RU2567380C2 - Method and apparatus for adaptive multi-rate adjustment - Google Patents

Abstract

FIELD: physics, communications.

SUBSTANCE: invention relates to mobile communication. The invention discloses a method and an apparatus for adjusting the speech encoding rate, the method comprising steps of: determining the type of algorithm used by third generation (3G) mobile communication user equipment; if the type of algorithm of the third generation (3G) mobile communication user equipment is Universal Mobile Telecommunications System Adaptive Multi-Rate 2, mapping the rate, corresponding to the codec mode requested by the codec mode request, into a rate control message and transmitting the rate control message to the core network, or, if the algorithm type is Universal Mobile Telecommunications System Adaptive Multi-Rate 1, limiting said codec rate to the lowest rate and mapping into a rate control message for transmission to the core network.

EFFECT: improving compatibility of AMR adjustments between a 2G system and a 3G system and improving speech quality.

10 cl, 8 dwg

Description

FIELD OF THE INVENTION

The present invention relates to the field of communication and, in particular, to a method and apparatus for adaptive multi-speed adjustment.

BACKGROUND

The network of the global mobile communication system (abbreviated - GSM) of the second generation mobile communication system (abbreviated - 2G) has been developed in China for many years, in connection with which the China Mobile Company China Mobile has a GSM network with good coated. The formation of the modern GSM network was rather carefully considered, and therefore the modern GSM network has good coverage and good stability, can provide high-quality telephony services and in the future will act as the main network with high-quality telephony services, which is a very valuable advantage. On the other hand, thanks to the gradual development of the technology of the third generation mobile communication system (abbreviated as 3G), the acceleration of the commercialization process and the gradual global advancement and application, the 3G network is widely recognized for its higher spectrum utilization and ability to provide various individual services. Compared with the 2G system, the 3G network significantly improves the support of data services and fully supports access to web resources, audio streams, video streams, IP multimedia calls, etc. Thus, the coexistence of the 2G system and the 3G system will continue for a long time to come.

The international standard protocol of the Third Generation Partnership Project (3GPP for short) provides a standard Iur-g interface between 2G and 3G radio access systems, which does not support the transmission of information in the form of user service data. With the current level of knowledge about the coexistence of a 2G system and a 3G system, especially during a handover using voice signals from 3G to 2G, user service data transmitted through a logical interface (Iur Interface) between RNC and GSM (abbreviated Iur-g), are critical to improving the success rate of handover and ensuring load balancing among systems.

Figure 1 shows a schematic diagram of the direction of the data stream in the user planes before and after the transfer of service via the Iur-g interface in accordance with this technical field.

If this situation exists, the method of transmitting service data between radio access systems can be performed via the Iur-g interface. As shown in FIG. 1, user service data transmitted through the Iur-g interface between a 3G radio access network (RAN) and a base station controller (abbreviated BSC) of a radio access network / base transceiver station (abbreviated BTS) 2G, in particular include the following information:

The radio network controller (RNC for short) informs the BSC about the preparation of the handover via the Iur-g interface in accordance with the terminal measurement report, the information includes the port number for redirecting data in the user plane between the BSC and the RNC, and the BSC informs the RNC about completing the handover preparation after allocating the resources of the air interface and confirming the availability of the port number. After receiving a success response message, the RNC forwards the data transparently using the agreed port number.

The difference between user-plane speech coding algorithms supported by 2G and 3G systems leads to different operations. Currently, the 3G system supports two AMR-speech coding algorithms, which include adaptive multi-speed (for short - AMR) algorithms of the universal mobile communication system UMTS_AMR and UMTS_AMR2; while the speech coding algorithms supported by the 2G system are mainly FR_AMR and HR_AMR. The main advantages of the mentioned set of AMR algorithms are that they can carry out suitable dynamic speed control in accordance with the quality of radio communications or system load. The 2G system uses a codec mode request (CMR for short) to execute a speed request, sends a CMR every 40 ms or 2 frames to exchange data and execute a codec mode indication request (CMI for short). Despite the fact that the 3G system performs a speed request using the RATE CONTROL message on the RNC side, however, the adjustment modes of two speech coding algorithms are, namely, the adaptive multi-speed algorithm of the universal mobile communication system (UMTS_AMR) and the adaptive multi-speed algorithm of the II universal system mobile communications (UMTS_AMR2) - are incompatible. UMTS_AMR can adjust for 20 ms (over a single frame), while UMTS_AMR2 can adjust for 40 ms in the uplink direction and adjust for 20 ms in the downlink direction.

