FRRM unit sends an RRC measurement control request to the FL1 unit, as in step S 305 .
- the FL1 unit sends the RRC measurement control message to the user equipment UE.
- the user equipment UE sends an RRC measurement report to the FL1 unit.
- the FL1 unit transmits the RRC measurement report to the FRRM unit.
- the FRRM unit sends a threshold acquisition message to the core network OAM.
- the core network OAM sends threshold settings message to the FRRM.
- the FRRM unit determines whether the measurement results corresponding to the femtocell satisfy the threshold settings. If the path loss in the measurement results does not satisfy a path loss threshold, then a message is sent to inform the low priority UE that the connection request is rejected. As shown in step S 345 , the FRRM unit sends an RRC connection release message through a dedicated control channel (DCCH). As shown in step S 350 , the RRC connection release message is transmitted to the user equipment UE through the FL1 unit. In other words, the RRC connection request is rejected.
- DCCH dedicated control channel
- the RRC protocol is taken as an example of protocol for used in the above embodiments.
- the RRC protocol as it is established, has nothing to do with the method for processing the connection request of low priority UE under a mixed mode, and the protocols for processing connection as shown in FIG. 1 are not limited to the RRC protocol.
- step S 60 may further include such as step S 60 for allocating resources corresponding to bearers.
- step S 60 may include step S 161 and step S 165 .
- step S 161 power resource is allocated to low priority UE.
- step S 165 code resource is allocated to low priority UE.
- the sequence of step S 161 and step S 165 is free of restriction.
- the allocation of power resource has two scenarios, namely the uplink transmission and the downlink transmission.
- step S 161 may include the following steps.
- the upper limit of the transmission power of the femtocell is controlled to be substantially a maximum downlink power MAX_DL_Power, wherein the maximum downlink power MAX_DL_Power is determined according to the maximum allowed path loss MAX_Pathloss, and the maximum allowed path loss MAX_Pathloss may have different values for low priority UE and for high priority UE.
- the maximum allowed path loss for low priority UE is designated as MAX_Pathloss_Low_UE
- the maximum allowed path loss for high priority UE is designated as MAX_Pathloss_High_UE.
- the maximum downlink power MAX_DL_Power is determined according to the MAX_Pathloss, the received total wideband power offset RTWP_offset, and the UE optimized uplink reception level UE_optimized_UL_RX_Level.
- the corresponding values of maximum downlink power MAX_DL_Power need to be set separately.
- the maximum downlink power MAX_DL_Power is determined based on the maximum allowed path loss MAX_Pathloss while the MAX_Pathloss_Low_UE or the MAX_Pathloss_High_UE may be assigned or adjusted. Therefore, the values of the MAX_DL_Power corresponding to the UE with different priority levels can be obtained by adjusting the value of the MAX_Pathloss_Low_UE or MAX_Pathloss_High_UE so as to avoid wasting power resource of the femtocell.
- the value of the MAX_Pathloss_Low_UE or MAX_Pathloss_High_UE may be adjusted for the femtocell to reduce output power.
- the user equipment UE may allocate power resource of the femtocell more flexibly and effectively.
- the operator may set the quantity of the MAX_Pathloss_Low_UE or MAX_Pathloss_High_UE with respect to the radio coverage zone of the femtocell. For example, the MAX_Pathloss_Low_UE is set to 70 dB, and the MAX_Pathloss_High_UE is set to 95 dB.
- step S 161 may further include the following steps.
- a message is sent to inform the low priority UE to set the maximum allowed uplink transmission power for low priority UE, wherein the maximum allowed uplink transmission power MAX_UL_TX_Power is determined according to the maximum allowed path loss for low priority UE MAX_Pathloss_Low_UE.
- the maximum allowed uplink transmission power MAX_UL_TX_Power is determined according to MAX_Pathloss_Low_UE, the RTWP_offset, and the femtocell optimized uplink reception level Femtocell_optimized_UL_RX_Level.
- the maximum uplink power MAX_UL_TX_Power is determined according to the maximum allowed path loss for low priority UE MAX_Pathloss_Low_UE.
- the maximum uplink power MAX_UL_TX_Power for high priority UE is determined according to the maximum allowed path loss for high priority UE MAX_Pathloss_High_UE.
- the MAX_Pathloss_Low_UE or the MAX_Pathloss_High_UE may be assigned or adjusted.
- the value of the MAX_UL_TX_Power corresponding to the UE with different priority level can be obtained by adjusting the value of the MAX_Pathloss_Low_UE or MAX_Pathloss_High_UE so as to avoid wasting power resource of the user equipment UE.
