CN101128040A - Wireless communication network and its service control method - Google Patents

Abstract

The utility model relates to a communication field, disclosing a control method for the wireless communication network and the business operation, enabling higher network capacity and full utilization of the wireless resource. The utility model is characterized in that one network side load can be corresponding to a plurality wireless side loads, the different operation of the different wireless side QoS requirement is transmitted through the different wireless side loads, so the wireless resource is not wasted because the wireless side QoS is over than the actual requirements; the operation with the same requirement of the network side QoS is transmitted through the same network side load, so the system capacity is not lost. The corresponding mapping relation is built on each loading node, enabling the network to better manage the operation with the same requirement of the network side QoS with the different wireless side QoS. When the default load is arranged, the related template of business data flow is deployed, so that the different business using default load is also to be transmitted by using the different wireless loads.

Description

Cordless communication network and service control method thereof

Technical field

The present invention relates to wireless communication field, particularly the professional transmission technology in the cordless communication network.

Background technology

3G is the abbreviation of English 3rd Generation, refers to the 3G (Third Generation) Moblie technology.The first generation is simulated standard type mobile communication technology (1G) and second generation global system for mobile communications (Global System formobile Communication relatively, abbreviation " GSM "), code division multiple access (Code Division MultipleAccess, be called for short " CDMA ") etc. digital mobile communication technology (2G), 3G is meant the third generation mobile communication system that multimedia communications such as radio communication and Internet are combined generally speaking.It can handle multiple media formats such as image, music, video flowing, and multiple information services such as comprising web page browsing, videoconference, ecommerce is provided.Yet, progressively development along with communication, people are more and more high for the requirement of mobile communication, existing third generation partner program (3rd Generation Partnership Project, abbreviation " 3GPP ") network architecture and agreement can't satisfy the high request of user for mobile communication, so 3GPP has proposed a kind of notion of serving the evolvement network of future communications demand.

In order to guarantee the competitiveness of 3GPP system in following 10 years down to the time more of a specified duration, particularly in order to strengthen the 3GPP system handles ability of the IP data service of growth fast, the group technology of using in the 3GPP system needs further to strengthen, therefore, most important several sections comprises in the evolvement network: reduce time delay, Gao Su user data rate more, the reduction of the whole cost of the power system capacity of enhancing and coverage and operator.And the network configuration of evolution also is an important index for the backwards compatibility of existing network.Comprise in the principle that the network architecture of evolution need satisfy:

(1) at the initial phase of connection of mobile terminal into network, basic IP connects and need set up in the network of evolution;

(2) network architecture of evolution must minimize the time delay of user data;

(3) definition of each functional module should be avoided the overlapping or repetition of function in the evolution network framework, to avoid unnecessary signaling interaction and time delay.

System Architecture Evolution (the System ArchitectureEvolution of 3GPP wireless core network evolution items of future generation, be called for short " SAE ") as shown in Figure 1, mainly comprise: mobile management entity (MobilityManagement Entity, abbreviation " MME "), user entity (User Plane Entity is called for short " UPE "), 3GPP Anchor (3GPP anchor point) and four logic function modules of SAE Anchor (SAE anchor point).MME wherein is the mobile management module, is responsible for the mobile management of chain of command, comprises the management of user's context and mobile status, distributing user temporary identity sign, safety function etc., and it is corresponding to the control plane part of current UMTS internal system SGSN; UPE is a user entity, be responsible for initiating paging for downlink data under the idle condition, IP bearing parameter and the interior routing iinformation of network etc. are preserved in management, it is for current universal mobile telecommunications system (Universal Mobile TelecommunicationsSystem, abbreviation " UMTS ") the datum plane part of inner GPRS serving GPRS support node (Serving GPRSSupport Node is called for short " SGSN "); 3GPP Anchor is the user's face anchor point between different access systems in the 3GPP system; SAE Anchor is the user's face anchor point between 3GPP connecting system and non-3 GPP system among the SAE.SAE Anchor and 3GPP Anchor are collectively referred to as " InterAS Anchor ".Non 3GPP IP Access (non-3GPP IP insert) refers to various IP-based and be not the connecting system of 3GPP tissue definition, can be micro-wave access to global intercommunication (Worldwide Interoperability for Microwave Access, abbreviation " WiMAX "), Asymmetric Digital Subscriber Line (Asymmetric Digital Subscriber Line is called for short " ADSL ") or the like.The function of each interface among the figure and whether exist is not still finally determined.MME, UPE among the figure, how four functional modules of 3GPP Anchor, SAE Anchor are combined in also is undetermined in the corresponding entity.

In the SAE network, for increasing support and the speed that continues that improves portable terminal, when the user is attached to network, will set up carrying and be connected with network to speech business, to realize " always online " function of user, this carries to connect just to be called and is default bearer.For default bearer, be not need to distinguish wherein different Business Streams, so default bearer does not have corresponding filter.

In 3GPP, PCC is a kind of unified control and charging policy framework, and the independent and concrete network of bottom of this framework is applicable to various IP-CAN (IP connects Access Network).As shown in Figure 2, in this framework, application function (Application Function, be called for short " AF ") to "Policy and Charging Rules Function entity (Policy and Charging Rule Function, be called for short " PCRF ") be provided for the filter information and service quality (the Quality of Service of policy control and charging, be called for short " QoS ") the required relevant parameter of control, PCRF uses these parameter control strategies and charge execution function (Policy and Charging Enforcement Function is called for short " PCEF ") to finish corresponding policy control, QoS control, functions such as charging.For different IP-CAN, PCEF is arranged in its corresponding gateway, for example, for GPRS (General Packet Radio Service, be called for short " GPRS "), PCEF is positioned in the gateway GPRS supporting node (GGSN) (GPRS GatewaySupport Node is called for short " GGSN "); For IWLAN (wireless industrial local area network (LAN)), PCEF is positioned in the packet data gateway (Packet Data Gateway is called for short " PDG ").

At present, Ye Wu QoS guarantees by set up corresponding carrying for it.For each was professional, network can be set up corresponding wireless side carrying and network side load for it, and corresponding qos parameter must be able to satisfy the particular requirement of corresponding service in these carryings.In this way, realized processing respectively, and guaranteed the demand of miscellaneous service for service quality for miscellaneous service.

In existing SAE standard, the corresponding relation of business and carrying as shown in Figure 3, all business can be divided into multiple discharge pattern according to its demand for network side QoS, and for every kind of discharge pattern, network can be set up a network side load and a wireless side carrying for it.In the SAE system, if on the ENodeB (evolution base station) is exactly PCEF, network side load is access bearer (the Access Bearer between ENodeB and the PCEF, be called for short " AB "), the wireless side carrying is the radio bearer (Radio Bearer is called for short " RB ") between portable terminal and the ENodeB.In PCEF, can keep the mapping relations of downlink business data template (i.e. downlink data IP filter among the figure) and corresponding AB, transmit thereby the downlink data of specific transactions can be put among the AB under it.In ENodeB, can keep man-to-man mapping relations between AB and the RB.In UE, can keep uplink business data template (i.e. upstream data bag filter for molten among the figure) and mapping relations between the RB accordingly, transmit thereby the upstream data of specific transactions can be put among the RB under it.

In actual applications, there is following problem: can't solve the contradiction between the utilization of network capacity and Radio Resource.

Cause the main cause of this situation to be, for existing scheme, if there are a plurality of business to belong to a kind of discharge pattern, promptly they have identical network side QoS demand, and they can transmit in same network side load so.Because network side load and wireless side carrying are man-to-man relations, therefore, even these business have different wireless side QoS demands, the transmission in same wireless side carrying of also having to.For convenience, the present invention is called QoS with the QoS of network side, and the QoS of wireless side is called QoS '.For example, for Internet (internet) class business, because they all belong to Best Effort (doing one's best) class business, so all can on same network side load, transmit.But it is professional for wherein each kind, such as file transfer protocol (FTP) (File Transfer Protocol, be called for short " FTP ") and email (Email), they are different for the demand of QoS ', the dispatching priority of ftp business will be higher than the dispatching priority of email.If the Internet class business that these are all transmission in the carrying of same wireless side, the qos requirement of this wireless side carrying just must be the highest QoS ' in the miscellaneous service in this carrying so, thereby the wireless side resource has been caused waste.

If for these set up different wireless side carryings separately to the different business of wireless side resource requirement, because network holds side and carries the one-one relationship that carries with wireless side, make and also will set up a plurality of network side load for these business, even its demand for network side QoS is the same, also have to set up a plurality of network side load, therefore, increased the employed network side load quantity of each portable terminal in the network, thereby make each portable terminal need take more resources, can cause the decline of overall system capacity.

This shows, in the prior art, can't solve the contradiction between the utilization of network capacity and Radio Resource.

Summary of the invention

In view of this, main purpose of the present invention is to provide a kind of 3GPP network and service control method thereof, and making to have higher network capacity to guarantee that again Radio Resource is fully utilized.

For achieving the above object, the invention provides a kind of cordless communication network, comprise at least two carrying ends in the network side, and portable terminal, has a network side load between each carrying end at least, at least one wireless side carrying is arranged, corresponding at least one wireless side carrying of each network side load between the carrying end of close wireless side and portable terminal;

Described carrying end near wireless side is used for that the carrying of consolidated network side is had the business of different radio side QoS requirement by corresponding different radio side carrying transmission.

Wherein, the business with identical network side QoS requirement is transmitted by same network side load;

Business with different radio side QoS requirement is by different wireless side carrying transmission.

In addition, also be used for for this professional packet mark being set according to the wireless side QoS requirement of business away from the carrying end of wireless side,

Carrying end near wireless side is distinguished different wireless side QoS requirements by this mark.

In addition, described carrying end near wireless side also is used for removing the described mark in this business data packet before by wireless side carrying service data transmission.

The present invention also provides service control method in a kind of cordless communication network, corresponding at least one the wireless side carrying of each network side load, and comprise following steps:

Professional when being transferred to carrying end near wireless side by network side load, this carrying end will have the business of different radio side QoS requirement by corresponding different radio side carrying transmission in the carrying of consolidated network side.

Wherein, in the packet of business, distinguish different radio side QoS requirement with the different value of mark.

In this external described method, also comprise following steps:

The mapping relations between described mark, network side load, the wireless side carrying are set up and preserved to the carrying end of close wireless side;

Set up and preserve mapping relations between described mark, network side load, the service data template away from the carrying end of wireless side;

The mapping relations between business datum flow template and the wireless side carrying are set up and preserved to portable terminal.

In this external described method, if the public data network IP address number that described portable terminal need use greater than 1, the mapping relations between then the combination of setting up and preserving uplink business data flow template and IP address of this portable terminal is carried with described wireless side.

In this external described method, described carrying end away from wireless side is strategy and charge execution function;

When setting up carrying, if the corresponding a plurality of wireless side carryings of network side load, then strategy sends message with charging rule functions to strategy and charge execution function, wherein comprises a network side load sign and a plurality of described mark;

When setting up carrying, if corresponding wireless side carrying of network side load, then strategy sends message with charging rule functions to strategy and charge execution function, wherein only comprises a network side load sign, or a network side load sign and a described mark.

In this external described method, described carrying end away from wireless side is when detecting the downlink service data bag, downlink service data flow template and local described mapping relations of preserving according to this packet find the corresponding network side carrying, professional corresponding mark is carried in this packet, and the network side load that this packet passes through to be found is transferred to described carrying end near wireless side;

The carrying end of described close wireless side is according to the network side load under the mark that carries in the described packet and this packet, the described mapping relations of preserving by this locality find corresponding wireless side carrying, and the wireless side carrying that this packet is passed through to be found is transferred to the corresponding mobile terminal.

In this external described method, the packet that has described mark is in the network side transmission course, and described mark keeps non-compressed state.

