CN100466781C - frame synchronizing mechanism - Google Patents

Abstract

The present invention provides a mechanism for synchronizing transmission of frames in a telecommunications network comprising a mobile station (MS), a radio network controller (SRNC), at least one base station (BS1, BS2). The mobile station (MS) and each base station (BS1, BS2) have a corresponding timing reference (MSFN, BS1FN, BS2FN). The mechanism comprises or performs the steps of 1) establishing a connection-specific timing reference (CFN) which is common to all nodes (MS, BS1, BS2, RNC) involved in the connection; 2) determining, for the base stations (BS1, BS2) an offset (OFS) between the timing reference of the base station in question and the CFN; and 3) using the offset (OFS) in the base stations (BS1, BS2), to compensate for the difference between the timing references.

Description

Frame synchronization mechanism

The application is dividing an application of the Chinese patent application No.99813850.9 that is entitled as " frame synchronization mechanism " that proposed on November 5th, 1999.

Technical field

The present invention relates to make in the telecommunications network method and apparatus by the frame synchronization of many parallel transmission path transmission.

Background technology

Figure 1A has illustrated and can use telecommunications network of the present invention.This telecommunications network can be for example so-called third generation cellular mobile network, for example UMTS (global mobile communication system).This telecommunications network comprises first end node, for example the mobile station MS and second end node, for example radio network controller (RNC) 1, RNC2.This network also comprises some intermediate nodes, and for example base station BS 1 to BS4.The formatted framing of the information that sends between end node, at least some frames send by at least two intermediate nodes between end node.Connection between the end node is called as first intermediate node so as to first intermediate node of setting up.Other intermediate node that adds this connection subsequently is called as second intermediate node.In cellular network technologies, the technology of carrying out the routing addressing of frame by some intermediate nodes is called grand diversity, diversity combination or soft handover.

Figure 1B has illustrated the problem that is associated with system shown in Figure 1A.After this, the present invention will utilize Cellular Networks, and especially the notion of UMTS and term are described, but should be kept in mind that the present invention can be applied to intermediate node (base station) differ from one another the step and/or with nonsynchronous other telecommunications network of end node (MS, RNC).In other words, different nodes do not use same timing base and/or frame number sequence.But the UMTS document tends to use terms user equipment (UE) recently, but in should using, uses term travelling carriage (MS).

According to the current application of UMTS, eliminate some traffic overhead in the following way: not by wave point Uu transmit frame numbering in frame.The substitute is, on the MS direction, frame number is broadcast to all travelling carriages simultaneously at BS, on the RNC direction, the base station adds frame number in mould p sequence at BS, and the p value of current proposal in this sequence is 72.In other words, the frame number circulation repeats: 0,1 ..., 71,0,1 or the like.The base station differs from one another the step.Therefore, frame number is relative, if be not the implicit information as the timing base on frame number basis at least, they are meaningless really.According to the difference of angle, frame number is called as MSFN, BS1FN, BS2FN or the like.In Figure 1B, timing advance is top-down.At moment T0, mobile station MS receives a frame, and MS is interpreted as frame number N with it.Because the timing base of travelling carriage, promptly its clock is main timing base, this frame of transmission sometime that RNC must be before T0.This is called timing difference Tdiff constantly, and it results from limited propagation and propagation delay time between RNC and the MS.(notion of propagation delay time is similar to the timing advance in the gsm system, and in GSM, regulates the timing advance of MS).

At moment T0, MS also sends uplink frame to RNC.This uplink frame also is numbered N, because the numbering of frame is based on the timing base of travelling carriage.Under each node (MS, BS1, BS2), show corresponding timing base, perhaps frame number sequence (MSFN, BS1FN, BS2FN).About moment T0+Tdiff, RNC is by two base stations, BS1 and BS2, received frame N greatly.Because frame number does not transmit by wave point, and because different timing bases is used in the base station, BS1 sends to RNC with this frame with the form of frame N ', and BS2 with same frame as frame N " send.RNC does not have built-in timing base.

Although first problem is the most serious in the system that uses grand diversity, the synchronous problem of potential BS/RNC can not occur when having grand diversity yet.

Second problem is in some telecommunication system, for example in UMTS, can reconfigure connection, for example to consult different data rates.This reconfigure to connect in all related nodes at this carry out simultaneously.

The 3rd problem is, in using the system of encrypting, uses frame number as the key that constantly changes usually.But mould 72 frame numbers are too short, are not enough to form reliable encryption.

Summary of the invention

Intermediate purpose of the present invention provides a kind of mechanism to solve above-mentioned first problem, i.e. MS/BS/RNC stationary problem at least.Final purpose be also solve other two with reshuffle and encrypt relevant problem simultaneously.

The middle rank purpose realizes that by a kind of method and apparatus its feature is open in the attached independently claims in back.The preferred embodiment that solves other two problems is open in accompanying related right requires.

