WO2012138135A2 - Method and apparatus for controlling random access in wireless communication system supporting carrier aggregation - Google Patents

Method and apparatus for controlling random access in wireless communication system supporting carrier aggregation Download PDF

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Publication number
WO2012138135A2
WO2012138135A2 PCT/KR2012/002556 KR2012002556W WO2012138135A2 WO 2012138135 A2 WO2012138135 A2 WO 2012138135A2 KR 2012002556 W KR2012002556 W KR 2012002556W WO 2012138135 A2 WO2012138135 A2 WO 2012138135A2
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WIPO (PCT)
Prior art keywords
random access
failure
procedure
detected
primary cell
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Ceased
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PCT/KR2012/002556
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English (en)
French (fr)
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WO2012138135A3 (en
Inventor
Kyeong In Jeong
Gert Jan Van Lieshout
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Samsung Electronics Co Ltd
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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
Priority to JP2014503595A priority Critical patent/JP5992995B2/ja
Priority to ES12767522T priority patent/ES2740350T3/es
Priority to CN201280027583.6A priority patent/CN103597901B/zh
Priority to AU2012240726A priority patent/AU2012240726B2/en
Priority to EP12767522.1A priority patent/EP2695470B1/en
Priority claimed from KR1020120035228A external-priority patent/KR101975901B1/ko
Publication of WO2012138135A2 publication Critical patent/WO2012138135A2/en
Publication of WO2012138135A3 publication Critical patent/WO2012138135A3/en
Anticipated expiration legal-status Critical
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    • YGENERAL TAGGING OF NEW TECHNOLOGICAL DEVELOPMENTS; GENERAL TAGGING OF CROSS-SECTIONAL TECHNOLOGIES SPANNING OVER SEVERAL SECTIONS OF THE IPC; TECHNICAL SUBJECTS COVERED BY FORMER USPC CROSS-REFERENCE ART COLLECTIONS [XRACs] AND DIGESTS
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Definitions

  • the present invention relates to a mobile communication system. More particularly, the present invention relates to a method and apparatus for controlling a random access process efficiently in a mobile communication system supporting carrier aggregation.
  • LTE Long Term Evolution
  • 3GPP 3rd Generation Partnership Project
  • LTE-A LTE-Advanced
  • Carrier Aggregation is one of these new techniques. Unlike a typical communication system using an uplink as a signal carrier in uplink and downlink transmissions between a User Equipment (UE) and an eNB, carrier aggregation makes it possible to combine a primary carrier and at least one secondary carrier in order to increase a transmission/reception data transmission rate in proportion to a number of aggregated carriers.
  • a cell operating on the primary carrier is referred to as a primary cell (or may also be referred to as a PCell or a first cell), and a cell operating on a secondary carrier is referred to as a secondary cell (or may also be referred to as an SCell or second cell).
  • a repeater and/or a Remote Radio Head e.g., a transmit/receive antenna operating on the primary carrier may be located at a position of the eNB while an antenna operating on the secondary carrier is located at the position of the RRH
  • uplink timings are configured rfor the receive antennas near and far from the UE differently according to a location of the UE.
  • an aspect of the present invention is to provide a method for controlling a random access procedure in a mobile communication system supporting carrier aggregation.
  • a method for controlling random access procedure of a terminal in a wireless communication system configured with a primary cell and at least one secondary cell.
  • the method includes initiating a random access procedure in the primary cell and the at least one secondary cell, detecting a random access failure of a terminal performing the random access procedure, determining whether the random access failure is detected in the primary cell or the at least one secondary cell, and determining whether to continue the random access procedure according to a result of the determining whether the random access failure is detected.
  • a terminal for attempting random access to a base station in a wireless communication system having a primary cell and at least one secondary cell.
  • the terminal includes a transceiver for communicating signals with the base station, and a controller for initiating a random access procedure in the primary and the at least one secondary cell, for detecting a random access failure of the terminal attempting the random access, for determining whether the random access failure is detected in the primary cell or the at least on secondary cell, and for determining whether to continue the random access procedure according to a result of the determining whether the random access failure is detected.
  • the random access problem and/or failure handling method of the present exemplary embodiments of the present invention is capable of handling the random access procedure efficiently when a random access problem is detected in the system configured with multiple uplink timings configured in the system.