In this external described method, the carrying end of described close wireless side was removed the described mark in this packet before transmitting described packet by the wireless side carrying.

In this external described method, if described packet is the middle carrying end of process the process of the carrying end that is transferred to described close wireless side from described carrying end away from wireless side, then this carrying node should be arrived this data packet transmission the carrying end of this close wireless side away from the mapping relations between the carrying to the carrying of this carrying node and this carrying node to carrying end that should close wireless side of the carrying end of wireless side according to what preserve.

In this external described method, when described portable terminal need send the uplink business data bag, the described mapping relations of preserving according to uplink business data flow template and this portable terminal of this packet find corresponding wireless side carrying, the wireless side carrying that this packet is passed through to be found is transferred to described carrying end near wireless side, should carry according to the wireless side under this packet near the carrying end of wireless side, find the corresponding network side carrying by this near the described mapping relations in the carrying end of wireless side, the network side load that this packet is passed through to be found is transferred to described carrying end away from wireless side.

In this external described method, if described packet the process that is transferred to described carrying end away from wireless side from described carrying end near wireless side through middle carrying node, then this carrying node arrived this carrying end away from wireless side according to should extremely being somebody's turn to do away from the mapping relations between the carrying of the carrying end of wireless side near the carrying end of wireless side to the carrying of this carrying node and this carrying node of being preserved with this data packet transmission.

In this external described method, when one of following situation or its combination in any take place, in the relevant bearer end points, revise corresponding mapping relations, and described network side load and the carrying of described wireless side increased accordingly, delete or retouching operation:

In existing network side load, increase the value of a described mark;

The value of a described mark of deletion in existing network side load;

Change the pairing described network-side service quality of existing network side load; And,

Change the corresponding relation of existing business datum flow template and described mark.

In this external described method, the corresponding relation of existing business datum flow template of described change and described mark, comprise the pairing described mark value of this business datum flow template is changed to the pairing described mark value of another existing business datum flow template, and the pairing described mark value of business datum flow template is changed to value two kind situations all different with the pairing described mark value of all existing business datum flow templates.

In this external described method, if need existing described network side load of deletion and the carrying of described wireless side, then corresponding mapping relations of deletion in the relevant bearer end points, and deletion corresponding network side carrying and wireless side carrying.

In this external described method, if described carrying end away from wireless side is received the default bearer request of setting up that described portable terminal is initiated, then should set up corresponding network side carrying and wireless side carrying for this portable terminal away from the carrying end of wireless side, and the relevant business datum flow template of configuration.

In this external described method, the value of described mark is corresponding with the business datum flow template.

By relatively finding, the main distinction of technical scheme of the present invention and prior art is, the corresponding one or more wireless side carryings of network side load make that the different business of wireless side Qos demand needn't transmission in same wireless side carrying in the carrying of consolidated network side.

Transmit by same network side load because will have the business of identical network side Qos demand, so power system capacity can not incur loss; Again because will have the business of different wireless side Qos demands transmits by different wireless side carryings, so can not waste Radio Resource because QoS surpasses actual needs.Thereby efficiently solve the contradiction between the utilization of resources and the power system capacity, feasible each business by same network side load need not to use the wireless side carrying that wireless side Qos demand is the highest in the business of the same type, also need not to set up the corresponding network side carrying respectively, guaranteeing to make when Radio Resource is fully utilized that network has the higher system capacity for business with different wireless side Qos demands.

On each carrying node, set up corresponding mapping relations, make network can be better to having identical network side QoS demand but have the business of different radio side QoS demand to manage, thereby guarantee that the upstream data that the downlink data that issued by network and portable terminal are uploaded can correctly transmit.

If receive the default bearer request of setting up that portable terminal is initiated away from the carrying end of wireless side, then should set up corresponding network side carrying, wireless side carrying for this portable terminal away from the carrying end of wireless side, and the relevant business datum flow template of configuration, thereby make the miscellaneous service (as the Internet business) that uses default bearer, also can use different radio bearers to transmit, further guarantee to avoid waste of radio resources when network has higher power system capacity.

Description of drawings

Fig. 1 is the network architecture schematic diagram according to SAE in the prior art;

Fig. 2 is according to the control of 3GPP in the prior art and charging policy configuration diagram;

Fig. 3 is according to the schematic diagram that concerns between the carrying of SAE network in the prior art and the business;

Fig. 4 is according to the schematic diagram that concerns between the carrying of SAE network in the principle of the invention and the business;

Fig. 5 sets up flow chart according to the carrying of service control method among the 3GPP of first embodiment of the invention;

Fig. 6 is the transmitting downlink data flow chart according to service control method among the 3GPP of first embodiment of the invention;

Fig. 7 is the transmit ascending data flow chart according to service control method among the 3GPP of first embodiment of the invention;

Fig. 8 sets up flow chart according to the carrying of service control method among the 3GPP of second embodiment of the invention;

Fig. 9 is the transmitting downlink data flow chart according to service control method among the 3GPP of second embodiment of the invention;

Figure 10 is the transmit ascending data flow chart according to service control method among the 3GPP of second embodiment of the invention;

Figure 11 sets up flow chart according to the carrying of service control method among the 3GPP of third embodiment of the invention;

Figure 12 sets up flow chart according to the carrying of service control method among the 3GPP of four embodiment of the invention;

Figure 13 sets up flow chart according to the carrying of service control method among the 3GPP of fifth embodiment of the invention;

Figure 14 sets up flow chart according to the carrying of service control method among the 3GPP of sixth embodiment of the invention;

Figure 15 is the flow chart that increases a SI in existing Label according to service control method among the 3GPP of seventh embodiment of the invention;

Figure 16 is the flow chart of deleting a SI in existing Label according to service control method among the 3GPP of eighth embodiment of the invention;

Figure 17 is the QoS according to the existing Label of change of service control method among the 3GPP of ninth embodiment of the invention;

Figure 18 is the SI according to an existing business data flow of change of service control method among the 3GPP of tenth embodiment of the invention, makes its flow chart identical with the SI of another existing business data flow;

Figure 19 is the SI according to an existing business data flow of change of service control method among the 3GPP of eleventh embodiment of the invention, makes the SI flow chart all inequality of itself and existing business data flow;

Figure 20 is the deleting bearing flow chart according to service control method among the 3GPP of twelveth embodiment of the invention;

Figure 21 is the flow chart that increases a SI in existing Label according to service control method among the 3GPP of thirteenth embodiment of the invention;

Figure 22 is the flow chart of deleting a SI in existing Label according to service control method among the 3GPP of fourteenth embodiment of the invention;

Figure 23 is the QoS according to the existing Label of change of service control method among the 3GPP of fifteenth embodiment of the invention;

Figure 24 is the SI according to an existing business data flow of change of service control method among the 3GPP of sixteenth embodiment of the invention, makes its flow chart identical with the SI of another existing business data flow;

Figure 25 is the SI according to an existing business data flow of change of service control method among the 3GPP of seventeenth embodiment of the invention, makes the SI flow chart all inequality of itself and existing business data flow;

Figure 26 is the deleting bearing flow chart according to service control method among the 3GPP of eighteenth embodiment of the invention;

Figure 27 is the flow chart that increases a SI in existing Label according to service control method among the 3GPP of nineteenth embodiment of the invention;

Figure 28 is the flow chart of deleting a SI in existing Label according to service control method among the 3GPP of twentieth embodiment of the invention;

Figure 29 is the QoS according to the existing Label of change of service control method among the 3GPP of 21st embodiment of the invention;

Figure 30 is the SI according to an existing business data flow of change of service control method among the 3GPP of 22nd embodiment of the invention, makes its flow chart identical with the SI of another existing business data flow;

Figure 31 is the SI according to an existing business data flow of change of service control method among the 3GPP of 23th embodiment of the invention, makes the SI flow chart all inequality of itself and existing business data flow;

Figure 32 is the deleting bearing flow chart according to service control method among the 3GPP of 24th embodiment of the invention.

Embodiment

For making the purpose, technical solutions and advantages of the present invention clearer, the present invention is described in further detail below in conjunction with accompanying drawing.For convenience, the present invention is called QoS with the QoS of network side, and the QoS of wireless side is called QoS '.

Core of the present invention is, a network side load is mapped as a plurality of wireless side carryings, that is to say that the business that will have identical network side QoS demand is placed in the network side load to be transmitted, and will wherein have different QoS ' business of demand is placed on transmission in the different wireless side carryings.As shown in Figure 4, be business, promptly have the same network side load of traffic assignments of identical network side QoS demand, distinguish by the different value of Label sign with a kind of discharge pattern; Be the different QoS that has in a kind of discharge pattern ' wireless side carrying that the traffic assignments of demand is different, the pairing different wireless side carrying of same network side load is by service identifier (Service Identifier, abbreviation " SI ") different value is distinguished, SI is called mark in the present invention again, that is to say to have a different QoS in this network side load ' respectively corresponding SI of business of demand.It is two-layer to make that bearer management is divided into, and one deck is the management of network side load, and different network side load is distinguished with different Label; Another layer is the management of wireless side carrying, has the different wireless side carrying of identical network side carrying, distinguishes with different SI.Certainly, monopolize a kind of situation of discharge pattern, also be to use the method for original network carrying, use Label that it is discerned in this case, and do not need to use SI corresponding to a wireless side carrying for a kind of business.

On each network node, set up corresponding mapping relations, such as, in the SAE system, in PCEF, preserve the mapping relations between downlink service data flow template and the network side load; In ENodeB, for downlink data, can preserve wireless side carrying and network side load and add mapping relations between the SI, for upstream data, can preserve that wireless side is carried and network side load between mapping relations; In portable terminal, can preserve the mapping relations between uplink business data flow template and the wireless side carrying, if portable terminal need use a plurality of public data networks (Public Data Network, be called for short " PDN "), then in this portable terminal, preserve the uplink business data flow template and add the mapping between carrying of IP address and wireless side.

Above-mentioned mapping relations are as shown in table 1, for network side load, if UPE separates with PCEF, then include AB and SAE carrying (SAE Bearer in the network side load, abbreviation " SB ") two kinds of carryings, at this moment having man-to-man mapping relations between AB and the SB on the UPE, is mapping relations between downlink service data flow template and the SB and PCEF go up to preserve; If UPE and PCEF unification have only AB network side load so.

Portable terminal	EnodeB	UPE-PCEF separates	The UPE-PCEF unification
				Up: uplink business data flow template (+IP address)--〉RB ID	Up: RB ID--〉AB ID is descending: AB ID+SI--〉RB ID	UPE:AB ID＜--〉SB ID PCEF:SB＜--the downlink service data flow template	Descending: AB ID＜--the downlink service data flow template

Table 1

By the corresponding mapping relations of setting up on each network node, guarantee correctly to transmit from the downlink data of network side and upstream data from portable terminal.

More than core of the present invention is illustrated, according to this principle the embodiments of the present invention are described in detail below.

The carrying of service control method is set up flow process as shown in Figure 5 among the first execution mode 3GPP of the present invention.In the present embodiment, PCEF and UPE are in same entity.

Because setting up flow process based on the carrying of the principle of the invention can be divided into two kinds of situations: a kind of is the newly-built carrying of needs when need finding the SI sign, and for example, for special-purpose (dedicated) loaded service of a plurality of uses, they use identical Label; Another kind is to revise the corresponding relevant parameter of existing carrying when need finding the SI sign, and for example, for Internet class business, what they used can be that default bearer also can be a dedicated bearer.Carrying shown in Figure 5 is set up flow process under the situation of PCEF and UPE unification, the flow process of the newly-built carrying of needs when finding to need the SI sign.

In step 501, after PCEF receives the default bearer request of setting up that portable terminal is initiated or detects some packet, to PCRF request PCC rule.Specifically, when when setting up carrying, PCRF needs the relevant information of SI, Label and corresponding service data flow is issued to PCEF, therefore, when PCEF receive be registered to the default bearer request of initiating in the network of setting up owing to portable terminal or detect some packet after, to PCRF request PCC rule.