The invention provides a kind of travelling carriage, be used for being formed into by at least one base station of telecommunications network or control radio network controller the connection of service wireless network controller, wherein first end node and each intermediate node have corresponding timing base; It is characterized in that, travelling carriage comprises the cooperative devices that is used for described service wireless network controller cooperation, wherein said travelling carriage further comprises: the apparatus for establishing of the specific timing benchmark that is used to connect, and this timing base is common to travelling carriage, service wireless network controller and base station or the control radio network controller that relates in the described connection; Be used at least one base station or control radio network controller to determine definite device of deviation, this deviation and this base station or the timing base of controlling radio network controller are corresponding with the described difference that is connected the specific timing benchmark.

The invention provides a kind of service wireless network controller, be used for being formed into by at least one base station of telecommunications network or control radio network controller the connection of travelling carriage, wherein said travelling carriage and each base station or control radio network controller have corresponding timing base; It is characterized in that, described service wireless network controller comprises: be used for the cooperative devices with the described first end node cooperation, wherein said service wireless network controller also comprises the apparatus for establishing of the specific timing benchmark that is used to connect, and this timing base is common to travelling carriage, service wireless network controller and base station or the control radio network controller that relates in the described connection; And being used at least one base station or control radio network controller to determine definite device of deviation, this deviation and this base station or the timing base of controlling radio network controller are corresponding with the described difference that is connected the specific timing benchmark; And the compensation arrangement that is used to utilize the described difference between the relevant described timing base of described information compensation of described deviation.

The invention provides a kind of control radio network controller, be used for forming being connected between travelling carriage and the service wireless network controller at telecommunications network, wherein data form with frame between described travelling carriage and service wireless network controller sends, and at least some frames send by some control radio network controllers; And wherein said travelling carriage has corresponding timing base with each control radio network controller; It is characterized in that, described control radio network controller comprises and is used to be synchronized to the synchronizer that connects the specific timing benchmark that wherein said control radio network controller further comprises: receive with himself timing base and this connection specific timing benchmark between the receiving system of the corresponding deviation of difference; And the compensation arrangement that utilizes the described difference between the described timing base of described deviation compensation.

The invention provides a kind of base station, be used for forming being connected between travelling carriage and the service wireless network controller at telecommunications network, wherein data form with frame between described travelling carriage and service wireless network controller sends, and at least some frames send by several base stations; And wherein said travelling carriage has corresponding timing base with each base station; It is characterized in that described base station comprises and be used to be synchronized to the synchronizer that connects the specific timing benchmark that wherein said base station further comprises: receive with himself timing base and this connection specific timing benchmark between the receiving system of the corresponding deviation of difference; And the compensation arrangement that utilizes the described difference between the described timing base of described deviation compensation.

Basic thought of the present invention is to determine a new problem (in existing grand diversity realized, the base station was synchronous, and this problem does not exist).Basic thought of the present invention is that also it can realize that this method may further comprise the steps by a kind of method: the 1) timing base (being called CFN) of establishment and join dependency, and it all is identical to all related nodes of this connection; (2) determine a deviation at least one base station, the timing base of this deviation and this base station and the difference correlation of CFN; And (3) utilize the poor of this deviation information compensation timing base.

According to the present invention, suggestion mobile station MS and service radio network controller (RNC) must be agreed a common timing base, and it comprises the frame number scheme that at least one is common.In this document, ' jointly ' means that for the connection between MS, SRNC and the base station that relates to be common.This common frame number scheme is called as and connects frame number CFN.

According to the preferred embodiments of the present invention, this deviation is used for the timing base of its timing base and RNC synchronous by a travelling carriage at least.

Use common frame number scheme, promptly CFN means that it is frame number X with this frame flag when the SRNC decision sends data to mobile station MS.When travelling carriage received this frame, it was identified as frame X with frame.But actual frame number does not send on Traffic Channel, correspondingly, must decide through consultation common frame number scheme when connecting.In other words, MS and SRNC must be when the MS behavior begins their frame number scheme synchronously just.In other words, MS and SRNC must be just synchronized with each other when several leading connection message of exchange.If desired, MS/RNC synchronously can be based on independent synchronization message, but if machine-processed below using, it is unnecessary then using independent message for this reason: first message that MS sends generally is " connection request " message.It comprises that MS plans to be included in its active set, and promptly it enlivens the measurement of the sub-district of concentrating sub-district/base station.According to the present invention, initial message also comprises the information with the difference correlation of the timing base of different base station.The timing base of MS is called OFSn with the difference of the timing base of the base station of numbering n.Be this value of each base station measurement that MS monitored.

SRNC is receiving initial " connection request " that time of definite common reference from MS.When dedicated channel was set up for this MS in SRNC order base station, SRNC also sent the corresponding deviation OFSn relevant with BS to the base station.In each downlink frame, SRNC has comprised the frame number according to common frame number scheme.For each frame, this numbering all is identical to all base stations.For by wave point transmission, it self the specific deviation OFSn in base station is used in each base station, common frame number is mapped to the numbering plan of base station self.After this frame number mapping, BS can send this frame at correct time point.The base station can also be shone upon by travel direction on up direction, thereby the diversity assembled unit among the SRNC can make up the frame with same frame number.

Common frame number still is used for the timing base of RRC (radio resource control) message, for example handoff command from SRNC to MS.

