CN105228229A - User equipment (UE) method for processing resource, device, base station and terminal - Google Patents

Abstract

The invention provides a kind of user equipment (UE) method for processing resource, device, base station and terminal, wherein, the method comprises: the inactivation time obtaining described UE; Accumulative inactivation time is determined according to the described inactivation time obtained; Judge whether described accumulative inactivation time reaches predetermined threshold; When judged result is for being, discharge the resource of described UE, pass through the present invention, solve in correlation technique, there is base station and can not know that UE does not carry out the inactivation time of Business Stream exactly, cause the problem of resource and power wastage, and then reach and accurately know that UE does not carry out the inactivation time of Business Stream, avoid the effect of the problem of resource and power wastage.

Description

User equipment (UE) method for processing resource, device, base station and terminal

Technical field

The present invention relates to the communications field, in particular to a kind of user equipment (UE) method for processing resource, device, base station and terminal.

Background technology

Along with the development of mechanics of communication, existing communications regime kind gets more and more, Long Term Evolution (LongTermEvolution, referred to as LTE) project is G mobile communication (ThirdGeneration, referred to as 3G) evolution, it improves and enhances 3G (universal mobile telecommunications system (UniversalMobileTelecommunicationsSystem, referred to as UMTS), HRPD (high rate packet data) (HighRatePacketData, referred to as HRPD) aerial access technology, it adopts OFDM (OrthogonalFrequencyDivisionMultiplexing, referred to as OFDM) technology and multiple-input and multiple-output (MultipleInputsandMultipleOutputs, referred to as MIMO) technology.In addition, WLAN (wireless local area network) (WirelessLocalAreaNetwork, referred to as WLAN) technology and Generation Mobile Telecommunication System technology (SecondGeneration, referred to as 2G) etc. are also widely used in Current communications system.

In LTE, UE can change according to the change of traffic carrying capacity between connected state and Idle state, when UE has business to transmit, UE enters connected state, when UE does not have business to transmit, network side can add up the time that UE transmits without business, once inactivation time exceedes the threshold value that network side is arranged, network side will discharge the resource of this UE.But in current wireless communication system, owing to there is multiple types, comprise and existingly comprise LTE, 3G (UMTS, HRPD), 2G and WLAN etc., when UE carries out mobility operation between above-mentioned different wireless telecommunication system, for Serving cell under the part scene in same standard switching (such as, in LTE under dual link scene UE serving BS in little base station change), switching between different honeycomb standard/be redirected (such as, switching etc. between LTE and 3G) and 3GPP and WLAN between stream migration (such as, LTE or 3G carries out service distributing to WLAN), network side cannot know that UE is in the time of unactivated state under former serving BS, such as, if UE carries out stream migration frequently between 3GPP and WLAN, and the time that UE stops in 3GPP base station is all less than the threshold value of inactivation time (inactivetime) at every turn, even if so UE does not have Business Stream for a long time, 3GPP base station also can not discharge the resource of this UE, cause the waste of resource and power consumption.

Therefore, in the related, there is base station and can not know that UE does not carry out the inactivation time of Business Stream exactly, cause the problem of resource and power wastage.

Summary of the invention

The invention provides a kind of user equipment (UE) method for processing resource, device, base station and terminal, can not know that UE does not carry out the inactivation time of Business Stream exactly at least to solve the base station existed in correlation technique, cause the problem of resource and power wastage.

According to an aspect of the present invention, provide a kind of user equipment (UE) method for processing resource, comprising: the inactivation time obtaining described UE; Accumulative inactivation time is determined according to the described inactivation time obtained; Judge whether described accumulative inactivation time reaches predetermined threshold; When judged result is for being, discharge the resource of described UE.

Preferably, the described inactivation time obtaining described UE comprise following one of at least: the described inactivation time being obtained described UE by high-rise network element; The described inactivation time of described UE is obtained by described UE; The described inactivation time of described UE is obtained by adjacent communication node.

Preferably, described high-rise network element comprise following one of at least: Mobility Management Entity MME; Grouped data network gateway P-GW; Gateway S-GW; Central control node.

Preferably, the described inactivation time of described UE comprise following one of at least: described UE is in the time not sending and receive any data corresponding to each carrying; Described UE is in the time not sending and receive any data of one or more predetermined carrying correspondence; Described UE does not send and receives the time of any data.

Preferably, the described inactivation time obtaining described UE by described high-rise network element comprises: the request sending the described inactivation time obtaining described UE to described high-rise network element; Receive the request response of carrying described inactivation time that described high-rise network element sends.

Preferably, the described inactivation time obtaining described UE by described UE comprise following one of at least: by the mode of asking described UE to report, obtain the described inactivation time of described UE; By the mode that described UE reports, obtain the described inactivation time of described UE; In the random accessing message sent, carried the mode of described inactivation time by described UE, obtain the described inactivation time of described UE.

Preferably, by the mode of asking described UE to report, the described inactivation time obtaining described UE comprise following one of at least: the described inactivation time being reported described UE by radio resource control RRC proprietary signaling instruction UE; The described inactivation time of described UE is reported by media access control MAC control head instruction UE.

Preferably, the mode reported by described UE, the described inactivation time obtaining described UE comprise following one of at least: by the mode of described UE periodic report, obtain the described inactivation time of described UE; By when described inactivation time reaches predetermined threshold, trigger the mode that described UE reports, obtain the described inactivation time of described UE; Reported the mode of indication information by described UE, obtain the described inactivation time of described UE, wherein, described indication information is used to indicate the described inactivation time that described UE adds up and reaches the predetermined threshold that base station issues.

Preferably, the described inactivation time being obtained described UE by described adjacent communication node is comprised: by carrying the mode of described inactivation time in the contextual information that obtains from described adjacent communication node, obtain the described inactivation time of described UE; By sending the mode of the request message for asking inactivation time to described adjacent communication node, obtain the described inactivation time of described UE.

Preferably, before the described inactivation time obtaining described UE, also comprise: issue inactivation time to described UE and report threshold value; Issue inactivation time report cycle to described UE and be biased.

Preferably, said method is applied under described UE is in dual link, dominant base to prothetic group station change/add/flow process of deleting in; And/or, be applied to described UE and occur in the process of service flow transfer in networks with different systems.

According to a further aspect in the invention, provide a kind of user equipment (UE) method for processing resource, comprising: the inactivation time adding up described UE; The described inactivation time of statistics is reported base station.

Preferably, the described inactivation time of statistics is reported base station comprise following one of at least: by sending request the mode of response to described base station, the described inactivation time of statistics is reported described base station; By carrying the mode of inactivation time in the random accessing message sent to described base station, the described inactivation time of statistics is reported described base station.

Preferably, the described inactivation time of statistics is reported described base station comprise following one of at least: by the mode of periodic report, the described inactivation time of statistics is reported described base station; Reach predetermined threshold by described inactivation time and trigger the mode reported, the described inactivation time of statistics is reported described base station; By reporting the mode of indication information, the described inactivation time of statistics is reported described base station, wherein, described indication information is used to indicate the described inactivation time that described UE adds up and reaches the predetermined threshold that base station issues.

According to also one side of the present invention, provide a kind of user equipment (UE) resource processing unit, comprising: acquisition module, for obtaining the inactivation time of described UE; Determination module, for determining accumulative inactivation time according to the described inactivation time obtained; Judge module, for judging whether described accumulative inactivation time reaches predetermined threshold; Release module, for when judged result is for being, discharges the resource of described UE.

Preferably, described acquisition module comprise following one of at least: the first acquiring unit, for being obtained the described inactivation time of described UE by high-rise network element; Second acquisition unit, for obtaining the described inactivation time of described UE by described UE; 3rd acquiring unit, for obtaining the described inactivation time of described UE by adjacent communication node.

Preferably, described first acquiring unit comprises: first sends subelement, for sending the request of the described inactivation time obtaining described UE to described high-rise network element; First receives subelement, for receiving the request response of carrying described inactivation time that described high-rise network element sends.