Then, enter step 502, PCRF sends download PCC rule message to the entity at UPE and PCEF place, wherein with Label, and SI, the business datum flow template, information such as QoS are handed down to the entity at UPE and PCEF place.

Then, enter step 503, the entity at UPE and PCEF place distributes AB ID (AB identification number) for each Label, and set up mapping relations between SI, downlink service data flow template, QoS, the AB ID, feasible professional corresponding a kind of downlink service data flow template with identical network side QoS demand, each downlink service data flow template is corresponding to an AB ID, has identical network side QoS demand but has different QoS ' the corresponding different respectively SI of business of demand.

Then, enter step 504, the entity at UPE and PCEF place sends to MME and sets up the AB request message, wherein information such as SI, business datum flow template, QoS, AB ID is handed down to MME.

Then, enter step 505, MME sends to ENodeB and sets up the AB request message, wherein information such as SI, business datum flow template, QoS, AB ID is handed down to ENodeB.

Then, enter step 506, ENodeB is that each business datum flow template distributes RB ID, and set up mapping relations between SI, QoS ', AB ID, the RB ID, making and to belong to same AB ID but have different QoS ' business of demand has different RB ID, each RB ID is corresponding to a SI, the unique corresponding AB ID of each RB ID.

Then, enter step 507, ENodeB sets up corresponding radio bearer for each RB ID, simultaneously SI, QoS ', business datum flow template, RB ID is sent to portable terminal.Need to prove that if RBID is overall, portable terminal gets final product for the simple affirmation of SI, QoS ', business datum flow template, RB ID that ENodeB sent so, otherwise, this portable terminal need feed back the RB ID of its distribution, and same, the distribution condition of AB ID also is like this.

Then, enter step 508, portable terminal is set up the mapping relations between uplink business data flow template, the RB ID in this locality, makes the unique corresponding RB ID of each uplink business data flow template.

Then, enter step 509, ENodeB sends to MME and sets up the AB acknowledge message, may feed back AB ID simultaneously.That is to say that if AB ID is not overall, then EnodeB needs feedback AB ID when the AB acknowledge message is set up in the MME transmission.

Then, enter step 510, MME sets up the AB acknowledge message to the entity transmission at UPE and PCEF place, may feed back AB ID simultaneously.That is to say that if AB ID is not overall, then MME needs feedback AB ID when the AB acknowledge message is set up in the entity transmission at UPE and PCEF place.

Then, enter step 511, the entity at UPE and PCEF place sends to PCRF and downloads regular acknowledge message.

The flow process of transmitting downlink data as shown in Figure 6 in the present embodiment.

In step 601, the entity at UPE and PCEF place is received downlink data packet.

Then, enter step 602, the entity at UPE and PCEF place according to the packet of receiving adaptive downlink service data flow template search mapping table, find corresponding SI and AB ID, SI with correspondence adds in the packet packet header then, sends it among the corresponding AB again.

Then, enter step 603, the packet that the entity at UPE and PCEF place will contain the SI sign sends among the ENodeB.

EnodeB need to prove that in the transmits data packets, the SI that adds in the packet packet header is not compressed in network, so that can discern this SI.

Then, enter step 604, ENodeB searches mapping table according to AB ID under the packet of receiving and the SI in the packet packet header, finds corresponding RB ID, sends it among the corresponding RB after then the SI in the packet packet header being removed.

Then, enter step 605, ENodeB sends to portable terminal with this packet by corresponding RB.

Then, enter step 606, portable terminal is handled the packet that receives.

The flow process of transmit ascending data as shown in Figure 7 in the present embodiment.

In step 701, portable terminal receives that local upper-layer protocol sends the packet that gets off, and searches the mapping form according to the uplink business data flow template that packet is adaptive, finds corresponding RB ID, then packet is sent among the corresponding RB.

Then, enter step 702, portable terminal sends to EnodeB with packet.

Then, enter step 703, ENodeB searches mapping table according to the RB ID under the packet of receiving, finds corresponding AB ID, then data is sent among the corresponding AB.

Then, enter step 704, ENodeB sends to packet in the entity at UPE and PCEF place.

Then, enter step 705, the entity at UPE and PCEF place is searched the mapping form according to the AB ID under the packet of receiving, finds corresponding service data flow template that the upstream data bag is handled accordingly.

Then, enter step 706, the packet after the entity at UPE and PCEF place will be handled sends in other networks.

The carrying of service control method is set up flow process as shown in Figure 8 among the second execution mode 3GPP of the present invention.In the present embodiment, PCEF separates with UPE and session management (Session Management, be called for short " SM ") in MME.Carrying shown in Figure 8 set up flow process for separate with UPE at PCEF and the situation of SM at MME under, the flow process of the newly-built carrying of needs when finding to need the SI sign.

In step 801, after PCEF receives the default bearer request of setting up that portable terminal is initiated or detects some packet, to PCRF request PCC rule, with step 501.

Then, enter step 802, PCRF sends to PCEF and downloads PCC rule message, wherein with Label, and SI, the business datum flow template, information such as QoS are handed down to PCEF.

Then, enter step 803, PCEF distributes SB ID (SB identification number) for each Label, and set up mapping relations between SI, downlink service data flow template, QoS, the SB ID, feasible professional corresponding a kind of downlink service data flow template with identical network side QoS demand, each downlink service data flow template is corresponding to a SB ID, has identical network side QoS demand but has different QoS ' the corresponding different respectively SI of business of demand.

Then, enter step 804, PCEF sends to UPE and sets up the SB request, wherein information such as SI, business datum flow template, QoS, SB ID is handed down to UPE.

Then, enter step 805, UPE is that each SB ID distributes AB ID, and sets up the mapping relations between AB ID, the SB ID, makes the unique corresponding AB ID of each SB ID.

Then, enter step 806, UPE sends to MME and sets up the AB request message, wherein information such as SI, business datum flow template, QoS, AB ID is handed down to MME.

Then, enter step 807, MME sends to ENodeB and sets up the AB request message, wherein information such as SI, business datum flow template, QoS, AB ID is handed down to ENodeB.

Then, enter step 808, ENodeB is that each business datum flow template distributes RB ID, and set up mapping relations between SI, QoS ', AB ID, the RB ID, making and to belong to same AB ID but have different QoS ' business of demand has different RB ID, each RB ID is corresponding to a SI, the unique corresponding AB ID of each RB ID.

Then, enter step 809, ENodeB sets up corresponding radio bearer for each RB ID, simultaneously SI, QoS ', business datum flow template, RB ID is sent to portable terminal.Need to prove that if RBID is overall, portable terminal gets final product for the simple affirmation of SI, QoS ', business datum flow template, RB ID that ENodeB sent so, otherwise, this portable terminal need feed back the RB ID of its distribution, and same, the distribution condition of AB ID and SB ID also is like this.

Then, enter step 810, portable terminal is set up the mapping relations between uplink business data flow template, the RB ID in this locality, makes the unique corresponding RB ID of each uplink business data flow template.

Then, enter step 811, ENodeB sends to MME and sets up the AB acknowledge message, may feed back AB ID simultaneously.That is to say that if AB ID is not overall, then ENodeB needs feedback AB ID when the AB acknowledge message is set up in the MME transmission.

Then, enter step 812, MME sends to UPE and sets up the AB acknowledge message, may feed back AB ID simultaneously.That is to say that if AB ID is not overall, then MME needs feedback AB ID when the AB acknowledge message is set up in the UPE transmission.

Then, enter step 813, UPE sends to PCEF and sets up the SB acknowledge message, may feed back SB ID simultaneously.That is to say that if SB ID is not overall, then UPE needs feedback SB ID when the SB acknowledge message is set up in the PCEF transmission.

Then, enter step 814, PCEF sends to PCRF and downloads regular acknowledge message.

The flow process of transmitting downlink data as shown in Figure 9 in the present embodiment.

In step 901, PCEF receives downlink data packet.

Then, enter step 902, PCEF according to the packet received adaptive downlink service data flow template search mapping table, find corresponding SI and SB ID, the SI with correspondence adds in the packet packet header then, sends it among the corresponding SB again.

Then, enter step 903, the packet that PCEF will contain the SI sign sends to UPE.

Then, enter step 904, UPE searches mapping table according to the SB ID under the data of receiving, finds corresponding AB ID, packet is sent among the corresponding AB again.

Then, enter step 905, the packet that UPE will contain the SI sign sends to ENodeB.

EnodeB need to prove that in the transmits data packets, the SI that adds in the packet packet header is not compressed in network, so that can discern this SI.

Then, enter step 906, ENodeB searches mapping table according to AB ID under the packet of receiving and the SI in the packet packet header, finds corresponding RB ID, sends it among the corresponding RB after then the SI in the packet packet header being removed.

Then, enter step 907, ENodeB sends to portable terminal with this packet by corresponding RB.

Then, enter step 908, portable terminal is handled the packet that receives.

The flow process of transmit ascending data as shown in figure 10 in the present embodiment.

In step 1001, portable terminal receives that local upper-layer protocol sends the packet that gets off, and searches the mapping form according to the uplink business data flow template that packet is adaptive, finds corresponding RB ID, then packet is sent among the corresponding RB.

Then, enter step 1002, portable terminal sends to ENodeB with packet.

Then, enter step 1003, ENodeB searches mapping table according to the RB ID under the packet of receiving, finds corresponding AB ID, then data is sent among the corresponding AB.

Then, enter step 1004, ENodeB sends to UPE with packet.

Then, enter step 1005, UPE searches mapping table according to the AB ID under the packet of receiving, finds corresponding SB ID, packet is sent among the corresponding SB again.

Then, enter step 1006, UPE sends to PCEF with packet.

Then, enter step 1007, PCEF searches the mapping form according to the SB ID under the packet of receiving, finds corresponding service data flow template that the upstream data bag is handled accordingly.

Then, enter step 1008, the packet after PCEF will handle sends in other networks.

The carrying of service control method is set up flow process as shown in figure 11 among the 3rd execution mode 3GPP of the present invention.In the present embodiment, PCEF separate with UPE and SM in UPE.Carrying shown in Figure 11 set up flow process for separate with UPE at PCEF and the situation of SM at UPE under, the flow process of the newly-built carrying of needs when finding to need the SI sign.

In step 1101, after PCEF receives the default bearer request of setting up that portable terminal is initiated or detects some packet, to PCRF request PCC rule, with step 501.

Then, enter step 1102, PCRF sends to PCEF and downloads PCC rule message, wherein with Label, and SI, the business datum flow template, information such as QoS are handed down to PCEF.

Then, enter step 1103, PCEF distributes SB ID for each Label, and set up mapping relations between SI, business datum flow template, QoS, the SB ID, feasible professional corresponding a kind of downlink service data flow template with identical network side QoS demand, each downlink service data flow template is corresponding to a SB ID, has identical network side QoS demand but has different QoS ' the corresponding different respectively SI of business of demand.

Then, enter step 1104, PCEF sends to UPE and sets up the SB request, wherein information such as SI, business datum flow template, QoS, SB ID is handed down to UPE.

Then, enter step 1105, UPE is that each SB ID distributes AB ID, and sets up the mapping relations between AB ID, the SBID, makes the unique corresponding AB ID of each SB ID.

Then, enter step 1106, UPE sends to ENodeB and sets up the AB request message, wherein information such as SI, business datum flow template, QoS, AB ID is handed down to ENodeB.

Then, enter step 1107, ENodeB is that each business datum flow template distributes RB ID, and set up mapping relations between SI, QoS ', AB ID, the RB ID, making and to belong to same AB ID but have different QoS ' business of demand has different RB ID, each RB ID is corresponding to a SI, the unique corresponding AB ID of each RB ID.