According to a kind of embodiment of the present invention, a base station, first base station that relates in preferably connecting does not need to compensate the difference of timing base.In other words, the timing base that compensates other base station mates the timing base of first base station.According to the preferred embodiments of the present invention, this frame number FN comprises two parts.A part has formed the least significant bit of FN, is known mould 72CFN.Another part has formed the highest significant position of FN, can be called Hyper Frame Number HFN.(=CFN+HFN) pattern length preferably has 32 bits at least to FN.This embodiment has solved and has encrypted the 3rd relevant problem.

When MS sent its initial " connection request " message, it can be arranged to CFN successfully to have sent the BS1FN of the RACH frame of message.(back will provide the preferred initialization value of HFN.) SRNC receives this message in FCL (frame key-course) frame, the FCL frame also comprise BS1FN (=CFN), it can be initialized to right value with MSFN.Even without receiving uplink frame, (this specific MS's) MSFN that is stored among the SRNC also is every 10 milliseconds of increments once.But in fact per 720 milliseconds only increment HFN is just enough, because CFN is included in each up FCL frame.Can be following the specific HFN counter of cancellation MS: 1) only store the initial value of each MS, and 2) in each frame, initial value added from connecting sets up, promptly from the HFN initialization, the quantity in complete CFN cycle of process.

Because the timing base of MS is a main body, MS can freely select the initial value of any value as CFN and/or HFN.This degrees of freedom can be used for improving cryptographic security.No longer be strict time CFN and/or HFN to be set, but will be somebody's turn to do the seed number that is used as cryptographic algorithm constantly, be used to provide the initial value of encryption, make the listener-in can't obtain this initial value based on " connection request " message.

For encryption, each side should: 1) initialization seed number (CFN and/or HFN), and 2) avoid in short time period, using identical seed several twice or repeatedly.Reusing of identical seed number can weaken cryptographic security.For example, let as assume that travelling carriage uses same cipher key Kc in two RRC in succession connect.If on both direction, HFN is initialized to 0, then the same input of cryptographic algorithm (FN and KC) is used twice, uses identical encryption mask in the relatively short time period.This also may take place when random initializtion.

According to another preferred embodiment of the present invention, can following improvement cryptographic security.When discharging RRC and connect, last HFN that the travelling carriage storage is used (perhaps can so as to determining the out of Memory of the last HFN that uses).MS can for example be stored in the HFN that uses at last in its SIM card, prevents reusing of same cipher key.When new RRC connection was set up, MS was initialized to certain value with HFN, and this value is greater than the last HFN that uses, and this value is preferably in RRC, and " connection is set up request information and sent to SRNC.This HFN value will be as the benchmark of SRNC initialization HFN.Best next HFN is that the last HFN that uses adds 1.This has guaranteed the maximum period of time that exists same encryption key to be reused.Should be noted that it only is a kind of possibility message that sends the HFN initial value that RRC " connects the request of foundation ".This value can send in the what is the need breath in office in any moment before encrypting beginning.

Connect the length set up message in order to reduce RRC as far as possible, should only send the highest significant position (lowest effective value has default conditions, for example 0) of HFN.The quantity that is used for the initialized bit of HFN depends on the number of times that can reuse same encryption key when new RRC connects setting up.8 bits may be enough to send the highest significant position of HFN.

Before encrypting beginning, (for example when setting up new RRC connection), HFN should be initialized to certain value greater than the last HFN value of using.This can guarantee by following process.When discharging a RRC connection, the value of the HFN of MS storage use last time preferably is stored in it in SIM card of MS.When setting up next RRC and connect, read this value and add 1 from SIM card.Add 1 and guaranteed to exist the maximum period of time that reuses same encryption key.Nature can be finished incremental steps before storage.

Highest significant position by only storing HFN (HFN can before or after storage increment) can be saved some memories.

HFN between MS and the UTRAN (UMTS wireless access network) can " connection be set up in the request information and is sent HFN (or its highest significant position) synchronously by the RACH channel to network at RRC by MS.Perhaps, MS can: 1) use dedicated channel; 2) during verification process; Perhaps 3) in " encryption mode is finished " message, send HFN (or its highest significant position) and give UTRAN.If network has the information (for example in RRC connection reconstruction process) of the HFN of last use, then RNC can initialization HFN.

In the UMTS handover procedure, suitable message is " handover end " at GSM.Perhaps, MS can send HFN (or its highest significant position) and give the GSM network, and the latter is transmitted to the UMTS network with it.

Potential potential safety hazard still exists.This hidden danger may cause under following situation: the power supply of travelling carriage (battery) breaks down during the calling.When battery charges again or is replaced, set up new connection, then read HFN (and MSB part) and send to network from SIM card.But if battery failures, the HFN that the not free storage of travelling carriage was used last time then newly connects (after charging/replacement battery again) and will use " old " HFN.Therefore, the frame number that new connection will be used is identical with last connection, and this has weakened fail safe.

Therefore, preferably realize following characteristic: when reading the HFN number of last use from SIM card, it is labeled as " old " (perhaps " using ").When connecting end,, then it is labeled as " new " (perhaps " not using ") if the HFN number that will use at last writes SIM card.If the HFN that uses at last correctly can't be updated to SIM card (for example because battery failures), then travelling carriage will be retrieved " old " HFN number (or its MSB part).In this case, travelling carriage has two selections at least.

