WO2009157549A1 - 移動通信方法及び移動局 - Google Patents
移動通信方法及び移動局 Download PDFInfo
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- WO2009157549A1 WO2009157549A1 PCT/JP2009/061748 JP2009061748W WO2009157549A1 WO 2009157549 A1 WO2009157549 A1 WO 2009157549A1 JP 2009061748 W JP2009061748 W JP 2009061748W WO 2009157549 A1 WO2009157549 A1 WO 2009157549A1
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- H—ELECTRICITY
- H04—ELECTRIC COMMUNICATION TECHNIQUE
- H04L—TRANSMISSION OF DIGITAL INFORMATION, e.g. TELEGRAPHIC COMMUNICATION
- H04L63/00—Network architectures or network communication protocols for network security
- H04L63/06—Network architectures or network communication protocols for network security for supporting key management in a packet data network
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- H—ELECTRICITY
- H04—ELECTRIC COMMUNICATION TECHNIQUE
- H04W—WIRELESS COMMUNICATION NETWORKS
- H04W12/00—Security arrangements; Authentication; Protecting privacy or anonymity
- H04W12/04—Key management, e.g. using generic bootstrapping architecture [GBA]
- H04W12/041—Key generation or derivation
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- H—ELECTRICITY
- H04—ELECTRIC COMMUNICATION TECHNIQUE
- H04W—WIRELESS COMMUNICATION NETWORKS
- H04W12/00—Security arrangements; Authentication; Protecting privacy or anonymity
- H04W12/04—Key management, e.g. using generic bootstrapping architecture [GBA]
- H04W12/047—Key management, e.g. using generic bootstrapping architecture [GBA] without using a trusted network node as an anchor
- H04W12/0471—Key exchange
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- H—ELECTRICITY
- H04—ELECTRIC COMMUNICATION TECHNIQUE
- H04L—TRANSMISSION OF DIGITAL INFORMATION, e.g. TELEGRAPHIC COMMUNICATION
- H04L2463/00—Additional details relating to network architectures or network communication protocols for network security covered by H04L63/00
- H04L2463/061—Additional details relating to network architectures or network communication protocols for network security covered by H04L63/00 applying further key derivation, e.g. deriving traffic keys from a pair-wise master key
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- H—ELECTRICITY
- H04—ELECTRIC COMMUNICATION TECHNIQUE
- H04W—WIRELESS COMMUNICATION NETWORKS
- H04W36/00—Hand-off or reselection arrangements
- H04W36/0005—Control or signalling for completing the hand-off
- H04W36/0011—Control or signalling for completing the hand-off for data sessions of end-to-end connection
- H04W36/0033—Control or signalling for completing the hand-off for data sessions of end-to-end connection with transfer of context information
- H04W36/0038—Control or signalling for completing the hand-off for data sessions of end-to-end connection with transfer of context information of security context information
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- H—ELECTRICITY
- H04—ELECTRIC COMMUNICATION TECHNIQUE
- H04W—WIRELESS COMMUNICATION NETWORKS
- H04W88/00—Devices specially adapted for wireless communication networks, e.g. terminals, base stations or access point devices
- H04W88/08—Access point devices
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- H—ELECTRICITY
- H04—ELECTRIC COMMUNICATION TECHNIQUE
- H04W—WIRELESS COMMUNICATION NETWORKS
- H04W92/00—Interfaces specially adapted for wireless communication networks
- H04W92/16—Interfaces between hierarchically similar devices
- H04W92/20—Interfaces between hierarchically similar devices between access points
Definitions
- the present invention relates to a mobile communication method and a mobile station for performing communication between a mobile station and a radio base station using a predetermined key generated using a first key.
- an LTE (Long Term Evolution) mobile communication system defined by 3GPP is configured to perform communication between a mobile station UE and a radio base station eNB using a predetermined key.
- the predetermined key for example, a key K RRC_Ciph used in “Ciphering” in the RRC protocol that is a C plane protocol (Access Stratum, AS) between the mobile station UE and the radio base station eNB, or “Integrity” in the RRC protocol.
- the predetermined key is generated using the first key K eNB .
