Source: https://patents.google.com/patent/CN101647307B/en
Timestamp: 2020-04-08 23:08:29
Document Index: 796380306

Matched Legal Cases: ['§ 119', 'application No.60', 'application No.60', 'application No.60', 'art 44', 'art 44']

CN101647307B - Apparatus and method of performing a handoff in a communication network - Google Patents
Apparatus and method of performing a handoff in a communication network Download PDF
CN101647307B
CN101647307B CN 200880010011 CN200880010011A CN101647307B CN 101647307 B CN101647307 B CN 101647307B CN 200880010011 CN200880010011 CN 200880010011 CN 200880010011 A CN200880010011 A CN 200880010011A CN 101647307 B CN101647307 B CN 101647307B
CN 200880010011
CN101647307A (en
N·J·帕雷克
M·克拉斯尼安斯基
2007-03-26 Priority to US60/908,120 priority Critical
2007-03-26 Priority to US60/908,047 priority
2007-03-26 Priority to US90805507P priority
2007-03-26 Priority to US90812007P priority
2007-03-26 Priority to US90804707P priority
2007-03-26 Priority to US60/908,055 priority
2008-03-25 Priority to US12/055,076 priority patent/US9155008B2/en
2008-03-25 Priority to US12/055,076 priority
2008-03-26 Application filed by 高通股份有限公司 filed Critical 高通股份有限公司
2008-03-26 Priority to PCT/US2008/058328 priority patent/WO2008118994A2/en
2010-02-10 Publication of CN101647307A publication Critical patent/CN101647307A/en
2013-03-27 Publication of CN101647307B publication Critical patent/CN101647307B/en
Apparatus and methods enable an efficient, low-latency handoff of a communication session, which may be especially effective in a high data rate network. The apparatus and methods provide for a source transceiver module to complete a transmission in-progress while at the same time informing a target transmission module of an end point of the transmission such that data in a shadow buffer of an anchor network function module can be sent to the target transceiver function prior to implementation of the handoff. As such, the apparatus and methods allow for an extremely quick handoff that minimizes use of a backhaul network.
In communication network, carry out the apparatus and method of switching
Require priority based on 35 U.S.C. § 119
Present patent application requires the priority of following provisional application:
On May 26th, 2007 is that submit, name is called the provisional application No.60/908 of " NETWORK CONTROL FUNCTIONLAYER 2 HANDOFF LOW LEVEL DESIGN ", and 055,
On May 26th, 2007 is that submit, name is called the provisional application No.60/908 of " NETWORK FUNCTION HIGHLEVEL DESIGN ", and 120,
On May 26th, 2007 is that submit, name is called the provisional application No.60/908 of " TRANSCIEVER FUNCTIONSOFTWARE HIGH LEVEL DESIGN ", 047 priority,
These provisional application have transferred the application's assignee, therefore incorporate clearly it into this paper with way of reference.
Put it briefly, the present invention relates to radio communication, specifically, the present invention relates between network entity, carry out the apparatus and method that session is switched.
In the past few years, wireless communication technology develops into digital system from analog drive system.Usually, in the analogue system of routine, analog signal is carried out relaying at forward link and reverse link, and exigent bandwidth, in order to signal can be in sending and receiving be associated with suitable quality.Because analog signal is continuous on time and space, so do not generate status message (for example, indication receives or do not receive the message of data).By comparison, packet-switched systems allows analog signal conversion become packet, and by access terminal and base station, router etc. between physical channel send.In addition, numerical data is carried out relaying with its form (for example, text, internet data etc.) originally by use grouping handover network.Therefore, widespread deployment digit wireless communication system, in order to various communication services such as phone, video, data, message, broadcasting etc. are provided.
Because Wireless Telecom Equipment comes into operation more and more, in order in the situation that satisfies growing demand data, carry out service, so wireless network bandwidth and data rate are also increasing.Like this, WAP (wireless access point) will accumulate the formation of the data that mail to the wireless device of being served by access point.In the system of prior art, when needs carried out wireless device communication session switching from an access point to another access point, these data queues were enough little, so that they are manageable, and do not affect quality of connection.Yet, in current high data rate network, not switch if do not carry out rapidly, it is very long that data queue will become.Time the postpone a meeting or conference generation negative influence of long like this data queue to experiencing in the ongoing service, and in the service such as ip voice (VoIP), time delay is the very important service quality (QoS) that will consider.In addition, for the transmission of data successfully, large like this formation will need to increase the use to backhaul (backhaul) network, so, be very expensive owing to using backhaul network, so can cause passive impact to network cost.
Therefore, in the system of this high data rate, become extremely important carrying out between multiple entity, to switch efficiently when session is switched.
The below provides brief overview, so that the basic comprehension to described each side to be provided.This general introduction is not the general summary to whole contemplated aspects, the scope that is not intended to identify key or the critical elements of whole aspects yet or describes any or whole embodiment.Its purpose only is to provide in simplified form some concepts of one or more embodiment as hereinafter providing in greater detail preamble.
In one aspect, a kind of method of in wireless communication system, carrying out the session switching, comprise: with access terminal set up communication session after, from anchor network function module receive data grouping ordered sequence, wherein, described communication session is controlled by described anchor network function module, and wherein, described anchor network function module comprises be used to the shadow buffer of storing described packet ordered sequence; Via described session during the fragment of the described described packet ordered sequence of transmission that accesses terminal, receive handover request from target transceiver module; The end point that will the sequence mark corresponding with the ending of described fragment be defined as described transmission; Continue to finish described transmission, until the ending of described fragment; When continuing to finish described transmission, send the handoff data state of described session to described anchor network function module, wherein, described handoff data state comprises identifier and the described sequence mark of described target transceiver module, wherein, described handoff data state is used for triggering described anchor network function module, in order to send the part of described packet ordered sequence to the target transceiver module that identifies from described shadow buffer, wherein, described part is from after the fragment ending that described sequence mark identifies.
On the other hand, at least one processor, being used for carrying out session at wireless communication system switches, it comprises: the first module, be used for access terminal set up communication session after, from anchor network function module receive data grouping ordered sequence, wherein, described communication session is controlled by described anchor network function module, and wherein, described anchor network function module comprises be used to the shadow buffer of storing described packet ordered sequence; The second module, be used for via described session during the fragment of the described described packet ordered sequence of transmission that accesses terminal, receive handover request from target transceiver module; The 3rd module is used for will the sequence mark corresponding with the ending of described fragment being defined as the end point of described transmission; Four module is used for continuing to finish described transmission, until the ending of described fragment; The 5th module, be used for when continuing to finish described transmission, send the handoff data state of described session to described anchor network function module, wherein, described handoff data state comprises identifier and the described sequence mark of described target transceiver module, wherein, described handoff data state is used for triggering described anchor network function module, in order to send the part of described packet ordered sequence to the target transceiver module that identifies from described shadow buffer, wherein, described part is from after the fragment ending that described sequence mark identifies.
In another aspect, a kind of computer program that in wireless communication system, carries out the session switching, comprise computer-readable medium, this computer-readable medium comprises: be used for making computer with access terminal set up communication session after, at least one instruction from anchor network function module receive data grouping ordered sequence, wherein, described communication session is controlled by described anchor network function module, wherein, described anchor network function module comprises be used to the shadow buffer of storing described packet ordered sequence; Be used for making described computer via described session during the described fragment sending described packet ordered sequence of accessing terminal, receive at least one instruction of handover request from target transceiver module; Be used for making described computer will the sequence mark corresponding with the ending of described fragment to be defined as at least one instruction of the end point of described transmission; Be used for that described computer is continued and finish described transmission until at least one instruction of the ending of described fragment; Be used for making described computer when continuing to finish described transmission, send at least one instruction of the handoff data state of described session to described anchor network function module, wherein, described handoff data state comprises identifier and the described sequence mark of described target transceiver module, wherein, described handoff data state is used for triggering described anchor network function module, in order to send the part of described packet ordered sequence to the target transceiver module that identifies from described shadow buffer, wherein, described part is from after the fragment ending that described sequence mark identifies.