  • FIG. 1 is a diagram illustrating an architecture of a Long Term Evolution (LTE) system according to an exemplary embodiment of the present invention
  • FIG. 2 is a diagram illustrating a protocol stack of an LTE system according to an exemplary embodiment of the present invention
  • FIG. 3 is a diagram illustrating carrier aggregation in an LTE system according to an exemplary embodiment of the present invention
  • FIG. 4 is a diagram illustrating uplink timing synchronization in an Orthogonal Frequency Division Multiplexing (OFDM) based 3rd Generation Partnership Project (3GPP) LTE system according to an exemplary embodiment of the present invention
  • OFDM Orthogonal Frequency Division Multiplexing
  • 3GPP 3rd Generation Partnership Project
  • FIG. 5 is a diagram illustrating an exemplary network environment having network entities operating on a primary carrier and a secondary carrier at different locations in a system supporting carrier aggregation according to an exemplary embodiment of the present invention
  • FIG. 6 is a signaling diagram illustrating a method for handling a problem and/or failure of a random access procedure in a system supporting carrier aggregation according to an exemplary embodiment of the present invention
  • FIG. 7 is a flowchart illustrating a User Equipment (UE) procedure in the random access problem and/or failure handling method of FIG. 6 according to an exemplary embodiment of the present invention.
  • UE User Equipment
  • FIG. 8 is a block diagram illustrating a configuration of the UE of FIG. 6 according to an exemplary embodiment of the present invention.
  • Exemplary embodiments of present invention provide a method for handling a random access problem and/or failure arising in a random access procedure for acquiring uplink timings configured in association with carrier aggregation according to whether the random access procedure is for a Primary Cell (PCell) or a Secondary Cell (SCell). If a random access problem and/or failure has arose in the PCell, a Medium Access Control (MAC) layer entity notifies a Radio Resource Control (RRC) entity of the random access problem and/or failure in a User Equipment (UE) which has detected the problem and/or failure.
  • PCell Primary Cell
  • SCell Secondary Cell
  • RRC Radio Resource Control
  • the RRC entity performs an RRC Connection Re-establishment, and the corresponding RRC Connection Reconfiguration operation, in order to re-establish a connection with an enhanced Node B (eNB). If the connection reestablishment is successful, then the RRC entity reconfigures a Signaling Radio Bearer and a Data Radio Bearer and restarts Ciphering/Integrity protection check. Otherwise, if the random access problem and/or failure has arisen in the SCell, the MAC layer entity of the UE, which has detected the problem and/or failure, suspends the random access procedure. In this case, the MAC layer entity does not notify the RRC layer entity of the random access problem and/or failure that arose in the SCell.
  • eNB enhanced Node B
  • the random access control method of a UE in a mobile communication system configured with a primary cell and at least one secondary cell includes attempting random access through the primary and second cells, detecting a failure of the random access, determining whether the random access failure has arose in the primary cell or the secondary cell, and determining whether to continue the random access procedure according to whether the random access failure arose in the primary cell or the secondary cell.
  • a UE attempting random access to an eNB in a mobile communication system configured with a primary cell and at least one secondary cell includes a transceiver for communicating signals with the eNB, and a controller for controlling attempting of random access through the primary and second cells, for detecting a failure of the random access, for determining whether the random access failure has arose in the primary cell or the secondary cell, and for determining whether to continue the random access procedure according to whether the random access failure arose in the primary cell or the secondary cell.
  • FIG. 1 is a diagram illustrating an architecture of an LTE system according to an exemplary embodiment of the present invention.
  • a radio access network of the mobile communication system includes eNBs 105, 110, 115, and 120, a Mobility Management Entity (MME) 125, and a Serving-Gateway (S-GW) 130.
  • MME Mobility Management Entity
  • S-GW Serving-Gateway
  • a UE 135 connects to an external network via the eNBs 105, 110, 115, and 120 and the S-GW 130.
  • the eNBs 105, 110, 115, and 120 correspond to legacy node Bs of a Universal Mobile Communications System (UMTS).
  • UMTS Universal Mobile Communications System
  • the eNBs 105, 110, 115, and 120 allow the UE to establish a radio link and are responsible for more complicated functions as compared to the legacy node B.
