CN1809217A - Forward compatible terminal access method in wireless network - Google Patents

Abstract

This invention relates to a connecting method for the forward compatible terminal in the wireless net, which includes the following steps: the terminal starts RRC connecting requirement, RNC establishes RRC connecting to report the information including the ability grade of the terminal information to RNC; the terminal starts the data operation requirement; the core net starts RAB indicating requirement to RNC; RNC starts the wireless chain re-allotting demand to NodeB and reports the ability grade of the terminal information to NodeB to establish the information channel; then judging terminal ability grade and the network device ability and the usable wireless resource condition in the area with the terminal to allot the responding wireless resource for the terminal, then the terminal is connected into the wireless net. This invention uses the present standard flow to solve the problem that HSDPA terminal with high ability grade in the future HSDPA network is refused to connect in, which makes the present HSDPA network allow all the HSDPA terminals that arise afterwards.

Description

The cut-in method of forward compatible terminal in the wireless network

Technical field

The present invention relates to a kind of cut-in method of terminal, relate in particular to the cut-in method of forward compatible terminal in a kind of wireless network; Belong to wireless communication technology field.

Background technology

Packet data service generally has following characteristics: sudden; Can tolerate the shake of time delay and time delay; To the mistake sensitivity; The forward direction demand is with oppositely demand is asymmetric; Service quality (QoS) grade is many; The target of pursuing is the throughput-maximized of wireless network system.In order to solve the contradiction between covering of wireless network system and the capacity well, eliminate and disturb, promote the wireless network power system capacity, various 3G (Third Generation) Moblie technology (3G) standard has all proposed specific solution to grouping access service, to improve the transmittability and the performance of Packet data service.Wherein Wideband Code Division Multiple Access (WCDMA) (WCDMA) system adopts high speed downlink packet to insert (HSDPA) technology, can improve the transmittability and the performance of Packet data service.

At present, R99 (Release 99 versions), R4 (Release version), R5 a plurality of versions such as (Release 5 versions) are arranged in the third generation collaborative project (3GPP), HSDPA is that (3GPP) is based on R99, R4, and in the R5 version on satisfying/the asymmetric demand of downstream data traffic, and proposition improves a kind of new technology of system descending performance, it can bring up to 14.4Mbps to the downstream data traffic peak rate under the situation that does not change the WCDMA wireless network architecture of having built.This technology is a kind of important technology that the WCDMA networking later stage improves downlink capacity and data service rate.

Stipulate the HSDPA terminal type that to support among the 3GPP agreement TS25.306V580, be divided into 1-12 type (Category).For early stage HSDPA commercial network, because the restriction of HSDPA network equipment ability, can not all support the HSDPA terminal of all 1-12 Category of stipulating among the 3GPP agreement TS25.306 V580 to insert.For unsupported HSDPA terminal type in the 1-12 type, the HSDPA network will be refused the access of this HSDPA terminal.

Continuous development along with terminal, the terminal of more Category will come into the market, and because the updating speed of early stage HSDPA commercial network can not in time follow up the paces that terminal capability promotes, the terminal that causes the mobile subscriber to use, when being the unsupported terminal type of early stage HSDPA network institute, this user can't use the HSDPA business.

In order to solve above-mentioned technical problem, existing HSDPA network using technical scheme as shown in Figure 1:

When terminal is initiated Radio Resource control (RRC) connection request, after radio network controller (RNC) receives this connection request, set up RRC and connect; After finishing this RRC connection, the information that terminal will comprise this terminal capability grade reports RNC; Initiate to comprise the type of service request and the data service request of rate information when this terminal, core net is initiated RAB (RAB) assignment to wireless network; After RNC is receiving RAB assignment request, initiate the radio link reconfiguration instruction according to the data service request to base station (NodeB), and the ability rating information of terminal is reported NodeB, set up high speed descending sharing channel (HS-DSCH) channel; Determining whether inserting the terminal of this ability rating by the Radio Resource ability rating of supporting according to HSDPA network self in NodeB, if allow to insert, then is this terminal distribution Radio Resource.

There is following deficiency in above-mentioned HSDPA commercial network solution: if when judging the ability rating of terminal surpassing the Radio Resource ability that HSDPA network self supports in NodeB, then NodeB thinks that this terminal is high capable terminal, the HSDPA network will be refused to insert this high capable terminal, thereby directly influence uses high ability level terminal use's business to use.

Summary of the invention

The objective of the invention is deficiency, proposed the cut-in method of forward compatible terminal in a kind of wireless network, solve the problem that high ability level HSDPA terminal that following HSDPA network will occur is rejected access at existing HSDPA commercial network solution.Existing available radio resources situation in ability of supporting according to the ability rating of terminal and the network equipment and the sub-district, terminal place, the high ability level HSDPA terminal distribution corresponding radio resource of NodeB for inserting.