According to first selection, MS can select random number as HFN.This random number should be much larger than the HFN of last use, thereby the possibility that this sequence or frame number are repeated is very little.If the every L of a MS superframe just upgrades the HFN of SIM, and the HFN of recent renewal is labeled as " old ", then this will be forced to carry out.If battery failures, the HFN of next connection will be changed to " old " HFN and (be stored in SIM card+L+1).This value should be updated to SIM card immediately and be labeled as " old ".(certainly, because HFN has finite length, " greater than " should make an explanation according to the modulus mode).

According to second selection, MS can have a bad HFN by this MS of informing network, the encryption key Kc that please look for novelty.After having exchanged Kc, first connect to use which HFN and new Kc unimportant.

Some are encrypted notion and can't use CFN as encrypting counter.Need CFN not had directly actuated protocol layer carry out if encrypt, for example carrying out, then belonging to this situation at RLC (Radio Link control) layer.In this case, same HFN still can be used for initialization and encrypts counter, but after initialization, encrypts counter not with the CFN increment, but by alternate manner, for example passes through according to RLC PDU number.RLC PDU number and CFN are similar, generally have finite length, thereby in fact the cycle of RLC PDU number is shorter than the length of general connection.In some encrypt notions, even be encrypted in more than an enterprising provisional capital of protocol layer to be feasible, for example all nontransparent business to be encrypted on rlc layer, and use the business of transparent RLC, then on the MAC layer, encrypt for all.In this case, the encryption on the MAC layer can use HFN+CFN as ciphering sequence number, and the encryption on the rlc layer should be used the sequence number input of HFN+RLCPDU number as cryptographic algorithm.

If encrypt and for example on rlc layer, to use CFN, then following possibility can cause other problem, promptly there are a plurality of voice and packet data concurrent services (radio access bearer), each professional RLC entity that uses it, thereby each business has RLC PDU number sequence independently.In fact, this means that each business (radio access bearer) has its ciphering sequence number.Need solve two problems: 1) encryption at other carrier has enlivened under the situation, should be business (radio access bearer) and use which HFN value to connect to add? Need and 2), then after discharging the RRC connection, which HFN be stored into SIM (perhaps any nonvolatile memory) if each business has the encryption counter of oneself?

For problem 1), there are two kinds of possible schemes.According to first scheme, read the HFN (be similar to RRC and connect the process of setting up) of new radio access bearer from SIM card.According to alternative plan, the highest HFN that the HFN of new radio access bearer will use during will connecting based on this.It can be arranged to such value, this value is identical with the maximum HFN that uses, perhaps for example than big certain integer value of the maximum HFN that uses, preferably.

For problem 2), solution is all to write down the maximum HFN of use at any time.When discharging the RRC connection, (perhaps after every L superframe) stores the maximum HFN that uses into SIM card in the above described manner.This recording process can be realized in for example monitoring the consultative management entity that all concurrent encryptions carry out.

Should be noted that if concurrent encryption counter moves independently of one another, then do not solve actual safety problem, because same encryption Counter Value can appear in the very short time period (in different business).In addition, if, must comprise unencrypted PDU number in the transmission course, so followed the tracks of the encryption counter by the listener-in easily based on the encryption of RLC PDU number.Safety problem (avoiding producing same encryption mask in crossing short time period) can followingly solve: a) comprise the specific input of carrier (perhaps logic channel) (for example signal of carrier number) (this is open in Finnish patent application 990500) in the cryptographic algorithm input; Perhaps pass through b) be that each concurrent radio access bearer uses different K c or different cryptographic algorithm (this is open in Finnish patent application 980209).The use that should be noted that SIM card only provides as an example.Any nonvolatile memory is all right.But, consider that MS user transfers to the situation of another terminal with SIM card, preferably is stored in HFN among the SIM.According to another preferred embodiment of the present invention, frame number skew OFSn is not an integer, and has higher resolution.The fractional part of OFS is called as symbol offset, SOF, if the 1st layer of synchronous needs in the soft handover procedure, its resolution preferably mates a code element or substrate.Perhaps OFS and SOF can be stored as different parameters.

These skews can comprise middle renewal in each measurement.Travelling carriage can compare it self the timing base and the timing base of base station at any time.

If the present invention is used for using the telecommunication system of UMTS term, then mobile station MS and radio network controller (RNC) can be hereinafter referred to as first end node and second end node.Correspondingly, base station BS can be called intermediate node.Connection is called as first intermediate node so as to first intermediate node (BS) of setting up.Other intermediate node of Jia Ruing is called as second intermediate node subsequently.

Description of drawings

Below in conjunction with accompanying drawing, describe the present invention in detail by preferred embodiment, in the accompanying drawings:

The block diagram illustrations of Figure 1A cellular telecommunication network;

Figure 1B has illustrated particular problem related to the present invention;

Fig. 2 A has illustrated notion of the present invention;

The signaling diagram of Fig. 2 B has illustrated the operation of the preferred embodiment of the present invention; And

Fig. 3 shows the situation that intermediate node is control RNC.