On the other hand, a kind of access point, comprise: be used for access terminal set up communication session after, module from anchor network function module receive data grouping ordered sequence, wherein, described communication session is controlled by described anchor network function module, and wherein, described anchor network function module comprises be used to the shadow buffer of storing described packet ordered sequence; Via described session during the fragment of the described described packet ordered sequence of transmission that accesses terminal, receive the module of handover request from target transceiver module; Be used for will the sequence mark corresponding with the ending of described fragment being defined as the module of the end point of described transmission; Be used for continuing to finish described transmission until the module of the ending of described fragment; Be used for when continuing to finish described transmission, send the module of the handoff data state of described session to described anchor network function module, wherein, described handoff data state comprises identifier and the described sequence mark of described target transceiver module, wherein, described handoff data state is used for triggering described anchor network function module, in order to send the part of described packet ordered sequence to the target transceiver module that identifies from described shadow buffer, wherein, described part is from after the fragment ending that described sequence mark identifies.
On the other hand, a kind of access point comprises: memory, and it comprises having the handover manager module that sequence is determined logic; Processor communicates with described memory, and is used for carrying out described handover manager module; The source transceiver module, be used for access terminal set up communication session after from the anchor network function module receive data ordered sequence that divides into groups, wherein, described communication session is controlled by described anchor network function module, wherein, described anchor network function module comprises be used to the shadow buffer of storing described packet ordered sequence; Wherein, described source transceiver module be used for via described session during the fragment of the described described packet ordered sequence of transmission that accesses terminal, receive handover request from target transceiver module; Wherein, described sequence determines that logic is used for will the sequence mark corresponding with the ending of described fragment being defined as the end point of described transmission; Wherein, described source transceiver module is used for continuing to finish described transmission until the ending of described fragment; Wherein, described source transceiver module is used for sending to described anchor network function module the handoff data state of described session when continuing to finish described transmission, wherein, described handoff data state comprises identifier and the described sequence mark of described target transceiver module, wherein, described handoff data state is used for triggering described anchor network function module, in order to send the part of described packet ordered sequence to the target transceiver module that identifies from described shadow buffer, wherein, described part is from after the fragment ending that described sequence mark identifies.
In yet another aspect, a kind of method for carry out the session switching at wireless communication system, comprise: determine the condition that exists the communication session that to have set up for request to switch to target transceiver module from the source transceiver module, wherein, describedly determine to be during a fragment of source transceiver module receive data grouping ordered sequence, occuring; Determine according to described, send handover request to described target transceiver module, wherein, described handover request is used for triggering described target transceiver module, so that at the reception period of described fragment, receive the part of described packet ordered sequence from the shadow buffer of anchor network function module, and it is entered formation, wherein, described part is corresponding to the part of described ordered sequence after described fragment; Receive the last transmission corresponding with described fragment from described source transceiver module; After described source transceiver module receives described last transmission, set up described communication session with described target transceiver function module; After having set up described communication session with described target transceiver function module, under the control of described anchor network function module, in the situation that do not have obvious time delay from the described part of described target transceiver function module reception from the described packet ordered sequence of described formation.
In another aspect, at least one processor, being used for carrying out session at wireless communication system switches, it comprises: the first module, be used for determining the condition that exists the communication session that to have set up for request to switch to target transceiver module from the source transceiver module, wherein, describedly determine to be during a fragment of source transceiver module receive data grouping ordered sequence, occuring; The second module, be used for determining according to described, send handover request to described target transceiver module, wherein, described handover request is used for triggering described target transceiver module, so that during receiving described fragment, receive the part of described packet ordered sequence from the shadow buffer of anchor network function module, and it is entered formation, wherein, described part is corresponding to the part of described ordered sequence after described fragment; The 3rd module is used for from the last transmission of transceiver module reception in described source corresponding to described fragment; Four module is used for after described source transceiver module receives described last transmission, sets up described communication session with described target transceiver function module; Wherein, described the 3rd module also is used for: after having set up described communication session with described target transceiver function module, under the control of described anchor network function module, in the situation that do not have obvious time delay, from the described part of described target transceiver function module reception from the described packet ordered sequence of described formation.
On the other hand, a kind of for carrying out the computer program that session is switched at wireless communication system, comprise computer-readable medium, this computer-readable medium comprises: be used for that computer is determined and have at least one instruction that switches to the condition of target transceiver module for the communication session of asking to have set up from the source transceiver module, wherein, describedly determine to be during a fragment of source transceiver module receive data grouping ordered sequence, occuring; Be used for making described computer according to described at least one instruction of determining to send to described target transceiver module handover request, wherein, described handover request is used for triggering described target transceiver module, so that during receiving described fragment, receive the part of described packet ordered sequence from the shadow buffer of anchor network function module, and it is entered formation, wherein, described part is corresponding to the part of described ordered sequence after described fragment; Be used for making described computer from least one instruction of transceiver module reception in described source corresponding to the last transmission of described fragment; Be used for making described computer after described source transceiver module receives described last transmission at least one instruction of setting up described communication session with described target transceiver function module; Be used for making described computer after having set up described communication session with described target transceiver function module, under the control of described anchor network function module, in the situation that do not have obvious time delay from least one instruction of described target transceiver function module reception from the described part of the described packet ordered sequence of described formation.
On the other hand, a kind of accessing terminal, comprise: be used for determining the module that exists the communication session that to have set up for request to switch to the condition of target transceiver module from the source transceiver module, wherein, describedly determine to be during a fragment of source transceiver module receive data grouping ordered sequence, occuring; Be used for determining according to described, send the module of handover request to described target transceiver module, wherein, described handover request is used for triggering described target transceiver module, so that at the reception period of described fragment, receive the part of described packet ordered sequence from the shadow buffer of anchor network function module, and it is entered formation, wherein, described part is corresponding to the part of described ordered sequence after described fragment; Be used for from the module of transceiver module reception in described source corresponding to the last transmission of described fragment; Be used for after described source transceiver module receives described last transmission, set up the module of described communication session with described target transceiver function module; Be used for after having set up described communication session with described target transceiver function module, under the control of described anchor network function module, in the situation that do not have obvious time delay from the module of described target transceiver function module reception from the described part of the described packet ordered sequence of described formation.
On the other hand, a kind of accessing terminal comprises: memory, and it comprises having the handover manager module of switching definite logic and handover request logic; Processor, itself and described memory communicate, and are used for carrying out described handover manager module; Wherein, described switching determines that logic is used to determine the communication session that exists request to have set up switches to target transceiver module from described source transceiver module condition, wherein, describedly determine to be during a fragment of source transceiver module receive data grouping ordered sequence, occuring; Wherein, described handover request logic is used for determining to send handover request to described target transceiver module according to described, wherein, described handover request is used for triggering described target transceiver module, so that at the reception period of described fragment, receive the part of described packet ordered sequence from the shadow buffer of anchor network function module, and it is entered formation, wherein, described part is corresponding to the part of described ordered sequence after described fragment; Communication module communicates with memory and described processor, and is used for from the last transmission of transceiver module reception in described source corresponding to described fragment; Wherein, described handover manager module is used for after described source transceiver module receives described last transmission, sets up communication session with described target transceiver function module; Wherein, described communication module also is used for: after having set up described communication session with described target transceiver function module, under the control of described anchor network function module, in the situation that do not have obvious time delay, from the described part of described target transceiver function module reception from the described packet ordered sequence of described formation.
