WO2010145507A1

WO2010145507A1 - Method, apparatus and system for avoiding transmission conflict of interfaces

Info

Publication number: WO2010145507A1
Application number: PCT/CN2010/073844
Authority: WO
Inventors: 赵亚利; 鲍炜
Original assignee: 大唐移动通信设备有限公司
Priority date: 2009-06-15
Filing date: 2010-06-11
Publication date: 2010-12-23
Also published as: CN101925189A; CN101925118B; CN101925118A

Abstract

A method, apparatus and system for avoiding transmission conflict of interfaces are provided in the embodiments of the present invention, and the method includes the following steps: A relay user equipment acquires from a relay node the subframe configuration information of the relay node in a Un interface; the relay user equipment determines whether a transmission conflict between the Un interface and a Uu interface is generated at the uplink transmission time according to the subframe configuration information, and the Uu interface is used for the data transmission between the user equipment and the relay node; if a transmission conflict between the Un interface and the Uu interface is generated at the uplink transmission time, the relay user equipment updates the uplink transmission time according to the timing relationship on the access link corresponding to the Uu interface. With the embodiments of the present invention, the power consumption of the relay user equipment and the access link interference with the adjacent cells and relay links are reduced.

Description

The method, device and system of rabbit connection require the following

( ) Submitted in the 2009 6 15 to the China Council, 5 200910087258.9, "Methods, Devices and Systems of Rabbit Interfaces"

(2) Submitted to the Zhongli Bureau in 2009 7 7

200910158348.2, "Methods, devices and systems for rabbit interfaces"

(3) submitted to the Zhongli Bureau on 2010 2 8

201010106729.9, "In the method, device and system of the rabbit interface", the entire contents of which are incorporated herein by reference. 5 wood fields

This relates to the field of communication wood, and in particular to methods, devices and systems for rabbit interfaces. Background

In B3G (Beyo d3dGe eaot ob eCo ca o Sy e, three-generation communication system) and TE- (o gTe Evo o Adva ced, high-tech) communication systems, the system will provide higher speed and small throughput, Need more support. Since the unallocated band below 2G z is very small, it can only be found on a higher level, for example, above 3G z5. However, the higher, the more

The more, the coverage, the more coverage that needs to be deployed, and the same cost.

To solve the same cost in the system, each group will introduce (eay ode, middle) into the cellular system, each R direction Each user has an increased coverage. As shown in Figure 1, the communication is shown with the deployment, each of which can be RR 2 and R 3 to E (e Eq pe , user each),

R can be covered by a small margin, and R 2 can increase the coverage capacity, and R 3 can solve the communication.

In the communication of R, the R phase is connected (cce) and medium (ac ha), which is connected to the same element of E R , the same element of each R , the same interface of E R , and the same interface of each R . In addition, the communication of R is the same as the E component of ac o E and Reay E, and ac o E accepts each directly provided, and Reay E accepts each provided by R.

Due to the work and force of R and the internal (-ba), that is, R cannot operate in the same frequency as the receiving frequency, and each R is the same as each ac o E, and R Reay E uses the same frequency resource. . Therefore, the communication of the R can be divided into downlink, downlink, uplink, and uplink. The downlink and R are respectively connected to ac o E and Reay E, and the downstream is mixed with R and ac o E, and the uplink is connected to ac o E and Reay E respectively to the respective R and the upstream ac o E and R directions. Each.

The communication of R is compatible with Re-8 E, that is, Reay E and ac o E have the same, and the BSF (caBoadca S geFeq e cy ewo) is the same. As shown in 2, the BSF sub is indicated. The configuration of R is BSF, and there are several d, 2 or 3) OF (B hogo a Feq e cy vo pex , ) in the BSF of R. Fusi's down control order, in the downward control order to Reay E. In the upstream mix, R to each, Reay E does not mix R to any upstream in the downlink, R receives not in each, R does not go to Reay E, each

The neutralization control of R causes the number in the BSF sub.

However, in the ARQ (yb dA oRepea eq e, mixed self-reassessment) system, the Reay E ARQ sends the uplink to R on the way, and R sends the uplink or downlink AC to the middle (c owedge). e , ) / AC ( ega veAc owedg e , error pass), then connect to the same household, R receives the uplink from Reay E due to the characteristics of its own work.