Figure 2 shows a schematic diagram of the interface between user planes in accordance with Iur-g in the art, and Figure 3 shows a schematic diagram of the format of the AMR interface RFC4 8 67 in accordance with this technical field.

When the terminal UE transfers the service from the 3G system to the 2G system, to simplify the system in the user plane, there is no interpolation of the TC in the 2G system to perform the corresponding conversion, and no interruption of the TrFO process, which can be carried out in advance, is provided. The 2G system uses a set of AMR speeds of the voice mode without transcoding (abbreviated as TrFO), which can be compatible with the 3G system, i.e. There is a usual set of effective speeds (abbreviated as CARS), which can carry out TrFO / tandem-free voice transmission mode (abbreviated as TFO) between a 2G system and a 3G system. Currently, the Iur-g user plane interface can be considered to use the RFC48 67 interface in order to perform appropriate interaction, and the interface format may refer to the description of FIG. 3. Regarding the compatibility of AMR speed controls between the 2G system and the 3G system, in terms of speed control, UMTS_AMR2 and the full-size (abbreviated to FR) adaptive multi-speed FR_AMR algorithm are compatible, and UMTS_AMR2 and the half-bit (abbreviated to HR) adaptive multi-speed HR_AMR algorithm are compatible; while in the matter of speed adjustment, UMTS_AMR and FR_AMR are incompatible, and UMTS_AMR and HR_AMR are incompatible. The IUR-g AMR speed control is carried out in the following invention mainly in accordance with the above problems.

Currently, no effective solution to the aforementioned compatibility problem of AMR speed controls between the 2G system and the 3G system, i.e. issues regarding the fact that in the matter of speed control, UMTS_AMR2 and FR_AMR are compatible, and UMTS_AMR2 and HR_AMR are compatible, while in the matter of speed control, UMTS_AMR and FR_AMR are incompatible, and UMTS AMR and HR AMR are incompatible.

SUMMARY OF THE INVENTION

The present invention provides an adaptive multi-speed adjustment method for solving the aforementioned compatibility problem of AMR speed controls between a 2G system and a 3G system in the art, i.e. problems regarding the fact that in the matter of speed control, UMTS_AMR2 and FR_AMR are compatible, and UMTS_AMR2 and HR_AMR are compatible, while in the matter of speed control, UMTS_AMR and FR_AMR are incompatible, and UMTS_AMR and HR_AMR are incompatible.

According to one aspect of the present invention, a method for adaptive multi-speed adjustment.

According to the present invention, the adaptive multi-speed adjustment method comprises the steps of: determining the type of algorithm used by the third generation mobile user equipment; if the type of algorithm is the adaptive multi-speed algorithm II of the universal mobile communication system, the codec mode request rate is displayed in the speed control message and the speed control message is sent to the core network; or if the type of algorithm is adaptive multi-speed algorithm I of a universal mobile communication system, the codec mode request speed is limited to the lowest speed and the codec mode request speed is displayed in the speed control message for sending to the core network.

Preferably, prior to the step of displaying the codec mode request speed in the speed control message, the method further comprises determining, using the radio network controller, whether the codec mode request is compatible with the previously saved codec mode request, wherein the previously saved speed mode request is a request the codec mode received by the radio network controller before receiving the codec mode request.

Preferably, prior to determining the type of algorithm used by the third-generation mobile communication user equipment, the aforementioned method further comprises the steps of: determining, using the radio network controller, whether the codec mode request rate has changed, and if the codec mode request rate does not change, complete adaptive multi-speed adjustment.