  • all user traffic including real time services such as Voice over Internet Protocol (VoIP), are provided through a shared channel.
  • VoIP Voice over Internet Protocol
  • one eNB controls a plurality of cells.
  • the LTE system adopts Orthogonal Frequency Division Multiplexing (OFDM) as a radio access technology.
  • OFDM Orthogonal Frequency Division Multiplexing
  • AMC Adaptive Modulation and Coding
  • the S-GW 130 provides data bearers so as to establish and release the data bearers under a control of the MME 125.
  • the MME 125 is responsible for various control functions and is connected to a plurality of the eNBs 105, 110, 115, and 120.
  • FIG. 2 is a diagram illustrating a protocol stack of the LTE system according to an exemplary embodiment of the present invention.
  • the protocol stack of the LTE system employed by the UE and the eNB, includes Packet Data Convergence Protocol (PDCP) layer 205 and 240, RRC layer 208 and 238, Radio Link Control (RLC) layer 210 and 235, MAC layer 215 and 230, and Physical (PHY) layer 220 and 225.
  • PDCP Packet Data Convergence Protocol
  • RRC Radio Link Control
  • RLC Radio Link Control
  • MAC MAC layer 215 and 230
  • PHY Physical
  • the PDCP layer 205 and 240 is responsible for Internet Protocol (IP) header compression, decompression and ciphering of the radio protocol and for performing an Integrity Protection Check.
  • IP Internet Protocol
  • the RRC layer 208 and 238 defines control information message transmission and related operations and procedures for higher layers and for handling a radio resource.
  • the RLC layer 210 and 235 is responsible for reconfiguring the PDCP Protocol Data Unit (PDU) into an appropriate size.
  • the MAC 215 and 230 layer is responsible for establishing a connection to a plurality of RLC entities so as to multiplex the RLC PDUs into MAC PDUs and demultiplex the MAC PDUs into RLC PDUs.
  • the PHY layer 220 and 225 performs channel coding on the MAC PDU and modulates the MAC PDU into OFDM symbols in order to transmit the symbols over a radio channel and performs demodulating and channel-decoding on received OFDM symbols and delivers the decoded data to the higher layer.
  • FIG. 3 is a diagram illustrating carrier aggregation in an LTE system according to an exemplary embodiment of the present invention.
  • an eNB may use multiple carriers to transmit and receive signals in different frequency bands. For example, when an eNB 305 operates on a carrier 315 with center frequency f1 and a carrier 310 with center frequency f3, then the eNB 305 uses one of the two carriers for receiving data.
  • a UE 330 having the carrier aggregation capability, may transmit and/or receive data using both the carriers 310 and 315.
  • the eNB 305 may increase the amount of the resource to be allocated to the UE 330 in adaptation to the channel condition of the UE 330 so as to improve the data transmission rate of the UE 330.
  • the description is directed to the case of a transmission carrier, the same may be applied to a case of a reception carrier in view of the eNB 305.
  • the UE 330 having the carrier aggregation capability may use multiple carriers simultaneously in order to increase the data transmission rate.
  • the carrier aggregation may be understood to operate as if the UE communicates data via multiple cells.
  • the maximum data transmission rate increases in proportion to a number of aggregated carriers.
  • the phrase, recitation, or similarly recited phrase, “the UE receives data through a certain downlink carrier or transmits data through a certain uplink carrier” means that the UE transmits or receives data through control and data channels provided in a cell corresponding to a center frequencies and frequency bands of the downlink and uplink carriers.
  • the description is directed to an LTE mobile communication system for explanation convenience, the present invention is not limited thereto, and may be applied to other types of wireless communication systems supporting carrier aggregation.
  • FIG. 4 is a diagram illustrating uplink timing synchronization in an OFDM-based 3rd Generation Partnership Project (3GPP) LTE system according to an exemplary embodiment of the present invention.
  • 3GPP 3rd Generation Partnership Project
  • a UE 1 is located near an eNB while a UE 2 is located farther from the eNB than the UE 1.
  • T_pro1 indicates a first propagation delay time to the UE 1
  • T_pro2 indicates a second propagation delay to the UE 2.
  • T_pro1 is 0.333us
  • T_pro2 is 3.33us as illustrated in FIG. 4.