Preferably, described second acquisition unit comprise following one of at least: first obtains subelement, for the mode by asking described UE to report, obtains the described inactivation time of described UE; Second obtains subelement, for the mode reported by described UE, obtains the described inactivation time of described UE; 3rd obtains subelement, for being carried the mode of described inactivation time in the random accessing message sent by described UE, obtains the described inactivation time of described UE.

Preferably, described first obtains subelement, also for by the mode that reports of the described UE of request, the described inactivation time obtaining described UE comprise following one of at least: the described inactivation time being reported described UE by radio resource control RRC proprietary signaling instruction UE; The described inactivation time of described UE is reported by media access control MAC control head instruction UE.

Preferably, described second obtains subelement, the mode also for being reported by described UE, the described inactivation time obtaining described UE comprise following one of at least: by the mode of described UE periodic report, obtain the described inactivation time of described UE; By when described inactivation time reaches predetermined threshold, trigger the mode that described UE reports, obtain the described inactivation time of described UE; Reported the mode of indication information by described UE, obtain the described inactivation time of described UE, wherein, described indication information is used to indicate the described inactivation time that described UE adds up and reaches the predetermined threshold that base station issues.

Preferably, described 3rd acquiring unit comprises: the 4th obtains subelement, for carrying the mode of described inactivation time in the contextual information by obtaining from described adjacent communication node, obtains the described inactivation time of described UE; 5th obtains subelement, for the mode by sending the request message for asking inactivation time to described adjacent communication node, obtains the described inactivation time of described UE.

Preferably, this device also comprises: first issues module, reports threshold value for issuing inactivation time to described UE; Second issues module, for issuing inactivation time report cycle to described UE and being biased.

According to also one side of the present invention, provide a kind of base station, comprise the device described in above-mentioned any one.

In accordance with a further aspect of the present invention, a kind of user equipment (UE) resource processing unit is provided, statistical module, for adding up the inactivation time of described UE; Reporting module, for reporting base station by the described inactivation time of statistics.

Preferably, described reporting module comprise following one of at least: first reports unit, for the mode by sending request response to described base station, the described inactivation time of statistics is reported described base station; Second reports unit, for the mode by carrying described inactivation time in the random accessing message sent to described base station, the described inactivation time of statistics is reported described base station.

Preferably, described reporting module comprise following one of at least: the 3rd reports unit, for the mode by periodic report, the described inactivation time of statistics is reported described base station; 4th reports unit, triggers for being reached predetermined threshold by described inactivation time the mode reported, and the described inactivation time of statistics is reported described base station; 5th reports unit, for the mode by reporting indication information, the described inactivation time of statistics is reported described base station, and wherein, described indication information is used to indicate the described inactivation time that described UE adds up and reaches the predetermined threshold that base station issues.

According to also one side of the present invention, provide a kind of terminal, comprise the device described in above-mentioned any one.

By the present invention, adopt the inactivation time obtaining described UE; Accumulative inactivation time is determined according to the described inactivation time obtained; Judge whether described accumulative inactivation time reaches predetermined threshold; When judged result is for being, discharge the resource of described UE, solve in correlation technique, there is base station and can not know that UE does not carry out the inactivation time of Business Stream exactly, cause the problem of resource and power wastage, and then reach and accurately know that UE does not carry out the inactivation time of Business Stream, avoid the effect of resource and power wastage.

Accompanying drawing explanation

Accompanying drawing described herein is used to provide a further understanding of the present invention, and form a application's part, schematic description and description of the present invention, for explaining the present invention, does not form inappropriate limitation of the present invention.In the accompanying drawings:

Fig. 1 is the flow chart of the user equipment (UE) method for processing resource one according to the embodiment of the present invention;

Fig. 2 is the flow chart of the user equipment (UE) method for processing resource two according to the embodiment of the present invention;

Fig. 3 is the structured flowchart of the user equipment (UE) resource processing unit according to the embodiment of the present invention;

Fig. 4 is the preferred structure block diagram of acquisition module 32 in the UE resource processing unit one according to the embodiment of the present invention;

Fig. 5 is the preferred structure block diagram of the first acquiring unit 42 in acquisition module 32 in the UE resource processing unit one according to the embodiment of the present invention;

Fig. 6 is the preferred structure block diagram of second acquisition unit 44 in acquisition module 32 in the UE resource processing unit one according to the embodiment of the present invention;

Fig. 7 is the preferred structure block diagram of the 3rd acquiring unit 46 in acquisition module 32 in the UE resource processing unit one according to the embodiment of the present invention;

Fig. 8 is the preferred structure block diagram of the UE resource processing unit one according to the embodiment of the present invention;

Fig. 9 is the structured flowchart of base station according to an embodiment of the invention;

Figure 10 is the structured flowchart of the user equipment (UE) resource processing unit two according to the embodiment of the present invention;

Figure 11 is the preferred structure block diagram one of reporting module 104 in the UE resource processing unit two according to the embodiment of the present invention;

Figure 12 is the preferred structure block diagram two of reporting module 104 in the UE resource processing unit two according to the embodiment of the present invention;

Figure 13 is the structured flowchart of the terminal according to the embodiment of the present invention;

Figure 14 is the flow chart of UE method for processing resource according to the preferred embodiment of the invention;

Figure 15 is the configuration diagram of the dual link according to the embodiment of the present invention;

Figure 16 is the flow chart according to the embodiment of the present invention 1;

Figure 17 is the flow chart according to the embodiment of the present invention 2;

Figure 18 is the flow chart one according to the embodiment of the present invention 3;

Figure 19 is the flowchart 2 according to the embodiment of the present invention 3;

Figure 20 is the flow chart according to the embodiment of the present invention 4;

Figure 21 is the flow chart according to the embodiment of the present invention 5;

Figure 22 is the flow chart according to the embodiment of the present invention 6;

Figure 23 is the flow chart according to the embodiment of the present invention 7;

Figure 24 is the flow chart according to the embodiment of the present invention 8;

Figure 25 is the flow chart according to the embodiment of the present invention 9;

Figure 26 is the flow chart according to the embodiment of the present invention 10;

Figure 27 is the flow chart according to the embodiment of the present invention 11;

Figure 28 is the flow chart according to the embodiment of the present invention 17.

Embodiment

Hereinafter also describe the present invention in detail with reference to accompanying drawing in conjunction with the embodiments.It should be noted that, when not conflicting, the embodiment in the application and the feature in embodiment can combine mutually.

Provide a kind of user equipment (UE) method for processing resource in the present embodiment, Fig. 1 is the flow chart of the user equipment (UE) method for processing resource one according to the embodiment of the present invention, and as shown in Figure 1, this flow process comprises the steps:

Step S102, obtains the inactivation time of UE;

Step S104, determines accumulative inactivation time according to the inactivation time obtained;

Step S106, judges whether accumulative inactivation time reaches predetermined threshold;

Step S108, when judged result is for being, the resource of release UE.

Pass through above-mentioned steps, according to the inactivation time obtaining UE, determine accumulative inactivation time (namely UE does not really carry out the inactivation time of Business Stream), not only solve in correlation technique, there is base station and can not know that UE does not carry out the inactivation time of Business Stream exactly, cause the problem of resource and power wastage, and then reach and accurately know that UE does not carry out the inactivation time of Business Stream, avoid the effect of the problem of resource and power wastage.

Wherein, obtain the inactivation time of UE and can adopt various ways, such as, can in the following ways one of at least: the inactivation time being obtained UE by high-rise network element; The inactivation time of UE is obtained by UE; The inactivation time of UE is obtained by adjacent communication node.Wherein, this high-rise network element can comprise following one of at least: Mobility Management Entity MME; Grouped data network gateway P-GW; Gateway S-GW; Central control node.