To achieve these goals, the invention provides the cut-in method of forward compatible terminal in a kind of wireless network, may further comprise the steps:

Step 1: the terminal in the wireless network is initiated the RRC connection request, and the RNC under this terminal sets up RRC according to connection request and connects; When this terminal and this RNC finished RRC and be connected, the information that will comprise the ability rating of this terminal reported RNC;

Step 2: terminal is initiated the data service request after the type information of service request and rate information being encapsulated among the data service request; Core net is initiated RAB assignment request to RNC;

Step 3:RNC is after receiving RAB assignment request, and the NodeB under this terminal in wireless network initiates the radio link reconfiguration instruction according to the data service request, and the ability rating information of this terminal is reported NodeB, sets up channel;

Step 4: judge that in this NodeB Radio Resource ability that wireless network self supports whether greater than the ability rating of this terminal, is, then execution in step 5, and not, then execution in step 6;

Step 5: after terminal was connected to wireless network, according to available radio resources in the ability rating of this terminal and its sub-district, place, wireless network was this terminal distribution Radio Resource by NodeB, and execution in step 7 then;

Step 6: after terminal was connected to wireless network, according to available radio resources in the ability rating of this terminal and network equipment ability and this sub-district, terminal place, wireless network was this terminal distribution Radio Resource by NodeB;

Step 7: finish this terminal and insert wireless network.

In sum, the present invention has following advantage:

Need not the standard signaling process of existing HSDPA network is done any change, utilize existing normal process, improve the processing mode of NodeB, solved the problem that high ability level HSDPA terminal that following HSDPA network will occur is rejected access, made the terminal of all HSDPA terminal types of the follow-up appearance of existing HSDPA network forward compatibility; Be the terminal distribution corresponding radio resource according to the ability rating of terminal and the ability and the existing Radio Resource situation of network equipment support simultaneously.

Below by the drawings and specific embodiments, technical scheme of the present invention is described in further detail.

Description of drawings

Fig. 1 is the flow chart of existing HSDPA Networking Solutions ﹠ provisioned;

Fig. 2 is the principle flow chart of the cut-in method of forward compatible terminal in the wireless network of the present invention;

Fig. 3 is the signaling process figure of a specific embodiment HSDPA Networking Solutions ﹠ provisioned of the present invention;

Fig. 4 is the schematic diagram of another specific embodiment HSDPA Networking Solutions ﹠ provisioned of the present invention.

Embodiment

Figure 2 shows that the principle flow chart of the cut-in method of forward compatible terminal in the wireless network of the present invention, this flow chart may further comprise the steps:

Step 101: the terminal in the wireless network is initiated the RRC connection request, and the RNC under this terminal sets up RRC according to connection request and connects; When this terminal and this RNC finished RRC and be connected, the information that will comprise the ability rating of this terminal reported RNC;

Step 102: terminal is initiated the data service request after the type information of service request and rate information being encapsulated among the data service request; Core net is initiated RAB assignment request to RNC;

Step 103:RNC is after receiving RAB assignment request, and the NodeB under this terminal in wireless network initiates the radio link reconfiguration instruction according to the data service request, and the ability rating information of this terminal is reported NodeB, sets up channel;

Step 104: judge that in this NodeB Radio Resource ability that wireless network self supports whether greater than the ability rating of this terminal, is, then execution in step 105, and not, then execution in step 106;

Step 105: after terminal was connected to wireless network, according to available radio resources in the ability rating of this terminal and its sub-district, place, wireless network was this terminal distribution Radio Resource by NodeB, and execution in step 107 then;

Step 106: after terminal was connected to wireless network, according to available radio resources in the ability rating of this terminal and network equipment ability and this sub-district, terminal place, wireless network was this terminal distribution Radio Resource by NodeB;

Step 107: finish this terminal and insert wireless network.

Owing to come to be the terminal distribution resource by the Radio Resource ability rating of in NodeB, supporting in the above-mentioned steps 104 according to wireless network self, and the access of permission all types terminal (comprising high ability level terminal), therefore, the terminal that adopts the cut-in method of forward compatible terminal in this wireless network can not refuse high ability level inserts wireless network; Wireless network is this terminal distribution Radio Resource according to available radio resources in this terminal capability grade and network equipment ability and the sub-district, terminal place; Reasonably the Radio Resource of scheduling wireless network makes the terminal use of high ability level enjoy faster data transmission speed.