  • an uplink timing of the UE 1 When both the UE 1 and the UE 2 power on or are in idle mode within a same cell of the eNB, an uplink timing of the UE 1, an uplink timing of the UE 2, and uplink timings of other UEs detected by the eNB in the cell may fail in executing synchronization.
  • Reference number 401 denotes an uplink OFDM symbol transmission timing of the UE 1
  • a reference number 403 denotes uplink OFDM symbol transmission timing of the UE 2.
  • the eNB may receive respective uplink OFDM symbols at the respective timings denoted by reference numbers 401, 403, and 405.
  • the UE 1’s uplink symbol transmitted at the timing 401 is received by the eNB at the timing 407, which includes a propagation delay
  • the UE 2’s uplink symbol transmitted at the timing 403 is received by the eNB at the timing 409, which includes a propagation delay.
  • the uplink OFDM symbol reception and decoding start timing 405 of the eNB, the UE 1’s uplink OFDM symbol reception timing 407, and the UE 2’s uplink OFDM symbol reception timing 409 are different among each other.
  • the uplink symbols transmitted by the UE 1 and UE 2 have no orthogonality that may cause them interfere with each other and, as a consequence, the eNB is likely to fail in decoding the uplink symbols transmitted, at the timings 401 and 403, by the UE 1 and UE 2 due to the interference and the mismatch between the uplink symbol reception timings 407 and 409.
  • Uplink timing synchronization is a procedure for acquiring the eNB’s uplink symbol reception timings with the UE 1 and UE 2. Additionally, if the uplink timing synchronization procedure completes, it is possible to acquire synchronization from among the eNB’s uplink OFDM symbol reception and decoding timings of the eNB, as denoted by reference numbers 411, 413, and 415.
  • the eNB transmits Timing Advance (TA) information to the UEs to notify them of a timing adjustment amount.
  • the eNB may transmit the TA information in a Timing Advance Commence (TAC) MAC Control Element (TAC MAC CE) or in a Random Access Response (RAR) message sent in response to a random access preamble transmitted by a UE for initial access.
  • TAC Timing Advance Commence
  • RAR Random Access Response
  • FIG. 5 is a diagram illustrating an exemplary network environment having network entities operating on a primary carrier and a secondary carrier at different locations in a system supporting carrier aggregation according to an exemplary embodiment of the present invention.
  • RRHs Remote Radio Heads
  • F1 505 frequency band F1 505.
  • a UE is connected to both the macro eNB 501 and one of the RRHs 503 (i.e., if the frequency bands F1 and F2 are aggregated for uplink transmission of the UE located near the RRH), then the uplink and downlink transmission to and from the one of the RRHs 503 has a relatively short propagation delay and the uplink and downlink transmission to and from the macro eNB 501 has a relatively long propagation delay.
  • multiple uplink transmission timings should be configured and, in order to acquire initial uplink transmission timings, a random access procedure for the one of the RRHs 503 on F2 and to the macro eNB 501 on F1 should be performed. That is, carrier aggregation results in multiple uplink transmission timings, resulting in executing a random access procedure per cell in order to acquire uplink timing synchronization. According to an exemplary embodiment of the present invention, there is no need of performing the random access procedures to multiple cells at the same time.
  • the macro eNB 501 categorizes the carriers having a same uplink timing into a group referred to as a Timing Advance Group (TAG).
  • TAG Timing Advance Group
  • the PCell and the SCell A have the same uplink timing and if the SCell B and SCell C have the same uplink timing, then the PCell and the SCell A are categorized as TAG 0 while the SCell B and SCell C are categorized as TAG 1.
  • the TAG 0, to which the PCell belongs is referred to as a Primary TAG (PTAG), and the TAG 1, to which the PCell does not belong, is referred to as a Secondary TAG (STAG).
  • the PCell is the serving cell operating on the primary carrier and typically performs RRC Connection Establishment or RRC Connection Re-establishment or becomes a target of HandOver (HO).
  • HO HandOver
  • the exemplary embodiments of the present invention propose a method for handling the problem and/or failure occurring in a random access procedure for multiple cells.
  • FIG. 6 is a signaling diagram illustrating a method for handling a problem and/or failure of a random access procedure in the system supporting carrier aggregation according to an exemplary embodiment of the present invention.