The inactivation time of UE can be various ways, such as, can to comprise with under type one of at least: UE is in the time not sending and receive any data corresponding to each carrying; UE is in the time not sending and receive any data of one or more predetermined carrying correspondence; UE does not send and receives the time of any data.

Different modes below for this inactivation time obtaining UE is described respectively.

Such as, when obtaining the inactivation time of UE by high-rise network element, can various ways be adopted, such as, can in the following ways: the request sending the inactivation time obtaining UE to high-rise network element; Receive the request response of carrying inactivation time that high-rise network element sends.

Again such as, obtain the inactivation time of UE by UE and also can adopt various ways, such as, can comprise following one of at least: the mode reported by request UE, obtains the inactivation time of UE; By the mode that UE reports, obtain the inactivation time of UE; In the random accessing message sent, carried the mode of inactivation time by UE, obtain the inactivation time of UE.Illustrate respectively below.

Such as, the mode reported by request UE, when obtaining the inactivation time of UE, can also adopt following execution mode: the inactivation time being reported UE by radio resource control RRC proprietary signaling instruction UE; The inactivation time of UE is reported by media access control MAC control head instruction UE.

Again such as, the mode reported by UE, when obtaining the inactivation time of UE, can also adopt following one of at least: by the mode of UE periodic report, obtain the inactivation time of UE; By when inactivation time reaches predetermined threshold, trigger the mode that UE reports, obtain the inactivation time of UE; Reported the mode of indication information by UE, obtain the inactivation time of UE, wherein, the inactivation time that indication information is used to indicate UE statistics reaches the predetermined threshold that base station issues.

Again such as, when obtaining the inactivation time of UE by adjacent communication node, also can adopting various ways, such as, by carrying the mode of inactivation time the contextual information from adjacent communication node acquisition, the inactivation time of UE can be obtained; By sending the mode of the request message for asking inactivation time to adjacent communication node, the inactivation time of UE can also be obtained.

Preferably, before the inactivation time obtaining UE, also comprise: issue inactivation time to UE and report threshold value; Issue inactivation time report cycle to UE and be biased.

It should be noted that, said method can be applied to UE and be in the flow process that multiple business stream changes, and such as, can be applied under UE is in dual link, dominant base to prothetic group station change/add/flow process of deleting in; Also can be applied to UE to occur in the process of service flow transfer in networks with different systems.

Fig. 2 is the flow chart of the user equipment (UE) method for processing resource two according to the embodiment of the present invention, and as shown in Figure 2, this flow process comprises the steps:

Step S202, the inactivation time of statistics UE;

Step S204, reports base station by the inactivation time of statistics.

Pass through above-mentioned steps, by the inactivation time (namely UE does not really carry out the inactivation time of Business Stream) of the UE of statistics, not only solve in correlation technique, there is base station and can not know that UE does not carry out the inactivation time of Business Stream exactly, cause the problem of resource and power wastage, and then reach and accurately know that UE does not carry out the inactivation time of Business Stream, avoid the effect of the problem of resource and power wastage.

The inactivation time of statistics is reported base station and can adopt various ways, such as, can adopt following one of at least: by sending request the mode of response to base station, by the inactivation time reporting base station of statistics; By carrying the mode of inactivation time in the random accessing message sent to base station, the inactivation time of statistics is reported base station.

Preferably, the inactivation time of statistics is reported base station when specifically implementing, following processing mode can also be adopted, such as, can in the following manner one of at least: by the mode of periodic report, the inactivation time of statistics is reported base station; Reach predetermined threshold by inactivation time and trigger the mode reported, the inactivation time of statistics is reported base station; By reporting the mode of indication information, the inactivation time of statistics is reported base station, wherein, the inactivation time that indication information is used to indicate UE statistics reaches the predetermined threshold that base station issues.

Additionally provide a kind of user equipment (UE) resource processing unit in the present embodiment, this device is used for realizing above-described embodiment and preferred implementation, has carried out repeating no more of explanation.As used below, term " module " can realize the software of predetermined function and/or the combination of hardware.Although the device described by following examples preferably realizes with software, hardware, or the realization of the combination of software and hardware also may and conceived.

Fig. 3 is the structured flowchart of the user equipment (UE) resource processing unit according to the embodiment of the present invention, and as shown in Figure 3, this device comprises acquisition module 32, determination module 34, judge module 36 and release module 38, is described below to this device.

Acquisition module 32, for obtaining the inactivation time of UE; Determination module 34, is connected to above-mentioned acquisition module 32, for determining accumulative inactivation time according to the inactivation time obtained; Judge module 36, is connected to above-mentioned determination module 34, for judging whether accumulative inactivation time reaches predetermined threshold; Release module 38, is connected to above-mentioned judge module 36, for when the judged result of above-mentioned judge module 36 is for being, and the resource of release UE.

Fig. 4 is the preferred structure block diagram of acquisition module 32 in the UE resource processing unit one according to the embodiment of the present invention, as shown in Figure 4, this acquisition module 32 comprise following one of at least: the first acquiring unit 42, second acquisition unit 44, the 3rd acquiring unit 46, be described this acquisition module 32 below.

First acquiring unit 42, for obtaining the inactivation time of UE by high-rise network element; Second acquisition unit 44, for obtaining the inactivation time of UE by UE; 3rd acquiring unit 46, for obtaining the inactivation time of UE by adjacent communication node.

Fig. 5 is the preferred structure block diagram of the first acquiring unit 42 in acquisition module 32 in the UE resource processing unit one according to the embodiment of the present invention, as shown in Figure 5, this first acquiring unit 42 comprises: first sends subelement 52 and first receives subelement 54, is described below to this first acquiring unit 42.

First sends subelement 52, for sending the request of the inactivation time obtaining UE to high-rise network element; First receives subelement 54, is connected to above-mentioned first and sends subelement 52, for receiving the request response of carrying inactivation time that high-rise network element sends.

Fig. 6 is the preferred structure block diagram of second acquisition unit 44 in acquisition module 32 in the UE resource processing unit one according to the embodiment of the present invention, as shown in Figure 6, this second acquisition unit 44 comprise following one of at least: first obtains subelement 62, second obtains subelement 64, the 3rd and obtains subelement 66, is described below to this second acquisition unit 44.

First obtains subelement 62, for the mode reported by request UE, obtains the inactivation time of UE; Second obtains subelement 64, for the mode reported by UE, obtains the inactivation time of UE; 3rd obtains subelement 66, for being carried the mode of inactivation time in the random accessing message sent by UE, obtains the inactivation time of UE.

Preferably, this first obtains subelement 62, also for by the mode that reports of request UE, the inactivation time obtaining UE comprise following one of at least: indicate UE to report the inactivation time of UE by the proprietary signaling of radio resource control RRC; The inactivation time of UE is reported by media access control MAC control head instruction UE.

Preferably, second obtains subelement 64, the mode also for being reported by UE, obtain the inactivation time of UE comprise following one of at least: by the mode of UE periodic report, obtain the inactivation time of UE; By when inactivation time reaches predetermined threshold, trigger the mode that UE reports, obtain the inactivation time of UE; Reported the mode of indication information by UE, obtain the inactivation time of UE, wherein, the inactivation time that indication information is used to indicate UE statistics reaches the predetermined threshold that base station issues.

Fig. 7 is the preferred structure block diagram of the 3rd acquiring unit 46 in acquisition module 32 in the UE resource processing unit one according to the embodiment of the present invention, as shown in Figure 7,3rd acquiring unit 46 comprise following one of at least: the 4th obtains subelement 72, the 5th obtains subelement 74, is described below to the 3rd acquiring unit 46.

4th obtains subelement 72, for carrying the mode of inactivation time the contextual information by obtaining from adjacent communication node, obtains the inactivation time of UE; 5th obtains subelement 74, for the mode by sending the request message for asking inactivation time to adjacent communication node, obtains the inactivation time of UE.