- FIG. 7 to 9 show the handover procedure and the reconnection procedure that the applicant is currently examining.
- FIG. 7 shows an Inter-eNB handover procedure (X2 handover procedure, handover procedure between different radio base stations)
- FIG. 8 shows an Intra-eNB reconnection procedure (intra-radio base station reconnection procedure).
- FIG. 9 shows the Inter-eNB reconnection procedure (reconnection procedure between different radio base stations).
- the mobile station UE receives the “MAC RA Response (RA response signal)” (Steps S5012 and S6012).
- the configuration information (Configuration) of the handover source cell is to be deleted.
- the mobile station UE updates the first key to “K eNB [n + 1 ] ” and deletes “K eNB [n] ” at this time (steps S5012 and S6012).
- the radio base station (handover destination radio base station) eNB # 2 that manages the handover destination cell fails to receive “RRC HO Complete (handover completion signal)” in step S6013, as shown in step S5015. Since “S1 Path Switch (path switch signal)” cannot be transmitted, the handover destination radio base station eNB # 2 cannot acquire the first key K eNB [n + 2] .
- the mobile station UE detects a radio link failure (RLF) in the RRC connection at this time (step S6014), the mobile station UE updates the first key to “K eNB [n + 2] ” in step S6016. End up.
- RLF radio link failure
- step S6020 the mobile station UE transmits “RRC Re-establishment Request (reconnection request signal)” to the handover destination radio base station eNB # 2 using the first key K eNB [n + 2]. To do.
- the handover destination radio base station eNB # 2 receives the “RRC Re” in step S6021.
- -Establishment Request "fails to be verified, and in step S6022," RRC Re-establishment Reject "is transmitted to the mobile station UE.
- the mobile station UE enters a “RRC_IDLE” state.
- the radio base station (reconnection destination radio base station) eNB that manages the reconnection destination cell fails to receive “RRC Re-establishment Complete” in steps S6113, S6216, and S6316, As shown in steps S5115 and S5218, since “S1 Path Switch (path switch signal)” cannot be transmitted, the reconnection-destination radio base station eNB # 2 obtains the first key K eNB [n + 2]. I can't.
- the mobile station UE detects a radio link failure in the RRC connection at this time (steps S6114, S6217, S6317), the first key is updated to “K eNB [n + 2] ” in steps S6116, S6219, S6319. Resulting in.
- Steps S6120, S6223, and S6323 the mobile station UE uses the first key K eNB [n + 2] to perform “RRC Re-establishment Request” for the reconnection destination radio base station eNB and eNB # 2. Send.
- Step S6121 the RRC Re-establishment Request is transmitted to the mobile station UE in steps S6122, S6225, and S6325.
- the mobile station UE enters a “RRC_IDLE” state.
- the present invention has been made in view of the above-described problems, and even if the handover destination radio base station fails to receive “RRC HO Complete”, the handover destination radio base station receives “UE Context”. Is held, it aims at providing the mobile communication method and mobile station which can make a reconnection procedure successful.
- the present invention provides a case where “UE Context” is held in the reconnection destination radio base station even when the reconnection destination radio base station fails to receive “RRC Re-establishment Complete”.
- An object of the present invention is to provide a mobile communication method and a mobile station that can make a reconnection procedure successful.
- a first feature of the present invention is a mobile communication method for performing communication between a mobile station and a radio base station using a predetermined key generated using a first key, wherein the mobile station includes the radio key
- a step of updating the first key when a handover instruction signal is received from the base station, and a predetermined key generated by the mobile station using the updated first key, to the radio base station Transmitting a handover completion signal, and when the mobile station fails to transmit the handover completion signal and detects a radio link failure, performs a cell selection process, and selects the selected reconnection destination cell. And a step of transmitting a reconnection request signal using the first key before the update.
- the handover instruction signal may be an RRC HO Command
- the handover completion signal may be an RRC HO Complete
- the reconnection request signal may be an RRC Re-establishment Request.
- a second feature of the present invention is a mobile station that performs communication with a radio base station using a predetermined key generated using a first key, and has received a handover instruction signal from the radio base station
- a handover completion signal is transmitted to the radio base station using an updating unit configured to update the first key and a predetermined key generated using the updated first key.
