WO2010145301A1

WO2010145301A1 - Method and apparatus for adaptive multi-rate adjustment

Info

Publication number: WO2010145301A1
Application number: PCT/CN2010/071939
Authority: WO
Inventors: 罗小冬; 邹秀芳
Original assignee: 中兴通讯股份有限公司
Priority date: 2009-09-16
Filing date: 2010-04-20
Publication date: 2010-12-23
Also published as: CN101667888A; RU2012115799A; RU2567380C2; CN101667888B

Abstract

A method and apparatus for adaptive multi-rate adjustment are provided by the present invention. The method includes: judging the algorithm type used by the user equipment of the 3rd generation (3G) mobile communication; if the algorithm type used by the user equipment of the 3rd generation mobile communication is Universal Mobile Telecommunications System Adaptive Multi-Rate 2 (UMTS_AMR2), mapping the rate of rate mode request into a rate control message and transmitting the rate control message to the core network, or, if the algorithm type used by the user equipment of the 3rd generation mobile communication is Universal Mobile Telecommunications System Adaptive Multi-Rate 1 (UMTS_AMR1), limiting the rate of the rate mode request to the lowest rate, and mapping the rate of rate mode request into a rate control message so as to transmit it to the core network. By the present invention, the effect of improving the AMR rate adjustment compatibility between the 2G (2nd Generation) system and 3G system and the quality of the speech is achieved.

Description

From multi-rate

The domain of the communication field is related to the multi-rate method. Background wood first-generation communication system deao 2) global communication oba s se this ob eCo co S) in the solid state has been intrinsic to see Zhang Liang covered full solid S before S has matured with good coverage and qualitative to mention each Each bearer that is still not good is a very resource. In the other hand, it is the one that it was obtained in each of the other. Compared with the 2 Series 3, the support for each has been greatly improved. The support for Web, audio, and P-multi-media calls is more complete. So the coexistence of the 2 and 3 systems will be a long-term situation. The first generation is accompanied by 3d e ea o e s Oec 3 PP)

User information is not supported. In the context of the coexistence of the first 2 and 3 systems, especially the 3 l2 conversion C and the same e ce bewee Ca d S -g users are not required to increase the conversion rate. It is the indication of the flow of the user before the change. For the same

Methods. Showing 3 and 2

Controller ase S o Co oe SC) / ase a sce e Sao SS The same user each of the following content controllers ado ewo Co oe C) The measurement of the terminal is changed to SC. The SC allocation of each of the packages SC and C is the same as the SC allocation.

C change each finish. C received a message has been

Transparent. 2 and 3 systems will operate differently depending on the supported user algorithms. 3 series currently supports A algorithm package universal mobile communication system e sa ob e eeco cos S se S self-multi-rate algorithm da e - a A ) SA and SA 2 and the 2 series supported algorithms are mainly A and AA algorithm series mainly The rate of quantity or system. 2 series rate mode Codec ode e es C ) rate

4 s or 2 times rate mode indicates Codec ode d o C ). Exchange. The 3 system is in the C with CO O message rate is the algorithm universal mobile communication system from the multi-rate algorithm S A ) and the universal mobile communication system from the multi-rate algorithm S A 2) mode does not. S

One A is 2 s and the same meaning

S A 2 is 2 s in 4 s. 2 is the same as the user's face of the same wood. 3 is the indication of the A format of the C4867. The terminal is changed in the 3 series to the 2 series, and the user is considered to have not inserted the C phase in the 2 series.

O. 2 The system uses a 3-series compatible operation a scode ee O eo TO) A rate set, ie 2 and 3 are the same rate of O/O a de ee O eo straight through operation O) Co o Ac e Codec Se