In the F ( eq e cy vo pex, ) system, the sub-configuration BSF sub-, R can send the upstream AC reverse and ga (p ga , uplink grant) to the Reay E in the sub-control order, the number of sub-numbers Receive each downlink and control information, control the upstream AC of the information, the age of the interface (the ow age), and the g of the interface. ARQ, R-E needs g to send uplink to R in sub 4, and R may also reverse or uplink to each downstream AC on the middle. Since R is working, it cannot be the same. Therefore, if R sends uplink or control information to each, R cannot receive the uplink of Reay E, that is, the uplink on the road.

In the up, 3 is shown. Due to the uplink ARQ RTT 8 on the road, the uplink synchronization revaluation may also be in the middle of the uplink, 4 is shown.

According to the current E (o gTe Evo o, system), the situation of R itself can be Reay E in the child Upstream, therefore, R can re-evaluate the uplink to Reay E AC and Reay E ARQ without receiving an uplink that is not from Reay E.

In the present, the existing wood has at least the existing wood, and the upper leg leads to the interface and the interface. Therefore, the R method interface receives the uplink that is not from Reay E, and the Reay E needs the ARQ to R multiple times. , caused unnecessary power consumption of Reay E, and the same.

Content

This method provides a method, device and system for the rabbit interface, which reduces the power consumption and phase of the user.

of .

This paper proposes a rabbit interface method, the following steps

The user in the middle takes the sub-configuration information of the middle interface, and the interface is in the same number in the middle

The user, each of the sub-configuration information is in the uplink

The interface interface is the same as the user, and the interface is in the user.

If the interface of the uplink interface is the same as the user, the uplink of the interface of the user is updated.

I have recently proposed the users,

, in the sub-configuration information of the interface in the middle, the interface is the same number in the middle The sub-configuration information described in the root is the same as the port interface in the uplink interface, and the number of the interfaces in the user is the same

Updating, wherein the interface on the uplink interface is the same as the user, and the interface has recently proposed a rabbit interface and an interface.

Each of the sub-configuration information of the interface, the interface is in the same number

Receiving sub-configuration information of the interface that is not from the respective interfaces, and sending sub-configuration information of the interface to the user

And in the middle of the user, the sub-configuration information of the interface is taken in the middle, and the sub-configuration information is the same as the interface of the uplink interface, and the interface is described by the user. The number of fish in the same port, the interface on the uplink interface is the same as the household

, the interface of the interface is updated on the above.

The wood has the following configuration information of each user in the uplink interface, whether it is a household or not, and if it is uplink, the unnecessary power consumption of the user in the middle of the user is reduced, and the phase is small and medium. Description

1 Existing communication in the wood and the deployment

2 Schematic representation of existing BSF sub-wood 3 Upward indication of the uplink in the existing wooden middle road

4 The upper row in the uplink synchronization revaluation on the existing wooden bridge is indicated

5 Existing AR in the wood system F

The flow of the rabbit interface in the 6-powered version of the rabbit interface

The illustration of the rabbit interface in the 8 ninth book

The other of the 10 users, the various instructions of the rabbit interface

Hugh way

The following combines and , the rest of the steps described

The wood provided in this section is that R is the sub-configuration information of the user in the middle, and the user's nuclear configuration information is the same as the upstream interface and interface. If the uplink interface and the interface are not in the same household, the users in the uplink are on the uplink interface and the interface are in the same household, and the users are not in the uplink, but in the uplink interface and the interface are the same. With this. This is in the communication system using AR and system. AR and system are self-wooding, receiving in excess of their own error correction capability

Number, self-return, and measurement It is not sensitive and improves reliability.

As shown in Figure 5, the ARQ in the FD system indicates that the next step is to teach the sub-message to the terminal. The terminal receives the AC in each of the +4 mesons of the ACK AC, and the downlink teaches, and the nuclear downlink teaching is submitted to the higher, otherwise in the + 8 meson down teaching reassessment.

In the T (evo pex,) system, since the system supports multiple (p, up-going) (ow, downlink-health) configurations, the descending sub-g and the ga's PSC (hy cp Sh edCha e) are physically uplink shared. The same timing is different in different configurations. At the same time, the timing of the downlink sub-use used by the downlink teaching and the uplink sub-use of the core downlink teaching are different under different configurations.

Table 1 shows the configuration in the T system to indicate the functions of different sub-nodes in different configurations. Among them, sub, for the descendant, for the descendant, S for the special sub.

1 T system configuration

J / line special b a e be

Configuration Period 0 2 4 6 7 9

0 5 S S

5 S S

2 5 S S

10 S

4 10 S

10 S

6 5 SS Table 2 shows the same timing as the P SC, The descendant of ga is the same as the sub-P of ga, where the descendant of ga, the sub+ of ga, and the content of 2 are the same.