- a handover completion signal transmitter configured as described above, and when a radio link failure is detected due to failure in transmission of the handover completion signal, cell selection processing is performed, and the selected reconnection destination cell is updated before And a reconnection request signal transmission unit configured to transmit a reconnection request signal using the first key.
- the handover instruction signal may be an RRC HO Command
- the handover completion signal may be an RRC HO Complete
- the reconnection request signal may be an RRC Re-establishment Request.
- the handover destination radio base station fails to receive “RRC HO Complete”
- the “UE Context” is held in the handover destination radio base station.
- the UE Context is held in the reconnection destination radio base station.
- FIG. 1 is an overall configuration diagram of a mobile communication system according to a first embodiment of the present invention.
- FIG. 2 is a diagram showing an example of a key hierarchy and a calculation procedure used in the mobile communication system according to the first embodiment of the present invention.
- FIG. 3 is a sequence diagram showing operations of the mobile communication system according to the first embodiment of the present invention.
- FIG. 4 is a sequence diagram showing operations of the mobile communication system according to the first embodiment of the present invention.
- FIG. 5 is a sequence diagram showing operations of the mobile communication system according to the first embodiment of the present invention.
- FIG. 6 is a sequence diagram showing operations of the mobile communication system according to the first embodiment of the present invention.
- FIG. 7 is a sequence diagram showing an operation of a conventional mobile communication system.
- FIG. 1 is an overall configuration diagram of a mobile communication system according to a first embodiment of the present invention.
- FIG. 2 is a diagram showing an example of a key hierarchy and a calculation procedure used in the mobile communication system according to the first embodiment of the
- FIG. 8 is a sequence diagram showing the operation of a conventional mobile communication system.
- FIG. 9 is a sequence diagram showing an operation of a conventional mobile communication system.
- FIG. 10 is a sequence diagram for explaining problems of the conventional mobile communication system.
- FIG. 11 is a sequence diagram for explaining problems of the conventional mobile communication system.
- FIG. 12 is a sequence diagram for explaining problems of the conventional mobile communication system.
- FIG. 13 is a sequence diagram for explaining problems of the conventional mobile communication system.
- the mobile communication system is a mobile communication system to which the LTE scheme is applied. As shown in FIG. 1, a plurality of switching stations MME # 1, # 2... And a plurality of radio base stations eNB # 11, # 12, # 21, # 22...
- the mobile station UE is configured to communicate with the radio base station eNB # 11 using the predetermined key described above in the cell # 111 under the radio base station eNB # 11.
- the mobile station UE includes a key update unit 12 and a communication unit 11 as shown in FIG.
- the communication unit 11 is configured to transmit and receive signals related to a handover procedure and a reconnection procedure (for example, a handover instruction signal, a handover completion signal, a reconnection request signal, a reconnection response signal, and a reconnection completion signal).
- a handover instruction signal for example, a handover instruction signal, a handover completion signal, a reconnection request signal, a reconnection response signal, and a reconnection completion signal.
- the key update unit 12 is configured to update the first key and the predetermined key described above at a predetermined timing.
- the key update unit 12 detects a radio link failure after receiving “delivery confirmation information (RLC Status (RLC Ack) or HARQ Ack)” for “RRC HO Complete (handover completion signal)”
- RLC Status (RLC Ack) or HARQ Ack) for “RRC HO Complete (handover completion signal)”
- RLC Status (RLC Ack) or HARQ Ack) for the “RRC HO Complete (handover completion signal)”
- the key update unit 12 detects a radio link failure after receiving “delivery confirmation information (RLC Status (RLC Ack) or HARQ Ack)” for “RRC Re-establishment Complete (reconnection completion signal)” Before updating the first key K eNB and receiving “delivery confirmation information (RLC Status (RLC Ack) or HARQ Ack)” for “RRC Re-establishment Complete (reconnection completion signal)”.
- RLC Status RLC Ack
- HARQ Ack HARQ Ack
- the key updating unit 12 is configured not to update the first key K eNB when a radio link failure is detected within a predetermined period from the start of the handover procedure.
- the key updating unit 12 is configured to update the first key K eNB when no radio link failure is detected within a predetermined period from the start of the handover procedure.