CACS) set. Users to consider C4867

Interact with each other. The format is 3. Rate compatibility for 2 and 3 systems with A. SA 2 full rate e) Since multirate algorithm A and rate ae) since multirate algorithm A is compatible with rate adjustment and SAA and A are not compatible with rate adjustment. The following is the rate adjustment control of A, which is mainly the problem. The rate-adjustment compatibility problem between the 2 and 3 systems of Aifumu is that SA 2 A and A are compatible with rate adjustment and SAA and A are not compatible with rate adjustment. Content 2 and 3 are the same as A. The rate adjustment compatibility problem is that SA 2 A and A are compatible with rate adjustment and SAA and A are not compatible with rate adjustment. The main purpose of this paper is to provide for multi-rate adjustment. Method to solve the problem. The medium aspect of the description has been proposed from the multi-rate adjustment method. The self-multi-rate adjustment method packet is used to determine the algorithm used by the first generation communication users. The algorithm used by the first generation communication users 矣 the universal mobile communication system from the multi-rate algorithm, the rate mode rate mapping rate control message rate control The algorithm used by the first generation communication users or the universal mobile communication system from the multi-rate algorithm to rate the rate mode of the rate mode to rate the rate mode rate control message. In the rate mode rate mapping rate control message, the method packet domain controller rate mode pre-stored rate mode is used to determine whether the pre-stored rate mode controller obtains the previous rate mode in the rate mode. The algorithm used in the first generation of communication users is the method of the rate mode of the packet controller. The rate of the mode is not the end of the multi-rate adjustment. The algorithm used in the first generation of communication users 矣 method packet domain controller rate mode rate is the rate of the profile rate mode is not from the multi-rate. The rate mode is controlled by the base Abs controller and the rate mode controller where the controller and global communication are the same. The algorithm used by the first generation communication controller of the controller 矣 the rate mode rate control message of the rate mode. If the algorithm is derived from a multi-rate algorithm controller, the rate mode straight controller algorithm is derived from the multi-rate algorithm.

Then rate the rate mode to the maximum rate with the controller. The controller will use the algorithm of the rate mode controller controller for the first generation of communication users. The controller will rate the rate mode rate control message to . Another aspect of the purpose is to mention a multi-rate device. The self-multi-rate device of the present invention is included in the rate mode of the first-generation communication user.

Whether the rate of the rate mode from the multi-rate device is grammatical. The algorithm used by the first generation communication users, the algorithm used by the first generation communication users, the universal mobile communication system, the multi-rate algorithm, the rate mode rate mapping rate control message, the rate control message or the first generation communication user The algorithm 矣 universal mobile communication system from the multi-rate algorithm then rates the rate mode rate to the most rate rate mode rate rate rate control message. Solved the rate compatibility of 2 Series and 3 Series with A, ie SA 2 A and A are compatible at rate and SAA And A is not compatible with the rate, and the rate compatibility improvement of the 2 series and the 3 series is improved. The explanation of the cost of the unexplained step of understanding the cost of the book is clearly unknown. In the middle, it is the indication of the user's face flow in the phase 2, which is the same as the user's face of the wood. The 3 is the A format of the C4867. The flow 4 is the flow rate of the SC to C A rate method. The flow rate 6 of the SC-to-C A-rate method is the SC-to-C A-rate method. The flow 7 is the C-to-SC A-rate method. The flow 8 is the self-multi-rate device. The indication. The way can be summarized in consideration of the rate compatibility of 2 and 3 systems with A. SA 2 A and A are compatible at rate and SA

A and A are incompatible with the speed of the present self-multi-rate method device. The method package is used to determine the algorithm used by the first generation communication users. The communication system from the multi-rate algorithm will rate the rate mode rate control message to the rate control message or the first generation communication user to use the algorithm universal mobile communication system from the multi-rate algorithm to the rate mode rate to force the rate to the rate The rate of the pattern is mapped to the rate control message. In the present description, the SC to 3 system uses the SA 2 algorithm C to the SC direction C to maximize the CO O rate C SC SC but the S SC to the C direction SC maps the rate of S C C4867 □ CCC at a rate From the CO O to the SC to 3 in the present description, the SA algorithm C to the SC direction plane. The rate from SC to C in the SC to C mode is the rate at which the SC will C.

The rate of sound rate C C then maps the rate to

CO O to C Another way is to pass C control SC is to pass S to C to CC at the rate that the algorithm is SA not SC. The CO O maps the sound rate of the most sound rate to the need to be clear. The special ones are in each other. The following is a reference to the unclear version. The method of this method is derived from the multi-rate method. 4 is the flow of the SC to C A rate method. Step 5402 to Step 5406 under the method package shown in Figure 4, Step S402, algorithm step 5404 for each generation of communication users, algorithm for the first generation communication user, universal mobile communication system, multi-rate algorithm, rate mode rate rate control Message rate control message Step 5406: The algorithm for the first generation communication user uses the universal mobile communication system from the multi-rate algorithm to rate the rate mode of the rate mode to rate the rate mode rate control message. The description of the final will be given below. The self-multi-rate method also uses the C direction to the SC direction in the SC to C direction. 5 is the flow of the SC-to-C A-rate method.