Then, enter step 1108, ENodeB sets up corresponding radio bearer for each RB, simultaneously SI, QoS ', business datum flow template, RB ID is sent to portable terminal.Need to prove that if RBID is overall, portable terminal gets final product for the simple affirmation of SI, QoS ', business datum flow template, RB ID that ENodeB sent so, otherwise, this portable terminal need feed back the RB ID of its distribution, and same, the distribution condition of AB ID and SB ID also is like this.

Then, enter step 1109, portable terminal is set up the mapping relations between business datum flow template, the RB ID in this locality, makes the unique corresponding RB ID of each uplink business data flow template.

Then, enter step 1110, ENodeB sends to UPE and sets up the AB acknowledge message, may feed back AB ID simultaneously.That is to say that if AB ID is not overall, then ENodeB needs feedback AB ID when the AB acknowledge message is set up in the UPE transmission.

Then, enter step 1111, UPE sends to PCEF and sets up the SB acknowledge message, may feed back SB ID simultaneously.That is to say that if AB ID is not overall, then UPE needs feedback SB ID when the AB acknowledge message is set up in the PCEF transmission.

Then, enter step 1112, PCEF sends to PCRF and downloads regular acknowledge message.

In the present embodiment in the flow process of transmitting downlink data and second execution mode flow process of transmitting downlink data identical, do not repeat them here.

In the present embodiment in the flow process of transmit ascending data and second execution mode flow process of transmit ascending data identical, do not repeat them here.

The service control method and first execution mode are roughly the same among the 4th execution mode 3GPP of the present invention, its difference only is, carrying is in the first embodiment set up flow process under the situation of PCEF and UPE unification, the flow process of the newly-built carrying of needs when discovery needs the SI sign, and in the present embodiment, carrying is set up flow process under the situation of PCEF and UPE unification, revises the flow process of carrying when finding to need the SI sign.

Specifically as shown in figure 12, in step 1201, after PCEF receives the default bearer request of setting up that portable terminal is initiated or detects some packet, to PCRF request PCC rule.

Then, enter step 1202, PCRF sends modification PCC rule message to the entity at UPE and PCEF place, wherein with Label, and SI, the business datum flow template, information such as QoS are handed down to the entity at UPE and PCEF place.

Then, enter step 1203, the entity at UPE and PCEF place is the AB ID of its distribution before searching according to Label, and set up mapping relations between SI, business datum flow template, QoS, the AB ID, feasible professional corresponding a kind of downlink service data flow template with identical network side QoS demand, each downlink service data flow template is corresponding to an AB ID, has identical network side QoS demand but has different QoS ' the corresponding different respectively SI of business of demand.

Then, enter step 1204, the entity at UPE and PCEF place sends to MME and revises the AB request message, wherein information such as SI, business datum flow template, QoS, AB ID is handed down to MME.

Then, enter step 1205, MME sends to ENodeB and revises the AB request message, wherein information such as SI, business datum flow template, QoS, AB ID is handed down to ENodeB.

Then, enter step 1206, ENodeB is that each business datum flow template distributes RB ID, and set up mapping relations between SI, QoS ', AB ID, the RB ID, making and to belong to same AB ID but have different QoS ' business of demand has different RB ID, and each RB ID is corresponding to a SI, the unique corresponding AB ID of each RB ID.

Then, enter step 1207, ENodeB sets up corresponding radio bearer for each RB, simultaneously SI, QoS ', business datum flow template, RB ID is sent to portable terminal.Need to prove that if RBID is overall, portable terminal gets final product for the simple affirmation of SI, QoS ', business datum flow template, RB ID that ENodeB sent so, otherwise, this portable terminal need feed back the RB ID of its distribution, and same, the distribution condition of AB ID also is like this.

Then, enter step 1208, portable terminal is set up the mapping relations between business datum flow template, the RB ID in this locality, makes the unique corresponding RB ID of each uplink business data flow template.

Then, enter step 1209, ENodeB sends to MME and revises the AB acknowledge message, may feed back AB ID simultaneously.That is to say that if AB ID is not overall, then EnodeB needs feedback AB ID when sending modification AB acknowledge message to MME.

Then, enter step 1210, MME sends modification AB acknowledge message to the entity at UPE and PCEF place, may feed back AB ID simultaneously.That is to say that if AB ID is not overall, then MME needs feedback AB ID when the entity to UPE and PCEF place sends modification AB acknowledge message.

Then, enter step 1211, the entity at UPE and PCEF place sends to PCRF and revises regular acknowledge message.

The service control method and second execution mode are roughly the same among the 5th execution mode 3GPP of the present invention, its difference only is, carrying in second execution mode set up flow process for PCEF separate with UPE and the situation of SM at MME under, the flow process of the newly-built carrying of needs when discovery needs the SI sign, and in the present embodiment, carrying set up flow process for separate with UPE at PCEF and the situation of SM at MME under, need revise the flow process of carrying when finding to need the SI sign.

Specifically as shown in figure 13, in step 1301, after PCEF receives the default bearer request of setting up that portable terminal is initiated or detects some packet, to PCRF request PCC rule.

Then, enter step 1302, PCRF sends to PCEF and revises PCC rule message, wherein with Label, and SI, the business datum flow template, information such as QoS are handed down to PCEF.

Then, enter step 1303, PCEF is the SB ID of its distribution before searching according to Label, and set up mapping relations between SI, business datum flow template, QoS, the SB ID, feasible professional corresponding a kind of downlink service data flow template with identical network side QoS demand, each downlink service data flow template is corresponding to a SB ID, has identical network side QoS demand but has different QoS ' the corresponding different respectively SI of business of demand.

Then, enter step 1304, PCEF sends to UPE and revises the SB request, wherein information such as SI, business datum flow template, QoS, SB ID is handed down to UPE.

Then, enter step 1305, UPE is the AB ID of its distribution before searching according to SB ID.

Then, enter step 1306, UPE sends to MME and revises the AB request message, wherein information such as SI, business datum flow template, QoS, AB ID is handed down to MME.

Then, enter step 1307, MME sends to ENodeB and revises the AB request message, wherein information such as SI, business datum flow template, QoS, AB ID is handed down to ENodeB.

Then, enter step 1308, ENodeB is that each business datum flow template distributes RB ID, and set up mapping relations between SI, QoS ', AB ID, the RB ID, making and to belong to same AB ID but have different QoS ' business of demand has different RB ID, each RB ID is corresponding to a SI, the unique corresponding AB ID of each RB ID.

Then, enter step 1309, ENodeB sets up corresponding radio bearer for each RB ID, simultaneously SI, QoS ', business datum flow template, RB ID is sent to portable terminal.Need to prove, if RB ID is overall, portable terminal gets final product for the simple affirmation of SI, QoS ', business datum flow template, RB ID that ENodeB sent so, otherwise, this portable terminal need feed back the RB ID of its distribution, equally, the distribution condition of AB ID and SB ID also is like this.

Then, enter step 1310, portable terminal is set up the mapping relations between uplink business data flow template, the RB ID in this locality, makes the unique corresponding RB ID of each uplink business data flow template.

Then, enter step 1311, ENodeB sends to MME and revises the AB acknowledge message, may feed back AB ID simultaneously.That is to say that if AB ID is not overall, then ENodeB needs feedback AB ID when sending modification AB acknowledge message to MME.

Then, enter step 1312, MME sends to UPE and revises the AB acknowledge message, may feed back AB ID simultaneously.That is to say that if AB ID is not overall, then MME needs feedback AB ID when sending modification AB acknowledge message to UPE.

Then, enter step 1313, UPE sends to PCEF and revises the SB acknowledge message, may feed back SB ID simultaneously.That is to say that if SB ID is not overall, then UPE needs feedback SB ID when sending modification SB acknowledge message to PCEF.

Then, enter step 1314, PCEF sends to PCRF and revises regular acknowledge message.

Service control method and the 3rd execution mode are roughly the same among the 6th execution mode 3GPP of the present invention, its difference only is, carrying in the 3rd execution mode set up flow process for PCEF separate with UPE and the situation of SM at UPE under, the flow process of the newly-built carrying of needs when discovery needs the SI sign, and in the present embodiment, carrying set up flow process for separate with UPE at PCEF and the situation of SM at UPE under, need revise the flow process of carrying when finding to need the SI sign.

Specifically as shown in figure 14, in step 1401, after PCEF receives the default bearer request of setting up that portable terminal is initiated or detects some packet, to PCRF request PCC rule.

Then, enter step 1402, PCRF sends to PCEF and revises PCC rule message, wherein with Label, and SI, the business datum flow template, information such as QoS are handed down to PCEF.

Then, enter step 1403, PCEF is the SB ID of its distribution before searching according to Label, and set up mapping relations between SI, business datum flow template, QoS, the SB ID, feasible professional corresponding a kind of downlink service data flow template with identical network side QoS demand, each downlink service data flow template is corresponding to a SB ID, has identical network side QoS demand but has different QoS ' the corresponding different respectively SI of business of demand.

Then, enter step 1404, PCEF sends to UPE and revises the SB request, wherein information such as SI, business datum flow template, QoS, SB ID is handed down to UPE.

Then, enter step 1405, UPE is the AB ID of its distribution according to SB ID before searching, and sets up the mapping relations between AB ID, the SB ID, makes the unique corresponding AB ID of each SB ID.。

Then, enter step 1406, UPE sends to ENodeB and revises the AB request message, wherein information such as SI, business datum flow template, QoS, AB ID is handed down to ENodeB.

Then, enter step 1407, ENodeB is that each business datum flow template distributes RB ID, and set up mapping relations between SI, QoS ', AB ID, the RB ID, making and to belong to same AB ID but have different QoS ' business of demand has different RB ID, each RB ID is corresponding to a SI, the unique corresponding AB ID of each RB ID.

Then, enter step 1408, ENodeB sets up corresponding radio bearer for each RB, simultaneously SI, QoS ', business datum flow template, RB ID is sent to portable terminal.Need to prove that if RBID is overall, portable terminal gets final product for the simple affirmation of SI, QoS ', business datum flow template, RB ID that ENodeB sent so, otherwise, this portable terminal need feed back the RB ID of its distribution, and same, the distribution condition of AB ID and SB ID also is like this.

Then, enter step 1409, portable terminal is set up the mapping relations between business datum flow template, the RB ID in this locality, makes the unique corresponding RB ID of each uplink business data flow template.

Then, enter step 1410, ENodeB sends to UPE and revises the AB acknowledge message, may feed back AB ID simultaneously.That is to say that if AB ID is not overall, then ENodeB needs feedback AB ID when sending modification AB acknowledge message to UPE.

Then, enter step 1411, UPE sends to PCEF and revises the SB acknowledge message, may feed back SB ID simultaneously.That is to say that if SB ID is not overall, then UPE needs feedback SB ID when sending modification SB acknowledge message to PCEF.

Then, enter step 1412, PCEF sends to PCRF and revises regular acknowledge message.

Service control method increases a SI among the 7th execution mode 3GPP of the present invention in existing Label on the basis of first execution mode.

As shown in figure 15, in step 1501, PCRF sends modification PCC rule message to the entity at UPE and PCEF place, wherein with Label, and new SI, new information such as business datum flow template are handed down to the entity at UPE and PCEF place.

Then, enter step 1502, the entity at UPE and PCEF place is searched AB ID according to Label, and is that this new SI increases the mapping relations between SI, business datum flow template, QoS, the AB ID.

Then, enter step 1503, the entity at UPE and PCEF place sends to MME and revises the AB request message, wherein information such as SI, business datum flow template, AB ID is handed down to MME.

Then, enter step 1504, MME sends to ENodeB and revises the AB request message, wherein information such as SI, business datum flow template, AB ID is handed down to ENodeB.

Then, enter step 1505, ENodeB is that this new business datum flow template distributes RB ID, and sets up the mapping relations between SI, QoS ', AB ID, the RB ID.