Comprise that on the other hand a kind of network side system by wireless communication system carries out the method that session is switched, comprising: control access terminal and the source transceiver module between communication session; Send to described source transceiver module with going to the described packet ordered sequence that accesses terminal; Described packet ordered sequence is copied to for the shadow buffer of storing described packet ordered sequence; Via described session during the fragment of the described described packet ordered sequence of transmission that accesses terminal, receive handover request from target transceiver module by described source transceiver module; The end point that will the sequence mark corresponding with the ending of described fragment be defined as described transmission by described source transceiver module; Continue to finish described transmission by described source transceiver module, until the ending of described fragment; When continuing to finish described transmission, sent the handoff data state of described session to described anchor network function module by described source transceiver module, wherein, described handoff data state comprises identifier and the described sequence mark of described target transceiver module; Receive after the described handoff data state, described anchor network function module is sent a part from the described packet ordered sequence of described shadow buffer to the target transceiver module that identifies, wherein, described part is from after the fragment ending that described sequence mark identifies; The transmission described packet ordered sequence described part during, described anchor network function module from described source transceiver module reception sources from the described grouped data that accesses terminal.
Comprise on the other hand the system that a kind of session for carrying out wireless communication system is switched, comprise: anchor network function module, it has corresponding shadow buffer, wherein, described anchor network function module be used for that control accesses terminal and the source receiver module between communication session, wherein, described anchor network function module is used for going to the described packet ordered sequence that accesses terminal and sends to described source transceiver module, wherein, described anchor network function module also is used for copying described packet ordered sequence to described shadow buffer, and described shadow buffer is used for storing described packet ordered sequence; Wherein, described source transceiver module be used for via described session to described access terminal send a fragment of described packet ordered sequence during, receive handover request from target transceiver module, wherein, described source transceiver module is used for will the sequence mark corresponding with the ending of described fragment being defined as the end point of described transmission, wherein, described source transceiver module is used for allowing described source transceiver module continue to finish described transmission, until the ending of described fragment; Wherein, described source transceiver module is used for when continuing to finish described transmission, send the handoff data state of described session to described anchor network function module, wherein, described handoff data state comprises identifier and the described sequence mark of described target transceiver module; Wherein, described anchor network function module is after receiving described handoff data state, for a part of sending to the target transceiver module that identifies from the described packet ordered sequence of described shadow buffer, wherein, described part begins after the fragment ending that described sequence mark identifies; Wherein, described anchor network function module is used for during the described part that sends described packet ordered sequence, from described source transceiver module reception sources from the described grouped data that accesses terminal.
For achieving the above object with relevant purpose, in conjunction with following description and description of drawings certain illustrative aspect.But these aspects only illustrate some distinct methods of the basic principle that can adopt each embodiment, and described embodiment is intended to comprise all these aspects and equivalent thereof.When considered in conjunction with the accompanying drawings, from the following detailed description, other advantage and novel features can become apparent.
Fig. 1 is the schematic diagram of an aspect of efficient switched system;
Fig. 2 is the schematic diagram of an aspect of computer equipment of realizing one or more assemblies of Fig. 1;
Fig. 3 is the schematic diagram of an aspect of the functional module that accesses terminal of Fig. 1;
Fig. 4 is the schematic diagram of an aspect of functional module of the source access point of Fig. 1;
Fig. 5 is the schematic diagram of an aspect of functional module of anchor point (anchor) access point of Fig. 1;
Fig. 6 is the schematic diagram of an aspect of functional module of the target access of Fig. 1;
Fig. 7 is the call flow diagram of an aspect of call-flow of the system of Fig. 1;
Fig. 8 is the flow chart of an aspect of method of the source access point of Fig. 1;
Fig. 9 is the flow chart of an aspect of the method that accesses terminal of Fig. 1;
Figure 10 is the flow chart of the aspect of the method for transmission state from the source transceiver to target transceiver.
Various aspects are described with reference to the accompanying drawings.In the following description, for ease of explaining, a large amount of details have been provided, in order to the complete understanding to one or more embodiment is provided.Yet, clearly, also can realize described embodiment without these details.
Used term " parts ", " module " mean the entity relevant with computer with " system " etc. in this application, such as but be not limited to combination, software, the executory software of hardware, firmware, hardware and software.For example, parts can be but be not limited in: the thread of the process of moving on the processor, processor, object, executable program, execution, program and/or computer.In order to give an example, the application and the computing equipment that move at computing equipment can be assemblies.One or more parts can be positioned at an executory process and/or thread, and parts can be on the computer and/or be distributed between two or more the computers.In addition, can carry out these parts by the multiple computer-readable medium of having stored plurality of data structures.These parts can be by this locality and/or remote process (for example, according to the signal with one or more packets) communicate (as, from the data of parts in local system, in the distributed system and/or by being undertaken alternately by signal such as the network of the Internet etc. and the parts of other system).
In addition, the application's each side is launched to describe for terminal, and it can be catv terminal or wireless terminal.Terminal can also be called system, equipment, subscriber unit, subscriber station, mobile radio station, travelling carriage, mobile device, station, a distant place, remote terminal, accesses terminal, user terminal, terminal, communication equipment, user agent, user's set (UE) or subscriber equipment.Wireless terminal can be that cell phone, satellite phone, cordless telephone, Session initiation Protocol (SIP) phone, wireless local loop (WLL) are stood, personal digital assistant (PDA), the handheld device with wireless connections ability, computing equipment or be connected to other treatment facility of radio modem.In addition, the description of various aspects relates to the base station.The base station is used for communicating with wireless terminal, and can be called access point, Node B, enhancing base station (eBS) or other term.
In addition, term " perhaps " means " perhaps " rather than exclusive " perhaps " of comprising property.That is to say, unless otherwise, perhaps can know from context and learn, otherwise the meaning of " X uses A or B " is any natural comprising property displacement.That is to say, if X uses A, X uses B, perhaps X use A and B the two, then " X use A or B " satisfies above-mentioned any one example.In addition, can know to learn it is single form unless otherwise or from context, otherwise " one " that uses in the application and claims and " one " object ordinary representation " one or more ".
Technology described in the application can be used for various wireless communication systems, such as CDMA, FDMA, TDMA, OFDMA, SD-FDMA etc.Term " system " and " network " often can exchange use.Cdma system can be realized wireless technology, such as general land wireless access (UTRA), cdma2000 etc.UTRA comprises wideband CDMA (W-CDMA) and other various CDMA.In addition, cdma2000 covers IS-2000, IS-95 and IS-856 standard.Tdma system is realized wireless technology, such as global system for mobile communications (GSM).The OFDMA system can realize wireless technology, such as UTRA (E-UTRA), Ultra-Mobile Broadband (UMB), IEEE802.11 (Wi-Fi), IEEE 802.16 (WiMAX), IEEE 802.20, the Flash-OFDM of evolution Etc..UTRA and E-UTRA are the parts of universal mobile telecommunications system (UMTS).3GPP Long Term Evolution (LTE) is the version of UMTS employing on the horizon E-UTRA, and it uses OFDMA at down link, and uses SC-FDMA in up link.In the document of " third generation partner program " tissue (3GPP) by name, UTRA, E-UTRA, UMTS, LTE and GSM have been described.In addition, in the document of " third generation partner program 2 " tissue (3GPP2) by name, cdma2000 and UMB have been described.
To present various aspects and feature with the form of the system that comprises a plurality of equipment, assembly, module etc.Be appreciated that and find out, each system can comprise describe by reference to the accompanying drawings beyond miscellaneous equipment, assembly, module etc., and/or do not comprise the armamentarium described by reference to the accompanying drawings, parts, module etc.Also can use the combination of these methods.