Preferably, after the step of determining the type of algorithm used by the third generation user equipment of the mobile communication, the aforementioned method further comprises the steps of: determining, with the help of the radio network controller, whether the codec mode request speed has changed, and if the codec mode request speed does not change, complete adaptive multi-speed adjustment.

Preferably, the codec mode request is sent to the base station controller via the ABIS interface by the base station, and the base station controller sends the codec mode request received from the base station to the radio network controller via the Iur-g interface, which is a logical interface between the radio network controller and the global system mobile communications.

Preferably, the base station controller determines the type of algorithm used by the third generation user equipment of the mobile communication, and the radio network controller displays the codec mode request rate in a speed control message for sending to the core network.

Preferably, if the type of algorithm is adaptive multi-speed algorithm II, the base station controller sends the codec mode request directly to the radio network controller, and if the type of algorithm is adaptive multi-speed algorithm I, the base station controller limits the speed request mode to the lowest speed to send to the radio network controller.

Preferably, the base station controller sends a speed mode request to the radio network controller, the radio network controller determines the type of algorithm used by the third generation mobile user equipment, and the radio network controller displays the codec mode request speed in a speed control message for sending to the core network.

According to another aspect of the present invention, there is provided an adaptive multi-speed adjustment device.

According to embodiments of the present invention, the adaptive multi-speed adjustment device comprises: a receiving module, configured to receive a codec mode request from a base station, and a first determination module, configured to determine the type of algorithm used by third-generation mobile communication user equipment.

Preferably, the aforementioned adaptive multi-speed adjustment device further comprises a second determination module, configured to determine whether the codec mode request rate has changed.

Using the present invention, the following method is implemented, in which: determine the type of algorithm used by third-generation mobile communication user equipment; if the type of algorithm used by the third-generation mobile communication user equipment is the adaptive multi-speed algorithm II of the universal mobile communication system, the codec mode request rate is displayed in the speed control message and the speed control message is sent to the core network; or if the type of algorithm used by the third generation user’s mobile equipment is the adaptive multi-speed algorithm I of the universal mobile communication system, the codec mode request speed is limited to the lowest speed and the codec mode request speed is displayed in the speed control message for sending to the core network. This solves the problem of compatibility of AMR-speed control between the 2G system and the 3G system, i.e. the problem is that UMTS_AMR2 and FR_AMR are compatible in the issue of speed control, and UMTS_AMR2 and HR_AMR are compatible, while in the matter of speed adjustment, UMTS_AMR and FR_AMR are incompatible, and UMTS_AMR and HR_AMR are incompatible. As a result, improved compatibility of AMR speed controls between the 2G system and the 3G system and improved speech quality are achieved.

BRIEF DESCRIPTION OF THE DRAWINGS

The drawings illustrated herein provide an additional understanding of the present invention and form part of the present application. Illustrative embodiments and their description are used to illustrate the present invention without appropriately limiting the scope of the present invention.

In the drawings:

Figure 1 is a schematic diagram of the direction of data flow in user planes before and after handover via the Iur-g interface according to the art;

Figure 2 is a schematic diagram of an interface between user planes according to Iur-g in the art;

Figure 3 is a schematic diagram of the format of the AMR interface RFC48 67 according to the art;

4 is a flowchart of an AMR speed adjustment method from BSC to RNC according to an embodiment of the present invention;

5 is a flowchart of a preferred AMR speed adjustment method from BSC to RNC according to an embodiment of the present invention;

6 is a flowchart of a preferred AMR speed adjustment method from BSC to RNC according to an embodiment of the present invention;

7 is a flowchart of a preferred AMR speed adjustment method from RNC to BSC according to an embodiment of the present invention;

FIG. 8 is a schematic diagram of a preferred adaptive multi-speed adjustment device according to an embodiment of the present invention.