Fig. 8 is the preferred structure block diagram of the UE resource processing unit one according to the embodiment of the present invention, as shown in Figure 8, this device except comprising all modules shown in Fig. 4, also comprise following one of at least: first issues module 82, second issues module 84, is described below to this device.

First issues module 82, is connected to above-mentioned acquisition module 32, reports threshold value for issuing inactivation time to UE; Second issues module 84, is connected to above-mentioned acquisition module 32, for issuing inactivation time report cycle to UE and being biased.

Fig. 9 is the structured flowchart of base station according to an embodiment of the invention, and as shown in Figure 9, this base station 90 comprises the UE resource processing unit 1 of above-mentioned any one.

Figure 10 is the structured flowchart of the user equipment (UE) resource processing unit two according to the embodiment of the present invention, and as shown in Figure 10, this device comprises: statistical module 102 and reporting module 104, be described this device below.

Statistical module 102, for adding up the inactivation time of UE; Reporting module 104, is connected to above-mentioned statistical module 102, for the inactivation time of statistics is reported base station.

Figure 11 is the preferred structure block diagram one of reporting module 104 in the UE resource processing unit two according to the embodiment of the present invention, as shown in figure 11, this reporting module 104 comprise following one of at least: first reports unit 112, second to report unit 114, is described below to this reporting module 104.

First reports unit 112, for the mode by sending request response to base station, by the inactivation time reporting base station of statistics; Second reports unit 114, for the mode by carrying inactivation time in the random accessing message sent to base station, the inactivation time of statistics is reported base station.

Figure 12 is the preferred structure block diagram two of reporting module 104 in the UE resource processing unit two according to the embodiment of the present invention, as shown in figure 12, this reporting module 104 comprise following one of at least: the 3rd reports unit 122, the 4th to report unit 124, the 5th to report unit 126, is described below to this reporting module 104.

3rd reports unit 122, for the mode by periodic report, the inactivation time of statistics is reported base station; 4th reports unit 124, triggers the mode reported, the inactivation time of statistics is reported base station for being reached predetermined threshold by inactivation time; 5th reports unit 126, for the mode by reporting indication information, the inactivation time of statistics is reported base station, and wherein, the inactivation time that indication information is used to indicate UE statistics reaches the predetermined threshold that base station issues.

Figure 13 is the structured flowchart of the terminal according to the embodiment of the present invention, and as shown in figure 13, this terminal 130 comprises the UE resource processing unit 2 132 of above-mentioned any one.

For the problems referred to above in correlation technique, in the present embodiment, method, transmission node and system that a kind of mobility is optimized is provided.Base station obtains the inactivation time accessed terminal, and the inactivation time of cumulative calculation terminal on this basis, when terminal inactivation time reaches inactivetime threshold value, then discharge the resource of this terminal, by this processing method, the waste of resource and power can be avoided, thus increase system efficiency, promote Consumer's Experience.

Figure 14 is the flow chart of UE method for processing resource according to the preferred embodiment of the invention, and as shown in figure 14, this flow process comprises the steps:

Step 1, base station is to the inactivation time of communication node acquisition request UE;

Step 2, communication node sends inactivation time to base station, and afterwards, base station according to inactivation time (inactivetime) information obtaining UE, and in conjunction with inactivetime threshold information, determines whether the resource discharging this UE.

The inactivetime information that base station obtains UE can adopt multiple processing mode, such as, one of can adopt following processing mode at least: base station obtains the inactivetime information of UE by high-rise network element; Base station obtains the inactivetime information of UE by UE; Base station obtains the inactivetime of UE by adjacent communication node.

Wherein, high-rise network element includes but not limited to: Mobility Management Entity (MobileManagementEntity, referred to as MME); Grouped data network gateway (PacketDataNetworkGateway, referred to as P-GW); Gateway (Serving-Gateway, referred to as S-GW); Central control node.Adjacent communication node comprises but does not limit and macro base station, little base station, WLAN (wireless local area network) (WirelessLocal, referred to as WLAN) node.The inactivetime of UE also can be various ways, such as, can comprise following one of at least: the time not sending and receive any data that each carrying of UE is corresponding; The time not sending and receive any data that UE is some or multiple designated bearing is corresponding; UE does not send and receives the time of any data.

Wherein, the inactivetime information that base station obtains UE by high-rise network element also can adopt various ways, such as, and can in the following ways: base station sends the inactivetime information request obtaining UE to high-rise network element; High-rise network element sends the inactivetime information of UE to base station.

When base station obtains the inactivetime information of UE by UE, such as, can in the following ways: base station requests obtains the inactivetime of UE; UE reports inactivetime to base station.Wherein, base station requests also can adopt various ways when obtaining the inactivetime of UE, such as, can in the following ways one of at least: base station reports inactivetime by wireless heterogeneous networks (RadioResourceControl, referred to as RRC) proprietary signaling instruction UE; Base station reports inactivetime by medium education (MediaAccessControl, referred to as MAC) control head instruction UE.

Again such as, base station obtain the inactivetime information of UE by UE can also in the following ways: the UE cycle report inactivetime information; The inactivetime of UE then triggers when arriving threshold value and reports indication information to base station, and wherein, this threshold value is by protocol conventions or by base station configuration distributing.

Again such as, base station obtain the inactivetime information of UE by UE can also in the following ways: step 1:UE sends random accessing message msg1; Step 2: base station sends response message msg2 after receiving msg1; Wherein msg2 comprises: request UE reports the indication information of inactivetime.Step 3:UE sends random accessing message msg3; Wherein msg3 comprises: the inactivetime of UE.

The inactivetime that base station obtains UE by adjacent communication node also can adopt various ways, such as, can in the following ways: step 1: the first base station sends the context request message of UE to the first communication node, and wherein the contextual information (UEContextInformation) of UE comprises the inactivetime information of UE; Step 2: the first communication node sends the contextual information of UE to the first base station.Wherein the contextual information (UEContextInformation) of UE comprises the inactivetime information of UE, and wherein, the first communication node includes but not limited to: the second base station, WLAN node.

Again such as, base station obtain the inactivetime of UE by adjacent communication node can also in the following ways: step 1: the first base station sends the inactivetime request message of UE to the first communication node; Step 2: the first communication node sends the inactivetime response message of UE to the first base station; Wherein, the first communication node includes but not limited to: the second base station, WLAN node.

Again such as, base station obtain the inactivetime of UE by adjacent communication node can also in the following ways: step 1:MeNB sends SeNB releasing request message to SeNB-1; SeNB releasing request message is sent by X2 interface or Xn interface; Step 2:SeNB-1 sends release response message to MeNB.Release response message comprises the contextual information of UE, and wherein the contextual information (UEContextInformation) of UE comprises the inactivetime information of UE.

Also such as, base station obtains the inactivetime of UE by adjacent communication node can also in the following ways: step 1:MeNB sends to SeNB-2 and adds request, adds the contextual information that request comprises UE; Wherein the contextual information (UEContextInformation) of UE comprises the inactivetime information of UE; Step 2:SeNB-2 receives inactivetime information, sends response message to MeNB.

When base station obtains the inactivetime information of UE by UE, can also adopt following process: step 1, base station issues inactivetime and reports threshold value; Such as, base station issues inactivetime threshold value by broadcast; Or base station issues inactivetime threshold value by the proprietary message of RRC; Step 2, base station issues distributes to the indication information resource that UE carries out reporting inactivetime time-out; Step 3, UE adds up inactivetime, when inactivetime arrives threshold value, then reports indication information to base station; Step 4, after base station receives indication information, the resource of release UE.

In the present embodiment, additionally provide a kind of base station, this base station performs following operation: base station sends inactivetime and asks indication information; Comprise the inactivetime of multiple carrying or the inactivetime of designated bearing; Base station obtains inactivetime information.Base station judges whether releasing UE resources according to this inactivetime information obtained.