With reference to Fig. 1, in one aspect in, in high data rate network 12, carry out the efficient system 10 of switching and comprise a plurality of access points 14,16,18, they can be used for potentially accessing terminal and 20 can be coupled communicatedly with network 12.Specifically, access point 16 comprises source transceiver module 22, source transceiver module 22 and access terminal and set up wireless communication sessions 24 between 20.In addition, access point 16 carries out network service with access point 14, and access point 14 comprises the anchor network function module 26 of controlling communication session 24.Specifically, foundation and the conversion of anchor network function module 26 managing communication sessions 24, and serve as interface between network 12 and certain access point (itself and access terminal have communication session 24 between 20).For example, in this case, anchor network function module 26 is divided into groups from network 12 receive datas, and grouping is sorted to data, subsequently drawn packet ordered sequence 28 is sent to source transceiver module 22, accesses terminal 20 in order to send to.In addition, access point 14 comprises shadow buffer (shadow buffer) 30, shadow buffer 30 is such as fixed size, circulating memory (for example, first-in first-out), and it is used for the copy that storage sends to the packet ordered sequence 28 of source transceiver module 22.
20 be mobile in system 10 owing to accessing terminal, so 20 positions that are movable to 20 some situation of experience that access terminal that access terminal, in these cases, triggering switches to another access point with communication session 24.For example, the 20 continuous pilot signal strengths of the contiguous access points of monitoring that access terminal, and select to switch access point according to the comparative result of pilot signal strength.For example, 18 20 meetings that access terminal of moving are final along direction 31 to access point arrives such position, thereby the target transceiver module 32 of triggering access point 18 makes its source transceiver module 22 to access point 16 send handover request 34.
When source transceiver module 22 receives handover request 34 during a certain fragment of transmission of data packets ordered sequence 28, system 10 has stipulated the generation of a plurality of behaviors, to guarantee relatively quick and efficiently switching, such switching can make the time delay that experiences in the ongoing transmission minimum.Specifically, system 10 allows source transceiver module 22 finish the ongoing transmission of this fragment of packet ordered sequence 28, meanwhile or concurrently, the ending of the ongoing transmission that notification target transceiver module 32 will be finished by source transceiver module 22, and, in certain aspects, go back simultaneously or be arranged in concurrently switching afterwards with the new sorting data packet points target transceiver module 32 after the packet ordered sequence 28, access terminal 20 in order to be transferred to.
Specifically, in case receive handover request 34, source transceiver module 22 is the simultaneously basic or substantially concurrently following behavior of execution just: the end point that sequence mark 36 that will be corresponding with the ending of current transmission fragment is defined as transmitting; Continue to finish ongoing transmission, until the end point of this fragment; Generation is used for defining the switching state data-message 38 of session status, and message 38 comprises sequence mark 36 and target transceiver module sign 40; When continuing to finish the transmission of this fragment, send handoff data state message 38 to anchor network function module 26.
In case receive handoff data state message 38, anchor network function module 26 switches to any new packet 42 after the packet ordered sequence 28 at once and sends to the target transceiver module 32 that identifies.In addition, according to data sequence mark 36, anchor network function module 26 can be determined the ending of last fragment that is sent by source transceiver module 22 in packet ordered sequence 28 copies in being stored in shadow buffer 30, and subsequently remaining packet part 44 is sent to the target transceiver module 32 that identifies.Therefore, target transceiver module 32 before the actual switching of communication session 24 preload the packet of communication session 24.
In addition, in case finished the transmission (therefore having sent until the packet ordered sequence 28 of sequence mark 36) of this fragment, source transceiver module 22 just sends handoff response 46 to target transceiver module 32, in order to formally finish the switching of communication session 24, thereby, saved half two-way time at backhaul network 3.For example, handoff response 46 comprises session state information, such as but be not limited to, one or more Link States, retransmit buffer status, control buffer status.At this moment, anchor network function module 26 confirms to two transceiver modules, and target transceiver module 32 is just being served now and accessed terminal 20, and even switch, anchor network function module 26 still continues control communication.
In addition, in yet another aspect, if target transceiver module 32 is by 20 notify or the re-transmissions buffering discoveries of target transceiver module 32 bases in handoff response 46 that access terminal, the grouping or the fragment that are sent by source receiver functional module 32 do not receive, and then target transceiver function module 32 does not need to contact source transceiver module 22 and obtain this grouping or this fragment from transmission buffering wherein.As an alternative, target transceiver module 32 can obtain this missing data grouping or section of losing according to lost data packet or the corresponding sequence mark of losing fragment from shadow buffer 30, reduced thus the use to backhaul network.
Therefore, described structure has expected that a plurality of possible layer 2 from a transceiver module to another transceiver module corresponding with the transceiver that is in diverse location switches, and need to not access terminal 20 layer 3 switching that realize before having moved long distance or having entered movement/resting state from a network function module to another network function module, moving/resting state during, do not occuring can to realize in one period of data communication that layer 3 switches.
The method of this paper has plurality of advantages.For example, an advantage is that not needing to remember before provided service by which or which transceiver module.As an alternative, the method allows to obtain the packet that does not send successfully and need again to transmit from network function module.In addition, because the shadow buffer that network function module comprises is used for the sorting data grouping that buffering mails to this service transceiver module, so, the method permission indication network functional module is when switching beginning and send any new data to new transceiver module at once before switching is finished, meanwhile, original transceiver module is finished and the transmission that accesses terminal.For example, the ongoing transmission of this fragment of packet ordered sequence may be progressive transmission, and it solves error correction by allowing to retransmit.By ready in advance for switching, when switching actual the generation, new transceiver module has had and will send to the data that access terminal by forward link.
In addition, in some respects, compare with packet-based sequence mark, sequence mark 36 can be based on the sequence mark of byte.It is advantageous that, make it possible to the tracking section packet based on the sequence mark 36 of byte, thus even can be with part minimizes packet loss and elimination.
In addition, have been found that in some respects, the switching that the apparatus and method of this paper provide occurs in about 20 milliseconds and arrives in about 60 milliseconds time period; In yet another aspect, occurring in about 40 milliseconds arrived in about 80 milliseconds time period; Aspect other, occur in the time period that is less than 100 milliseconds.
Each assembly of the system 10 (Fig. 1) that realizes in computing equipment 50 has been shown among Fig. 2, and computing equipment 50 comprises the memory 50 of communicating by letter with processor 54.Memory 52 is used for the application that storage is carried out by processor 54.Memory can comprise: the combination of random access memory (RAM), read-only memory (ROM) and said two devices.Specifically, each assembly of system 10 (Fig. 1) comprises one or more functional modules, application or program 62, is used for carrying out assembly specific behavior as herein described.In addition, processor 54 is used for the processing capacity that realization is associated with one or more assemblies described herein.Processor 54 can comprise single processor or organize processor or polycaryon processor more.In addition, processor 54 can be embodied as Integrated Processing System and/or distributed processing system (DPS).
In addition, computing equipment 50 comprises user interface 56, and user interface 56 is used for receiving from accessing terminal 20 input, and generates the output that will present to the user.User interface 56 comprises one or more input equipments, and these input equipments include, but are not limited to: keyboard, numeric keypad, mouse, touch-sensitive display, navigation key, function key, microphone, voice recognition assembly, any other can receive device or above-mentioned every combination from user's input.In addition, user interface 56 can comprise one or more output equipments, can present to the user device or above-mentioned every combination of output including, but not limited to display, loud speaker, tactile feedback device, printer, any other.
In addition, computing equipment 50 comprises communications component 58, and it be used for to use hardware, software and service to set up and keep and the communicating by letter of one or more other assemblies.Communication between the assembly that communications component 58 is carried out on the computing equipment 50, and the communication between computing equipment 50 and the external equipment, these external equipments such as access point 14,16,18 (Fig. 1), other network side or infrastructure elements, perhaps other serial or the local equipment that is connected on the computing equipment 50.Communications component 58 comprises the receiver and the transmitter of communicating by letter for transmission for received communication.In addition, communications component 58 comprises corresponding receiver assembly and transmitting chain assembly, in order to can exchange messages according to one or more corresponding agreements.
In addition, computing equipment 50 also comprises database 60, database 60 can be any suitable hardware and/or the combination of software, its when not using active memory 52 for providing large capacity storage in conjunction with data/information, data relationship and the software program/application implemented aspect described herein.In addition, when using not in active memory 50 accordingly, the one or more functional module/programs/applications 62 of database 60 storages.