DETAILED DESCRIPTION OF THE INVENTION

Feature Summary

In embodiments of the present invention, there is provided a method and apparatus for adaptive multi-speed control to solve the compatibility problem of AMR speed controls between a 2G system and a 3G system, i.e. problems regarding the fact that in the matter of speed control, UMTS_AMR2 and FR_AMR are compatible and UMTS_AMR2 and HR_AMR are compatible, while in the matter of speed control, UMTS_AMR and FR_AMR are incompatible and UMTS_AMR and HR_AMR are incompatible. The method comprises the steps of: determining the type of algorithm used by third-generation mobile communication user equipment; if the type of algorithm used by the third-generation mobile communication user equipment is the adaptive multi-speed algorithm II of the universal mobile communication system, the codec mode request rate is displayed in the speed control message and the speed control message is sent to the core network; or if the type of algorithm used by the third generation user’s mobile equipment is the adaptive multi-speed algorithm I of the universal mobile communication system, the codec mode request speed is limited to the lowest speed and the codec mode request speed is displayed in the speed control message for sending to the core network.

Preferably, in the present invention, when the BSC determines that the algorithm used by the 3G system is the UMTS_AMR2 speech coding algorithm, from RNC to BSC, the RNC receives the maximum RATE CONTROL rate as CMR and sends the CMR to the BSC, and then the BSC transmits CMR in BTS; and in the direction from the BSC to the RNC, the BSC transmitted the BTS CMR speed request to the RNC via the RFC4867 interface, and the RNC displayed speeds below the CMR in RATE CONTROL for sending to CN.

Preferably, in the present invention, when the BSC determines that the algorithm used by the 3G system is the UMTS_AMR speech coding algorithm, the procedure from RNC to the BSC is similar to that described above. In the direction from BSC to RNC, there are two ways to adjust the speed from BSC to RNC. The first way is that the BSC sets the CMR speed that the RNC sends to the lowest speed from the set of speech coding rates and sends the CMR to the RNC, and then the RNC maps that speed to RATE CONTROL to send the CMR to CN. Another method is that, under RNC control, the BSC still sends the BTS CMR to the RNC, and the RNC does not respond to the speed request from the BSC when the speech coding algorithm is UMTS_AMR and maps the RATE CONTROL to the lowest speech coding rate from the set of speech coding rates to ship to CN.

It should be noted that the embodiments of the present application and the features of these embodiments can be combined with each other, if this does not cause contradictions. The present invention will now be described in detail with reference to the drawings and in combination with embodiments.

Method embodiments

According to embodiments of the present invention, an adaptive multi-speed adjustment method is provided.

4 is a flowchart of an AMR speed adjustment method from BSC to RNC according to an embodiment of the present invention.

As shown in FIG. 4, this method comprises steps S402-S406, which are as follows:

Step S402: determining the type of algorithm used by the third generation user mobile equipment;

Step S404: if the type of algorithm used by the third generation user mobile communication equipment is the adaptive multi-speed algorithm II of the universal mobile communication system, the codec mode request rate is displayed in the speed control message and the speed control message is sent to the core network;

Step S406: if the type of algorithm used by the third generation user mobile communication equipment is adaptive multi-speed algorithm I of the universal mobile communication system, the codec mode request speed is limited to the lowest speed and the codec mode request speed is displayed in the speed control message for sending to the core network.

The process for implementing embodiments of the present invention will subsequently be described in detail in conjunction with the examples.

According to the adaptive multi-speed processing method, in embodiments of the present invention, the adjustment may be in the direction from BSC to RNC and may also be in the direction from RNC to BSC.

First Embodiment

5 is a flowchart of a preferred AMR speed adjustment method from BSC to RNC according to an embodiment of the present invention.

As shown in FIG. 5, adjustment in the direction from the BSC to the RNC includes the following steps:

Step S501: the BTS receives the CMR codec mode request from the mobile station (MS for short) and at the same time adjusts according to the downlink radio quality indicated by the MS and sends the adjusted CMR to the BSC via the ABIS interface;

Step S502: the BSC determines whether the UMTS_AMR2 is an AMR speech encoding algorithm used by the 3G system;

Step S503: if it is determined that the algorithm is UMTS_AMR2, the BTS rate is transmitted to the RNC via the AMR data interface RFC48 67;

Step S504: if it is determined that the algorithm used by the 3G system is UMTS_AMR, the BSC does not respond to the BTS CMR speed request and sets the CMR speed to the lowest AMR speed used on the BSC side; if the speed used on the BSC side is {12.2 kbit / s, 10.2 kbit / s, 6.7 kbit / s}, the CMR is set to the lowest speed of 6.7 kbit / s;