It when wireless network is the HSDPA network preferred embodiment of the present invention, be illustrated in figure 3 as the signaling process figure of this embodiment HSDPA Networking Solutions ﹠ provisioned, based on the method principle flow chart that forward compatible terminal in the above-mentioned wireless network shown in Figure 2 inserts, the signaling process of this HSDPA Networking Solutions ﹠ provisioned mainly may further comprise the steps:

Step 201: the radio network controller (RNC) 3 of the terminal UE 1 in the wireless network in the HSDPA network initiated the RRC connection request;

Step 202: radio network controller (RNC) 3 is set up RRC according to connection request and is connected;

Step 203: after being encapsulated in the information of the ability rating of terminal UE 1 in the RRC connection setup complete message, this terminal UE 1 is initiated the RRC connection setup complete message to radio network controller (RNC) 3, and this RRC connection setup complete message is reported this radio network controller (RNC) 3;

Step 204: terminal UE 1 is initiated the data service request in up link to radio network controller (RNC) 3;

Step 205: radio network controller (RNC) 3 is to core net CN4 reported data service request;

Step 206: core net CN4 sends the RAB assignment request to radio network controller (RNC) 3;

Step 207: after being encapsulated in the information of the ability rating of terminal UE 1 in the radio link reconfiguration message, the base station node B 2 of radio network controller (RNC) 3 in the HSDPA network initiated radio link reconfiguration message, the ability rating information of terminal UE 1 is reported this base station node B 2, set up the HS-DSCH channel;

Step 208: terminal UE 1 is carried base station node B 2 assigned radio resource on down link.

Be illustrated in figure 4 as the schematic diagram of another specific embodiment HSDPA Networking Solutions ﹠ provisioned of the present invention, comprise in this schematic diagram:

Terminal UE 1; Base station node B 1, NodeB2, NodeB3, NodeB4 are respectively 21,22,23,24; Comprise three sub-districts in each base station, the sub-district that comprises among the NodeB1 is respectively 211-213, and the sub-district that comprises among the NodeB2 is respectively 221-223, and the sub-district that comprises among the NodeB3 is respectively 231-233, and the sub-district that comprises among the NodeB4 is respectively 241-243; Radio network controller (RNC) 1, RNC2, be respectively 31,32, wherein, radio network controller (RNC) 1 control base station node B 1, NodeB2, radio network controller (RNC) 2 control base station node B 3, NodeB4, terminal UE 1 belongs to the sub-district 221 that base station node B 1 comprises, and base station node B 1 and radio network controller (RNC) 1 are base station and the radio network controllers under the terminal UE 1; Core net CN4.

Wherein: the ability rating of UE1 is 10 among this embodiment, 15 code words of maximum support; Because the terminal capability grade that the radio network controller (RNC) 1 under base station node B 1 under the terminal UE 1 and the terminal UE 1 is supported is 1-6 and 11,12, support that maximum number of codewords is 5, and terminal UE 1 belongs to the sub-district 221 that base station node B 1 comprises, therefore, the ability of network equipment support is 5 code words of sub-district 221 maximum supports under the terminal UE 1; Owing to also inserted the multi-section terminal simultaneously in the sub-district 221, therefore, sub-district 221 is actual can be 4 code words for terminal UE 1 assigned radio resource number.

Based on the principle flow chart of forward compatible terminal cut-in method in the above-mentioned wireless network shown in Figure 2, in conjunction with the signaling process figure of above-mentioned HSDPA Networking Solutions ﹠ provisioned of the present invention shown in Figure 3, the embodiment shown in this schematic diagram shown in Figure 3 is specially:

Terminal UE 1 radio network controller (RNC) under this terminal UE 11 in the HSDPA network is initiated the RRC connection request, and this radio network controller (RNC) 1 in the HSDPA network is set up RRC according to this request and connected; When terminal UE 1 was finished this RRC connection, the ability rating that will comprise this terminal UE 1 was that 10 information (wherein, the information of this terminal UE 1 ability rating is included in the RRC connection setup complete message) reports radio network controller (RNC) 1;

Terminal UE 1 is initiated data service request (type information and the rate information that comprise service request in this data service request) in up link to radio network controller (RNC) 3, and core net CN4 initiates the RAB assignment to the HSDPA network;

Radio network controller (RNC) 3 is after receiving this RAB assignment message, according to described data service request, base station node B 1 in the HSDPA network under the terminal UE 1 is initiated the radio link reconfiguration instruction, and be that 10 information reports this base station node B 1 (wherein with the ability rating of terminal UE 1, radio network controller (RNC) 3 is by radio link reconfiguration message the ability rating information of terminal to be reported this base station node B 1), set up the HS-DSCH channel;