In the present embodiment, additionally provide a kind of UE, this UE comprises for performing following operation: UE receives inactivetime and asks indication information; UE reports inactivetime information at uplink data channels; And UE reports inactivetime information in random access information.Wherein, inactivetime information comprise following one of at least: the time not sending and receive any data that each carrying of UE is corresponding; The time not sending and receive any data that UE is some or multiple designated bearing is corresponding; UE does not send and receives the time of any data.

By above-described embodiment and preferred implementation, at the inactivation time of its communication node (under comprising other standards) before base station acquisition accesses terminal and carries, and the inactivation time of cumulative calculation terminal on this basis, when terminal inactivation time reaches inactivetime threshold value, then discharge the resource of this terminal, by this processing method, the waste of resource and power can be avoided, thus increase system efficiency, promote Consumer's Experience.

In real process, about inactivetime timer, according to the difference of UE ability, inactivetime timer has two kinds of designs:

There is an inactivetime timer mode one: UE side, the inactivetime timer that base station side also has a UE proprietary, when UE has up or downlink data to need transmission, the inactivetime timer of base station side and UE side all can reset, when UE does not have up or downlink data to need transmission, the inactivetime timer of base station side and UE side will start timing, until when UE has up or downlink data to need transmission, the inactivetime timer of base station side and UE side will reset again, the threshold value exceeding network side setting is added up once the inactivetime that UE is corresponding, network side then can discharge the resource that UE side is distributed, UE transfers Idle state to from connected state.

There is multiple inactivetime timer mode two: UE side, base station side also has corresponding each of multiple UE to carry proprietary inactivetime timer, when UE has up or downlink data to need transmission in certain carrying, the inactivetime timer of the carrying correspondence of base station side and UE side all can reset, when UE does not have up or downlink data to need transmission, the inactivetime timer of the carrying correspondence of base station side and UE side will start timing, until when UE has up or downlink data to need transmission, the inactivetime timer of the carrying correspondence of base station side and UE side will reset again, the threshold value exceeding network side setting is added up once the inactivetime that UE carrying is corresponding, network side then can discharge the resource that this UE correspondence carrying distributes, if all carrying of UE is all released, then UE transfers Idle state to from connected state.

After determining inactivetime working method, below in conjunction with concrete scene describe in detail the serving BS working form of UE change after network side obtain the mode of the inactivetime of UE.

Scene 1:

Figure 15 is the configuration diagram of the dual link according to the embodiment of the present invention, as shown in figure 15, under dual link 1A framework, MeNB may not know the inactivetime of UE at SeNB, cause in time SeNB being deleted (if UE is at the inactivetime time long enough of single SeNB, initiatively can be initiated to delete to solve by SeNB, if but UE carries out switching between SeNB and MeNB is constant, if then UE can not add up at the inactivetime of SeNB, then cause SeNB can not be released for a long time), or, inactivetime can accurately do not provided to target MeNB (the actual minimum value that should provide the inactivetime of UE at MeNB and the inactivetime at SeNB) when MeNB switches, if particularly MeNB only provides SRB, when all DRB are transmitted by SeNB, the inactivetime of MeNB is actual does not have any meaning.

Below in conjunction with drawings and the specific embodiments, the present invention is described in further detail.

Embodiment 1:

Suppose that UE possesses dual link ability, under namely can being connected to dominant base (MastereNB) and prothetic group station (SecondaryeNB), the current main serving BS of UE is MeNB, can add prothetic group station in the following ways simultaneously.Figure 16 is the flow chart according to the embodiment of the present invention 1, and as shown in figure 16, this flow process comprises the steps:

Step 1:MeNB sends to SeNB-2 and adds request, and this interpolation request comprises the contextual information of UE; Wherein the contextual information (UEContextInformation) of UE comprises the inactivetime information of UE.

Wherein, the inactivetime of UE comprises: the time not sending and receive any data that each carrying of UE is corresponding; Or, the time not sending and receive any data that UE is some or multiple designated bearing is corresponding; UE does not send and receives the time of any data.

Step 2:SeNB-2 receives and adds solicited message, determines whether to agree to add.

Step 3:SeNB-2 sends to MeNB and adds confirmation.

After step 4:SeNB-2 obtains the inactivetime of UE, the upper inactivetime continuing accumulative UE in this basis, and in conjunction with inactivetime threshold value, determine whether to need to discharge the resource of the some or multiple designated bearing of UE.

Embodiment 2:

Suppose that UE possesses dual link ability, namely under can being connected to dominant base (MastereNB) and prothetic group station (SecondaryeNB) simultaneously, the current serving BS of UE is MeNB and SeNB-1, Figure 17 is the flow chart according to the embodiment of the present invention 2, as shown in figure 17, this flow process comprises the steps:

Step 1:MeNB sends SeNB releasing request message to SeNB-1.

This SeNB releasing request message is sent by X2 interface or Xn interface.

Step 2:SeNB-1 receives releasing request message, agrees to release.

Step 3:SeNB-1 sends release response message to MeNB.This release response message comprises the contextual information of UE, and wherein, the contextual information (UEContextInformation) of UE comprises the inactivetime information of UE.

Wherein, the inactivetime of UE comprise following one of at least: the time not sending and receive any data that each carrying of UE is corresponding; The time not sending and receive any data that UE is some or multiple designated bearing is corresponding; UE does not send and receives the time of any data.

After step 4:MeNB obtains the inactivetime of UE, the upper inactivetime continuing accumulative UE in this basis, and in conjunction with inactivetime threshold value, determine whether to need to discharge the resource of the some or multiple designated bearing of UE.

Embodiment 3

Under dual link scene, under UE can be connected to a MeNB and SeNB simultaneously, under supposing that now UE is connected to MeNB and SeNB-1 simultaneously, under sometime, it is SeNB-2 that UE triggers change SeNB-1, Figure 18 is the flow chart one according to the embodiment of the present invention 3, and as shown in figure 18, this flow process comprises the steps:

Step 1:MeNB sends SeNB releasing request message to SeNB-1.

SeNB releasing request message is sent by X2 interface or Xn interface.

Step 2:SeNB-1 receives releasing request message, and release is agreed in judgement.

Step 3:SeNB-1 sends release response message to MeNB.This release response message comprises the contextual information of UE, and wherein the contextual information (UEContextInformation) of UE comprises the inactivetime information of UE.

Step 4:MeNB sends to SeNB-2 and adds request, adds the contextual information that request comprises UE; Wherein the contextual information (UEContextInformation) of UE comprises the inactivetime information of the UE obtained in step 3.

Step 5:SeNB-2 receives the inactivetime information of UE, determines whether to agree to add.

Step 6:SeNB-2 sends confirmation to MeNB.

After step 7:SeNB-2 obtains the inactivetime of UE, the upper inactivetime continuing accumulative UE in this basis, and in conjunction with inactivetime threshold value, determine whether to need to discharge the resource of the some or multiple designated bearing of UE.

Figure 19 is the flowchart 2 according to the embodiment of the present invention 3, and as shown in figure 19, execution sequence is step 1,3,2,4,5,6,7.

Embodiment 4

Suppose that UE possesses dual link ability, namely under can being connected to dominant base (MastereNB) and prothetic group station (SecondaryeNB) simultaneously, the current main serving BS of UE is MeNB, if need to add prothetic group station, then needing to perform following steps: Figure 20 is flow chart according to the embodiment of the present invention 4, as shown in figure 20, this flow process comprises the steps:

Step 1:MeNB sends to SeNB-2 and adds request.

Step 2:SeNB-2 receives and adds request message, determines whether to agree to add.

Step 3:SeNB-2 sends to MeNB and adds confirmation.

Step 4:SeNB-2 sends the context request message of UE to MeNB.Wherein the contextual information (UEContextInformation) of UE comprises the inactivetime information of UE.

Step 5:MeNB sends the contextual information of UE to SeNB-2.Wherein the contextual information (UEContextInformation) of UE comprises the inactivetime information of UE.