Step S505: the RNC receives the data and CMR speed on the BSC side via the Iur-g interface, the RNC compares whether the data and CMR speed on the BSC side are compatible with the last CMR speed request sent by the BSC;

Step S506: if there is an incompatibility, different speeds below the CMR speed sent by the BSC are displayed in the sub-stream aggregation indicator (RFCI for short) of the radio access channel (RAB for short) in the RATE CONTROL message in the corresponding order and sending the RATE CONTROL message to CN; if compatible, the RATE CONTROL message will no longer be sent to CN;

Step S507: CN receives the RATE CONTROL message from the RNC and sends a RATE CONTROL ACK message to the RNC, and after receiving the ACK message from the CN, the RNC indicates that the speed adjustment with CN is successful and the RATE CONTROL message will no longer be sent to the CN.

Second Embodiment

FIG. 6 is a flowchart of a preferred AMR speed adjustment method from BSC to RNC according to an embodiment of the present invention.

As shown in Fig.6, the adjustment in the direction from the BSC to the RNC includes the following steps:

Step S601: the BTS receives the CMR codec mode request from the MS and at the same time adjusts according to the downlink radio quality indicated by the MS and sends the adjusted CMR to the BSC via the ABIS interface;

Step S602: the BSC receives the CMR and transmits the BTS speed to the RNC through the RFC4867 AMR data interface;

Step S603: The RNC receives the BSC AMR data and compares the received CMR with the past CMR to determine if the rate has changed; if the speed has not changed, the RNC is not required to send a RATE CONTROL message to the CN for speed adjustment, and if there are any speed changes, perform step S604;

Step S604: the RNC determines whether the UMTS_AMR2 is the AMR algorithm currently being used;

Step S605: if it is determined that the algorithm is UMTS AMR2, CMR is used as the maximum speed;

Step S606: if it is determined that the algorithm is UMTS_AMR, the lowest speech coding rate used by UMTS_AMR is taken as the maximum speed; The RNC displays the different speeds below the maximum speed in the RFCI in the RATE CONTROL message in the appropriate order and transmits the RATE CONTROL message to CN;

Step S607: after receiving the RATE CONTROL message from the RNC, the CN sends a response; if the RNC receives the ACK message from the CN, the RNC indicates that the speed adjustment between the RNC and the CN is successful.

Third Embodiment

7 is a flowchart of a preferred AMR speed adjustment method from RNC to BSC according to an embodiment of the present invention.

As shown in FIG. 7, adjustment in the direction from the RNC to the BSC includes the following steps:

Step S701: the CN sends a rate control message (RATE CONTROL) to the RNC and transmits to the RNC the rate at which this terminal requests the peer terminal for changes;

Step S702: after receiving the RATE CONTROL message from CN, the RNC sends the RATE CONTROL ACK to CN as a response;

Step S703: at the same time, the highest speed in RATE CONTROL is used as a CMR, which is updated and stored locally for sending to the BSC;

Step S704: the RNC transmits a CMR rate to the BSC through the RFR48 67 AMR data interface in each frame data;

Step S705: The BSC transmits the BTS received by the CMR via the ABIS interface, and the BTS sends the CMR to the MS via the radio interface every 40 ms.

As can be seen from the above description, embodiments of the present invention are able to solve the problem of incompatibility of the speed adjustments of the UMTS_AMR algorithm and the AMR algorithm of the 2G system. The data rate through the uplink RNC is limited to one type of speed, so that there is no single voice / low quality problem. However, the benefits of AMR are used as much as possible in other ways. Thus, improved compatibility of AMR speed controls between the 2G system and the 3G system and improved speech quality are achieved.

Embodiments of the device

According to embodiments of the present invention, an adaptive multi-speed adjustment device is provided.

An adaptive multi-speed adjustment device provided in accordance with embodiments of the present invention can be used to implement the above adaptive multi-speed adjustment method.