Embodiment

Fig. 2 A has illustrated notion of the present invention.According to the present invention, defined connection specific timing benchmark, be labeled as benchmark numbering 20.Connect specific timing benchmark 20 and comprised and connect specific frame number CFN, and the expansion and the decimal Offset portion SOF that preferably are called superframe numbering HFN.

The maintenance that connects specific frame number is similar to other frame number among Figure 1B basically.In other words, it is since 0 with mould p mode stepping (increment), and wherein p is the cycle of counter, and for example 72.Be the similar frame number counter of all node maintenances in connecting.Unique difference between the counter is the deviation between them.In Fig. 2 A, mobile station MS and RNC with its frame number MSFN, RNCFN with to be connected specific frame number CFN synchronous.With regard to CFN, base station BS 1 has+2 the specific deviation BS1 of BS, because 2 must be added to the frame number BS1FN of BS1 to obtain connecting specific frame number CFN.(this deviation is called as the problem of just still negative just name custom.) correspondingly, base station BS 2 has the specific deviation BS2=-3 of BS.(in Fig. 2 A, selecting this little deviation is for brevity.In fact, deviation can be between 0 to 7 value arbitrarily.) according to the present invention, must determine the specific deviation of these BS, and send this base station to, thereby each base station can be used this deviation to compensate himself timing base (being its frame number) and is connected the poor of specific timing benchmark 20.

The vertical frame that is labeled as CFN has been indicated the frame number of each point in the network.Shown in constantly, connect specific timing benchmark 20 and have frame number CFN=5, it also is the same to MS and RNC.The specific frame number of the BS of BS1 is 3, and BS2's is 8.Because MS is a main body, it can freely select any timing base, and because RNC must be synchronous with the frame number of its frame number and MS, MS and RNC also can be synchronous with the frame number scheme of its frame number scheme and BS1, and BS1 is the first related base station of this connection.This means the deviation of BS1, promptly OFS1 is 0.(still, consider that BS1 may directly add the upper deviation easilier, rather than check at first whether its deviation is 0, if deviation non-0 then carry out addition, so the benefit of 0 deviation would be less.)

Connect specific timing benchmark 20 and also should comprise expansion, be called superframe numbering HFN.Whenever CFN finishes one-period, for example per 720 milliseconds, then realize stepping (increment).For two reasons, the bit length of HFN should be quite high.At first, during connecting, the HFN/CFN combination should be very clear and definite.Secondly, the HFN/CFN combination should be used as keys for encryption/decryption.The suitable length of keys for encryption/decryption is about 32 bits, and long approximately 25 bits of HFN.Under this bit length, even the HFN/CFN combination is still very clear and definite during the connection that lasts up to 1 year.

Connect specific timing base 20 and preferably also comprise decimal deviation part SOF, it is as the propagation delay Tdiff shown in compensation Figure 1B.

Should be noted that some misleading of term ' frame number '.Frame number is not used in the actual user's frame of statistics.But the uplink frame numbering (marking) that the base station utilizes frame number that given time is sent.They also utilize frame number to determine to send the moment of the downlink frame with given frame number.For example, suppose each 10 milliseconds of increment of CFN once, it had for 72 (720 milliseconds) cycles in step, and the uplink frame that 1 second (1000 milliseconds=100*10 millisecond) sends after connecting has HFN that is numbered 1 and the CFN that is numbered 28 (=100mod 72).Correspondingly, frame number is that 28 downlink frame must send by the 280+n*720 after connecting.In order to keep synchronously,, then can between RNC and BS, send empty frame if user data of no use needs to send.

As mentioned above, according to a preferred embodiment of the present invention, after discharging the RRC connection, the HFN that uses at last is stored in the SIM card of travelling carriage.When setting up next new RRC connection, MS sends to initial value of SRNC, and SRNC makes its value greater than the last HFN that uses according to this initial value initialization HFN.Because the limited length of HFN, " greater than " should explain in the modulus mode.For example, the length that lets as assume that HFN is 25 bits.By only storing and send the highest significant position of HFN, can save some memories, shorten to connect and sets up message.MS can only store 8 significant bits the highest.Let us calls these 8 bits the MSB part of HFN.Set up in the process in next one connection, will not know 17 least significant bits (LSB part).But, if MSB part increment 1 (during two continuous RRC connect), a then new HFN who connects will be certainly greater than the last HFN of last connection.If supposition LSB part all is 1, whole HFN (being not only the MSB part) increment 1 then can obtain same effect.

The signaling diagram of Fig. 2 B has illustrated the operation of the preferred embodiment of the present invention.In step 200, MS sends the message that is called " RRC connection request " (RRC=radio resource control), and initialization should connect.This message has comprised the measurement that MS plans to be included in the base station of its active set.In step 202, connection request is sent to service wireless network controller SRNC.In step 204, SRNC sends " channel activation " order and gives BS1.This message comprises the frame number deviate of BS1, i.e. OFS1.But because BS1 is first base station that relates in this connection, its deviate OFS1 can be arranged to 0, because do not need the frame number of base station synchronous with absolute timing base.As long as the frame number of each base station is synchronized with each other just enough.(then, BS1 sends and confirms to SRNC, but this is irrelevant to understanding the present invention.) at step 206-208, " connection request affirmation " sends to MS by BS1.Now, set up connection between MS and the SRNC.