After step 6:SeNB-2 obtains the inactivetime of UE, the upper inactivetime continuing accumulative UE in this basis, and in conjunction with inactivetime threshold value, determine whether to need to discharge the resource of the some or multiple designated bearing of UE.

Embodiment 5

Figure 21 is the flow chart according to the embodiment of the present invention 5, and as shown in figure 21, the differentiation of the present embodiment and embodiment 4 is only in steps 1,2,3,5, and 6 do not have step 4.

Embodiment 6:

Suppose that UE possesses dual link ability, namely under can being connected to dominant base (MastereNB) and prothetic group station (SecondaryeNB) simultaneously, the current serving BS of UE is MeNB and SeNB-1, if need to delete prothetic group station, need to perform following steps, Figure 22 is the flow chart according to the embodiment of the present invention 6, and as shown in figure 22, this flow process comprises the steps:

Step 1:MeNB sends the context request message of UE to SeNB-1.Wherein the contextual information (UEContextInformation) of UE comprises the inactivetime information of UE.

Step 2:SeNB-1 sends the contextual information of UE to MeNB.Wherein the contextual information (UEContextInformation) of UE comprises the inactivetime information of UE.

Step 3:MeNB sends SeNB releasing request message to SeNB-1;

SeNB releasing request message is sent by X2 interface or Xn interface.

Step 4:SeNB-1 receives releasing request message.

Step 5:SeNB-1 sends release response message to MeNB.

After step 6:MeNB obtains the inactivetime of UE, the upper inactivetime continuing accumulative UE in this basis, and in conjunction with inactivetime threshold value, determine whether to need to discharge the resource of the some or multiple designated bearing of UE.

Embodiment 7

Figure 23 is the flow chart according to the embodiment of the present invention 7, and as shown in figure 23, the differentiation of the present embodiment and embodiment 6 is only in steps 2,3,4,5, and 6 do not have step 1.And execution sequence is step 3,4,5,2,6.

Embodiment 8:

Under dual link scene, under UE can be connected to a MeNB and SeNB simultaneously, under supposing that now UE is connected to MeNB and SeNB-1 simultaneously, under sometime, it is SeNB-2 that MeNB triggers the prothetic group station SeNB-1 changing UE, Figure 24 is the flow chart according to the embodiment of the present invention 8, and as shown in figure 24, this flow process comprises the steps:

Step 1:MeNB sends adjustment request to SeNB-1.

Wherein, adjustment request instruction UE discharges SeNB-1, adds SeNB-2.

Step 2:MeNB sends adjustment request to SeNB-2.

Wherein, adjustment request instruction UE discharges SeNB-1, adds SeNB-2.

Step 3:SeNB-2 sends the context request message of UE to SeNB-1.Wherein the contextual information (UEContextInformation) of UE comprises the inactivetime information of UE.

Step 4:SeNB-1 sends the contextual information of UE to SeNB-2.Wherein the contextual information (UEContextInformation) of UE comprises the inactivetime information of UE.

After step 5:SeNB-2 obtains the inactivetime of UE, the upper inactivetime continuing accumulative UE in this basis, and in conjunction with inactivetime threshold value, determine whether to need to discharge the resource of the some or multiple designated bearing of UE.

It should be noted that, above-mentioned steps 3,4 also can adopt following processing mode:

Step 3:SeNB-2 sends the inactivetime request message of UE to SeNB-1.

Step 4:SeNB-1 sends the inactivetime response message of UE to SeNB-2.

Embodiment 9:

In the present embodiment, community can require the inactivetime of terminal to report terminal, and Figure 25 is the flow chart according to the embodiment of the present invention 9, and as shown in figure 25, this flow process comprises the steps:

Step 1:UE accesses 3GPP Serving cell; 3GPP Serving cell comprises MeNB or SeNB.

The inactivetime of step 2:3GPP Serving cell acquisition request UE; Can in the following ways: comprising: 3GPP Serving cell reports inactivetime by RRC proprietary signaling instruction UE; Or 3GPP Serving cell reports inactivetime by MAC control head instruction UE.Wherein, the inactivetime of UE comprise following one of at least: the time not sending and receive any data that each carrying of UE is corresponding; The time not sending and receive any data that UE is some or multiple designated bearing is corresponding; UE does not send and receives the time of any data.

Step 3:UE reports inactivetime to 3GPP Serving cell, comprising: the uplink channel resources that UE is distributing reports inactivetime information.

After step 4:3GPP Serving cell obtains the inactivetime of UE, the upper inactivetime continuing accumulative UE in this basis, and in conjunction with inactivetime threshold value, determine whether to need to discharge the resource of the some or multiple designated bearing of UE.

Embodiment 10:

In the present embodiment, terminal can by the inactivetime of random access procedure reporting terminal, and Figure 26 is the flow chart according to the embodiment of the present invention 10, and as shown in figure 26, this flow process comprises the steps: that concrete steps are as follows:

Step 1:UE sends random accessing message msg1;

Step 2:3GPP community sends response message msg2 after receiving msg1; Wherein msg2 comprises: request UE reports the indication information of inactivetime.

Step 3:UE sends random accessing message msg3; Wherein msg3 comprises: the inactivetime of UE.

Wherein the inactivetime of UE comprises: the time not sending and receive any data that each carrying of UE is corresponding; The time not sending and receive any data that UE is some or multiple designated bearing is corresponding; UE does not send and receives the time of any data.

After step 4:3GPP community obtains the inactivetime of UE, the upper inactivetime continuing accumulative UE in this basis, and in conjunction with inactivetime threshold value, determine whether to need to discharge the resource of the some or multiple designated bearing of UE.

Scene 2:

After UE is switched to WLAN from 3GPP, the inactivetime of UE no longer calculates, and when then UE gets back to 3GPP from WLAN, the inactivetime of UE is actual to be calculated from 0; This may cause can not the inactivetime of Continuous plus UE, thus the inactivetime of UE has been calculated less, if even frequent generation switches back and forth, even if cause for a long time there is no business, inactivetime is always not overtime yet, and therefore 3GPP community needs to know the inactivetime of UE at WLAN;

On the other hand, after partial service is moved to WLAN from 3GPP by UE, UE should calculate not by the minimum inactivetime of DRB moved away the inactivetime of 3GPP is actual; But in the other direction, after partial service is moved back LTE from WLAN by UE, UE should calculate UE minimum value at the inactivetime of 3GPP before inactivetime and UE of WLAN oppositely moves the inactivetime of 3GPP is actual, similarly, 3GPP community needs to know the inactivetime of UE at WLAN.

Embodiment 11:

Suppose that UE, between 3GPP and WLAN, stream migration occurs, 3GPP subzone network side needs the inactivetime adding up UE, and Figure 27 is the flow chart according to the embodiment of the present invention 11, and as shown in figure 27, this flow process comprises the steps:

The inactivetime of step 1:3GPP Serving cell statistics UE; Wherein, the inactivetime of UE comprise following one of at least: the time not sending and receive any data that each carrying of UE is corresponding; The time not sending and receive any data that UE is some or multiple designated bearing is corresponding; UE does not send and receives the time of any data.

Step 2:3GPP Serving cell by the service flow transfer of UE to WLAN node;

The inactivetime information unit of UE is issued WLAN node by step 3:3GPP Serving cell, can in the following ways one of at least: the inactivetime information unit of UE is issued WLAN node by radio open by 3GPP Serving cell; The inactivetime information unit of UE is issued WLAN node by wireline interface by 3GPP Serving cell.

Step 4:WLAN node receives the inactivetime of UE, and sends response message.

WLAN node continues the inactivetime of accumulative UE on this basis, compares by sentencing time threshold value with inactive, determines whether the resource needing to discharge UE distribution.

Embodiment 12

The difference of the present embodiment and embodiment 11 is:

The contextual information of UE is issued WLAN node by step 3:3GPP Serving cell.Wherein the contextual information of UE comprises the inactivetime information unit of UE.