  • the eNB 611 determines a carrier aggregation configuration of the UE at step 621.
  • Reference number 603 denotes an RRC protocol layer entity in the UE 601
  • reference number 606 denotes a MAC protocol layer entity in the UE 601
  • reference number 609 denotes a PHY protocol layer entity in the UE 601.
  • the eNB 611 transmits an RRC layer message, including the configuration information on the SCell 616 to be added for the carrier aggregation, such that the SCell 616 is added as a carrier aggregation target cell at step 631.
  • the information on the uplink transmission timing of the SCell 616 is transmitted to the UE 601 along with an STAG IDentification (ID).
  • the RRC layer message transmitted in step 631 may be the RRC Connection Reconfiguration message.
  • the eNB 611 activates, if necessary, the SCell 616 added for the carrier aggregation at step 633.
  • the SCell 616 activation command message may be the activation MAC CE message.
  • the activated SCell 616 is to be configured with a new uplink timing different from the uplink timing which is maintained by the UE 601, which is for the uplink transmission timing for the PCell 613.
  • the eNB 611 commands the UE 601 to perform a random access procedure for the SCell 616 at step 636.
  • the random access procedure command message may be a Physical Downlink Control Channel (PDCCH) order message.
  • the PHY entity 609 notifies the MAC entity 606 of the random access procedure, and the MAC entity 606 selects a Random Access Preamble.
  • the MAC entity 606 notifies the PHY entity 609 of the selected Random Access Preamble at step 641, such that the PHY entity 609 transmits the Random Access Preamble to the eNB 611 at step 642.
  • the UE 601 transmits or retransmits the Random Access Preamble to the eNB 611 at steps 645, 646, 648 and 649. If the number of Random Access Preamble retransmissions is greater than a predetermined threshold value, then the MAC entity 606 determines that a problem and/or failure has arisen in the random access procedure at step 651.
  • the MAC entity 606 stops the random access procedure for the SCell 616 and stops retransmitting the Random Access Preamble at step 653.
  • the eNB 611 transmits the PDCCH order message so as to command the UE 601 to perform the random access procedure for the SCell 616, and it is assumed that the random access procedure for the SCell 616 is completed successfully so as to acquire the TA information and then uplink transmission timing at step 661. Once the uplink timing for the SCell has been acquired, it becomes possible to perform uplink scheduling for uplink transmission at step 663.
  • the eNB 611 transmits the PDCCH order message so as to command the UE 601 to perform random access for the PCell 613 at step 671.
  • the PHY entity 609 notifies the MAC entity 606 of the issuance of the random access procedure execution command at step 673.
  • the MAC entity 606 selects a Random Access Preamble and notifies the PHY entity 609 of the selected Random Access Preamble at step 674, and the PHY entity 609 transmits the Random Access Preamble to the eNB 611 at step 675.
  • the UE 601 retransmits the Random Access Preamble again at steps 676, 677, 678, and 679. If the number of Random Access Preamble retransmissions is greater than a predetermined threshold value, then, at step 681, the MAC entity determines that a problem and/or failure arises in the random access procedure.
  • the MAC entity 606 notifies the RRC entity 603 of the random access problem and/or failure at step 683 such that the RRC entity 603 performs a RRC Connection Re-establishment procedure at step 691.
  • the RRC entity 603 waits for expiration of a RRC layer timer rather than performing the RRC connection reconfiguration and, if the random access problem continues, then the RRC entity 603 performs the RRC connection reconfiguration procedure.
  • the RRC connection reconfiguration procedure may be the RRC Connection Re-establishment procedure and the RRC Connection Reconfiguration procedure.
  • the RRC Connection Reconfiguration procedure is performed in order to re-establish a signaling radio bearer and a data radio bearer and restart security, such as ciphering and an integrity check operation, on the radio interface under the assumption of a link breakage between the UE 601 and the eNB 611.
  • the Random Access Preamble may be retransmitted until a termination condition is fulfilled or an instruction is issued at the RRC entity 603, even after the random access problem and/or failure is detected.
  • the random access termination condition on the RRC layer may be at least one of a start of the RRC Connection Re-establishment procedure, a change of a PCell, a an expiration of a specific RRC layer timer, or other similar events or conditions.