In step 210, MS sends its first uplink frame.In step 211, BS1 calculates this frame number CFN according to the moment that it receives the connection frame.BS1 also adds CFN its frame number deviation OFS1, but OFS1 is configured to 0, and CFN is constant.In step 212, BS1 sends this frame to SRNC.Step 214-216 has provided the corresponding step that sends downlink data.

MS must its adjoining base station of continuous monitoring.In step 220, it sends to one of SRNC " measurement report ", and latter's (in this example) comprises the measurement data of BS1 and BS2.This measurement data comprises the BS1 that records and power and the frame number deviation of BS2.In step 222, the signal that SRNC decision MS receives BS2 is enough strong, BS2 can be added the active set of MS.In step 224, SRNC sends " channel activation " order to BS2, and the latter has comprised the frame number deviation OFS2 of BS2.In step 226, SRNC sends to one of MS " active set renewal " message, and this message command M S is included in its active set with BS2.(" active set renewal " message is similar a bit to handover message, but not necessarily abandons current base station.)

In step 230, MS sends another uplink data frames.At this moment, this frame is forwarded to base station BS 1 and BS2.In step 231, the specific frame number BS1FN in its base station, BS2FN are determined according to the moment that it receives this frame in each base station, and (n={0 adds himself frame number deviation on 1}) at BSnFN.These OFSn are to be connected frame number CFN with the BSnFN sum.CFN does not have the base station particular index, because it all is identical in two/all base stations that connect.In step 232, BS1 and BS2 send uplink frame to SRNC, and its assembled unit can correctly make up these frames, because CFN is identical in these two frames.

The practical combinations step can be based on known grand diversity technique.Each frame can comprise measurement result, and for example error rate BER or received signal intensity are indicated RSSI, and in similar coded frame, assembled unit can be selected the frame of measurement effect the best.

Step 234 to 236 has been described the transmission downlink data to mobile station MS.In step 234, SRNC transmission connection frame number is two/all base stations that the downlink data frame of CFN comprises to the travelling carriage active set.In SRNC, determine the CFN of downlink frame according to the moment of SRNC transmission downlink frame.In step 235, base station BS 1 and BS2 utilize CFN to determine that they must send the moment of downlink frame to travelling carriage.In Fig. 2 B, calculating constantly illustrates with following steps: connect frame number CFN and deduct base station special tolerances OFSn, the specific frame number BSnFN in base station consequently, it with this frame must be sent to MS the time be carved with clear and definite relation.The front was described, and BSFN has specified the time of 720 millisecond periods.Except knowing BSFN, Hyper Frame Number HFN must be safeguarded in the base station, and the latter has specified the highest significant position in this moment.Then, in step 236, base station BS 1 and BS2 send downlink data frame to mobile station MS.Different base station special tolerances OFSn has compensated the difference of the timing base of base station, and they send this frame at correct time point.

In Fig. 2 B, send the uplink and downlink frame one by one.But in fact, some frames (for example 4 frames) are combined into transmission block set TBS, to improve cryptographic security and to the repellence of transmission error.No longer comprise CFN and/or timing adjustment information in each frame, but it is just enough to comprise this information in each TBS.

The ground floor symbol synchronization

In the UMTS of current version, must in the timing difference that is less than a code-element period, receive the descending ground floor data of needs combination.Synchronous in order to realize this code-element period, can adopt the process of determining the frame number deviation that is similar to.MS measures the code element deviation SOFn of sub-district/base station to be selected.With the frame of MS particular requirement regularly and the form measurement SOF of the difference of a descending high position (broadcasting) channel frame of BS timing, and with it be included in the measurement report.After decision added the active set of MS with new base station, the SOFn with BS in channel activation message was sent to this BS.

Because frequency drift must be upgraded SOF during connecting.In this case, MS can measure/recomputate SOF, and reports SOF in measurement report.The expection ratio that SOF recomputates is per 10 minutes 1 time magnitude.

These two deviations can be combined into a floating number, and its integer part has been specified OFS, and fractional part has been specified SOF, thereby do not re-use independent frame number OFS and code element deviation SOF.

SRNC redistributes

During connecting,, this MS can change for providing the RNC of service.In Figure 1A, empty arrow has provided MS and has moved to the sub-district that BS4 served under the RNC2 control., this situation requires redistributing of SRNC.Redistribute in the processing at SRNC, must take frame number system (being MSFN).Because up FCL frame, the CFN part can be safeguarded in new SRNC.But HFN should be sent to new SRNC by the lur interface.HFN can transmit in RNSAP SRNC re-allocation process.If these two message have surpassed 720 milliseconds CFN cycle (relating under the situation of MAP-E this easier generation) by the maximum transfer delay of core net, must take some extra measurements.For example, suppose former RNC and new RNC are synchronized to common timing base that it is just enough then the initialized moment of HFN to be notified to new RNC.

Common channel state

If when almost not having data to transmit between MS and the SRNC, MS can enter common channel state (CH) during connecting.In common channel state, can share specific access channel between the several mobile stations, for example Random Access Channel RACH and forward access channel FACH channel.At any time, some travelling carriages may use and encrypt other and then do not need.In this case, it is essential that the use of absolute frame numbering benchmark only is only for the encryption purpose, because do not use grand diversity.In other words, between MS and RNC,, allow MS to use the frame number of this base station only by a base station transmit frame.If because handover changes BS, then CFN should change over the CFN of new BS.