Embodiment 13:

Suppose that the part of UE is carried between 3GPP and WLAN and stream migration occurs, 3GPP subzone network side needs the inactivetime adding up UE, and concrete steps are as follows:

The inactivetime of step 1:3GPP Serving cell statistics UE;

Wherein the inactivetime of UE comprise following one of at least: the time not sending and receive any data that each carrying of UE is corresponding; The time not sending and receive any data that UE is some or multiple designated bearing is corresponding; UE does not send and receives the time of any data.

The part traffic streams of UE is moved to WLAN node by step 2:3GPP Serving cell;

The inactivetime information unit of the carrying correspondence of the migration of UE is issued WLAN node by step 3:3GPP Serving cell.Can in the following ways one of at least: the inactivetime information unit of the carrying correspondence of the migration of UE is issued WLAN node by radio open by 3GPP Serving cell; The inactivetime information unit of the carrying correspondence of the migration of UE is issued WLAN node by wireline interface by 3GPP Serving cell.

Step 4:WLAN node receives the inactivetime of the carrying of the migration of UE, and sends response message.

WLAN node continues the inactivetime of accumulative UE on this basis, compares by sentencing time threshold value with inactive, determines whether the resource needing to discharge UE distribution.

Embodiment 14

In the present embodiment, the part of UE is carried between 3GPP and WLAN and stream migration occurs, and so after UE moves to 3GPP community from WLAN, 3GPP community can send directly to UE the request obtaining inactivetime as required, particularly:

The inactivetime of step 1:3GPP Serving cell acquisition request UE; Such as, one of can adopt following processing mode at least: 3GPP Serving cell reports inactivetime by RRC proprietary signaling instruction UE; Or: 3GPP Serving cell reports inactivetime by MAC control head instruction UE; Wherein, the inactivetime of UE comprise following one of at least: the time not sending and receive any data that each carrying of UE is corresponding; The time not sending and receive any data that UE is some or multiple designated bearing is corresponding; UE does not send and receives the time of any data.

Step 2:UE reports inactivetime to 3GPP Serving cell.Following process can be adopted: comprising: the uplink channel resources that UE is distributing reports inactivetime information.

After step 3:3GPP community obtains the inactivetime of UE, the upper inactivetime continuing accumulative UE in this basis, and in conjunction with inactivetime threshold value, determine whether to need to discharge the resource of the some or multiple designated bearing of UE.

Embodiment 15

In the present embodiment, UE is switched to 3GPP Serving cell from WLAN node, and UE can directly report inactivetime information when access 3GPP community.

Step 1:UE sends random accessing message;

Step 2:3GPP community sends response message after receiving random accessing message; Wherein, response message comprises: request UE reports the indication information of inactivetime; With or Resourse Distribute indication information.

Step 3:UE sends random accessing message msg3 on ascending resource, and wherein, msg3 comprises: the inactivetime of UE.Wherein, the inactivetime of UE comprise following one of at least: the time not sending and receive any data that each carrying of UE is corresponding; The time not sending and receive any data that UE is some or multiple designated bearing is corresponding; UE does not send and receives the time of any data.

After step 4:3GPP community obtains the inactivetime of UE, the upper inactivetime continuing accumulative UE in this basis, and in conjunction with inactivetime threshold value, determine whether to need to discharge the resource of the some or multiple designated bearing of UE.

Embodiment 16

In the present embodiment, after UE access communications node, communication node can obtain the inactivetime information of UE by high-rise network element, comprise the steps:

Step 1: communication node sends the inactivetime information request obtaining UE to high-rise network element;

Step 2: high-rise network element sends the inactivetime information of UE to communication node.

Wherein, high-rise network element comprises but not to limit and MME; P-GW; S-GW; Central control node.

Wherein, communication node comprises but does not limit and macro base station, little base station, WLAN node.

Step 3: after communication node obtains the inactivetime of UE, the upper inactivetime continuing accumulative UE in this basis, and in conjunction with inactivetime threshold value, determine whether to need to discharge the resource of the some or multiple designated bearing of UE.

Embodiment 16

In the present embodiment, after UE leaves a communication node, high-rise network element can obtain the inactivetime information of UE by communication node, concrete steps comprise:

Step 1: high-rise network element sends the inactivetime information request obtaining UE to communication node;

Step 2: communication node sends the inactivetime information of UE to high-rise network element.

Wherein, high-rise network element comprises but not to limit and MME; P-GW; S-GW; Central control node.

Wherein, communication node comprises but does not limit and macro base station, little base station, WLAN node.

After high-rise network element obtains the inactivetime of UE, for the communication node that the follow-up UE of sending to newly accesses.

Embodiment 17

In the present embodiment, in conjunction with the embodiments 15 and embodiment 16, after UE leaves the first communication node access second communication node, high-rise network element can obtain the inactivetime of UE from the first communication node, and by the inactivetime of UE send to second communication node, Figure 28 is the flow chart according to the embodiment of the present invention 17, and as shown in figure 28, this flow process comprises the steps:

Step 1: high-rise network element sends the inactivetime information request obtaining UE to the first communication node;

Step 2: the first communication node sends the inactivetime information of UE to high-rise network element.

Step 3: second communication node sends the inactivetime information request obtaining UE to high-rise network element;

Step 4: high-rise network element sends the inactivetime information of UE to second communication node.

Step 5: after second communication node obtains the inactivetime of UE, the upper inactivetime continuing accumulative UE in this basis, and in conjunction with inactivetime threshold value, determine whether to need to discharge the resource of the some or multiple designated bearing of UE.

Embodiment 18

In the present embodiment, to be triggered according to cycle or threshold value by UE and report inactivetime information.

Step 1; Base station issues inactivetime and reports threshold value;

Comprise: base station issues inactivetime threshold value by broadcast; Or:

Base station issues inactivetime threshold value by the proprietary message of RRC.

Step 2:UE adds up inactivetime, when inactivetime arrives threshold value, then reports indication information to base station.

Comprise: UE reports indication information to base station by random accessing message; Or:

UE reports indication information to base station by the uplink channel resources distributed.

Step 3: after base station receives indication information, the resource of release UE.

Embodiment 19

In the present embodiment, to be triggered according to cycle or threshold value by UE and report inactivetime information.

Step 1; Base station issues inactivetime and reports threshold value; Wherein, following processing mode can be adopted: base station issues inactivetime threshold value by broadcast; Or: base station issues inactivetime threshold value by the proprietary message of RRC.

Step 2; Base station issues distributes to the indication information resource that UE carries out reporting inactivetime time-out.

Step 3:UE adds up inactivetime, when inactivetime arrives threshold value, then reports indication information to base station.

Comprise: UE reports indication information to base station by the uplink channel resources distributed.

Step 4: after base station receives indication information, the resource of release UE.

Obviously, those skilled in the art should be understood that, above-mentioned of the present invention each module or each step can realize with general calculation element, they can concentrate on single calculation element, or be distributed on network that multiple calculation element forms, alternatively, they can realize with the executable program code of calculation element, thus, they can be stored and be performed by calculation element in the storage device, and in some cases, step shown or described by can performing with the order be different from herein, or they are made into each integrated circuit modules respectively, or the multiple module in them or step are made into single integrated circuit module to realize.Like this, the present invention is not restricted to any specific hardware and software combination.

The foregoing is only the preferred embodiments of the present invention, be not limited to the present invention, for a person skilled in the art, the present invention can have various modifications and variations.Within the spirit and principles in the present invention all, any amendment done, equivalent replacement, improvement etc., all should be included within protection scope of the present invention.

Claims (27)

1. a user equipment (UE) method for processing resource, is characterized in that, comprising:

Obtain the inactivation time of described UE;

Accumulative inactivation time is determined according to the described inactivation time obtained;

Judge whether described accumulative inactivation time reaches predetermined threshold;

When judged result is for being, discharge the resource of described UE.