- the key update unit 12 is configured not to update the first key K eNB when a radio link failure is detected within a predetermined period from the start of the reconnection procedure.
- the key updating unit 12 is configured to update the first key K eNB when no radio link failure is detected within a predetermined period from the start of the reconnection procedure.
- the predetermined period may be timed by a timer started from the reception time of “RRC HO Command (handover instruction signal)” or “RRC Re-establishment (reconnection response signal)”.
- FIG. 2 shows an example of a hierarchical structure of a key used in the mobile communication system according to the present embodiment (that is, a key used for calculating a predetermined key) and a calculation procedure.
- the key K RRC - IP used for "Integrity Protection" in the RRC protocol a key K UP_Ciph used for "Ciphering" in the U-plane of the key K RRC - Ciph and AS used for "Ciphering" in the RRC protocol, the It is generated using the first key K eNB [n] .
- the first key K eNB [n] is calculated by the following equation using the parent key K ASME .
- K eNB [0] KDF 0 (K ASME , NAS SN)
- K eNB [n + 1] KDF 1 (K ASME , K eNB [n] ), (n ⁇ 0)
- the master key K ASME is known only by the mobile station UE and the switching center MME, and should not be known by the radio base station eNB.
- the NAS SN is a sequence number (Sequence Number, SN) of the NAS protocol that is a C plane protocol between the mobile station UE and the switching center MME (Non Access Stratum, NAS).
- step S1004 when a predetermined condition is satisfied, the mobile station UE transmits “RRC Measurement Report (measurement report signal)” to the handover source radio base station eNB # 1.
- step S1008 the handover source radio base station eNB # 1 transmits “RRC HO Command (handover instruction signal)” to the mobile station UE.
- the mobile station UE transmits “MAC RA Preamble” to the handover destination radio base station eNB # 2 in Step S1009, and receives “MAC RA Response” from the handover destination radio base station eNB # 2 in Step S1010. .
- step S1011 the mobile station UE that has received “MAC RA Response” calculates K eNB [n + 1] by the following equation.
- K eNB [n + 1] KDF 1 (K ASME, K eNB [n])
- the mobile station UE has not yet received “delivery confirmation information (RLC Status (RLC Ack) or HARQ Ack)” for “RRC HO Complete” or because the timer has not expired.
- step S1013 the mobile station UE transmits “RRC HO Complete” to the handover destination radio base station eNB # 2 using K eNB [n + 1] , but the “RRC HO Complete” is transmitted to the handover destination radio. It does not reach the base station eNB # 2.
- step S1014 the mobile station UE detects a radio link failure in the RRC connection described above.
- the mobile station UE detects a radio link failure in the following cases.
- step S1015 “MAC RA Preamble” is transmitted to the selected reconnection destination cell (or the reconnection destination radio base station eNB # 2 that manages the selected reconnection destination cell) in step S1016.
- “MAC RA Response” is received from the reconnection-destination radio base station eNB # 2.
- step S1018 the mobile station UE uses the first key K eNB [n + 1] before update to the reconnection destination radio base station eNB # 2, “RRC Connection Re-establishment Request (reconnection request signal)”. ".
- step S1019 the reconnection-destination radio base station eNB # 2 holds the “UE context” of the mobile station UE in advance, and therefore confirms the validity of the received “RRC Connection Re-establishment Request”.
- step S1020 the reconnection-destination radio base station eNB # 2 transmits “RRC Connection Re-establishment (reconnection response signal)” to the mobile station UE.
- step S1021 the mobile station UE transmits “RRC Connection Re-establishment Complete (reconnection completion signal)” to the reconnection destination radio base station eNB # 2.
- step S1022 the reconnection-destination radio base station eNB # 2 transmits “S1 Path Switch (path switch signal)” to the switching center MME.
- step S1023 the reconnection destination radio base station eNB # 2 transmits “RRC Connection Reconfiguration” to the mobile station UE.
- step S1024 the mobile station UE transmits to the reconnection destination radio base station eNB # 2.
- “RRC Connection Reconfiguration Complete” is transmitted.