With reference to Fig. 3, in accessing terminal aspect 20 one, function program 62 (Fig. 2) comprises (AT) handover manager module 70 that accesses terminal, and terminal (AT) handover manager module 70 comprises logic, executable instruction etc., in order to carry out switching correlation function described herein.Specifically, AT handover manager module 70 comprises switching determines logic 72, for assessment of the signal strength signal intensity of each access point, and determines when the condition that is used for switching that exists.In addition, AT switching management module 70 comprises handover request logic 74, and the output of logic 72 is determined in its response, and notification target transceiver module 32 has been asked switching.In addition, AT switching management module 70 comprises switchable resource logic 76, is used for the switchable resource of management and coordinating communication session.
With reference to Fig. 4, aspect of access point 16, function program 62 (Fig. 2) comprises source access point (AP) handover manager module 80, and source access point (AP) handover manager module 80 comprises logic, executable instruction etc., is used for carrying out switching correlation function described herein.Specifically, source AP handover manager module 80 comprises that sequence determines logic 82, and sequence is determined logic 82 for assessment of ongoing transmission, and finds the end point of transmission, thereby it is defined as sequence mark 36 (Fig. 1).In addition, source AP switching management module 80 comprises that target determines logic 84, be used for resolving handover request 34, and definite target transceiver module identifier 40.In addition, source AP switching management module 80 comprises finishing determines logic 86, is used for determining when switching is finished.In addition, source AP switching management module 80 is used for generating handoff data state message 38 and switching response message 46 and initiating its transmission.
With reference to Fig. 5, aspect of access point 14, function program 62 (Fig. 2) comprises anchor point AP handover manager module 90, and anchor point AP handover manager module 90 comprises logic, executable instruction etc., is used for carrying out switching correlation function described herein.Specifically, anchor point AP handover manager module 90 comprises control logic 92, be used for forward link and the route of reverse link communication, described one or more access points and one or more maintenance communication session that accesses terminal between supervising the network 12 (Fig. 1) and one or more other access point.In addition, anchor point AP switching management module 90 comprises shadow logic 94, is used for the operation of control shadow buffer 30 (Fig. 1), and fetches packet from shadow buffer 30.In addition, anchor point AP switching management module 90 comprises conversion logic 96, is used for management changes session to another transceiver module from a transceiver module control, comprises that management exchanges the state information that comprises buffering.In addition, anchor point AP switching management module 90 comprises that sequence determines logic 98, and its response request obtains data from shadow buffer 30, comprises the packet of response handoff data state message 38 and request dislocation.
With reference to Fig. 6, in aspect of access point 18, function program 62 (Fig. 2) comprises target AP handover manager module 101, and target AP handover manager module 101 comprises: logic, executable instruction etc. are used for carrying out the relevant function of switching described herein.Specifically, target AP handover manager module 90 comprises handover request logical one 03, and it generates and sends handover request message 34 after receiving handover request from accessing terminal.In addition, target AP handover manager module 90 comprises forward link (FL) and/or reverse link (RL) formation 105, forward link (FL) and/or reverse link (RL) formation 105 is used for correspondingly accessing terminal or ranking from the corresponding packet of sending that accesses terminal mailing to, and described corresponding accessing terminal is by accessing terminal that 90 services of target AP handover manager module maybe will be served according to switching warming-up exercise.In addition, target AP handover manager module 90 comprises sequential logic 107, be used for to determine how to be arranged in to switch and prepare the data of preserving in the formation that receives or the data, such as packet part 44 and/or dislocation data, such as can after switching is finished, finding during reception sources transceiver state information.
With reference to Fig. 7, aspect non-limiting in, call-flow 111 shows in detail mutual such as between the multiple assembly of the high data rate network of system 10 (Fig. 1).In this example, (AT) 20 that access terminal has source TF 22, target TF 32 and as other TF 33 that potential transceiver module and AT 20 communicate, perhaps is called " activation group ".Each transceiver module in the activation group receives unique group index number, thus in this example TF 22 is appointed as " 0 ", and TF 32 is appointed as " 1 ", TF 33 is appointed as " 2 ".In either case, in action 115, source TF 22 keeps the communication session with AT 20, also can be referred to as and keep serving sector, because each TF serves different sectors.Detect the condition of switching that triggers at action 117, AT 20, such as the reinforcement of the pilot signal strength of the reduction of the pilot signal strength of source TF 22 and/or target TF 32.It will to which sector (member of activation group) switch AT 20 identifications, and sends the change control request that is used for sign desired service sector to the whole transceiver modules in the activation group in action 119,121 and 123, switches in order to implement.In action 125 and 127, it is related TF in the switching of expectation that source TF 22 and target TF 32 detect them.As response, in action 129, target TF 32 sends handover request to source TF 22.As response, in action 131, source TF 22 sends handoff data state message to network function module 26 (perhaps more precisely, to its control module part, being called anchor point network control function 27).As mentioned above, handoff data state message is designated target TF 32 TF that receives session, and sequence mark is identified at where source TF 22 will stop to send data.
In this, should be noted that in some respects, such as in Ultra-Mobile Broadband (UMB) execution mode, access point can be divided into a plurality of different entities, that is to say: network control function (NCF); Network data function (NDF); Transceiver function (TF).Usually, but NCF initiation session and articulamentum signaling protocol, and (for example) is in order to transfer to another TF with the control of session from a TF.For example, these behaviors comprise: management is from (AT) connecting system that accesses terminal; Provide session discovery/creation/expiry feature, distribution/withdrawal to be used for private resource that connects etc.As mentioned above, transceiver function (TF) has also represented the sector (for example, so that the air interface tie point is provided for accessing terminal in its sector) of the execution function relevant with media access control (MAC) layer.In addition, network data function (NDF) can realize data processing function, so that at network with serve relay data between the transceiver function that accesses terminal.In addition, the ability of NDF route data grouping is controlled by NCF, the NCF designated terminal and with transceiver function that switching is associated between relation.Therefore, for from network to the forward link traffic that accesses terminal, NDF can manage shadow buffer, and applying virtual radio link protocol (VRLP) ordering etc., and to carrying out corresponding function from the reverse link traffic of the network that accesses terminal.
Return call-flow, after action 131 places received handoff data state message, anchor point NCF 27 was used for generating the switch transition order at action 133 places, and sends this order to NDF 29.MAC identifier and the sequence mark of AT, target TF, correspondence identified in the switch transition order from handoff data state message.In action 135, anchor point NCF 27 keeps connecting to the reverse link of anchor point NDF 29 through source TF 22 from AT 20, until finish this switching, and in action 137 and 139, at once guide sequence mark any forward link data grouping afterwards of anchor point NCF 27 sends to target TF 32, to rank to these packets at target TF 32, in order to after switching, be delivered to AT 20.In action 141, source TF 22 finishes transmission.In one aspect, for example, this is finished and comprises and carry out last error correction retransmission, such as with indicated its mixed automatic retransfer request (HARQ) that final data section that sends is the corresponding transmission of source TF 22.Correspondingly, in action 145, source TF 22 sends switching response message, switching for confirmation to target TF 32.Switching response message comprises final state information, comprises the one or more final information that has been sent out about which sequence, about the information that retransmits buffering, about the information of control buffering and about the information of reverse link buffering grade.
In addition, the exemplary status that transmit comprises: data mode, connection status, session status etc.Data mode refer to connect and/or switched and transferred during access terminal and the network data function between the state of Access Network in the data path.This data mode also comprises following entry, such as: header-compressed machine state or radio link protocol buffer status, these states are normally dynamic in essence.Equally, connection status point out to access terminal and NCF between state (its at connection closed and access terminal will not preserve when still idle) in the Access Network on the control path.This connection status also comprises following information, such as: the one group of air interface resource that keeps for accessing terminal, power control loop road value, activation group information etc.