Then, enter step 1506, ENodeB sets up corresponding radio bearer for this RB, simultaneously SI, QoS ', business datum flow template, RB ID is sent to portable terminal.Need to prove that if RB ID is overall, portable terminal gets final product for the simple affirmation of SI, QoS ', business datum flow template, RB ID that ENodeB sent so, otherwise, this portable terminal need feed back the RB ID of its distribution, and same, the distribution condition of AB ID also is like this.

Then, enter step 1507, portable terminal increases the mapping relations between this business datum flow template, the RB ID in this locality.

Then, enter step 1508, ENodeB sends to MME and revises the AB acknowledge message, may feed back AB ID simultaneously.That is to say that if AB ID is not overall, then EnodeB needs feedback AB ID when sending modification AB acknowledge message to MME.

Then, enter step 1509, MME sends modification AB acknowledge message to the entity at UPE and PCEF place, may feed back AB ID simultaneously.That is to say that if AB ID is not overall, then MME needs feedback AB ID when the entity to UPE and PCEF place sends modification AB acknowledge message.

Then, enter step 1510, the entity at UPE and PCEF place sends to PCRF and revises regular acknowledge message.

Service control method is deleted a SI among the 8th execution mode 3GPP of the present invention in existing Label on the basis of first execution mode.

Specifically as shown in figure 16, in step 1601, PCRF sends download PCC rule message to the entity at UPE and PCEF place, and wherein with Label, the information such as SI that delete are handed down to the entity at UPE and PCEF place.

Then, enter step 1602, the entity at UPE and PCEF place is searched AB ID according to Label, and the mapping relations between the SI of the SI correspondence that will delete of deletion, business datum flow template, QoS, AB ID.

Then, enter step 1603, the entity at UPE and PCEF place sends to MME and revises the AB request message, wherein information such as SI, AB ID is handed down to MME.

Then, enter step 1604, MME sends to ENodeB and revises the AB request message, wherein information such as SI, AB ID is handed down to ENodeB.

Then, enter step 1605, ENodeB searches RB ID for this SI that will delete, and deletes the mapping relations between SI, QoS ', AB ID, the RB ID.

Then, enter step 1606, ENodeB deletes corresponding radio bearer for this RB, simultaneously business datum flow template, RB ID is sent to portable terminal.Need to prove that if RB ID is overall, portable terminal sends for ENodeB that business datum flow template, RB ID are simple to be confirmed to get final product so, otherwise, this portable terminal need feed back the RB ID of its distribution, and same, the distribution condition of AB ID also is like this.

Then, enter step 1607, portable terminal is deleted the mapping relations between this business datum flow template, the RB ID.

Then, enter step 1608, ENodeB sends to MME and revises the AB acknowledge message, may feed back AB ID simultaneously.That is to say that if AB ID is not overall, then EnodeB needs feedback AB ID when sending modification AB acknowledge message to MME.

Then, enter step 1609, MME sends modification AB acknowledge message to the entity at UPE and PCEF place, may feed back AB ID simultaneously.That is to say that if AB ID is not overall, then MME needs feedback AB ID when the entity to UPE and PCEF place sends modification AB acknowledge message.

Then, enter step 1610, the entity at UPE and PCEF place sends to PCRF and revises regular acknowledge message.

Service control method is on the basis of first execution mode among the 9th execution mode 3GPP of the present invention, and change has the QoS of Label.

Specifically as shown in figure 17, in step 1701, PCRF sends download PCC rule message to the entity at UPE and PCEF place, and wherein with Label, new information such as QoS are handed down to the entity at UPE and PCEF place.

Then, enter step 1702, the entity at UPE and PCEF place is searched AB ID according to Label, and according to the mapping relations between the new corresponding SI of QoS information updating, business datum flow template, QoS, the AB ID.

Then, enter step 1703, the entity at UPE and PCEF place sends to MME and revises the AB request message, wherein information such as SI, business datum flow template, QoS, AB ID is handed down to MME.

Then, enter step 1704, MME sends to ENodeB and revises the AB request message, wherein information such as SI, business datum flow template, QoS, AB ID is handed down to ENodeB.

Then, enter step 1705, ENodeB searches RB ID according to AB ID, and according to the new corresponding SI of QoS information updating, QoS ', the mapping relations between AB ID, the RB ID.

Then, enter step 1706, ENodeB upgrades corresponding radio bearer according to new QoS ' for each RB, simultaneously SI, QoS ', business datum flow template, RB ID is sent to portable terminal.Need to prove that if RB ID is overall, portable terminal gets final product for the simple affirmation of SI, QoS ', business datum flow template, RB ID that ENodeB sent so, otherwise, this portable terminal need feed back the RB ID of its distribution, and same, the distribution condition of AB ID also is like this.

Then, enter step 1707, portable terminal is at the qos parameter of local update corresponding service data flow template correspondence.

Then, enter step 1708, ENodeB sends to MME and revises the AB acknowledge message, may feed back AB ID simultaneously.That is to say that if AB ID is not overall, then EnodeB needs feedback AB ID when sending modification AB acknowledge message to MME.

Then, enter step 1709, MME sends modification AB acknowledge message to the entity at UPE and PCEF place, may feed back AB ID simultaneously.That is to say that if AB ID is not overall, then MME needs feedback AB ID when the entity to UPE and PCEF place sends modification AB acknowledge message.

Then, enter step 1710, the entity at UPE and PCEF place sends to PCRF and revises regular acknowledge message.

Service control method is on the basis of first execution mode among the tenth execution mode 3GPP of the present invention, and the SI of an existing business data flow of change makes its SI with another existing business data flow identical.

Specifically as shown in figure 18, in step 1801, PCRF sends modification PCC rule message to the entity at UPE and PCEF place, wherein with the PCC rule ID, and new SI, information such as business datum flow template are handed down to the entity at UPE and PCEF place.

Then, enter step 1802, the entity at UPE and PCEF place is searched old SI corresponding mapping table item according to the PCC rule ID, and it is updated to new SI, business datum flow template, QoS, AB ID.

Then, enter step 1 803, the entity at UPE and PCEF place sends to MME and revises the AB request message, wherein information such as new SI, old SI, business datum flow template, AB ID is handed down to MME.

Then, enter step 1804, MME sends to ENodeB and revises the AB request message, wherein information such as new SI, old SI, business datum flow template, AB ID is handed down to ENodeB.

Then, enter step 1 805, ENodeB searches the RB ID1 of new SI correspondence, searches the RB ID2 of old SI correspondence, then old SI corresponding mapping table item is updated to new SI, AB ID, RB ID1, QoS ', and discharges RB ID2.

Then, enter step 1806, ENodeB upgrades corresponding radio bearer for this new SI, simultaneously new SI, QoS ', business datum flow template, RB ID1, RB ID2 is sent to portable terminal.Need to prove that if RB ID is overall, portable terminal gets final product for the simple affirmation of new SI, QoS ', business datum flow template, RB ID that ENodeB sent so, otherwise, this portable terminal need feed back the RB ID of its distribution, and same, the distribution condition of AB ID also is like this.

Then, enter step 1807, ENodeB deletes the radio bearer RB ID2 of old SI correspondence.

Then, enter step 1808, portable terminal is updated to business datum flow template, RB ID1 with RB ID2 corresponding mapping table item.

Then, enter step 1809, ENodeB sends to MME and revises the AB acknowledge message, may feed back AB ID simultaneously.That is to say that if AB ID is not overall, then EnodeB needs feedback AB ID when sending modification AB acknowledge message to MME.

Then, enter step 1810, MME sends modification AB acknowledge message to the entity at UPE and PCEF place, may feed back AB ID simultaneously.That is to say that if AB ID is not overall, then MME needs feedback AB ID when the entity to UPE and PCEF place sends modification AB acknowledge message.

Then, enter step 1811, the entity at UPE and PCEF place sends to PCRF and revises regular acknowledge message.

Service control method is on the basis of first execution mode among the 11 execution mode 3GPP of the present invention, and the SI of an existing business data flow of change makes the SI of itself and existing business data flow inequality.

Specifically as shown in figure 19, in step 1901, PCRF sends modification PCC rule message to the entity at UPE and PCEF place, wherein with the PCC rule ID, and new SI, information such as business datum flow template are handed down to the entity at UPE and PCEF place.

Then, enter step 1902, the entity at UPE and PCEF place is searched old SI corresponding mapping table item according to the PCC rule ID, and it is updated to new SI, business datum flow template, QoS, AB ID.

Then, enter step 1903, the entity at UPE and PCEF place sends to MME and revises the AB request message, wherein information such as new SI, old SI, business datum flow template, AB ID is handed down to MME.

Then, enter step 1904, MME sends to ENodeB and revises the AB request message, wherein information such as new SI, old SI, business datum flow template, AB ID is handed down to ENodeB.

Then, enter step 1905, ENodeB is that new SI distributes RB ID1, searches the RBID2 of old SI correspondence, then old SI corresponding mapping table item is updated to new SI, AB ID, RB ID1, QoS '.

Then, enter step 1906, ENodeB upgrades corresponding radio bearer for this new SI, simultaneously new SI, QoS ', business datum flow template, RB ID1, RB ID2 is sent to portable terminal.Need to prove that if RB ID is overall, portable terminal gets final product for the simple affirmation of new SI, QoS ', business datum flow template, RB ID that ENodeB sent so, otherwise, this portable terminal need feed back the RB ID of its distribution, and same, the distribution condition of AB ID also is like this.

Then, enter step 1907, portable terminal is updated to business datum flow template, RB ID1 with RB ID2 corresponding mapping table item.

Then, enter step 1908, ENodeB sends to MME and revises the AB acknowledge message, may feed back AB ID simultaneously.That is to say that if AB ID is not overall, then EnodeB needs feedback AB ID when sending modification AB acknowledge message to ME.

Then, enter step 1909, MME sends modification AB acknowledge message to the entity at UPE and PCEF place, may feed back AB ID simultaneously.That is to say that if AB ID is not overall, then MME needs feedback AB ID when the entity to UPE and PCEF place sends modification AB acknowledge message.

Then, enter step 1910, the entity at UPE and PCEF place sends to PCRF and revises regular acknowledge message.

Service control method has increased the flow process of deleting bearing among the 12 execution mode 3GPP of the present invention on the basis of first execution mode.

Specifically as shown in figure 20, in step 2001, PCRF sends deletion PCC rule message to the entity at UPE and PCEF place, wherein information such as Label is handed down to the entity at UPE and PCEF place.

Then, enter step 2002, the entity at UPE and PCEF place searches and deletes the mapping relations between SI, business datum flow template, QoS, the AB ID according to Label, discharges corresponding AB ID simultaneously.

Then, enter step 2003, the entity at UPE and PCEF place sends deletion AB request message to MME, wherein information such as AB ID is handed down to MME.

Then, enter step 2004, MME sends deletion AB request message to ENodeB, wherein information such as AB ID is handed down to ENodeB.

Then, enter step 2005, ENodeB discharges corresponding RB ID simultaneously according to the mapping relations between AB ID deletion SI, QoS ', AB ID, the RB ID.

Then, enter step 2006, ENodeB discharges corresponding radio bearer for each RB, simultaneously RB ID is sent to portable terminal.Need to prove that if RB ID is overall, portable terminal sends for ENodeB that RB ID is simple to be confirmed get final product so, otherwise this portable terminal need feed back the RB ID of its distribution, equally, the distribution condition of AB ID also is like this.

Then, enter step 2007, the mapping relations between portable terminal deletion business datum flow template, the RB ID.

Then, enter step 2008, ENodeB sends deletion AB acknowledge message to MME, may feed back AB ID simultaneously.That is to say that if AB ID is not overall, then EnodeB needs feedback AB ID when sending deletion AB acknowledge message to MME.