  • FIG. 6 illustrates a method for handling the random access problem and/or failure selectively, according to whether the random access problem and/or failure is detected in a PCell or in an SCell.
  • the random access procedure in the PCell is more important, the present invention may be implemented differently than that illustrated in FIG. 6.
  • the random access problem and/or failure handling method for the PCell, as illustrated in FIG. 6, may also be used for handling a random access problem and/or failure for the SCell.
  • the random access problem and/or failure detected in both a PCell and an SCell may be notified from a MAC layer to an RRC layer according to another exemplary embodiment of the present invention.
  • the RRC entity is to be notified of the random access problem and/or failure along with additional information on a cell or a TAG in which the random access problem and/or failure is detected, such that the RRC entity performs the RRC Connection reconfiguration procedure for the random access problem and/or failure of the PCell and reports the random access problem and/or failure of the SCell or the cell belonging to a STAG of the eNB. If the additional information is received, then the eNB may command performance of the random access again, may release the cell in which the random access problem and/or failure is detected, or may change a configuration of the cells involved in the carrier aggregation.
  • FIG. 7 is a flowchart illustrating a UE procedure in the random access problem and/or failure handling method of FIG. 6 according to an exemplary embodiment of the present invention.
  • the MAC layer detects a random access problem and/or failure in the random access procedure at step 701.
  • the random access problem and/or failure may be determined when a number of retransmissions of a Random Access Preamble is greater than a predetermined threshold value. If the random access problem and/or failure is detected, then the UE determines whether the random access problem and/or failure is detected in the PCell or in the SCell at step 711. If the random access problem and/or failure is detected in the SCell, then the MAC layer stops or ends the random access procedure at step 721.
  • the MAC layer notifies the RRC layer of the random access problem and/or failure and continues the random access procedure at step 731. If the random access problem and/or failure notification is received from the MAC layer, then the RRC layer performs an RRC Connection Reconfiguration procedure and, if a certain condition is fulfilled, commands the MAC layer to stop or end the random access procedure at step 741.
  • the condition to be fulfilled for the stopping or ending of the random access procedure at step 741 may be at least one of a start of RRC Connection Re-establishment procedure and an expiration of a certain RRC layer timer.
  • the RRC layer may wait for the expiration of the RRC layer timer and, if the random access problem and/or failure is not overcome on the MAC layer yet, the RRC layer performs the RRC Connection Re-establishment procedure. If the random access procedure stop/end command is received from the RRC layer, then the MAC layer stops or ends the ongoing random access procedure.
  • FIG. 8 is a block diagram illustrating a configuration of the UE of FIG. 6 according to an exemplary embodiment of the present invention.
  • the UE includes a transceiver 801 which is responsible for communication with an eNB, a RRC layer entity 821, and a MAC random access executor/manager 811.
  • the RRC layer entity 821 generates an RRC control message to be transmitted to the eNB through the transceiver 801 and interprets an RRC control message received through the transceiver 801 in order to execute a procedure indicated by the interpreted message. If a random access problem and/or failure notification is received from the MAC layer entity, then the RRC layer entity 821 performs the related procedure and instructs the MAC layer entity to stop or end the random access procedure.
  • the MAC random access executor/manager 811 receives a random access procedure execution command for a specific cell from the eNB through the transceiver 801 or receives a random access procedure initiation command from the RRC layer entity in the UE and executes a random access procedure in response to a random procedure trigger from the MAC layer. Also, the MAC random access executor/manager 811 stops or ends the random access procedure automatically upon detection of a random access problem and/or failure or automatically notifies the RRC layer of the random access problem and/or failure. Although not depicted in FIG. 8, it is noted that the above described procedure is performed under the control of a controller, or another similar element or device.
  • the controller controls execution of the random access in the primary and secondary cells and monitors to detect random access problem and/or failure.
  • the controller also determines whether the random access problem and/or failure is detected in the primary cell or the secondary cell and determines whether to continue the random access procedure according to the judgment result.
  • the controller controls to execute the RRC Connection Re-establishment procedure.