2 ga and P SC are the same

b a e be

0 2 4 6 7 9

0 4 6 4 6

6 4 6 4

2 4 4

4 4 4

4

6 7 7 7 7 As shown in Table 3, the downlink AC is reversed, indicating the downlink and core downlink used in the downlink.

The AC is used in the same way as the uplink, where the AC is in the uplink, and the AC is in the downstream.

- 2 of the descendant, the content of 3 is 2

3 AC reverse

/ b a e be

0 2 4 6 7 9

0 6 4 6 4

6 4 6 4

2 4 4

4 4 4

4 4 4 4

6 7 7 7 7 The following is a clear and complete description of the wood in this book. However, this part is described rather than the whole. In the present invention, all other woods in the field without the creation of nature are based on this.

6 shows the method flow of the rabbit interface in the force, in each user's system, among them, the middle and the middle interface,

User user interface , method following steps

In step 601, the sub-configuration information of the interface in each user.

The sub-configuration information of the sub-configuration information interface.

Before the sub-configuration information of the interface is taken by the user in the above, the sub-configuration information of the intermediate-interface in the near-mentioned is passed. The sub-configuration information is passed to the user, the uplink sub-configuration information of the sub-configuration information interface, and/or the downlink sub-configuration information of the interface.

In the foregoing, the sub-configuration information of the interface is passed, and the uplink sub-configuration information of the interface is passed in the manner described above.

In the method, the downlink sub-configuration information of the interface is used, and the downlink sub-configuration information of the interface and the AR of the interface are

The uplink sub-configuration information of the interface.

In the manner, the station sends the downlink sub-configuration information of the interface to the same The uplink sub-location information is as described.

In the above manner, the sub-configuration information is passed to the user, and the uplink sub-configuration information of the interface is sent to the user in the manner of the middle or the mode.

In the method, the downlink sub-configuration information of the interface is sent to the user in the middle, and the downlink sub-location information of each interface of the middle user and the uplink sub-configuration information of the ARQ timing interface of the interface are The ARQ timing of the interface is pre-configured by each of the users in the middle pass or by the system. In the manner, the uplink sub-configuration information of the interface is used by the user in the manner of the user.

The downstream sub-interface of the above interface uses the BSF sub-. The sub-sub-configuration information of the interface includes at least the location of the BSF sub-interface of the interface and the period of the meta-configured BSF sub-element. The uplink sub-configuration information of the interface includes the sub-location of the uplink sub-interface of the interface, indicating the location and period of the uplink sub-interface of the interface.

In the above manner, when the uplink sub-configuration information of the interface is the same as the user in the middle, the uplink sub-configuration information B (ow Bac ha, downlink guard path) sub-instruction information of the interface.

In the above manner, when the uplink sub-configuration information of the interface is transmitted to the user, the uplink sub-configuration information B (p Bac ha , uplink guard) sub-instruction information of the interface.

The medium mode (that is, the B sub-interface) transmits the uplink sub-configuration information of the interface to the user in the middle, and the core sub-configuration information of the user is used for the common BS, and may be used in the uplink sub-configuration information. Carrying indication information, where the indication information indicates that the B sub-instruction information is downlinked on the interface, instead of using In BS each.

Step 602, where the user each child configuration information is on the uplink

The interface interface is the same as the user, and it is on the uplink.

If the interface interface is not the same as the user, go to step 603. If the 5 uplink interface is the same as the user, go to step 604.

If the uplink sub-configuration information on each interface of the user is in the mode, the sub-configuration information of the user can be sub-configured, and the location information of the downlink sub-interface of the information interface can be

The downlink sub-configuration information of the interface and the uplink sub-configuration information of the AR interface can be obtained according to the location of the uplink sub-configuration information of the user interface. The users are each in the BSF subdirection

a g e and / or ga . The users in the middle receive 5 ga that are not in the middle. The uplink sub-configuration information on the interface and the interface

ARQ predicts whether the uplink of the interface on the indicated sub-interface and the uplink of the interface.

In step 603, the users are each uplinked in the uplink.

0 If the uplink interface is not the same as the user, the user will go up in the uplink and send the uplink to the middle.

In step 604, the update of the connection of each interface of the user is uplinked.

5 If the uplink interface is the same as the user, the update of the interface of the user interface will be uplinked, and the uplink ARQRTT (Ro dT pT e, round trip) will be executed. Step 602 is performed.