5 shows the SC to C direction package. The following steps S50 S will receive ob eSa o S) rate C with S's next C

AS□ SC Step S502 SC will determine whether the A algorithm used for 3 is SA R2. Step S503 is SAR. Then A □ of R C4867 will rate C of S. Step S504. The SA SC used for 3 will not rate the C rate of S. The most A rate used by the SC. If the rate of SC is { 22 //s 02 /s 67 /s}, then the C-most 67 /s step S505 C □ receives the C rate of the SC. Whether the C rate of the Cbb SC is step S506 or not, the mapping of the sub-rates below the C rate of the SC to the bearer sub-flow in the R CO O message indicates the R adoAccess eae bearer) S bo Co bao dcao RC ) O message C is no longer R CO O message Co eeo C) C Step 07 C Receive C's CO O message will

The CO O AC message CC receives the AC message from C indicating that the rate of C is no longer R CO O message 6 of the SC to C A rate method flow. 6 shows the direction of SC to C. The following steps S60 S will receive the rate C of S with the lower CAS of the S. Step S602 SC will receive the C pass C4867 A □ The rate of S will be C Step S603 C A to the SC will extract the C comparison rate before C. If there is a text, then the C does not need the CR CO O message rate. If there is a text, then step S604. Step S604 C. Determine whether the previously used A algorithm is SA R2. Step S605 is SA R2 will force C to the maximum rate. Step S606 is SA. The SA is used for the maximum rate of force. The maximum rate RC maps the gods below the maximum rate to the RC in the R CO O message. The R CO O message is sent to C. Step S607 C receives the R CO O message of C. If C receives C's AC message, it indicates the same rate of CC. 7 The flow of the C-to-SC A-rate method. The C to SC direction shown in 7 includes the following steps: Step S70 C Rate Control CO O ) Message C Rate of the required C. Step S702 CC CO O message to C

CO O AC Step S703 is the same as the highest rate in the CO O. The C update is saved in the local SC C. Step S704 C. In each frame, pass A4 of C4867. The rate of C will be SC. Step S705 SC will receive the CAS □ SS. □ 4 s CS to see that the speed of the A algorithm that solves SA 2 is not compatible. The rate of C will be such that the rate of C will not appear, and the way it can be improved by A multi-rate. 2 and 3 are the same as the rate compatibility improvement of A. The device is provided with a multi-rate device. This self-multi-rate device is used to move from the multi-rate method. 8 of the self-multi-rate device. 8 shows the multi-rate device 802, the first

804 in the 806th package of the 802 to receive the rate of the first 804 The algorithm used by the first generation of communication users.

Controller packet 806 at C rate is text. Its root self-multi-rate device is used for the controller C. From multi-rate devices to force-based controllers or controllers.

The algorithm used by the 804th generation communication users, the algorithm used by the first generation communication users, the universal mobile communication system, the multi-rate algorithm, the rate mode rate mapping rate control message, the rate control message, the first generation communication users The algorithm used by the universal mobile communication system from the multi-rate algorithm then rates the rate mode rate to the rate mode rate mode rate rate control message.

Whether the 806 C rate is a packet or not, the C rate does not need to be self-multirate. The use of the power of this book is not used to make the wood in this field. Any repairs, equivalent substitutions, etc. made in the spirit and principles of this book are included in this warranty.

Claims

Claim

Self-rate method

Identify the algorithms used by first-generation communication users矣

Algorithm 矣 Universal Mobile Communication Self-multi-rate algorithm then rate mode rate mapping rate control message rate control message

Or

Algorithm 矣 Universal Mobile Communication The multi-rate algorithm applies the rate mode rate to the rate mode rate mode rate control message. The required method is characterized by pre-packaging the rate mapping rate control message of the rate mode.

Domain Controller Rate Mode Pre-stored rate mode Seek Yes No Pre-stored rate mode The controller calculates the rate mode in the receive rate mode. The method of requirement 2 is characterized in that it is packaged before the algorithm

If the rate mode rate is not the case, then the rate is multi-rate. The method of requirement 2 is characterized by the algorithm package

The speed of the controller's rate mode is not the rate of the rate mode.

The required method is that the rate mode will be determined by the base Ab controller controller. Receive rate mode controller

The controller is the same as the global communication. The method required to item 5 is characterized in that the controller algorithm 矣 controller maps the rate mode rate control message to . The method of claim 6 is characterized by

If the algorithm is from the multi-rate algorithm, then the controller will rate the mode controller.

Algorithm 矣 from multi-rate algorithm, the controller will

The method of claim 5 is characterized in that the controller maps the rate mode controller controller to the controller to rate the rate mode rate control message. Self-multi-rate device

Rate mode

The algorithm used by the first generation of communication users. The self-multi-rate device of requirement 9 is characterized by a multi-rate device package.

Whether the rate in the rate mode is text.