Then, enter step 2009, MME sends deletion AB acknowledge message to the entity at UPE and PCEF place, may feed back AB ID simultaneously.That is to say that if AB ID is not overall, then MME needs feedback AB ID when the entity to UPE and PCEF place sends deletion AB acknowledge message.

Then, enter step 2010, the entity at UPE and PCEF place sends the deletion rule acknowledge message to PCRF.

Service control method increases a SI among the 13 execution mode 3GPP of the present invention in existing Label on the basis of second execution mode.

As shown in figure 21, in step 2101, PCRF sends to PCEF and revises PCC rule message, wherein with Label, and new SI, new information such as business datum flow template are handed down to PCEF.

Then, enter step 2102, PCEF searches SB ID according to Label, and is that this new SI increases the mapping relations between SI, business datum flow template, QoS, the SB ID.

Then, enter step 2103, PCEF sends to UPE and revises the SB request, wherein information such as SI, business datum flow template, SB ID is handed down to UPE.

Then, enter step 2104, UPE searches AB ID according to SB ID.

Then, enter step 2105, UPE sends to MME and revises the AB request message, wherein information such as SI, business datum flow template, AB ID is handed down to MME.

Then, enter step 2106, MME sends to ENodeB and revises the AB request message, wherein information such as SI, business datum flow template, AB ID is handed down to ENodeB.

Then, enter step 2107, ENodeB is that this new business datum flow template distributes RB ID, and sets up the mapping relations between SI, QoS ', AB ID, the RB ID.

Then, enter step 2108, ENodeB sets up corresponding radio bearer for each RB, simultaneously SI, QoS ', business datum flow template, RB ID is sent to portable terminal.Need to prove that if RBID is overall, portable terminal gets final product for the simple affirmation of SI, QoS ', business datum flow template, RB ID that ENodeB sent so, otherwise, this portable terminal need feed back the RB ID of its distribution, and same, the distribution condition of AB ID and SB ID also is like this.

Then, enter step 2109, portable terminal increases the mapping relations between this business datum flow template, the RB ID in this locality.

Then, enter step 2110, ENodeB sends to MME and revises the AB acknowledge message, may feed back AB IDD simultaneously.That is to say that if AB ID is not overall, then ENodeB needs feedback AB ID when sending modification AB acknowledge message to MME.

Then, enter step 2111, MME sends to UPE and revises the AB acknowledge message, may feed back AB ID simultaneously.That is to say that if AB ID is not overall, then MME needs feedback AB ID when sending modification AB acknowledge message to UPE.

Then, enter step 2112, UPE sends to PCEF and revises the SB acknowledge message, may feed back SB ID simultaneously.That is to say that if SB ID is not overall, then UPE needs feedback SB ID when sending modification SB acknowledge message to PCEF.

Then, enter step 2113, the entity at PCEF place sends to PCRF and revises regular acknowledge message.

Service control method is deleted a SI among the 14 execution mode 3GPP of the present invention in existing Label on the basis of second execution mode.

Specifically as shown in figure 22, in step 2201, PCRF sends to PCEF and revises PCC rule message, and wherein with Label, the information such as SI that delete are handed down to PCEF.

Then, enter step 2202, PCEF searches SB ID according to Label, and the mapping relations between the SI of the SI correspondence that will delete of deletion, business datum flow template, QoS, SB ID.

Then, enter step 2203, PCEF sends to UPE and revises the SB request, wherein information such as SI, SB ID is handed down to UPE.

Then, enter step 2204, UPE searches AB ID according to SB ID.

Then, enter step 2205, UPE sends to MME and revises the AB request message, wherein information such as SI, AB ID is handed down to MME.

Then, enter step 2206, MME sends to ENodeB and revises the AB request message, wherein information such as SI, AB ID is handed down to ENodeB.

Then, enter step 2207, ENodeB searches RB ID for this SI that will delete, and deletes the mapping relations between SI, QoS ', AB ID, the RB ID.

Then, enter step 2208, ENodeB deletes corresponding radio bearer for this RB, simultaneously business datum flow template, RB ID is sent to portable terminal.Need to prove that if RB ID is overall, portable terminal gets final product for the simple affirmation of business datum flow template, RB ID that ENodeB sent so, otherwise, this portable terminal need feed back the RB ID of its distribution, and same, the distribution condition of AB ID and SB ID also is like this.

Then, enter step 2209, portable terminal is deleted the mapping relations between this business datum flow template, the RB ID.

Then, enter step 2210, ENodeB sends to MME and revises the AB acknowledge message, may feed back AB ID simultaneously.That is to say that if AB ID is not overall, then ENodeB needs feedback AB ID when sending modification AB acknowledge message to MME.

Then, enter step 2211, MME sends to UPE and revises the AB acknowledge message, may feed back AB ID simultaneously.That is to say that if AB ID is not overall, then MME needs feedback AB ID when sending modification AB acknowledge message to UPE.

Then, enter step 2212, UPE sends to PCEF and revises the SB acknowledge message, may feed back SB ID simultaneously.That is to say that if SB ID is not overall, then UPE needs feedback SB ID when sending modification SB acknowledge message to PCEF.

Then, enter step 2213, PCEF sends to PCRF and revises regular acknowledge message.

Service control method is on the basis of second execution mode among the 15 execution mode 3GPP of the present invention, and change has the QoS of Label.

Specifically as shown in figure 23, in step 2301, PCRF sends to PCEF and downloads PCC rule message, and wherein with Label, new information such as QoS are handed down to PCEF.

Then, enter step 2302, PCEF searches SB ID according to Label, and according to the mapping relations between the new corresponding SI of QoS information updating, business datum flow template, QoS, the SB ID.

Then, enter step 2303, PCEF sends to UPE and revises the SB request, wherein information such as QoS, SB ID is handed down to UPE.

Then, enter step 2304, UPE searches AB ID according to SB ID.

Then, enter step 2305, UPE sends to MME and revises the AB request message, wherein information such as QoS, AB ID is handed down to MME.

Then, enter step 2306, MME sends to ENodeB and revises the AB request message, wherein information such as QoS, AB ID is handed down to ENodeB.

Then, enter step 2307, ENodeB searches RB ID according to AB ID, and according to the new corresponding SI of QoS information updating, QoS ', the mapping relations between AB ID, the RB ID.

Then, enter step 2308, ENodeB upgrades corresponding radio bearer according to new QoS ' for each RB, simultaneously SI, QoS ', business datum flow template, RB ID is sent to portable terminal.Need to prove, if RB ID is overall, portable terminal gets final product for the simple affirmation of SI, QoS ', business datum flow template, RB ID that ENodeB sent so, otherwise, this portable terminal need feed back the RB ID of its distribution, equally, the distribution condition of AB ID and SB ID also is like this.

Then, enter step 2309, portable terminal is at the qos parameter of local update corresponding service data flow template correspondence.

Then, enter step 2310, ENodeB sends to MME and revises the AB acknowledge message, may feed back AB ID simultaneously.That is to say that if AB ID is not overall, then ENodeB needs feedback AB ID when sending modification AB acknowledge message to MME.

Then, enter step 2311, MME sends to UPE and revises the AB acknowledge message, may feed back AB ID simultaneously.That is to say that if AB ID is not overall, then MME needs feedback AB ID when sending modification AB acknowledge message to UPE.

Then, enter step 2312, UPE sends to PCEF and revises the SB acknowledge message, may feed back SB ID simultaneously.That is to say that if SB ID is not overall, then UPE needs feedback SB ID when sending modification SB acknowledge message to PCEF.

Then, enter step 2313, PCEF sends to PCRF and revises regular acknowledge message.

Service control method is on the basis of second execution mode among the 16 execution mode 3GPP of the present invention, and the SI of an existing business data flow of change makes its SI with another existing business data flow identical.

Specifically as shown in figure 24, in step 2401, PCRF sends to PCEF and revises PCC rule message, wherein with the PCC rule ID, and new SI, information such as business datum flow template are handed down to PCEF.

Then, enter step 2402, PCEF searches old SI corresponding mapping table item according to the PCC rule ID, and it is updated to new SI, business datum flow template, QoS, SB ID.

Then, enter step 2403, PCEF sends to UPE and revises the SB request, wherein information such as new SI, old SI, business datum flow template, SB ID is handed down to UPE.

Then, enter step 2404, UPE searches AB ID according to SB ID.

Then, enter step 2405, UPE sends to MME and revises the AB request message, wherein information such as new SI, old SI, business datum flow template, AB ID is handed down to MME.

Then, enter step 2406, MME sends to ENodeB and revises the AB request message, wherein information such as new SI, old SI, business datum flow template, AB ID is handed down to ENodeB.

Then, enter step 2407, ENodeB searches the RB ID1 of new SI correspondence, searches the RB ID2 of old SI correspondence, then old SI corresponding mapping table item is updated to new SI, AB ID, RB ID1, QoS ', and discharges RB ID2.

Then, enter step 2408, ENodeB upgrades corresponding radio bearer for this new SI, simultaneously new SI, QoS ', business datum flow template, RB ID1, RB ID2 is sent to portable terminal.Need to prove, if RB ID is overall, portable terminal gets final product for the simple affirmation of new SI, QoS ', business datum flow template, RB ID that ENodeB sent so, otherwise, this portable terminal need feed back the RB ID of its distribution, equally, the distribution condition of AB ID and SB ID also is like this.

Then, enter step 2409, ENodeB deletes the radio bearer RB ID2 of old SI correspondence.

Then, enter step 2410, portable terminal is updated to business datum flow template, RB ID1 with RB ID2 corresponding mapping table item.

Then, enter step 2411, ENodeB sends to MME and revises the AB acknowledge message, may feed back AB ID simultaneously.That is to say that if AB ID is not overall, then ENodeB needs feedback AB ID when sending modification AB acknowledge message to MME.

Then, enter step 2412, MME sends to UPE and revises the AB acknowledge message, may feed back AB ID simultaneously.That is to say that if AB ID is not overall, then MME needs feedback AB ID when sending modification AB acknowledge message to UPE.

Then, enter step 2413, UPE sends to PCEF and revises the SB acknowledge message, may feed back SB ID simultaneously.That is to say that if SB ID is not overall, then UPE needs feedback SB ID when sending modification SB acknowledge message to PCEF.

Then, enter step 2414, PCEF sends to PCRF and revises regular acknowledge message.

Service control method is on the basis of second execution mode among the 17 execution mode 3GPP of the present invention, and the SI of an existing business data flow of change makes the SI of itself and existing business data flow inequality.

Specifically as shown in figure 25, in step 2501, PCRF sends to PCEF and revises PCC rule message, wherein with the PCC rule ID, and new SI, information such as business datum flow template are handed down to PCEF.

Then, enter step 2502, PCEF searches old SI corresponding mapping table item according to the PCC rule ID, and it is updated to new SI, business datum flow template, QoS, SB ID.

Then, enter step 2503, PCEF sends to UPE and revises the SB request, wherein information such as new SI, old SI, business datum flow template, SB ID is handed down to UPE.

Then, enter step 2504, UPE searches AB ID according to SB ID.

Then, enter step 2505, UPE sends to MME and revises the AB request message, wherein information such as new SI, old SI, business datum flow template, AB ID is handed down to MME.

Then, enter step 2506, MME sends to ENodeB and revises the AB request message, wherein information such as new SI, old SI, business datum flow template, AB ID is handed down to ENodeB.

Then, enter step 2507, ENodeB is that new SI distributes RB ID1, searches the RBID2 of old SI correspondence, more the old and new SI corresponding mapping table Xiang Weixin SI, AB ID, RB ID1, QoS '.

Then, enter step 2508, ENodeB upgrades corresponding radio bearer for this new SI, simultaneously new SI, QoS ', business datum flow template, RB ID1, RB ID2 is sent to portable terminal.Need to prove, if RB ID is overall, portable terminal gets final product for the simple affirmation of new SI, QoS ', business datum flow template, RB ID that ENodeB sent so, otherwise, this portable terminal need feed back the RB ID of its distribution, equally, the distribution condition of AB ID and SB ID also is like this.