- the value of the MAX_Pathloss_Low_UE or MAX_Pathloss_High_UE may be adjusted for the user equipment UE to reduce output power.
- the user equipment UE can allocate power resource more flexibly and effectively.
- the femtocell and the user equipment UE are different.
- the femtocell has better demodulation performance, and is able to demodulate the signal having lower quality.
- the femtocell needs to transmit the signal with higher power in order for the user equipment UE to demodulate the signal received from the femtocell.
- the item UE_optimized_UL_RX_Level indicates that the demodulation performance of the user equipment UE needs to be concerned.
- the item Femtocell_optimized_UL_RX_Level indicates that the demodulation performance of the femtocell needs to be concerned. Since the user equipment UE (that is, an electronic device such as a smart phone, a tablet PC and so on) linked to the femtocell already satisfies the path loss threshold, in the above embodiment of power resource allocation, the allocation of the uplink power and downlink power is determined according to the maximum allowed path loss for low priority UE MAX_Pathloss_Low_UE. Thus, unnecessary power loss is avoided, the user equipment UE can make good use of its limited power, and battery duration is prolonged. For high priority UE, unnecessary power loss can also be avoided in the above embodiment of power resource allocation.
- the allocation of code resource has two scenarios, namely, the uplink transmission and the downlink transmission.
- the allocation of code resource for low priority UE is restrictive, and packet service (PS) with lower speed bearers can be assigned.
- PS packet service
- step S 165 may further include the following step.
- the femtocell according to the version of the mobile communication technology supported by the low priority UE, is controlled to allocate an uplink bearer and a downlink bearer to the low priority UE with respect to the packet service.
- the version of the mobile communication technology supported by the low priority UE is R4 (Release 4) of 3G
- the 64 Kbps uplink and downlink packet services PS are allocated to the UE.
- the version supported by the low priority UE in high speed downlink package access (HSDPA) is R5 or R6 of 3G
- the 64 Kbps uplink packet service and the HSDPA packet service are allocated to the UE.
- HSDPA high speed downlink package access
- the femtocell prioritizes the UE with higher priority.
- the processing unit allocates a bearer having larger bandwidth to the high priority UE. For example, if the high priority UE supports R4, uplink and downlink packet services with larger bandwidths, such as 128 Kbps uplink packet service and 384 Kbps downlink packet service, may be allocated to the high priority UE. If the high priority UE supports R5, the 128 Kbps uplink packet service and the HSDPA downlink packet service may be allocated to the high priority UE.
- FIG. 3 shows an embodiment of a femtocell system having a mixed mode.
- the femtocell system 100 includes a mobile communication unit 110 and a processing unit 120 .
- the femtocell system 100 has a mixed mode.
- the femtocell system 100 sets up a radio link LK 1 for linking a high priority UE 1 , and sets up a radio link LK 2 for linking a low priority UE 2 .
- the radio links LK 1 and LK 2 correspond to the bearers allocated by the femtocell system 100 according to the priority levels of the user equipment UE 1 and UE 2 .
- the femtocell system 100 of FIG. 3 may be regarded as an implementation for processing the connection requests with respect to different priority levels under the mixed mode.
- the mobile communication unit 110 may be regarded as an analog front end for wireless signal transmitting and receiving, and includes, for example, an antenna 111 , a power amplification unit 113 , and a transceiver unit 115 .
- the antenna 111 is coupled to the power amplification unit 113
- the transceiver unit 115 is coupled to the power amplification unit 113 .
- the mobile communication unit 110 may be implemented with different elements or structure to correspond with at least one mobile communication mode (such as 2G, 3G or 4G) to be adopted.
- the elements of the mobile communication unit 110 are not limited to the examples above.
- a 3G femtocell H(e)NB such as a home node-B (HNB) and a home evolved node-B (HeNB) is capable of monitoring the universal mobile telecommunications system (UMTS) channel for detecting a base station nearby and a 2G channel.
- UMTS universal mobile telecommunications system
- the mobile communication unit 110 includes an analog front end corresponding to the UMTS channel and the 2G channel.
- the processing unit 120 is coupled to the mobile communication unit 110 for controlling the mobile communication unit 110 to operate under at least one mobile communication mode (such as 2G, 3G or 4G mode). Under the mixed mode, the processing unit 120 receives a connection request from a low priority UE. In response to the connection request, the processing unit 120 determines whether the measurement results corresponding to the femtocell satisfy the threshold settings. The measurement results include the path loss corresponding to the femtocell. If the measurement results satisfy the threshold settings, then the processing unit 120 controls the mobile communication unit 110 to allow the low priority UE to be connected to the femtocell.