Therefore, target TF 32 had now source TF 22 away from the time its full detail about communication session that need to collect.In addition, after sending handoff response, in action 145, source TF 22 comes 27 these switchings of affirmation to anchor point NCF by sending switched and transferred message, and wherein, switched and transferred message comprises that target TF 32 and target TF activate group index.Meanwhile, in action 147, target TF 32 sends one or more messages related to resources, be used for communicating by letter with AT 20 foundation, and the control session.After source TF 22 receives switched and transferred message, the whole TF in the activation group send handoff completion messages in action 151,153 and 155, NCF 27, handoff completion message identification service TF wherein, that is, and target TF32.Therefore, call-flow 111 has defined grade 2 change detection and the switching of efficient operation, and it reduces the time delay of high data rate network.For example, in one aspect, call-flow 11 can reduce the time delay in the network, these networks such as high-speed data system (HSDS) network, it has greater than about 1M bps data rate, and perhaps in another aspect, data rate is greater than approximately 5M bps, and in another aspect, the scope of data rate is about 10M bps to about 150M bps.In addition, and the RLP function is deep in the network compare, the structure of call-flow 111 makes the position of RLP function near AT 20, and its purpose is further to reduce time delay.
The method of system's operation is described below.Although illustrative methods is illustrated and is described as the square frame of each event of a series of expression and/or action,, the aspect of description is not subjected to the restriction of these square frames orders.For example, according to described each side, be different from order described herein, some actions or event can occur and/or occur simultaneously with other action shown in the application by different order.The square frame that in addition, may not need all to illustrate, event or action realize the method according to this paper each side.In addition, can find out, can realize according to the method that this paper illustrates and describes according to the illustrative methods of aspect described herein and other method, also can realize according to other system and method undeclared or that describe.
With reference to Fig. 8, in when operation, in one aspect, in wireless communication system, carry out the method 160 that session switches and comprise: with access terminal set up communication session after, from anchor network function module receive data grouping ordered sequence.In this case, communication session is controlled by anchor network function module, and wherein, anchor network function module comprises shadow buffer, and it is used for storage packet ordered sequence (square frame 162).For example, on the forward link from network data control function element receive data grouping ordered sequence.
In addition, the method comprises: via session during a certain fragment of the transmission of data packets ordered sequence that accesses terminal, receive handover request (square frame 164) from target transceiver module.For example, target transceiver module has received from accessing terminal and has been used for starting the request of switching.
In addition, the method comprises: the end point (square frame 166) that will the sequence mark corresponding with the ending of this fragment is defined as transmitting.For example, the source transceiver module is used for the ending of the fragment of definite its current transmission, and this transmission can be progressive transmission, and is such such as what can find in the error correction transmission that allows to repeat to transmit.
In addition, the method comprises: continue to finish this transmission, until the ending of this fragment (square frame 168).Can see, this transmission can be the error-correction type transmission, transmits such as hybrid ARQ.
In addition, the method comprises: with to continue to finish this transmission parallel, to the handoff data state of anchor network function module transmission session.In this case, handoff data state comprises identifier and the sequence mark of target transceiver module.In addition, handoff data state is used for triggering anchor network function module, in order to send the part of packet ordered sequence to the target transceiver module that identifies from the shading buffer memory, wherein, this part begins (square frame 170) after the fragment that is identified by sequence mark finishes.For example, the source transceiver module can be used for to network control function module forwards handoff data state, the network control function module is used for controlling transitions to target transceiver module, thereby the hop through shadow buffer after the ending of this fragment can be ranked at the target transceiver module place before switching.This preload that allows target transceiver module when the source transceiver module is finished its transmission is efficiently, and the switching of low time delay is provided, and is especially true in high data rate network.
With reference to Fig. 9, in another aspect, the method 180 of carrying out the session switching in wireless communication system comprises: determine the communication session that exists request to have set up switches to target transceiver module from the source transceiver module condition, wherein, this determines (square frame 182) that occur during certain fragment of source transceiver module receive data grouping ordered sequence.For example, access terminal and comprise the logic that detects switching condition for the reception pilot signal strength according to contiguous access point.
The method also comprises: determine according to this, send handover request to target transceiver module, wherein, this handover request is used for triggering target transceiver module, so that during receiving this fragment from the part of the shadow buffer receive data grouping ordered sequence of anchor network function module and with its queuing, wherein, this part is corresponding to the part (square frame 184) of the ordered sequence of this fragment back.For example, send handover request by accessing terminal and cause a series of actions, thus, with handover request notification source transceiver module, and the source transceiver module provided state information before switching, in order to allow target transceiver module to make up to exceed by the data packet queue outside the ending of the fragment of the current transmission of source transceiver function.
In addition, the method comprises: from the last transmission (square frame 186) of transceiver module reception in source corresponding to this fragment.For example, this transmission can be to comprise the error correction transmission that retransmits to determined number.Can occur the situation of time waste on the execution error correction if switching realizes at once, each aspect of the present invention takes full advantage of during this period of time, finish transmission by being equipped with in advance data for target transceiver, thereby the time delay of switching has reduced.
In addition, the method comprises: after the source transceiver module receives last transmission, set up communication session (square frame 188) with target transceiver function.For example, in case finish last transmission, the communication session that accesses terminal just switches to target transceiver module.
In addition, the present invention includes: under the control of anchor network function module, there is not afterwards obvious time delay in the situation that set up communication session with target transceiver function, from the part (square frame 190) of target transceiver function reception from the packet ordered sequence of this formation.As mentioned above, anchor network has begun any sorting data after the ending of sign fragment is loaded into target transceiver module in advance.Therefore, target transceiver module can realize efficiently, the switching of low time delay, sets up and need to have backhaul network in the high data rate system of expensive use particularly like this in large formation.
Figure 10 shows the correlation technique that sends state according to an aspect from the source transceiver to target transceiver.By at least one sector is included in the activation group, set up the activation group at 410, AT.In addition, as a part of setting up the activation group, AT sends the expectation that will comprise at least one sector in the activation group to AP.Sector in 420, AP and expectation communicates, in order to prepare to make the sector of expectation to add the activation group.Specifically, if the activation group is adhereed in the sector of expectation, then the sector Resources allocation of expectation communicates with AT in order to prepare.On the other hand, the AT of expectation may not make response, perhaps refuses this request.In above-mentioned any situation, add the expectation sector result of activation group at 430, AP notice AT view.Subsequently, 440, by the variation in the AT detection wireless connections, this variation can be pointed out the variation between the sector in the activation group.For example, as mentioned above, switching can occur in layer 2, the layer 2 data/radio link layer that is also referred to as in the multi-layer protocol.Therefore, 450, subsequently, session status is sent to target transceiver function from the source transceiver function.Because the sector in the activation group is ready to receive the switching of the communication session that comprises AT, so can seamlessly carry out TF conversion (for example, the radio link protocol in the transceiver function), its time delay is very low, and very quick (for example, in the scope of 20-40 millisecond).
Used term " parts ", " system " etc. mean the entity relevant with computer in this application, and it can be combination, software, executory software and/or the electromechanical units of hardware, hardware and software.For example, parts can be but be not limited in: the thread of the process of moving on the processor, processor, object, example, executable program, execution, program and/or computer.In order to give an example, application and the computer of operation can be assemblies on computers.One or more parts can be positioned at an executory process and/or thread, and parts can be on the computer and/or be distributed between two or more the computers.
" exemplary " word that uses among the application means as example, illustration or explanation.Being described to any aspect of " exemplary " or design among the application should not be interpreted as than other side or design more preferably or have more advantage.Equally, the example that provides herein only is for the purpose that is aware and understand, and is not intended to by any way aspect described herein or part be limited.Can find out, can present multiple additional or replaceable example, still for brief purpose they omitted.