The interface interface is the same as whether it is a household. ARQRTT, the same as the same two times. Due to the downlink ARQ phase, the uplink of the synchronous ARQ phase can be ignored regardless of the ARQ RTT, and Dange is required to follow the ARQRTT.

Hugh, in the F system, the uplink ARQ RTT 8 . In the T system, the uplink ARQRTT is different in different configurations. In the configuration, the uplink ARQRTT 35 is configured in 1 to 5, the uplink ARQRTT is configured in 6 , and the uplink ARQRTT 6 is configured.

The wood has the following interface information of the uplink time of the user, and whether the user interface is the same as the user, and if the user is in the uplink, the unnecessary power consumption of the user in the middle of the user is reduced, and the phase is small and medium.

The method of providing the rabbit interface and the interface is provided in the above, and the following description will be combined with the above-mentioned method of the Hugh object.

The flow shown in Figure 6 shows the flow of the rabbit interface under this break.

Step 701: The sub-configuration information of each interface is passed. In the RRC (Rado Re o ce Co o ) sub-configuration on the interface, if the uplink sub-configuration information of the interface is connected, the RRC configuration information only includes the downlink sub-configuration information of the interface. The downlink sub-interface of the interface uses the BSF sub-subject, so the downlink sub-configuration information of the interface contains at least the BSF sub-interface downlink.

The location of the BSF sub-element and the regular BS sub-phase may be close to the uplink sub-configuration information of the egress sub-indication interface, and the RRC configuration information includes the downlink sub-configuration of the interface. The information needs to include the uplink sub-configuration information of the interface. The uplink sub-configuration information of the interface needs to include the interface. The child position of the child break can be sent to the middle user in a downward manner, that is, the step 702 is instructed to send the sub-configuration information of the interface to the user.

In the next step, the sub-configuration information of the interface in step 701, if the user is in the uplink sub-mode of the interface, only the downlink sub-configuration information of the interface or the user sent by the friend is required. Otherwise, only the interface needs to be The uplink sub-configuration information is either passed to the user.

Step 703, where the user sub-configuration information is on the uplink

The interface interface is the same as the user, and it is on the uplink.

If the interface interface is not the same as the user, go to step 704. If the user is in the uplink interface, go to step 705.

If the uplink sub-configuration information on the interface of the user is in the mode, the sub-configuration information of the user can be configured, and the downlink sub-location information of the information interface can be configured, and the downlink sub-configuration information of the user interface and the uplink of the ARQ interface can be configured. In the sub-configuration information, the uplink sub-configuration information of each interface of the user in the mode is in accordance with the location of the pass. The user is in each of the downstream directions of the interface

a g e and / or g a , the user receives each of the g sub-configuration information and the interface

In step 704, the users are each uplinked in the uplink.

If the uplink interface is the same as the no-home interface, the user is in the uplink sub-interface indicated by ga. Upward, send the uplink to the middle.

In step 705, the user increments the pre-number by the number of times.

If the upstream interface is the same as the household, the user will increase the pre-value by the number of times, and the estimated number is equal to the number of revaluation of the same number.

It should be noted that the value may be 1, or may be other values. In step 706, the maximum number of times the user's number of times is greater than the maximum number of times, and the maximum number of times the number of times is greater than the maximum number of times, the maximum number of times the number of times is not greater than Then execute step 708

Among them, the maximum number of times can be fixed, or it can be repaired, and the maximum number of times is not fixed.

Step 707, in the uplink mode A (Ac owedge ode, mode), in the user R C (Rado Co o, control) in the uplink.

In the case of Hugh, the number of times is greater than the maximum number of times. The users in the medium are no longer in the physical uplink, the uplink mode A, and the R C R C revaluation of the other modes of the uplink, and no R C revaluation.

In step 708, the update of the interface of each user interface is uplinked.

If the maximum number of times is less than the maximum number of times, then the update of the interface of the user interface will be uplinked, and the ARQRTT will be uplinked. Step 703 is executed, and the updated uplink interface is the same as the user.

The explanation is as follows, the following description of the above rabbits combined with Hugh. If the uplink sub-interface of the interface is Figure 8, the rabbit interface and interface in the force

In the indication, the users are re-evaluated in the sub-interfaces, and the uplinks of the sub-interfaces and interfaces may be predicted. Therefore, the users each terminate the second re-evaluation, and predict whether the sub-interfaces and interfaces of the ARTTT are in the household. Health, if you do not live, then the third revaluation in child 16.