Then, enter step 2509, portable terminal is updated to business datum flow template, RB ID1 with RB ID2 corresponding mapping table item.

Then, enter step 2510, ENodeB sends to MME and revises the AB acknowledge message, may feed back AB ID simultaneously.That is to say that if AB ID is not overall, then ENodeB needs feedback AB ID when sending modification AB acknowledge message to MME.

Then, enter step 2511, MME sends to UPE and revises the AB acknowledge message, may feed back AB ID simultaneously.That is to say that if AB ID is not overall, then MME needs feedback AB ID when sending modification AB acknowledge message to UPE.

Then, enter step 2512, UPE sends to PCEF and revises the SB acknowledge message, may feed back SB ID simultaneously.That is to say that if SB ID is not overall, then UPE needs feedback SB ID when sending modification SB acknowledge message to PCEF.

Then, enter step 2513, PCEF sends to PCRF and revises regular acknowledge message.

Service control method has increased the flow process of deleting bearing among the 18 execution mode 3GPP of the present invention on the basis of second execution mode.

Specifically as shown in figure 26, in step 2601, PCRF sends deletion PCC rule message to PCEF, wherein information such as Label is handed down to PCEF.

Then, enter step 2602, PCEF searches and deletes the mapping relations between SI, business datum flow template, QoS, the SB ID according to Label, discharges corresponding SB ID simultaneously.

Then, enter step 2603, PCEF sends deletion SB request to UPE, wherein information such as SB ID is handed down to UPE.

Then, enter step 2604, UPE searches and deletes mapping relations between AB ID, the SB ID according to SB ID, discharges corresponding AB ID simultaneously.

Then, enter step 2605, UPE sends deletion AB request message to MME, wherein information such as AB ID is handed down to MME.

Then, enter step 2606, MME sends deletion AB request message to ENodeB, wherein information such as AB ID is handed down to ENodeB.

Then, enter step 2607, ENodeB searches and deletes mapping relations between SI, QoS ', AB ID, the RB ID according to AB ID, discharges corresponding RB ID simultaneously.

Then, enter step 2608, ENodeB deletes corresponding radio bearer for each RB, simultaneously RB ID is sent to portable terminal.Need to prove that if RB ID is overall, portable terminal gets final product for the simple affirmation of RB ID that ENodeB sent so, otherwise this portable terminal need feed back the RB ID of its distribution, same, the distribution condition of AB ID and SB ID also is like this.

Then, enter step 2609, the mapping relations of portable terminal between this locality deletion business datum flow template, RB ID.

Then, enter step 2610, ENodeB sends deletion AB acknowledge message to MME, may feed back AB ID simultaneously.That is to say that if AB ID is not overall, then ENodeB needs feedback AB ID when sending deletion AB acknowledge message to MME.

Then, enter step 2611, MME sends deletion AB acknowledge message to UPE, may feed back AB ID simultaneously.That is to say that if AB ID is not overall, then MME needs feedback AB ID when sending deletion AB acknowledge message to UPE.

Then, enter step 2612, UPE sends deletion SB acknowledge message to PCEF, may feed back SB ID simultaneously.That is to say that if SB ID is not overall, then UPE needs feedback SB ID when sending deletion SB acknowledge message to PCEF.

Then, enter step 2613, PCEF sends the deletion rule acknowledge message to PCRF.

Service control method increases a SI among the 19 execution mode 3GPP of the present invention in existing Label on the basis of the 3rd execution mode.

As shown in figure 27, in step 2701, PCRF sends to PCEF and revises PCC rule message, wherein with Label, and new SI, new information such as business datum flow template are handed down to PCEF.

Then, enter step 2702, PCEF searches SB ID according to Label, and is that this new SI increases the mapping relations between SI, business datum flow template, QoS, the SB ID.

Then, enter step 2703, PCEF sends to UPE and revises the SB request, wherein information such as SI, business datum flow template, SB ID is handed down to UPE.

Then, enter step 2704, UPE searches AB ID according to SB ID.

Then, enter step 2705, UPE sends to ENodeB and revises the AB request message, wherein information such as SI, business datum flow template, AB ID is handed down to ENodeB.

Then, enter step 2706, ENodeB is that this new business datum flow template distributes RB ID, and sets up the mapping relations between SI, QoS ', AB ID, the RB ID.

Then, enter step 2707, ENodeB sets up corresponding radio bearer for each RB, simultaneously SI, QoS ', business datum flow template, RB ID is sent to portable terminal.Need to prove that if RBID is overall, portable terminal gets final product for the simple affirmation of SI, QoS ', business datum flow template, RB ID that ENodeB sent so, otherwise, this portable terminal need feed back the RB ID of its distribution, and same, the distribution condition of AB ID and SB ID also is like this.

Then, enter step 2708, portable terminal increases the mapping relations between this business datum flow template, the RB ID in this locality.

Then, enter step 2709, ENodeB sends to UPE and revises the AB acknowledge message, may feed back AB ID simultaneously.That is to say that if AB ID is not overall, then ENodeB needs feedback AB ID when sending modification AB acknowledge message to UPE.

Then, enter step 2710, UPE sends to PCEF and revises the SB acknowledge message, may feed back SB ID simultaneously.That is to say that if SB ID is not overall, then UPE needs feedback SB ID when sending modification SB acknowledge message to PCEF.

Then, enter step 2711, PCEF sends to PCRF and revises regular acknowledge message.

Service control method is deleted a SI among the 20 execution mode 3GPP of the present invention in existing Label on the basis of the 3rd execution mode.

As shown in figure 28, in step 2801, PCRF sends to PCEF and revises PCC rule message, and wherein with Label, the information such as SI that delete are handed down to PCEF.

Then, enter step 2802, PCEF searches SB ID according to Label, and the mapping relations between the SI of the SI correspondence that will delete of deletion, business datum flow template, QoS, SB ID.

Then, enter step 2803, PCEF sends to UPE and revises the SB request, wherein information such as SI, SB ID is handed down to UPE.

Then, enter step 2804, UPE searches AB ID according to SB ID.

Then, enter step 2805, UPE sends to ENodeB and revises the AB request message, wherein information such as SI, AB ID is handed down to ENodeB.

Then, enter step 2806, ENodeB searches RB ID for this SI that will delete, and deletes the mapping relations between SI, QoS ', AB ID, the RB ID.

Then, enter step 2807, ENodeB deletes corresponding radio bearer for this RB, simultaneously business datum flow template, RB ID is sent to portable terminal.Need to prove that if RB ID is overall, portable terminal gets final product for the simple affirmation of business datum flow template, RB ID that ENodeB sent so, otherwise, this portable terminal need feed back the RB ID of its distribution, and same, the distribution condition of AB ID and SB ID also is like this.

Then, enter step 2808, the mapping relations of portable terminal between this business datum flow template of deletion, RB ID.

Then, enter step 2809, ENodeb sends to UPE and revises the AB acknowledge message, may feed back AB ID simultaneously.That is to say that if AB ID is not overall, then ENodeB needs feedback AB ID when sending modification AB acknowledge message to UPE.

Then, enter step 2810, UPE sends to PCEF and revises the SB acknowledge message, may feed back SB ID simultaneously.That is to say that if SB ID is not overall, then UPE needs feedback SB ID when sending modification SB acknowledge message to PCEF.

Then, enter step 2811, PCEF sends to PCRF and revises regular acknowledge message.

Service control method is on the basis of the 3rd execution mode among the 21 execution mode 3GPP of the present invention, and change has the QoS of Label.

As shown in figure 29, in step 2901, PCRF sends to PCEF and downloads PCC rule message, and wherein with Label, new information such as QoS are handed down to PCEF.

Then, enter step 2902, PCEF searches SB ID according to Label, and according to the mapping relations between the new corresponding SI of QoS information updating, business datum flow template, QoS, the SB ID.

Then, enter step 2903, PCEF sends to UPE and revises the SB request, wherein information such as QoS, SB ID is handed down to UPE.

Then, enter step 2904, UPE searches AB ID according to SB ID.

Then, enter step 2905, UPE sends to ENodeB and revises the AB request message, wherein information such as QoS, AB ID is handed down to ENodeB.

Then, enter step 2906, ENodeB searches RB ID according to AB ID, and according to the new corresponding SI of QoS information updating, QoS ', the mapping relations between AB ID, the RB ID.

Then, enter step 2907, ENodeB upgrades corresponding radio bearer according to new QoS ' for each RB, simultaneously SI, QoS ', business datum flow template, RB ID is sent to portable terminal.Need to prove, if RB ID is overall, portable terminal gets final product for the simple affirmation of SI, QoS ', business datum flow template, RB ID that ENodeB sent so, otherwise, this portable terminal need feed back the RB ID of its distribution, equally, the distribution condition of AB ID and SB ID also is like this.

Then, enter step 2908, portable terminal is at the qos parameter of local update corresponding service data flow template correspondence.

Then, enter step 2909, ENodeB sends to UPE and revises the AB acknowledge message, may feed back AB ID simultaneously.That is to say that if AB ID is not overall, then ENodeB needs feedback AB ID when sending modification AB acknowledge message to UPE.

Then, enter step 2910, UPE sends to PCEF and revises the SB acknowledge message, may feed back SB ID simultaneously.That is to say that if SB ID is not overall, then UPE needs feedback SB ID when sending modification SB acknowledge message to PCEF.

Then, enter step 2911, PCEF sends to PCRF and revises regular acknowledge message.

Service control method is on the basis of the 3rd execution mode among the 22 execution mode 3GPP of the present invention, and the SI of an existing business data flow of change makes its SI with another existing business data flow identical.

Specifically as shown in figure 30, in step 3001, PCRF sends to PCEF and revises PCC rule message, wherein with the PCC rule ID, and new SI, information such as business datum flow template are handed down to PCEF.

Then, enter step 3002, PCEF searches old SI corresponding mapping table item according to the PCC rule ID, and it is updated to new SI, business datum flow template, QoS, SB ID.

Then, enter step 3003, PCEF sends to UPE and revises the SB request, wherein information such as new SI, old SI, business datum flow template, SB ID is handed down to UPE.

Then, enter step 3004, UPE searches AB ID according to SB ID.

Then, enter step 3005, UPE sends to ENodeB and revises the AB request message, wherein information such as new SI, old SI, business datum flow template, AB ID is handed down to ENodeB.

Then, enter step 3006, ENodeB searches the RB ID1 of new SI correspondence, searches the RB ID2 of old SI correspondence, then old SI corresponding mapping table item is updated to new SI, AB ID, RB ID1, QoS ', and discharges RB ID2.

Then, enter step 3007, ENodeB upgrades corresponding radio bearer for this new SI, simultaneously new SI, QoS ', business datum flow template, RB ID1, RB ID2 is sent to portable terminal.Need to prove, if RB ID is overall, portable terminal gets final product for the simple affirmation of new SI, QoS ', business datum flow template, RB ID that ENodeB sent so, otherwise, this portable terminal need feed back the RB ID of its distribution, equally, the distribution condition of AB ID and SB ID also is like this.

Then, enter step 3008, ENodeB deletes the radio bearer RB ID2 of old SI correspondence.

Then, enter step 3009, portable terminal is updated to business datum flow template, RB ID1 with RB ID2 corresponding mapping table item.

Then, enter step 3010, ENodeB sends to UPE and revises the AB acknowledge message, may feed back AB ID simultaneously.That is to say that if AB ID is not overall, then ENodeB needs feedback AB ID when sending modification AB acknowledge message to UPE.