- S1 Path Switch Ack path switch response signal
- K eNB [n + 2] KDF 1 (K ASME, K eNB [n + 1])
- a radio link failure occurs in the intra-eNB reconnection procedure (intra-radio base station reconnection procedure), and the intra-eNB reconnection is performed again.
- An operation for performing the connection procedure will be described.
- step S2004 in a state where the RRC connection is established between the mobile station UE and the radio base station eNB, and the S1 connection is established between the radio base station eNB and the exchange MME, the mobile station UE In the above RRC connection, a radio link failure is detected.
- the mobile station UE performs a cell selection process in step S2005, and calculates K eNB [n + 1] by the following formula in step S2006.
- K eNB [n + 1] KDF 1 (K ASME, K eNB [n])
- step S2008 the mobile station UE transmits “MAC RA Preamble” to the selected reconnection destination cell (or the reconnection destination radio base station eNB that manages the selected reconnection destination cell), and in step S2009. Then, “MAC RA Response” is received from the reconnection destination radio base station eNB.
- step S2010 the mobile station UE transmits “RRC Connection Re-establishment Request” to the reconnection destination radio base station eNB using the updated first key K eNB [n + 1] .
- step S2011 since the reconnection-destination radio base station eNB holds the “UE context” of the mobile station UE in advance, it confirms the validity of the received “RRC Connection Re-establishment Request”.
- step S2012 the reconnection-destination radio base station eNB transmits “RRC Connection Re-establishment” to the mobile station UE.
- step S2013 the mobile station UE transmits “RRC Connection Re-establishment Complete” to the reconnection destination radio base station eNB, but the “RRC Connection Re-establishment Complete” is transmitted to the handover destination radio base station eNB. Not reach.
- step S2014 the mobile station UE detects a radio link failure in the RRC connection described above.
- step S2015 the mobile station UE performs cell selection processing, and in step S2016, the mobile station UE selects the selected reconnection destination cell (or the reconnection destination radio base station eNB # 2 that manages the selected reconnection destination cell).
- step S2016 the mobile station UE selects the selected reconnection destination cell (or the reconnection destination radio base station eNB # 2 that manages the selected reconnection destination cell).
- “MAC RA Preamble” is transmitted, and in step S2017, “MAC RA Response” is received from the reconnection destination radio base station eNB # 2.
- step S2018 the mobile station UE transmits “RRC Connection Re-establishment Request” to the reconnection destination radio base station eNB using the first key K eNB [n + 1] before update.
- step S2019 the reconnection-destination radio base station eNB checks the validity of the received “RRC Connection Re-establishment Request” because it holds the “UE context” of the mobile station UE in advance.
- step S2020 the reconnection-destination radio base station eNB transmits “RRC Connection Re-establishment” to the mobile station UE.
- step S2021 the mobile station UE transmits “RRC Connection Re-establishment Complete” to the reconnection destination radio base station eNB.
- step S2022 the reconnection destination radio base station eNB transmits “S1 Path Switch” to the exchange MME.
- step S2023 the reconnection destination radio base station eNB transmits “RRC Connection Reconfiguration” to the mobile station UE.
- step S2024 the mobile station UE transmits “RRC Connection Reconfiguration” to the reconnection destination radio base station eNB. Send RRC Connection Reconfiguration Complete.
- K eNB [n + 2] KDF 1 (K ASME, K eNB [n + 1])
- a radio link failure occurs in the Inter-eNB reconnection procedure (inter-radio base station reconnection procedure). An operation in which the eNB reconnection procedure is performed will be described.
- step S3006 the radio base station eNB # 2 transmits “X2 HO Preparation Ack” to the radio base station eNB # 1. (Handover preparation response signal) ".
- step S3007 the RRC connection is established between the mobile station UE and the radio base station eNB # 1, and the S1 connection is established between the radio base station eNB # 1 and the exchange MME.
- the mobile station UE detects a radio link failure in the above RRC connection.
- the mobile station UE performs a cell selection process in step S3008, and calculates K eNB [n + 1] by the following equation in step S3009.
- K eNB [n + 1] KDF 1 (K ASME, K eNB [n])
- step S3012 the mobile station UE transmits “MAC RA Preamble” to the selected reconnection destination cell (or the reconnection destination radio base station eNB # 2 that manages the selected reconnection destination cell).