Since the synchronous ARQ is used, the user in the middle of the rabbit does not send the uplink, and the AC AC may be reversed. If the ACK AC received by each ARQ of the user is an undesired uplink, the ACK AC can be ignored.

It should be noted that this method may require the sequence of steps.

The wood has the following sub-configuration information of the user in the uplink interface, whether it is a household or not, and if it is uplink, ignoring the uplink ACK AC, the maximum number of times is greater than the number of times, and the user is not in the middle of the user. The necessary power consumption, reducing the phase and the small phase.

As shown in Figure 9, the user's instructions in each of the users are in the middle, middle, and middle users. Among them, each interface, the middle user, each interface, the user

810, in the middle of the sub-configuration information of the interface.

The sub-configuration information refers to the uplink sub-configuration information of the interface.

Ht, the above 810, the uplink sub-configuration information of the middle interface and/or the downlink sub-configuration information of the interface.

The above 810, receiving the connection in an OR manner Upstream sub-configuration information,

When the mode receives the uplink sub-configuration information of the interface, the downlink sub-configuration information of the interface, the downlink sub-location information of the interface, and the ARQ timing of the interface are received or received.

The uplink sub-configuration information of the interface, where the ARQ timing of the interface is pre-configured by the user or the system in the middle of the

When receiving the uplink sub-configuration information of the interface, the mode receives the uplink sub-configuration information of the interface in an OR manner.

The uplink sub-configuration information of the interface is either or .

In the following way, the downlink sub-configuration information of the interface in the pass-through interface can be used as follows: the downlink sub-configuration information of the interface and the uplink sub-configuration information of the ARQ timing interface of the interface.

In the case of the downlink sub-location information of the interface in the communication interface, the uplink sub-location information of the interface in the communication is required.

In the same way, there are also ways to configure the uplink sub-configuration information of each interface of the user in the middle.

In the following manner, the downlink sub-configuration information of the interface can be used in the following manner, or the downlink sub-configuration information of the interface can be used to pass the downlink sub-location information of the user and the ARQ timing interface of the interface. Upstream sub-configuration information. The ARQ timing of the interface can be pre-configured by the user in the middle.

In the case of the uplink sub-configuration information of the interface, the uplink sub-configuration information of each interface of the user only needs to be used in the mode.

The downstream sub-interface of the interface uses the BSF sub, so the lower part of the interface The configuration information includes at least the location of the BSF sub-segment in the downlink and the period of the BSF sub-element in the configuration, and the information is configured in the middle interface and the user broadcasts, and the conventional BS sub-phase Recently, it is necessary to lead the instructions.

The uplink sub-configuration information of the interface needs to include the sub-location of the uplink sub-interface of the interface, which can be in the downlink mode, that is, the position of the uplink of the interface in the coarse and the period.

The above 810 is the part of the sub-configuration information of the interface in the user mentioned above, and may be a combination of software, hardware or a combination.

820, Sub-configuration information of Yugen 810 In the uplink] interface interface is the same as the user.

In the case of the uplink sub-configuration information on each interface of the user in the mode, the sub-configuration information of the user can be configured, and the sub-location information of the sub-interface of the information interface can be sub-configured, and the downlink sub-configuration information and ARQ of each user interface can be configured.

The uplink sub-configuration information of the interface can be used according to the location of the uplink sub-configuration information of each interface of the user. The users are each in the downstream direction of the interface.

a g e and / or ga . The user can receive the uplink sub-configuration information on the interface and the ARQ of the interface, and predict whether the uplink of the interface on the ga indication is the uplink of the interface and the uplink of the interface.

The above 820 is the user configuration information in the above, and the uplink interface is the same as the

The part can be a combination of software, hardware or a combination of software.

830, at 820, the uplink interface is the same as the unoccupied, in the uplink. Upstream.

The above 830 is the user mentioned above.

The middle part of the uplink can be a combination of software, hardware or a combination.

Update 840, in 820, the uplink interface is the same as the user, the update on the interface is up, and the 820 is the same as the updated uplink interface.

Hugh, update the uplink of the 840 interface, uplink, ARQ RT

The above update 840 is the part of the above-mentioned user that is responsible for updating the uplink on the interface of the uplink interface interface, and may be a combination of software, hardware or the like.

The wood of the present has the following, and the configuration information of each user in the uplink interface is the same as that of the user on the uplink interface, and if it is uplinked, the unnecessary power consumption of the user in the middle of the user is reduced, and the phase difference is small and medium.