  • the controller starts a timer when the random access problem and/or failure is detected in the primary cell and, if the random access problem and/or failure is not recovered before the expiration of the timer, controls to execute the RRC Connection Re-establishment. Otherwise, if the random access problem and/or failure is detected in the second cell, then the controller controls to stop or end the random access procedure.
  • the random access problem and/or failure handling method of the present exemplary embodiments of the present invention is capable of handling the random access procedure efficiently when a random access problem is detected in the system configured with multiple uplink timings configured in the system.

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JP2014503595A JP5992995B2 (ja) 2011-04-05 2012-04-05 移動通信システムでキャリアアグリゲーションをサポートするランダムアクセスの制御方法及び装置
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CN201280027583.6A CN103597901B (zh) 2011-04-05 2012-04-05 在载波聚合无线通信系统中控制随机接入的方法和装置
AU2012240726A AU2012240726B2 (en) 2011-04-05 2012-04-05 Method and apparatus for controlling random access in wireless communication system supporting carrier aggregation
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KR20120113680A (ko) 2012-10-15
US9288801B2 (en) 2016-03-15
US20150131635A1 (en) 2015-05-14
ES2716740T3 (es) 2019-06-14
WO2012138132A2 (en) 2012-10-11
US20120257510A1 (en) 2012-10-11
EP3783829B1 (en) 2024-09-25
US9380632B2 (en) 2016-06-28
CN103620993B (zh) 2017-04-05
WO2012138154A3 (ko) 2013-01-10
KR102073027B1 (ko) 2020-02-04
JP5992995B2 (ja) 2016-09-14
US8824310B2 (en) 2014-09-02
US20120257570A1 (en) 2012-10-11
US9491782B2 (en) 2016-11-08
CN106900053A (zh) 2017-06-27
CN107454667A (zh) 2017-12-08
CN107454667B (zh) 2021-04-06
WO2012138134A3 (ko) 2013-01-10
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CN107172700B (zh) 2020-07-14
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US20150134837A1 (en) 2015-05-14
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US20160198496A1 (en) 2016-07-07
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US8964793B2 (en) 2015-02-24
AU2012240726B2 (en) 2016-02-18
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CN107453847B (zh) 2020-10-20
US10264618B2 (en) 2019-04-16
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US9398632B2 (en) 2016-07-19
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US9635700B2 (en) 2017-04-25
EP2695456A2 (en) 2014-02-12
US20120257601A1 (en) 2012-10-11
KR101996357B1 (ko) 2019-07-05
KR20120114176A (ko) 2012-10-16
WO2012138143A3 (en) 2013-01-10
US9585188B2 (en) 2017-02-28
KR20120113687A (ko) 2012-10-15
EP2695456B1 (en) 2020-09-30
CN107453847A (zh) 2017-12-08
US20170048835A1 (en) 2017-02-16
EP2695317B1 (en) 2018-11-14
US20140023030A1 (en) 2014-01-23
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JP2014514841A (ja) 2014-06-19
EP3826378B1 (en) 2024-03-20
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CN103597901A (zh) 2014-02-19
CN103597764B (zh) 2017-03-15
US10602492B2 (en) 2020-03-24
JP2014514840A (ja) 2014-06-19
EP3783829A1 (en) 2021-02-24
US20140341011A1 (en) 2014-11-20
EP2695449A4 (en) 2015-04-29
KR101944806B1 (ko) 2019-02-01
EP3826378C0 (en) 2024-03-20
EP2695470A4 (en) 2015-05-13
US20170164312A1 (en) 2017-06-08
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JP2014513467A (ja) 2014-05-29
WO2012138142A3 (en) 2013-01-10
EP2695456A4 (en) 2015-04-22
WO2012138154A2 (ko) 2012-10-11
EP3826378A1 (en) 2021-05-26
EP3247066B1 (en) 2019-02-20
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US9210677B2 (en) 2015-12-08
WO2012138143A2 (en) 2012-10-11
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US20150134838A1 (en) 2015-05-14
US9491783B2 (en) 2016-11-08
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EP2695317A2 (en) 2014-02-12
KR20120113667A (ko) 2012-10-15
US10582480B2 (en) 2020-03-03
WO2012138155A2 (en) 2012-10-11
WO2012138132A3 (en) 2013-01-10
US9565711B2 (en) 2017-02-07
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US20170223746A1 (en) 2017-08-03

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