- step S3013 “MAC RA Response” is received from the reconnection-destination radio base station eNB # 2.
- step S3014 the mobile station UE transmits “RRC Connection Re-establishment Request” to the reconnection destination radio base station eNB # 2 using the updated first key K eNB [n + 1] .
- step S3015 the reconnection destination radio base station eNB # 2 holds the “UE context” of the mobile station UE in advance, and thus confirms the validity of the received “RRC Connection Re-establishment Request”.
- step S3016 the reconnection-destination radio base station eNB # 2 transmits “RRC Connection Re-establishment” to the mobile station UE.
- step S3017 the mobile station UE transmits “RRC Connection Re-establishment Complete” to the reconnection-destination radio base station eNB, but “RRC Connection Re-establishment Complete” is transmitted to the handover-destination radio base station eNB. Not reach.
- step S3018 the mobile station UE detects a radio link failure in the RRC connection described above.
- steps S3019 to S3032 are the same as the operations in steps S1015 to S1028 shown in FIG.
- a radio link failure occurs in the Inter-eNB reconnection procedure (inter-radio base station reconnection procedure), and the Intra-eNB reconnection is performed. An operation for performing the connection procedure will be described.
- steps S4001 to S4017 are the same as the operations in steps S3001 to S3018 shown in FIG.
- steps S4018 to S4031 are the same as the operations in steps S2015 to S2028 shown in FIG.
- the reconnection-destination radio base station eNB # 2 fails to receive “RRC Re-establishment Complete”, the reconnection-destination When “UE Context” is held in the radio base station eNB # 2, the reconnection procedure can be successful.
- the software modules include RAM (Random Access Memory), flash memory, ROM (Read Only Memory), EPROM (Erasable Programmable ROM), EEPROM (Electronically Erasable and Programmable, Removable ROM, Hard Disk, and Removable ROM).
- RAM Random Access Memory
- flash memory ROM (Read Only Memory)
- EPROM Erasable Programmable ROM
- EEPROM Electrically Erasable and Programmable, Removable ROM, Hard Disk, and Removable ROM.
- it may be provided in a storage medium of an arbitrary format such as a CD-ROM.
- Such a storage medium is connected to the processor so that the processor can read and write information from and to the storage medium. Further, such a storage medium may be integrated in the processor. Further, such a storage medium and a processor may be provided in the ASIC. Such an ASIC may be provided in the exchange MME, the radio base station eNB, or the mobile station UE. Further, the storage medium and the processor may be provided as a discrete component in the exchange MME, the radio base station eNB, or the mobile station UE.
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Abstract
Description