10, the other users in the force map,

910, in the middle of the sub-configuration information of the interface.

The sub-configuration information refers to uplink sub-configuration information on the interface. The uplink sub-configuration information of the interface is either or .

If the method is used, the downlink sub-configuration information of the interface in the pass-through interface can be used in the following manner. The downlink sub-configuration information of the interface and the ARQ of the interface can be used. The uplink sub-configuration information of the interface.

In the same way, the way of the uplink sub-configuration information of each interface of the user in the middle is also the same.

In the following manner, the downlink sub-configuration information of the interface can be used in the following manner: or the downlink sub-configuration information of the interface can be communicated to the user, and the user can have the downlink sub-location information of the root interface and the AR timing of the interface.

The uplink sub-configuration information of the interface. The ARQ timing of the interface can be pre-configured by the user in the middle.

The downlink sub-interface of the interface uses the BSF sub-interface. Therefore, the downlink sub-configuration information of the interface includes at least the location of the multiple downlinks and the BSF sub-interfaces of the interface, and the sub-configuration information of the intermediate communication interface.

And the user broadcasts, and the conventional B S sub-phase, near the need to lead the instructions.

The uplink sub-configuration information of the interface needs to include the sub-location of the uplink sub-interface of the interface, which can be in the downlink mode, that is, the location and period of the uplink of the interface.

In each of the interfaces, the downlink and/or uplink sub-interfaces are configured, and the sub-configuration information of the interface is made to the user. If the uplink sub-mode of the interface is connected to the user, only the downlink sub-configuration information of the interface or the user sent by the friend is required. Each, otherwise only the uplink sub-configuration information or order of the interface needs to be Tongzhong users.

The above 910 is the part of the sub-configuration information of the interface in the user mentioned above, and may be a combination of software, hardware or a combination.

920. The sub-configuration information of the root 910 is the same as that of the uplink interface.

The uplink sub-configuration information of the interface can be used according to the location of the uplink sub-configuration information of each interface of the user. The user is in each of the downstream directions of the interface

In a g e and / or ga , the user receives the uplink sub-configuration information that the ga is not connected to and the ARQ of the interface, and predicts whether the uplink of the interface on the indicated sub-interface and the uplink of the interface.

The above 920 is the user configuration information in the above, and the uplink interface is the same as the user.

930, in 920, the interface on the uplink interface is not in the home, in the uplink.

Upward.

The above 930 is the user mentioned above.

Update 940, in 920 on the uplink interface interface with the household, the interface on the way to update the uplink, pass 920 in the update The uplink interface is the same as the one.

Hugh, update the uplink of the 940 interface on the uplink, will uplink AR RT

The above update 940 is the part of the above-mentioned user that is responsible for updating the uplink on the interface of the upper interface and the interface of the user, and may be a combination of software, hardware or the like.

950, in the 920 in the uplink interface interface with the household, will be added.

Among them, the same revaluation can be expressed as 1, or other, the value of the non-consolidation.

The above 950 is the same as the user in the above mentioned interface in the interface interface, will

The part of the pre-value can be a combination of software, hardware or a combination of software.

960, in 950, the maximum is greater than the maximum value, the value is not greater than the maximum, and the 920 is the same as the updated uplink interface.

Among them, the maximum can be fixed, or it can be repaired, and the largest is not fixed.

The above 960 is the user in the above

Whether it is greater than the largest part can be a combination of software, hardware or a combination.

Phase, 930, is closer to the largest, and up, mode A, up in R C.

Hugh, greater than the maximum, The 930 is no longer physically uplinked, the uplink mode A, the 930 RCRC re-evaluate the other modes of the uplink mode, and the 930 does not RC revaluation.

The wood has the following, if the sub-configuration information of the user is on the uplink interface, whether it is a household, or the uplink, the maximum number of times is greater than the maximum number of times, and the user has no unnecessary power consumption in the middle of the user. Small and small.