In addition, the all or part of goods that can be embodied as system, method, device or Application standard programming and/or engineering of various aspects described herein, so that software, firmware, hardware or their any combination to be provided, so that the above-mentioned aspect of control computer realization.For example, computer-readable medium comprises, but be not limited to: magnetic storage apparatus (for example, hard disk, floppy disk, tape etc.), CD (for example, (Zip disk) CD, (digital versatile disc) DVD etc.), smart card and flash memory device (for example, card, rod, key type driver etc.).In addition, can find out, carrier wave can be used for carrying computer-readable electronic, such as those the sending and receiving Email or access such as the Internet or local area network (LAN) (LAN) use like that.Certainly, person of skill in the art will appreciate that in the situation of the spirit or scope that do not break away from the theme of advocating right and can make multiple modification to this structure.
When using software, firmware, middleware or microcode to realize, can be stored in the machine readable media such as storage medium carrying out the program code of necessary task or code segment.Can represent code segment with combination in any, data structure or the program statement of process, functional block, subprogram, program, routine, subroutine, module, software kit, class, instruction.Can by transmitting and/or reception information, data, independent variable, parameter or memory content, code segment be connected to another code segment or hardware circuit.Can be by any suitable mode, comprise that internal memory is shared, message transmission, token transmission and Internet Transmission etc., information, independent variable, parameter or data etc. are transmitted, transmitted or launch.
Realize for software, the technology of describing among the application can realize with the module (for example, process, function etc.) of carrying out the described function of the application.These software codes can be stored in the memory cell, and are carried out by processor.Memory cell can be realized in processor, also can realize outside processor, and under latter event, it can be connected to processor communicatedly via various means.
Description above comprises a plurality of of the present invention giving an example.Certainly, all possible combination of describing parts or method in order to describe these embodiment is impossible, but those of ordinary skills should be realized that, these embodiment can do further combination and conversion.Therefore, the theme of describing among the application is intended to contain the spirit and the interior institute of protection range that fall into appended claims to be changed, revises and be out of shape.In addition, with regard to " comprising " word that uses in specification or claims, the mode that contains of this word is similar to " comprising " word, just as " comprising " word in the claims as link word explain.
1. in wireless communication system, carry out the method that session is switched for one kind, comprising:
With access terminal set up communication session after, from anchor network function module receive data grouping ordered sequence, wherein, described communication session is controlled by described anchor network function module, wherein, described anchor network function module comprises the shadow buffer be used to the copy of storing described packet ordered sequence;
Via described session during the fragment of the described described packet ordered sequence of transmission that accesses terminal, receive the handover request from target transceiver module;
The end point that will the sequence mark corresponding with the ending of described fragment be defined as described transmission;
Continue to finish described transmission, until the ending of described fragment;
When continuing to finish described transmission, send the handoff data state of described session to described anchor network function module, wherein, described handoff data state comprises identifier and the described sequence mark of described target transceiver module, wherein, described handoff data state is used for triggering described anchor network function module, in order to before switching is finished, send the part of the described copy of described packet ordered sequence to the target transceiver module that identifies from described shadow buffer, wherein, described part is from after the fragment ending that described sequence mark identifies.
2. method according to claim 1, wherein, continue to finish described transmission and further comprise:
Send error correction message.
3. method according to claim 1, wherein, continue to finish described transmission and further comprise:
Send mixed automatic retransfer request HARQ message.
4. method according to claim 1, wherein, when described switchings occured, described anchor network function module maintenance was to the control of described session.
5. method according to claim 1, wherein, described transmission has the data rate greater than 1M bps.
6. method according to claim 1 also comprises:
Send switching response message to described target transceiver module, wherein, described switching response message comprises end-state information,
Network control function to described anchor network function module partly sends switched and transferred message, in order to finish described switching, wherein, described network control function partly keeps the control to described session.
7. be used for carrying out the device that session is switched at wireless communication system, comprise:
The first module, be used for access terminal set up communication session after, from anchor network function module receive data grouping ordered sequence, wherein, described communication session is controlled by described anchor network function module, wherein, described anchor network function module comprises the shadow buffer be used to the copy of storing described packet ordered sequence;
The second module, be used for via described session during the fragment of the described described packet ordered sequence of transmission that accesses terminal, receive the handover request from target transceiver module;
The 3rd module is used for will the sequence mark corresponding with the ending of described fragment being defined as the end point of described transmission;
Four module is used for continuing to finish described transmission, until the ending of described fragment;
The 5th module, be used for when continuing to finish described transmission, send the handoff data state of described session to described anchor network function module, wherein, described handoff data state comprises identifier and the described sequence mark of described target transceiver module, wherein, described handoff data state is used for triggering described anchor network function module, in order to before switching is finished, send the part of the described copy of described packet ordered sequence to the target transceiver module that identifies from described shadow buffer, wherein, described part is from after the fragment ending that described sequence mark identifies.
8. access point comprises:
Be used for access terminal set up communication session after, module from anchor network function module receive data grouping ordered sequence, wherein, described communication session is controlled by described anchor network function module, wherein, described anchor network function module comprises the shadow buffer be used to the copy of storing described packet ordered sequence;
Via described session during the fragment of the described described packet ordered sequence of transmission that accesses terminal, receive the module from the handover request of target transceiver module;
Be used for will the sequence mark corresponding with the ending of described fragment being defined as the module of the end point of described transmission;
Be used for continuing to finish described transmission until the module of the ending of described fragment;
Be used for when continuing to finish described transmission, send the module of the handoff data state of described session to described anchor network function module, wherein, described handoff data state comprises identifier and the described sequence mark of described target transceiver module, wherein, described handoff data state is used for triggering described anchor network function module, in order to before switching is finished, send the part of the described copy of described packet ordered sequence to the target transceiver module that identifies from described shadow buffer, wherein, described part is from after the fragment ending that described sequence mark identifies.
9. access point comprises:
Memory, it comprises having the handover manager module that sequence is determined logic;
Processor communicates with described memory, and is used for carrying out described handover manager module;
The source transceiver module, be used for access terminal set up communication session after from the anchor network function module receive data ordered sequence that divides into groups, wherein, described communication session is controlled by described anchor network function module, wherein, described anchor network function module comprises the shadow buffer be used to the copy of storing described packet ordered sequence;
Wherein, described source transceiver module be used for via described session during the fragment of the described described packet ordered sequence of transmission that accesses terminal, receive the handover request from target transceiver module;
Wherein, described sequence determines that logic is used for will the sequence mark corresponding with the ending of described fragment being defined as the end point of described transmission;
Wherein, described source transceiver module is used for continuing to finish described transmission until the ending of described fragment;
Wherein, described source transceiver module is used for continuing to send to described anchor network function module the handoff data state of described session when continuing to finish described transmission, wherein, described handoff data state comprises identifier and the described sequence mark of described target transceiver module, wherein, described handoff data state is used for triggering described anchor network function module, in order to before switching is finished, send the part of the described copy of described packet ordered sequence to the target transceiver module that identifies from described shadow buffer, wherein, described part is from after the fragment ending that described sequence mark identifies.
10. access point according to claim 9, wherein, described transmission further comprises:
Transmission error correction message.
11. access point according to claim 9, wherein, described transmission further comprises:
Transmission mixed automatic retransfer request HARQ message.
12. access point according to claim 9, wherein, when described switching occured, described anchor network function module kept the control to described session.
13. access point according to claim 9, wherein, described transmission has the data rate greater than 1M bps.
14. access point according to claim 9, wherein, described source transceiver module is used for:
Network control function to described anchor network function module partly sends switch transition message, in order to finish described switching, wherein, described network control function partly keeps the control to described session.