図1乃至図6を参照して、本発明の第1の実施形態に係る移動通信システムについて説明する。
KeNB[n+1]=KDF1(KASME,KeNB[n]),(n≧0)
ここで、親鍵KASMEは、移動局UE及び交換局MMEのみによって知られているものであり、無線基地局eNBによって知られてはならないものである。
ステップS1012において、移動局UEは、まだ、「RRC HO Comple」に対する「送達確認情報(RLC Status(RLC Ack)又はHARQ Ack)」を受信していないため、或いは、タイマが満了していないため、KeNB[n]を、KeNB[n+1]、「KI(=n+1)」と共に記憶しておく。
・ ランダムアクセス手順が成功しない場合
・ ハンドオーバ手順が失敗した場合
その後、移動局UEは、ステップS1015において、セル選択処理を行い、ステップS1016において、選択した再接続先セル(或いは、選択した再接続先セルを管理する再接続先無線基地局eNB#2)に対して「MAC RA Preamble」を送信し、ステップS1017において、再接続先無線基地局eNB#2から「MAC RA Response」を受信する。
ステップS2028において、再接続先無線基地局eNB#2は、KeNB[n+1]、KeNB[n+2]、「KI(=n+1)」を記憶する。
ここで、移動局UEは、KASME、KeNB[n+1]、「KI(=n+1)」を保持している状態となる(ステップS2007)。
ここで、ステップS2027において、再接続先無線基地局eNBは、KeNB[n+1]、KeNB[n+2]、「KI(=n+1)」を保持している状態になっており、ステップS2028において、交換局MMEは、KASME、KeNB[n+2]、「KI(=n+1)」を保持している状態になっている。
ここで、移動局UEは、KASME、KeNB[n+1]、「KI(=n+1)」を保持している状態となる(ステップS3010)。
本発明の第1の実施形態に係る移動通信システムによれば、ハンドオーバ先無線基地局eNB#2が「RRC HO Complete」の受信に失敗した場合であっても、ハンドオーバ先無線基地局eNB#2に「UE Context」が保持されている場合には、再接続手順を成功させることができる。
なお、上述の交換局MMEや無線基地局eNBや移動局UEの動作は、ハードウェアによって実施されてもよいし、プロセッサによって実行されるソフトウェアモジュールによって実施されてもよいし、両者の組み合わせによって実施されてもよい。
Claims (4)
- 第1鍵を用いて生成される所定鍵を用いて移動局と無線基地局との間の通信を行う移動通信方法であって、
前記移動局が、前記無線基地局からハンドオーバ指示信号を受信した際に、前記第1鍵を更新する工程と、
前記移動局が、前記更新した第1鍵を用いて生成した所定鍵を用いて、前記無線基地局に対して、ハンドオーバ完了信号を送信する工程と、
前記移動局が、前記ハンドオーバ完了信号の送信に失敗して無線リンク障害を検出した場合に、セル選択処理を行い、選択した再接続先セルに対して、更新前の第1鍵を用いて、再接続要求信号を送信する工程とを有することを特徴とする移動通信方法。 - 前記ハンドオーバ指示信号は、RRC HO Commandであり、
前記ハンドオーバ完了信号は、RRC HO Completeであり、
前記再接続要求信号は、RRC Re-establishment Requestであることを特徴とする請求項1に記載の移動通信方法。 - 第1鍵を用いて生成される所定鍵を用いて無線基地局との間の通信を行う移動局であって、
前記無線基地局からハンドオーバ指示信号を受信した際に、前記第1鍵を更新するように構成されている更新部と、
前記更新した第1鍵を用いて生成した所定鍵を用いて、前記無線基地局に対してハンドオーバ完了信号を送信するように構成されているハンドオーバ完了信号送信部と、
前記ハンドオーバ完了信号の送信に失敗して無線リンク障害を検出した場合に、セル選択処理を行い、選択した再接続先セルに対して、更新前の第1鍵を用いて、再接続要求信号を送信するように構成されている再接続要求信号送信部とを具備することを特徴とする移動局。 - 前記ハンドオーバ指示信号は、RRC HO Commandであり、
前記ハンドオーバ完了信号は、RRC HO Completeであり、
前記再接続要求信号は、RRC Re-establishment Requestであることを特徴とする請求項3に記載の移動局。
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CN2009801174741A CN102027775B (zh) | 2008-06-27 | 2009-06-26 | 移动通信方法及移动台 |
BRPI0913403A BRPI0913403A2 (pt) | 2008-06-27 | 2009-06-26 | método de comunicação móvel e estação móvel |
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JP2010011244A (ja) | 2010-01-14 |
BRPI0913403A2 (pt) | 2015-11-24 |
CN102027775B (zh) | 2013-05-22 |
CA2725478A1 (en) | 2009-12-30 |
AU2009263327A1 (en) | 2009-12-30 |
EP2293622B1 (en) | 2014-05-07 |
US20110086640A1 (en) | 2011-04-14 |
US8238916B2 (en) | 2012-08-07 |
CN102027775A (zh) | 2011-04-20 |
KR20100126842A (ko) | 2010-12-02 |
JP4394730B1 (ja) | 2010-01-06 |
RU2461990C2 (ru) | 2012-09-20 |
EP2293622A4 (en) | 2011-04-20 |
KR101040069B1 (ko) | 2011-06-09 |
MX2010012286A (es) | 2010-12-01 |
EP2293622A1 (en) | 2011-03-09 |
AU2009263327B2 (en) | 2013-02-14 |
CA2725478C (en) | 2014-07-29 |
RU2010144011A (ru) | 2012-08-10 |
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