As shown in Figure 11, the binding of the rabbit interface in the force diagram is shown, each of the 110, the middle 120 and the middle user 130, each 110 and the middle 120 interface,

120 users in each of the 130 interfaces, where

Each 110 is used to pass the sub-configuration information of the interface. In the RRC, the sub-configuration of the interface is completed in RRC. If the uplink sub-configuration information of the interface is connected, the RRC configuration information only includes the downlink sub-configuration information of the interface. The downlink sub-interface of the interface uses the BSF sub-port. Therefore, the downlink sub-configuration information of the interface includes at least the downlink of the interface and the BSF sub

The position in the location and the period in which the BSF child is configured. In addition to the conventional sub-configuration information of the interface, the RRC configuration information needs to include the uplink sub-configuration information of the interface in addition to the downlink sub-configuration information of the interface. The uplink sub-configuration information of the interface needs to include the sub-location of the interface, and the sub-configuration information of the interface can be sent in the downlink mode, that is, the sub-configuration information of the interface that is not from the 110 is received, and the sub-configuration information of the interface is sent. User 130 each

130 users in each, 120 in 120 Sub-configuration information of the interface, the sub-configuration information on the uplink interface is the same as whether it is a bus, and the uplink interface is not in the uplink.

The user's 130 sub-configuration information, in the 120 mode, the user's sub-configuration information on each of the 13 interfaces, then the user's 130 sub-configuration information, sub-configuration information

The downlink sub-location information of the interface, the downlink sub-configuration information of the interface that the user 130 can interface with, and the uplink sub-configuration information of the 13 interfaces of the user in the 120-way communication mode of the ARQ interface, according to the location of the communication . In the downlink sub-direction of the interface, 120 users and/or ga, the user 130 receives the ga from the middle 12, and can perform the uplink sub-configuration information on the interface and the ARQ of the interface, and predict the ga indication. Whether the uplink of the interface on the sub-interface and the uplink of the interface are born. If the uplink interface is not the same as the user, the user 130 sends the uplink to the middle 120 in the uplink of the uplink indicated by ga.

In the user, each user 130 is close to the same user on the uplink interface, and the number of times is increased by the pre-value. The maximum number of times is greater than the maximum number of times, and the maximum number of times is not greater than the maximum number of times.

The interface interface has the maximum number of times the number of households is greater than the maximum number of times.

If the uplink interface is the same as the household, the user 130 will increase the pre-value by the number of times, wherein the number of times is equal to the number of revaluations indicating the same number. The maximum number of times can be fixed or repaired. The maximum number of times is not required. Solid.

If the number of times is greater than the maximum number of times, the users 130 are no longer physically in the uplink, the uplink mode A, and the R C R C revaluation

The other modes of the model are not R C revaluation.

The above-mentioned users are each 130, which is close to the maximum number of times the number of times is equal to the number of times, and the number of times is not greater than the maximum number of times, the update of the interface is up, and the updated uplink interface is the same as the user.

In the rest, the update of the uplink of each user's 130 interface is as follows, and the uplink AR RT has the following structure. The 130 sub-configuration information of the user is the same as the uplink interface of the user, and if it is uplink, the number of times is greater than The maximum number of times, the high power of the user in each of the 130 on the rabbit has unnecessary power consumption, reducing the phase of the small and medium.

The uplink and/or downlink sub-interface information of the user interface in the R-channel can be used to solve the interface and interface uplink, and can be used for rabbit PS loss, etc.

The description of the above methods, the wood in this field can clearly understand the way to use the common hardware platform necessary for the software, but also the hardware, but in many cases the former is a better way. In the understanding, the part of the wood original or the existing wood can be seen in the form of software, the software is stored in the media storage, and some instructions are used to make the terminal (each can be a handwritten, each , or with each other) to perform the methods described herein.

The above is the way of this, pointed out, in this wood The ordinary wood has not been said, in the premise of not using this principle, it is possible to make a number of sums, and also the solid.

The devices in the art that can be understood in the art can be distributed in the device according to the description, or can be phased in different media or devices. The above can be integrated into the rest, can also be deployed, can be integrated, or can be divided into multiple mesons.

The above description is not representative. The above-mentioned liters of Liben’s rest, but this is not limited to this, any wood in this field is located

Claims

Claim

The method of the rabbit interface, wherein the user in each of the following steps takes the sub-information of the interface in the middle, and the interface is in the same number in the middle

The user, each of the sub-configuration information is in the uplink

If the interface of the uplink interface is the same, the uplink of the interface of each of the user interfaces is updated.

2. The method of claim 1, wherein the updating of the connection of each interface of the user interface comprises:

The user in each of the updated uplink interfaces is the same as the user

If the interface of the updated uplink interface is the same as the user, the user is in the uplink of the update.

The uplink of the middle interface

If the interface of the updated uplink interface is the same as the user, the uplink of the user interface of the user updates the uplink until the number of times is greater than the maximum number of times.