On RACH, MSFN is used for enciphered data, although the transmission of some RACH signaling messages (perhaps to small part RACH signaling message) is a not encrypted.At FACH (perhaps any common down channel, for example DSCH Downlink Shared Channel DSCH), MSFN is used for scheduling and the re-transmission of SRNC.The MAC layer is known BSFN and/or CFN, uses the MSFN enciphered data on FACH.Be preferably in the indication (for example in MAC layer message header) that all should have this grouping whether to encrypt on all common signal channels.

If the timing base that RNC uses is just definite before entering the CCH state, it may not known definitely corresponding to the frame number of BS transmission downlink frame to the moment of MS.This in fact feasible encrypt/decrypt based on frame number becomes impossible, because MS can be at such moment received frame, this moment, pairing frame number was different from the frame number that RNC is used to encrypt.Therefore, suggestion at least can't be under the situation of the moment of the frame number indicated corresponding to RNC transmit frame at BS, and the BS transmit frame is given MS, and suitable correction field is provided.For example, if the indicated CFN of RNC is 36, BS sends this frame in the moment corresponding to 38 CFN, and then BS should equal two frame numbers to the time quantum that MS indicates this frame to postpone.

This correction field should be constrained to nonnegative value.This means that then this frame is delayed if frame number is not the indicated frame number of RNC.If the indicated frame number of RNC is excessive, BS should correct this problem by postponing this frame.

It also is feasible using suitable correction field under following situation: which radio frames control RNC (CRNC, the RNC of control BS) decision should use transmit, and is finished by Serving RNC (SRNC) but encrypt.This situation is shown in Figure 3.In this case, CRNC is according to intermediate node of the present invention.

If the encryption/decryption algorithm that adopts is that MS can conclude whether can correctly decipher frame (for example in the time can't correctly deciphering, providing an insignificant result), then do not need to send the correction field.In this case, MS can utilize the secret key decryption frame corresponding to the several frames in front when running into incorrect decrypted result.

Change at the UMTS motion

If the present invention is applied to cellular telecommunication network, for example UMTS then needs current standard proposals are carried out some changes.Should expand the RRC agreement, in the measurement report of alternative cell, transmit the specific deviation in base station (OFS, preferably L1 SOF regularly).For some base station, the change of these measured values is very slow, and perhaps for practical application, they not change, and therefore only just sending this deviation where necessary can reduce some expenses.

The FCL agreement should comprise CFN in each uplink and downlink frame.In order to keep synchronously, need to send (DTX) even without data, uplink frame also should regularly send.Empty frame can be used for initial synchronisation.Can comprise one or more times adjustment bits in the FCL message header.The form of message header can be that carrier is specific.

Use if desired, the BSAP agreement should comprise OFS/SOF in " channel activation " message and " channel-changing " message.Should define a new message/process, " bust this/mistake indication " received such frame with the indication base station, and this frame is positioned at outside the time slot of distributing to it fully.

The RNSAP agreement should comprise OFS/SOF in " branch's increase " and " branch's reprovision " message.Should define a new message/process to be similar to the mode of BSAP agreement, " bust this/mistake indication ".

RANAP should " SRNC redistributes " and " SRNC redistributes and comprises HFN (perhaps this HFN initialization constantly) in the request information.

Radio network controller (RNC) should comprise superframe numbering HFN counter for each travelling carriage at the MAC layer.In fact, only be to need the specific counter of MS as logical concept.In actual applications, differ and be decided to be each travelling carriage and set up independent counter.Perhaps for each travelling carriage, RNC can store and connect the moment of setting up, and when needs HFN number, retrieves its initial value, with its add the current duration that connects (with 720 number cycles be unit).HFN can be as the input of encryption/decryption algorithm.RNC preferably also stores the SOF/Tdiff (referring to Figure 1B and 2A) of each travelling carriage, makes amendment according to timing advance bit in the FCL uplink frame.This information is used to be provided with the transmission time of FCL downlink frame, and is used to be provided with the switching time that relates to the operation that L1/L2 reconfigures.

Base station BS should be stored the BS particular frame numbering deviation OFS (and independent code element deviation SOF, if it is not included among the OFS) of each travelling carriage.BS should comprise CFN=BSFN+OFS in each uplink data frames, send downlink data frame in the moment corresponding to BSFN=CFN-OFS.(these add with reducing in, suppose that SOF is included among the OFS.) in addition, the base station should be provided with in up FCL frame regularly adjusts bit.

Mobile station MS should the specific frame number MSFN of initialization MS, and per 10 milliseconds of increments once.(except prior art is measured), the OFS and the SOF of the base station in also should measuring range, and in its measurement report these straggling parameters of report.

For the present invention is described, and in order to prove its industrial applicability, be primarily aimed at 3-G (Generation Three mobile communication system), for example UMTS has described the present invention.But the present invention can be applied to the communication system of other type, and therefore, it is not limited to the foregoing description.