Judge in the NodeB scheduler in base station node B 1 that Radio Resource ability that the HSDPA network can provide is whether greater than the ability rating of terminal UE 1, be, UE1 then accesses terminal, according to available radio resources in the ability rating of terminal UE 1 and the sub-district, terminal place, the NodeB scheduler is terminal UE 1 distributing radio resource, finishes the access to this terminal; Not, then access terminal UE1 (at this moment, this terminal UE 1 is high ability level terminal), according to available radio resources in the ability rating of terminal UE 1 and network equipment ability and the sub-district, terminal place, the NodeB scheduler is terminal UE 1 distributing radio resource, because the NodeB scheduler is that terminal UE 1 distributing radio resource is: the minimum value of obtaining available radio resources in described terminal capability grade and network equipment ability and the sub-district, terminal place, be that the NodeB scheduler is that the number of codewords that terminal UE 1 is distributed is: the code word number of distribution=min{UE1 ability rating, the ability that the network equipment is supported, the HSDPA code word that the sub-district can be used }, and according to described in above-mentioned Fig. 4 schematic diagram, the ability rating of UE1 is 10 among this embodiment, 15 code words of maximum support; The ability of network equipment support is 5 code words of sub-district 221 maximum supports under the terminal UE 1; Sub-district 221 is actual can be 4 code words for terminal UE 1 assigned radio resource number, therefore the NodeB scheduler is that terminal UE 1 assigned radio resource is 4 code words, terminal UE 1 is carried base station node B 1 assigned radio resource on down link, finish the forward compatibility of this high ability level terminal is inserted.

It should be noted last that, above embodiment is only unrestricted in order to technical scheme of the present invention to be described, although the present invention is had been described in detail with reference to preferred embodiment, those of ordinary skill in the art is to be understood that, can make amendment or be equal to replacement technical scheme of the present invention, and not break away from the spirit and scope of technical solution of the present invention.

Claims (6)

1, the cut-in method of forward compatible terminal in a kind of wireless network is characterized in that, may further comprise the steps:

Step 1: the terminal in the wireless network is initiated the RRC connection request, and the RNC under the described terminal sets up RRC according to described connection request and connects; When described terminal and described RNC finished described RRC and be connected, the information that will comprise the ability rating of described terminal reported described RNC;

Step 2: described terminal is initiated this data service request after being encapsulated in the type information of service request and rate information among the data service request; Core net is initiated RAB assignment request to described RNC;

Step 3: described RNC is after receiving described RAB assignment request, initiate the radio link reconfiguration instruction according to the NodeB of described data service request under terminal described in the described wireless network, and the ability rating information of described terminal reported described NodeB, set up channel;

Step 4: judge that in described NodeB Radio Resource ability that described wireless network self supports whether greater than the grade of described terminal capability, is, then execution in step 5, and not, then execution in step 6;

Step 5: after described terminal was connected to wireless network, according to available radio resources in described terminal capability grade and the sub-district, described terminal place, wireless network was described terminal distribution Radio Resource by described NodeB, and execution in step 7 then;

Step 6: after described terminal was connected to wireless network, according to available radio resources in described terminal capability grade and network equipment ability and the sub-district, described terminal place, wireless network was described terminal distribution Radio Resource by described NodeB;

Step 7: finish described terminal and insert wireless network.

2, the cut-in method of forward compatible terminal in the wireless network according to claim 1, it is characterized in that, in the described step 1, the information that described terminal will comprise the ability rating of described terminal reports described RNC concrete steps to be: described terminal reports described RNC with this RRC connection setup complete message after being encapsulated in the information of described terminal capability grade in the RRC connection setup complete message.

3, the cut-in method of forward compatible terminal in the wireless network according to claim 1, it is characterized in that, in the described step 3, described RNC reports the concrete steps of described NodeB to be the ability rating information of described terminal: described RNC reports described NodeB with this radio link reconfiguration message after being encapsulated in the information of described terminal capability grade in the radio link reconfiguration message.

4, the cut-in method of forward compatible terminal in the wireless network according to claim 1, it is characterized in that described wireless network is that described terminal distribution Radio Resource is by described NodeB: wireless network is described terminal distribution Radio Resource by the NodeB scheduler among the described NodeB.

5, the cut-in method of forward compatible terminal in the wireless network according to claim 4, it is characterized in that, wireless network is that described terminal distribution Radio Resource is to be the corresponding number of codewords of described terminal configuration by described NodeB in the described step 5, and the value of this number of codewords is: minimum numerical value between the available code word number in described terminal capability grade and the sub-district, described terminal place.

6, the cut-in method of forward compatible terminal in the wireless network according to claim 4, it is characterized in that, wireless network is that described terminal distribution Radio Resource is to be the corresponding number of codewords of described terminal configuration by described NodeB in the described step 6, and the value of this number of codewords is: minimum numerical value between the available code word number in described terminal capability grade and network equipment ability and the sub-district, described terminal place.

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