3. The method according to claim 1, wherein the user configuration information of the user is in the uplink interface, and whether the user is in a sudden or not

If the interface on the uplink interface is the same as the user, the user in the uplink sends an uplink to the uplink.

4. The method according to claim 1, wherein the update of the interface of each user interface is uplinked, and the number of users in the user is increased by a predetermined number.

The maximum number of times the number of times is not greater than the maximum number of times in the interface of the user interface

.

The method of claim 1, wherein the sub-configuration information interface of the interface is configured with uplink sub-configuration information and/or downlink sub-configuration information of the interface.

6. The method of claim 5, characterized in that

The downlink sub-interface of the interface uses the BSF sub-port, and the downlink sub-configuration information of the interface includes at least the location of the multi-legged downlink with the BSF sub-interface and the period of the BSF sub-element of the interface, and the uplink of the interface The sub-configuration information includes the sub-location of the interface, indicating the location of the uplink sub-interface of the interface and the period.

7. The method according to claim 1, wherein the middle user respectively takes the sub-configuration information of the interface in the middle, and the sub-configuration information of the intermediate interface in the middle .

8. The method of claim 7, wherein the method is

In the sub-configuration information of the interface in the middle,

In the manner of the foregoing, the uplink sub-configuration information of the interface is

In the method, the downlink sub-configuration information of the interface is passed, and the downlink sub-configuration information of the interface and the hybrid self-re-estimation ARQ of the interface are performed. The uplink sub-configuration information of the interface

In the manner, the command passes the uplink sub-location information of the interface to the middle.

9. The method according to claim 1, wherein the user in the middle takes the sub-configuration information of the middle interface,

In the mode of the middle or the mode, the uplink sub-configuration information of the interface is sent to the user,

In the method, the downlink sub-configuration information of the interface is sent to the user, and the downlink sub-location information of each interface and the uplink sub-configuration information of the AR interface of the interface are The ARQ of the interface is pre-configured by the user in the middle pass or by the system.

In the manner, the uplink sub-configuration information of the interface is in the middle or the user.

10. The method of claim 9, characterized in that

In the middle mode, the uplink sub-configuration information of the interface is sent to the user, and the uplink sub-configuration information of the interface is sent to the B-instruction information.

11. The method of claim 9 wherein:

In the middle mode, the uplink sub-configuration information of the interface is used by the user, and the uplink sub-configuration information indicates information, and the indication information indicates that the B sub-instruction information is downlinked on the interface.

12, the user, each of which is characterized by

, in the middle of the interface The configuration information, the interface is in the same number, and the sub-configuration information in the root is the same as the uplink interface, and the number of the interfaces in the user is the same.

Updating, in the uplink interface, the interface is the same as the user, and the uplink of the interface is updated.

13. The user of claim 12, wherein the updating, the interface is similar to the user in the uplink of the update.

14. The user of claim 12, each of which is characterized by

The interface on the uplink interface is the same as the user, and the uplink is sent to the uplink in the uplink.

15. The user of claim 12, which is characterized by

And in the uplink interface, the interface is the same as the user, and the number of times is increased by a pre-value.

And determining, according to the obtained number of times, whether the number of times is greater than a maximum number of times, wherein the number of times is not greater than the maximum number of times, and the

The interface is the same as the interface

In the above, the number of times is greater than the maximum number of times, and each mode mode A of the upstream of the fish is re-evaluated by R C R C .

16. The user of claim 12, wherein the uplink sub-configuration information of the intermediate interface and/or the downlink sub-configuration information of the interface.

17. The user according to claim 16, wherein the method further comprises: receiving, in an modal manner, uplink sub-configuration information of the interface,

Receiving, in the mode, the uplink sub-configuration information of the interface, or receiving the downlink sub-configuration information of the interface, the downlink sub-location information of the interface, and the AR of the interface.

The uplink sub-configuration information of the interface, where the ARQ of the interface is pre-configured by the user or the system in the middle.

The mode receives the uplink sub-configuration information of the interface, and receives the uplink sub-configuration information of the interface in a manner.

18, the system of the rabbit interface, its special feature is that

Receiving the sub-configuration information of the interface that is not from the foregoing, and sending the sub-configuration information of the interface to each user in the user, where the sub-configuration of the interface is taken in the middle Information, the sub-configuration information is the same as the interface of the interface on the uplink interface, the U interface is the number of the same fish in the user, and the interface is the same as the interface on the uplink interface. Raw, the uplink of the interface is updated.