15. one kind is used for carrying out the method that session is switched at wireless communication system, comprises:
Determine communication session that request will set up switches to target transceiver module from the source transceiver module the condition that exist to be used for, wherein, describedly determine to be during a fragment of source transceiver module receive data grouping ordered sequence, occuring;
According to described definite transmission handover request, wherein, described handover request is used for making described source transceiver module determine the sequence mark corresponding with the ending of the described fragment that sends to the described packet ordered sequence that accesses terminal, send identifier and the described sequence mark of described target transceiver module to anchor network function module, and trigger described anchor network function module in order to before switching is finished, send the part of the copy of described packet ordered sequence to the target transceiver module that identifies, wherein, described part is from after the fragment ending that described sequence mark identifies;
Receive the last transmission corresponding with described fragment from described source transceiver module;
After described source transceiver module receives described last transmission, set up communication session with described target transceiver function module;
After having set up described communication session with described target transceiver function module, under the control of described anchor network function module, in the situation that there is not obvious time delay to receive the copy of the described part of described packet ordered sequence from described target transceiver function module.
16. method according to claim 15 wherein, receives described fragment and further comprises:
Receive error correction message.
17. method according to claim 15 wherein, receives described fragment and further comprises:
Receive mixed automatic retransfer request HARQ message.
18. method according to claim 15, wherein, when described switching occured, described anchor network function module kept the control to described session.
19. method according to claim 15, wherein, described transmission has the data rate greater than 1M bps.
20. in wireless communication system, carry out the device that session is switched, comprising:
The first module, be used for determining the communication session that exists request to have set up switches to target transceiver module from the source transceiver module condition, wherein, describedly determine to be during a fragment of source transceiver module receive data grouping ordered sequence, occuring;
The second module, be used for according to described definite transmission handover request, wherein, described handover request is used for making described source transceiver module determine the sequence mark corresponding with the ending of the described fragment that sends to the described packet ordered sequence that accesses terminal, send identifier and the described sequence mark of described target transceiver module to anchor network function module, and trigger described anchor network function module in order to before switching is finished, send the part of the copy of described packet ordered sequence to the target transceiver module that identifies, wherein, described part is from after the fragment ending that described sequence mark identifies;
The 3rd module is used for from the last transmission of transceiver module reception in described source corresponding to described fragment;
Four module is used for after described source transceiver module receives described last transmission, sets up communication session with described target transceiver function module;
The 5th module, be used for after having set up described communication session with described target transceiver function module, under the control of described anchor network function module, in the situation that there is not obvious time delay to receive the copy of the described part of described packet ordered sequence from described target transceiver function module.
21. one kind accesses terminal, comprising:
Be used for determining the communication session that exists request to have set up switches to the condition of target transceiver module from the source transceiver module module, wherein, describedly determine to be during a fragment of source transceiver module receive data grouping ordered sequence, occuring;
Be used for the module according to described definite transmission handover request, wherein, described handover request is used for making described source transceiver module determine the sequence mark corresponding with the ending of the described fragment that sends to the described described packet ordered sequence that accesses terminal, send identifier and the described sequence mark of described target transceiver module to anchor network function module, and trigger described anchor network function module in order to before switching is finished, send the part of the copy of described packet ordered sequence to the target transceiver module that identifies, wherein, described part is from after the fragment ending that described sequence mark identifies;
Be used for from the module of transceiver module reception in described source corresponding to the last transmission of described fragment;
Be used for after described source transceiver module receives described last transmission, set up the module of described communication session with described target transceiver function module;
Be used for after having set up described communication session with described target transceiver function module, under the control of described anchor network function module, in the situation that there is not obvious time delay to receive the module of copy of the described part of described packet ordered sequence from described target transceiver function module.
22. one kind accesses terminal, comprising:
Processor and communication module, wherein, described processor is used for determining the communication session that exists request to have set up switches to target transceiver module from the source transceiver module condition, wherein, describedly determine to be during a fragment of source transceiver module receive data grouping ordered sequence, occuring; Wherein, described processor is used for according to described definite transmission handover request, wherein, described handover request is used for making described source transceiver module determine the sequence mark corresponding with the ending of the described fragment that sends to the described packet ordered sequence that accesses terminal, send identifier and the described sequence mark of described target transceiver module to anchor network function module, and trigger described anchor network function module in order to before switching is finished, send the part of the copy of described packet ordered sequence to the target transceiver module that identifies, wherein, described part is from after the fragment ending that described sequence mark identifies;
Described communication module is used for from the last transmission of transceiver module reception in described source corresponding to described fragment;
Wherein, described processor is used for after described source transceiver module receives described last transmission, sets up communication session with described target transceiver function module;
Wherein, described communication module also is used for after having set up described communication session with described target transceiver function module, under the control of described anchor network function module, in the situation that there is not obvious time delay, receive the copy of the described part of described packet ordered sequence from described target transceiver function module.
23. according to claim 22 accessing terminal, wherein, described fragment further comprises:
Error correction message.
24. according to claim 22 accessing terminal, wherein, described fragment further comprises:
Mixed automatic retransfer request HARQ message.
25. according to claim 22 accessing terminal, wherein, when described switching occured, described anchor network function module kept the control to described session.
26. according to claim 22 accessing terminal, wherein, described transmission has the data rate greater than 1M bps.
27. the network side system by wireless communication system is carried out the method that session is switched, and comprising:
Anchor network function module control access terminal and the source transceiver module between communication session;
Send to described source transceiver module with going to the described packet ordered sequence that accesses terminal;
Described packet ordered sequence is copied to for the shadow buffer of storing described packet ordered sequence;
Continue to finish in the fragment of the described described packet ordered sequence of transmission that accesses terminal at described source transceiver module, receive handoff data state from described source transceiver module, wherein, described handoff data state based on: via described session to described access terminal the transmission described packet ordered sequence described fragment during, described source transceiver module receives handover request, the end point that will the sequence mark corresponding with the ending of described fragment be defined as described transmission, continue to finish described transmission until the ending of described fragment, wherein, described handoff data state comprises identifier and the described sequence mark of described target transceiver module;
Receive after the described handoff data state and before switching is finished, described anchor network function module is sent a part from the copy of the described packet ordered sequence of described shadow buffer to the target transceiver module that identifies, wherein, described part is from after the fragment ending that described sequence mark identifies.
28. method according to claim 27, wherein, described sequence mark makes it possible to the tracking section packet.
29. one kind is used for carrying out the system that session is switched at wireless communication system, comprises:
Anchor network function module, it has corresponding shadow buffer, wherein, described anchor network function module be used for that control accesses terminal and the source receiver module between communication session, wherein, described anchor network function module is used for going to the described packet ordered sequence that accesses terminal and sends to described source transceiver module, wherein, described anchor network function module also is used for copying described packet ordered sequence to described shadow buffer, and described shadow buffer is used for storing described packet ordered sequence;
Wherein, described anchor network function module also is used for continuing to finish in the fragment of the described described packet ordered sequence of transmission that accesses terminal at described source transceiver module, receive handoff data state from described source transceiver module, wherein, described handoff data state is receiving handover request via described session based on: described source transceiver module during the described described fragment that sends described packet ordered sequence that accesses terminal, and the end point that will the sequence mark corresponding with the ending of described fragment be defined as described transmission, wherein, described handoff data state comprises identifier and the described sequence mark of described target transceiver module
Wherein, described anchor network function module is after receiving described handoff data state and before switching is finished, be used for sending a part from the copy of the described packet ordered sequence of described shadow buffer to the target transceiver module that identifies, wherein, described part begins after the fragment ending that described sequence mark identifies.
30. system according to claim 29, wherein, described sequence mark makes it possible to the tracking section packet.
CN 200880010011 2007-03-26 2008-03-26 Apparatus and method of performing a handoff in a communication network CN101647307B (en)
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CN201310052359.9A CN103297209B (en) 2007-03-26 2008-03-26 Perform the apparatus and method of switching in a communication network
CN201310052359.9A Division CN103297209B (en) 2007-03-26 2008-03-26 Perform the apparatus and method of switching in a communication network
CN101647307A CN101647307A (en) 2010-02-10
CN101647307B true CN101647307B (en) 2013-03-27
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CN 200880010011 CN101647307B (en) 2007-03-26 2008-03-26 Apparatus and method of performing a handoff in a communication network
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