Then, enter step 3011, UPE sends to PCEF and revises the SB acknowledge message, may feed back SB ID simultaneously.That is to say that if SB ID is not overall, then UPE needs feedback SB ID when sending modification SB acknowledge message to PCEF.

Then, enter step 3012, PCEF sends to PCRF and revises regular acknowledge message.

Service control method is on the basis of the 3rd execution mode among the 23 execution mode 3GPP of the present invention, and the SI of an existing business data flow of change makes the SI of itself and existing business data flow inequality.

Specifically as shown in figure 31, in step 3101, PCRF sends to PCEF and revises PCC rule message, wherein with the PCC rule ID, and new SI, information such as business datum flow template are handed down to PCEF.

Then, enter step 3102, PCEF searches old SI corresponding mapping table item according to the PCC rule ID, and it is updated to new SI, business datum flow template, QoS, SB ID.

Then, enter step 3103, PCEF sends to UPE and revises the SB request, wherein information such as new SI, old SI, business datum flow template, SB ID is handed down to UPE.

Then, enter step 3104, UPE searches AB ID according to SB ID.

Then, enter step 3105, UPE sends to ENodeB and revises the AB request message, wherein information such as new SI, old SI, business datum flow template, AB ID is handed down to ENodeB.

Then, enter step 3106, ENodeB is that new SI distributes RB ID1, searches the RBID2 of old SI correspondence, more the old and new SI corresponding mapping table Xiang Weixin SI, AB ID, RB ID1, QoS '.

Then, enter step 3107, ENodeB upgrades corresponding radio bearer for this new SI, simultaneously new SI, QoS ', business datum flow template, RB ID1, RB ID2 is sent to portable terminal.Need to prove, if RB ID is overall, portable terminal gets final product for the simple affirmation of new SI, QoS ', business datum flow template, RB ID that ENodeB sent so, otherwise, this portable terminal need feed back the RB ID of its distribution, equally, the distribution condition of AB ID and SB ID also is like this.

Then, enter step 3108, portable terminal is updated to business datum flow template, RB ID1 with RB ID2 corresponding mapping table item.

Then, enter step 3109, ENodeB sends to UPE and revises the AB acknowledge message, may feed back AB ID simultaneously.That is to say that if AB ID is not overall, then ENodeB needs feedback AB ID when sending modification AB acknowledge message to UPE.

Then, enter step 3110, UPE sends to PCEF and revises the SB acknowledge message, may feed back SB ID simultaneously.That is to say that if SB ID is not overall, then UPE needs feedback SB ID when sending modification SB acknowledge message to PCEF.

Then, enter step 3111, PCEF sends to PCRF and revises regular acknowledge message.

Service control method has increased the flow process of deleting bearing among the 24 execution mode 3GPP of the present invention on the basis of the 3rd execution mode.

Specifically shown in figure 32, in step 3201, PCRF sends deletion PCC rule message to PCEF, wherein information such as Label is handed down to PCEF.

Then, enter step 3202, PCEF searches and deletes the mapping relations between SI, business datum flow template, QoS, the SB ID according to Label, discharges corresponding SB ID simultaneously.

Then, enter step 3203, PCEF sends deletion SB request to UPE, wherein information such as SB ID is handed down to UPE.

Then, enter step 3204, UPE searches and deletes mapping relations between AB ID, the SB ID according to SB ID, discharges corresponding AB ID simultaneously.

Then, enter step 3205, UPE sends deletion AB request message to ENodeB, wherein information such as ABID is handed down to ENodeB.

Then, enter step 3206, ENodeB searches and deletes mapping relations between SI, QoS ', AB ID, the RB ID according to AB ID, discharges corresponding RB ID simultaneously.

Then, enter step 3207, ENodeB deletes corresponding radio bearer for each RB, simultaneously RB ID is sent to portable terminal.Need to prove that if RB ID is overall, portable terminal gets final product for the simple affirmation of RB ID that ENodeB sent so, otherwise this portable terminal need feed back the RB ID of its distribution, same, the distribution condition of AB ID and SB ID also is like this.

Then, enter step 3208, the mapping relations of portable terminal between this locality deletion business datum flow template, RB ID.

Then, enter step 3209, ENodeB sends deletion AB acknowledge message to UPE, may feed back AB ID simultaneously.That is to say that if AB ID is not overall, then ENodeB needs feedback AB ID when sending deletion AB acknowledge message to UPE.

Then, enter step 3210, UPE sends deletion SB acknowledge message to PCEF, may feed back SB ID simultaneously.That is to say that if SB ID is not overall, then UPE needs feedback SB ID when sending deletion SB acknowledge message to PCEF.

Then, enter step 3211, PCEF sends the deletion rule acknowledge message to PCRF.

What deserves to be mentioned is, in the embodiments of the present invention, the situation that carrying is set up, revised, the deletion flow process not only is applicable to single SI is applicable to that also the situation of a plurality of SI, its difference only are SI, business datum flow template, QoS ', the isoparametric quantity of RB ID of carrying in each message.That is to say,, can carry many group SI, business datum flow template, parameters such as QoS ', RB ID in each message for a plurality of SI.

In addition, what above flow process was described is the situation that MME, UPE separate, but these flow processs also are applicable to the situation of MME, UPE unification, just at this moment can omit some message, and the transmitting-receiving entity of some message can change, but the thought of whole proposal is consistent.

Though pass through with reference to some of the preferred embodiment of the invention, the present invention is illustrated and describes, but those of ordinary skill in the art should be understood that and can do various changes to it in the form and details, and without departing from the spirit and scope of the present invention.

Claims (20)

1. cordless communication network, comprise at least two carrying ends in the network side, and portable terminal, has a network side load between each carrying end at least, at least one wireless side carrying is arranged between the carrying end of close wireless side and portable terminal, it is characterized in that corresponding at least one the wireless side carrying of each network side load;

Described carrying end near wireless side is used for that the carrying of consolidated network side is had the business of different radio side QoS requirement by corresponding different radio side carrying transmission.

2. cordless communication network according to claim 1 is characterized in that, the business with identical network side QoS requirement is transmitted by same network side load;

Business with different radio side QoS requirement is by different wireless side carrying transmission.

3. according to each described cordless communication network in the claim 1 to 3, it is characterized in that, also be used for for this professional packet mark being set according to the wireless side QoS requirement of business away from the carrying end of wireless side,

Carrying end near wireless side is distinguished different wireless side QoS requirements by this mark.

4. cordless communication network according to claim 4 is characterized in that, described carrying end near wireless side also is used for removing the described mark in this business data packet before by wireless side carrying service data transmission.

5. service control method in the cordless communication network is characterized in that, corresponding at least one wireless side carrying of each network side load, and comprise following steps:

Professional when being transferred to carrying end near wireless side by network side load, this carrying end will have the business of different radio side QoS requirement by corresponding different radio side carrying transmission in the carrying of consolidated network side.

6. service control method in the cordless communication network according to claim 5 is characterized in that, in the packet of business, distinguishes different radio side QoS requirement with the different value of mark.

7. service control method in the cordless communication network according to claim 6 is characterized in that, also comprises following steps:

The mapping relations between described mark, network side load, the wireless side carrying are set up and preserved to the carrying end of close wireless side;

Set up and preserve mapping relations between described mark, network side load, the service data template away from the carrying end of wireless side;

The mapping relations between business datum flow template and the wireless side carrying are set up and preserved to portable terminal.

8. service control method in the cordless communication network according to claim 7, it is characterized in that, if the public data network IP address number that described portable terminal need use is greater than 1, then the combination of uplink business data flow template and IP address and the mapping relations between the carrying of described wireless side are set up and preserved to this portable terminal.

9. service control method in the cordless communication network according to claim 5 is characterized in that, described carrying end away from wireless side is strategy and charge execution function;

When setting up carrying, if the corresponding a plurality of wireless side carryings of network side load, then strategy sends message with charging rule functions to strategy and charge execution function, wherein comprises a network side load sign and a plurality of described mark;

When setting up carrying, if corresponding wireless side carrying of network side load, then strategy sends message with charging rule functions to strategy and charge execution function, wherein only comprises a network side load sign, or a network side load sign and a described mark.

10. service control method in the cordless communication network according to claim 7, it is characterized in that, described carrying end away from wireless side is when detecting the downlink service data bag, downlink service data flow template and local described mapping relations of preserving according to this packet find the corresponding network side carrying, professional corresponding mark is carried in this packet, and the network side load that this packet passes through to be found is transferred to described carrying end near wireless side;

The carrying end of described close wireless side is according to the network side load under the mark that carries in the described packet and this packet, the described mapping relations of preserving by this locality find corresponding wireless side carrying, and the wireless side carrying that this packet is passed through to be found is transferred to the corresponding mobile terminal.

11. service control method in the cordless communication network according to claim 10 is characterized in that, the packet that has described mark is in the network side transmission course, and described mark keeps non-compressed state.

12. service control method in the cordless communication network according to claim 10 is characterized in that, the carrying end of described close wireless side was removed the described mark in this packet before transmitting described packet by the wireless side carrying.

13. service control method in the cordless communication network according to claim 10, it is characterized in that, if described packet is the middle carrying end of process the process of the carrying end that is transferred to described close wireless side from described carrying end away from wireless side, then this carrying node should be arrived this data packet transmission the carrying end of this close wireless side away from the mapping relations between the carrying to the carrying of this carrying node and this carrying node to carrying end that should close wireless side of the carrying end of wireless side according to what preserve.

14. service control method in the cordless communication network according to claim 7, it is characterized in that, when described portable terminal need send the uplink business data bag, the described mapping relations of preserving according to uplink business data flow template and this portable terminal of this packet find corresponding wireless side carrying, the wireless side carrying that this packet is passed through to be found is transferred to described carrying end near wireless side, should carry according to the wireless side under this packet near the carrying end of wireless side, find the corresponding network side carrying by this near the described mapping relations in the carrying end of wireless side, the network side load that this packet is passed through to be found is transferred to described carrying end away from wireless side.

15. service control method in the cordless communication network according to claim 14, it is characterized in that, if described packet the process that is transferred to described carrying end away from wireless side from described carrying end near wireless side through middle carrying node, then this carrying node arrived this carrying end away from wireless side according to should extremely being somebody's turn to do away from the mapping relations between the carrying of the carrying end of wireless side near the carrying end of wireless side to the carrying of this carrying node and this carrying node of being preserved with this data packet transmission.

16. according to service control method in each described cordless communication network in the claim 7 to 15, it is characterized in that, when one of following situation or its combination in any take place when, in the relevant bearer end points, revise corresponding mapping relations, and described network side load and the carrying of described wireless side increased accordingly, delete or retouching operation:

In existing network side load, increase the value of a described mark;

The value of a described mark of deletion in existing network side load;

Change the pairing described network-side service quality of existing network side load; And,

Change the corresponding relation of existing business datum flow template and described mark.

17. service control method in the cordless communication network according to claim 16, it is characterized in that, the corresponding relation of existing business datum flow template of described change and described mark, comprise the pairing described mark value of this business datum flow template is changed to the pairing described mark value of another existing business datum flow template, and the pairing described mark value of business datum flow template is changed to value two kind situations all different with the pairing described mark value of all existing business datum flow templates.

18. according to service control method in each described cordless communication network in the claim 7 to 15, it is characterized in that, if need the carrying of existing described network side load of deletion and described wireless side, then corresponding mapping relations of deletion in the relevant bearer end points, and deletion corresponding network side carrying and wireless side carrying.

19. according to service control method in each described cordless communication network in the claim 5 to 15, it is characterized in that, if described carrying end away from wireless side is received the default bearer request of setting up that described portable terminal is initiated, then should set up corresponding network side carrying and wireless side carrying for this portable terminal away from the carrying end of wireless side, and the relevant business datum flow template of configuration.

20., it is characterized in that the value of described mark is corresponding with the business datum flow template according to service control method in each described cordless communication network in the claim 6 to 15.

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