Nomenclature

BSn: the base station that is numbered n

BSAP:BS applying portion agreement

BSnFN: the used frame number in base station that is numbered n

CCH: common channel (state)

CFN: Connection frame number

DTX: discontinuous transmission

FACH: forward access channel

FCL: frame key-course (frame host-host protocol)

HFN: superframe numbering, the expansion of CFN

MAC: medium access layer

MS: travelling carriage is also referred to as subscriber equipment (UE)

OFSn: the frame number deviation that is numbered the BS of n

RACH: Random Access Channel

RANAP:RAN (Radio Access Network) applying portion

RNC: radio network controller

RNSAP: Radio Network System Application Part (2 RNC between signaling protocol)

SOFn: the code element deviation can be expressed as the fractional part of OFSn

SRNC: Serving RNC

TBS: transmission block set

UMTS: global system for mobile communications

Claims (6)

1. travelling carriage (MS), be used for by at least one base station (BS1 of telecommunications network, BS2, ...) or control the connection that radio network controller is formed into service wireless network controller (SRNC), wherein said travelling carriage (MS) and each base station (BS1, BS2) has corresponding timing base (MSFN, BS1FN, BS2FN); It is characterized in that travelling carriage (MS) is arranged to and described service wireless network controller (SRNC) cooperation, wherein said travelling carriage further comprises:

Be used to the to connect apparatus for establishing of specific timing benchmark (CFN), this timing base is common to the travelling carriage (MS) that relates in the described connection, service wireless network controller (SRNC) and base station (BS1, BS2) or control radio network controller;

Be used to be at least a base station (BS1, BS2) or control radio network controller and determine definite device of deviation (OFS, SOF), this deviation and this base station or the timing base of controlling radio network controller are corresponding with the described difference that is connected specific timing benchmark (CFN).

2. according to the travelling carriage (MS) of claim 1, it is characterized in that described connection specific timing benchmark comprises:

Connect specific frame number (CFN), it is worth with the predetermined space step change, and has finite length, makes the cycle that connects specific frame number (CFN) in fact be shorter than the duration of connection;

Frame number expansion (HFN), step change when it finishes one-period in the specific frame number of connection; And

Described travelling carriage (MS) be configured to set up, rebulid or handover certain when connecting, send the initiation parameter of described frame number expansion (HFN) to service wireless network controller (SRNC), in order to described frame number expansion (HFN) is initialized to certain value, this value has surpassed the final value of described frame number expansion (HFN) during the last connection.

3. service wireless network controller (SRNC), be used for by at least one base station (BS1 of telecommunications network, BS2, ...) or control the connection that radio network controller is formed into travelling carriage (MS), wherein said travelling carriage (MS) and each base station (BS1, BS2) or control radio network controller have corresponding timing base (MSFN, BS1FN, BS2FN), and described service wireless network controller (SRNC) and described travelling carriage (MS) cooperation;

It is characterized in that described service wireless network controller (SRNC) also comprises:

Be used to the to connect apparatus for establishing of specific timing benchmark (CFN), this timing base is common to the travelling carriage (MS) that relates in the described connection, service wireless network controller (SRNC) and base station (BS1, BS2) or control radio network controller; And being used to be at least definite device that a base station (BS1, BS2) or control radio network controller are determined deviation (OFS, SOF), this deviation and this base station (BS1, BS2) or the timing base of controlling radio network controller are corresponding with the described difference that is connected specific timing benchmark (CFN); And

Be used to utilize the compensation arrangement of the difference between the relevant described timing base of information compensation of described deviation.

4. according to the service wireless network controller of claim 3, it is characterized in that service wireless network controller (SRNC) comprises the conveyer that is used for the described information of relevant described deviation is sent to this base station or control radio network controller.

5. control radio network controller, be used for forming being connected between travelling carriage (MS) and the service wireless network controller (SRNC) at telecommunications network, wherein data form with frame between described travelling carriage (MS) and service wireless network controller (SRNC) sends, and at least some frames send by some control radio network controllers; And wherein said travelling carriage (MS) and each control radio network controller has corresponding timing base (MSFN, BS1FN, BS2FN);

It is characterized in that described control radio network controller can be used in to be synchronized to and connects specific timing benchmark (CFN), wherein said control radio network controller comprises:

Receive with himself timing base and this connection specific timing benchmark (CFN) between the receiving system of the corresponding deviation (OFS, SOF) of difference; And

Utilize the compensation arrangement of the described difference between the described timing base of described deviation compensation.

6. base station (BS1, BS2), be used for forming being connected between travelling carriage (MS) and the service wireless network controller (SRNC) at telecommunications network, wherein data form with frame between described travelling carriage (MS) and service wireless network controller (SRNC) sends, and at least some frames send by several base stations (BS1, BS2); And wherein said travelling carriage (MS) and each base station (BS1, BS2) have corresponding timing base (MSFN, BS1FN, BS2FN);

It is characterized in that described base station can be used in to be synchronized to and connects specific timing benchmark (CFN), wherein said base station comprises:

Receive with himself timing base and this connection specific timing benchmark (CFN) between the receiving system of the corresponding deviation (OFS, SOF) of difference; And

Utilize the compensation arrangement of the described difference between the described timing base of described deviation compensation.

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