2. method according to claim 1, is characterized in that, the described inactivation time obtaining described UE comprise following one of at least:

The described inactivation time of described UE is obtained by high-rise network element;

The described inactivation time of described UE is obtained by described UE;

The described inactivation time of described UE is obtained by adjacent communication node.

3. method according to claim 1, is characterized in that, described high-rise network element comprise following one of at least:

Mobility Management Entity MME; Grouped data network gateway P-GW; Gateway S-GW; Central control node.

4. method according to claim 1, is characterized in that, the described inactivation time of described UE comprise following one of at least:

Described UE is in the time not sending and receive any data of each carrying correspondence;

Described UE is in the time not sending and receive any data of one or more predetermined carrying correspondence;

Described UE does not send and receives the time of any data.

5. method according to claim 2, is characterized in that, the described inactivation time being obtained described UE by described high-rise network element is comprised:

The request of the described inactivation time obtaining described UE is sent to described high-rise network element;

Receive the request response of carrying described inactivation time that described high-rise network element sends.

6. method according to claim 2, is characterized in that, the described inactivation time obtaining described UE by described UE comprise following one of at least:

By the mode of asking described UE to report, obtain the described inactivation time of described UE;

By the mode that described UE reports, obtain the described inactivation time of described UE;

In the random accessing message sent, carried the mode of described inactivation time by described UE, obtain the described inactivation time of described UE.

7. method according to claim 6, is characterized in that, by the mode of asking described UE to report, the described inactivation time obtaining described UE comprise following one of at least:

The described inactivation time of described UE is reported by radio resource control RRC proprietary signaling instruction UE;

The described inactivation time of described UE is reported by media access control MAC control head instruction UE.

8. method according to claim 6, is characterized in that, the mode reported by described UE, the described inactivation time obtaining described UE comprise following one of at least:

By the mode of described UE periodic report, obtain the described inactivation time of described UE;

By when described inactivation time reaches predetermined threshold, trigger the mode that described UE reports, obtain the described inactivation time of described UE;

Reported the mode of indication information by described UE, obtain the described inactivation time of described UE, wherein, described indication information is used to indicate the described inactivation time that described UE adds up and reaches the predetermined threshold that base station issues.

9. method according to claim 2, is characterized in that, the described inactivation time being obtained described UE by described adjacent communication node is comprised:

By carrying the mode of described inactivation time in the contextual information that obtains from described adjacent communication node, obtain the described inactivation time of described UE;

By sending the mode of the request message for asking inactivation time to described adjacent communication node, obtain the described inactivation time of described UE.

10. method according to claim 1, is characterized in that, before the described inactivation time obtaining described UE, also comprises:

Issue inactivation time to described UE and report threshold value;

Issue inactivation time report cycle to described UE and be biased.

11. methods according to any one of claim 1 to 10, is characterized in that, are applied under described UE is in dual link, dominant base to prothetic group station change/add/flow process of deleting in; And/or, be applied to described UE and occur in the process of service flow transfer in networks with different systems.

12. 1 kinds of user equipment (UE) method for processing resource, is characterized in that, comprising:

Add up the inactivation time of described UE;

The described inactivation time of statistics is reported base station.

13. methods according to claim 12, is characterized in that, the described inactivation time of statistics is reported described base station comprise following one of at least:

By sending request the mode of response to described base station, the described inactivation time of statistics is reported described base station;

By carrying the mode of described inactivation time in the random accessing message sent to described base station, the described inactivation time of statistics is reported described base station.

14. methods according to any one of claim 12 or 13, is characterized in that, the described inactivation time of statistics is reported described base station comprise following one of at least:

By the mode of periodic report, the described inactivation time of statistics is reported described base station;

By when described inactivation time reaches predetermined threshold, trigger the mode that described UE reports, obtain the described inactivation time of described UE;

By reporting the mode of indication information, the described inactivation time of statistics is reported described base station, wherein, described indication information is used to indicate the described inactivation time that described UE adds up and reaches the predetermined threshold that base station issues.

15. 1 kinds of user equipment (UE) resource processing unit, is characterized in that, comprising:

Acquisition module, for obtaining the inactivation time of described UE;

Determination module, for determining accumulative inactivation time according to the described inactivation time obtained;

Judge module, for judging whether described accumulative inactivation time reaches predetermined threshold;

Release module, for when judged result is for being, discharges the resource of described UE.

16. devices according to claim 15, is characterized in that, described acquisition module comprise following one of at least:

First acquiring unit, for obtaining the described inactivation time of described UE by high-rise network element;

Second acquisition unit, for obtaining the described inactivation time of described UE by described UE;

3rd acquiring unit, for obtaining the described inactivation time of described UE by adjacent communication node.

17. devices according to claim 16, is characterized in that, described first acquiring unit comprises:

First sends subelement, for sending the request of the described inactivation time obtaining described UE to described high-rise network element;

First receives subelement, for receiving the request response of carrying described inactivation time that described high-rise network element sends.

18. devices according to claim 16, is characterized in that, described second acquisition unit comprise following one of at least:

First obtains subelement, for the mode reported by the described UE of request, obtains the described inactivation time of described UE;

Second obtains subelement, for the mode reported by described UE, obtains the described inactivation time of described UE;

3rd obtains subelement, for being carried the mode of described inactivation time in the random accessing message sent by described UE, obtains the described inactivation time of described UE.

19. devices according to claim 18, is characterized in that, described first obtains subelement, also for by asking the mode that reports of described UE, the described inactivation time obtaining described UE comprise following one of at least:

The described inactivation time of described UE is reported by radio resource control RRC proprietary signaling instruction UE;

The described inactivation time of described UE is reported by media access control MAC control head instruction UE.

20. devices according to claim 18, is characterized in that, described second obtains subelement, the mode also for being reported by described UE, the described inactivation time obtaining described UE comprise following one of at least:

By the mode of described UE periodic report, obtain the described inactivation time of described UE;

By when described inactivation time reaches predetermined threshold, trigger the mode that described UE reports, obtain the described inactivation time of described UE;

Reported the mode of indication information by described UE, obtain the described inactivation time of described UE, wherein, described indication information is used to indicate the described inactivation time that described UE adds up and reaches the predetermined threshold that base station issues.

21. devices according to claim 16, is characterized in that, described 3rd acquiring unit comprises:

4th obtains subelement, for carrying the mode of described inactivation time in the contextual information by obtaining from described adjacent communication node, obtains the described inactivation time of described UE;

5th obtains subelement, for the mode by sending the request message for asking inactivation time to described adjacent communication node, obtains the described inactivation time of described UE.

22. devices according to claim 15, is characterized in that, also comprise:

First issues module, reports threshold value for issuing inactivation time to described UE;

Second issues module, for issuing inactivation time report cycle to described UE and being biased.

23. 1 kinds of base stations, is characterized in that, comprise the device according to any one of claim 15 to 22.

24. 1 kinds of user equipment (UE) resource processing unit, is characterized in that,

Statistical module, for adding up the inactivation time of described UE;

Reporting module, for reporting base station by the described inactivation time of statistics.

25. devices according to claim 24, is characterized in that, described reporting module comprise following one of at least:

First reports unit, for the mode by sending request response to described base station, the described inactivation time of statistics is reported described base station;

Second reports unit, for the mode by carrying described inactivation time in the random accessing message sent to described base station, the described inactivation time of statistics is reported described base station.

26. devices according to any one of claim 24 or 25, is characterized in that, described reporting module comprise following one of at least:

3rd reports unit, for the mode by periodic report, the described inactivation time of statistics is reported described base station;

4th reports unit, triggers for being reached predetermined threshold by described inactivation time the mode reported, and the described inactivation time of statistics is reported described base station;

5th reports unit, for the mode by reporting indication information, the described inactivation time of statistics is reported described base station, and wherein, described indication information is used to indicate the described inactivation time that described UE adds up and reaches the predetermined threshold that base station issues.

27. 1 kinds of terminals, is characterized in that, comprise the device according to any one of claim 24 to 26.