- a mobile communication mode such as 2G, 3G or 4G mode
- the processing unit controls the upper limit of the transmission power of the mobile communication unit to be substantially a maximum downlink power. In one embodiment, after the low priority UE is connected to the femtocell, the processing unit controls the mobile communication unit to send a message to inform the low priority UE to set the maximum allowed uplink transmission power for low priority UE.
- the processing unit controls the mobile communication unit to provide an uplink bearer and a downlink bearer to the low priority UE with respect to the packet service.
- the femtocell prioritizes UEs with higher priority. After a high priority UE is connected to the femtocell, the processing unit of the femtocell allocates bearers having larger bandwidth to the high priority UE.
- the femtocell system 100 may be used for implementing the method for processing UE connection under the mixed mode, as disclosed in above embodiments, by using software, hardware, or firmware.
- the processing unit 120 can be realized by such as a micro-control unit (MCU), a field-programmable gate array (FPGA), an application specific integrated circuit (ASIC) or a system on chip (SoC).
- MCU micro-control unit
- FPGA field-programmable gate array
- ASIC application specific integrated circuit
- SoC system on chip
- the processing unit 120 may implement the FL1 unit and the FRRM unit as a physical entity of the femtocell, which may be regarded as a femtocell base station system.
- the FRRM unit may be implemented as a dedicated device realized by such as the processing unit of a femtocell gateway, and the FL1 unit may be realized by the processing unit of a femtocell base station.
- the FL1 unit and the FRRM unit may also be regarded as a femtocell base station system.
- the femtocell system 100 needs a broadband network for linking the UE to a network of an operator. Therefore the femtocell system 100 further includes a network unit 130 providing an interface between the femtocell system 100 and a broadband website. In one alternate embodiment, the network unit 130 provides an interface between the femtocell system 100 and a femtocell gateway.
- the elements of the femtocell system 100 may be added or omitted to fit the design needs, and the structure of the femtocell system 100 is not limited to the above exemplification.
- the 3G protocols such as WCDMA or TD-SCDMA, or even the 4G mobile communication standards may be implemented according to the above embodiments to meet actual requirements.
- the disclosure provides many embodiments of a method for processing UE connection under a mixed mode and a femtocell.
- the femtocell processes a connection request of a low priority UE under a mixed mode for allowing the low priority UE, whose signal quality conforms to the threshold, to be connected to the femtocell, such that resources may be allocated more effectively.
- power resource or code resource is effectively allocated after the low priority UE is connected to the femtocell.
- a number of embodiments of the femtocell under a mixed mode are disclosed and different methods for processing the UE having different priority levels under a mixed mode are provided.
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Abstract
Description
MAX— DL_Power=MAX_Pathloss+RTWP_offset+UE_optimized— UL — RX_Level. (formula 1)
MAX— UL — TX_Power=MAX_Pathloss_Low— UE+RTWP_offset+Femtocell_optimized— UL — RX_Level (formula 2)
Claims (21)
MAX— DL_Power=MAX_Pathloss+RTWP_offset+UE_optimized— UL — RX_Level.
MAX— DL_Power=MAX_Pathloss+RTWP_offset+UE_optimized— UL — RX_Level.
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CN103648137B (en) * | 2013-12-23 | 2016-08-24 | 展讯通信(上海)有限公司 | Multi-module radio terminal and the method initiating circuit domain speech business thereof |
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CN106712874B (en) * | 2016-12-30 | 2022-04-19 | 宇龙计算机通信科技(深圳)有限公司 | Management method and management device of wireless spectrum resources and data sending end |
CN109151969B (en) | 2017-06-16 | 2022-04-05 | 中兴通讯股份有限公司 | Method and device for determining transmission power and terminal |
CN112805930B (en) * | 2018-09-26 | 2024-03-19 | 日本电气株式会社 | Base station, system, method, and non-transitory computer readable medium |
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English Abstract translation of CN101621828 (Published Jan. 6, 2010). |
Femtocell access control strategy in UMTS and LTE, Golaup et al., Sep. 2009, Communications Magazine, IEEE (vol. 47 , Issue: 9), pp. 117-123. * |
Machine translation of Chinese Office Action of Jul. 2, 2014. * |
Machine translation of CN101621828, published Jan. 2010, to Li et. al. * |
Machine translation of CN1972503, published May 2007, to Xu. * |
The European Telecommunications Standards Institute Technical Specification 125 331 V8.10.0 (Apr. 2010), entitled "Universal Mobile Telecommunications System (UMTS); Radio Resource Control (RRC); Protocol specification," Release 8. * |
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CN102869067A (en) | 2013-01-09 |
US20130012222A1 (en) | 2013-01-10 |
CN102869067B (en) | 2014-11-05 |
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