FIG. 8 is a schematic diagram of a preferred adaptive multi-speed adjustment device according to an embodiment of the present invention.

As shown in FIG. 8, this adaptive multi-speed adjustment device comprises: a reception module 802 and a first determination module 804. This device may further comprise a second determination module 806.

In particular, the reception module 802 is configured to receive a speed request from the base station, and the first determination module 804 is configured to determine the type of algorithm used by the third generation user mobile equipment. Preferably, the base station controller further comprises a second determination module 806, configured to determine if the CMR rate has changed.

In this case, according to embodiments of the present invention, the adaptive multi-speed adjustment device may be located on the controller side of the base station and may also be located on the radio network controller (RNC) side. This adaptive multi-speed adjustment device may also be a base station controller or a radio network controller.

The above-mentioned first determination module 804 determining the type of algorithm used by the third-generation user’s mobile communications equipment is further configured to: if the type of algorithm used by the third-generation user’s mobile communications equipment is the adaptive multi-speed algorithm II of the universal mobile communications system, display the codec mode request rate into the speed control message and send the speed control message to the core network; or if the type of algorithm used by the third-generation mobile user equipment is the adaptive multi-speed algorithm I of the universal mobile communication system, limit the codec mode request rate to the lowest speed and map the codec mode request rate to the speed control message for sending to the core network.

The above second determining module 806, determining whether the CMR speed has changed, is further configured to not adaptively adapt multi-speed adjustment if the CMR speed does not change.

The above description is provided only to illustrate preferred embodiments, and not to limit the present invention. Various modifications and variations of the present invention are apparent to those skilled in the art. The scope defined by the claims should include any modifications, equivalent replacements and improvements within the essence and principle of the present invention.

Claims (10)

1. The method of adjusting the speed of speech coding, characterized in that it contains the steps in which:
determine the type of speech encoding algorithm used by the third generation user equipment of mobile communication;
if the type of speech coding algorithm is the adaptive multi-speed algorithm II of the universal mobile communication system, the codec mode request rate is displayed in the speed control message and the speed control message is sent to the core network, or
if the type of speech coding algorithm is the adaptive multi-speed algorithm I of the universal mobile communication system, the codec mode request speed is limited to the lowest speed and the codec mode request speed is displayed in the speed control message for sending to the core network;
wherein the codec mode request rate is a rate corresponding to the codec mode requested by the codec mode request. 2. The method according to p. 1, characterized in that prior to the stage of displaying the speed request codec mode in the message
The speed control method further comprises the step of:
the radio network controller determines whether the codec mode request is compatible with the previously saved codec mode request, wherein the previously saved speed mode request is a codec mode request received by the radio network controller before receiving the codec mode request. 3. The method according to p. 2, characterized in that before the step of determining the type of speech encoding algorithm, the method further comprises the steps of:
the radio network controller determines whether the codec mode request rate has changed; and
if the codec mode request rate does not change, adaptive multi-rate control is completed. 4. The method according to p. 2, characterized in that after the step of determining the type of speech coding algorithm, the method further comprises the steps of:
the radio network controller determines whether the codec mode request rate has changed; and
if the codec mode request rate does not change, adaptive multi-rate control is completed. 5. The method according to claim 1, characterized in that the speed mode request is sent to the base station controller via the ABIS interface by the base station, and the base controller
the station sends a codec mode request received from the base station to the radio network controller via the Iur-g interface, while the Iur-g interface is a logical interface between the radio network controller and the global mobile communications system. 6. The method according to any one of paragraphs. 1-5, characterized in that the base station controller determines the type of speech encoding algorithm, and the radio network controller displays the codec mode request rate in a speed control message for sending to the core network. 7. The method according to p. 6, characterized in that:
if the type of speech coding algorithm is adaptive multi-rate algorithm II, the base station controller sends a codec mode request directly to the radio network controller; and
if the type of speech coding algorithm is adaptive multi-rate algorithm I, the base station controller limits the request speed of the codec mode to the lowest speed to send to the radio network controller. 8. The method according to any one of paragraphs. 1-5, characterized in that the base station controller sends a codec mode request to the radio network controller, the radio network controller determines the type of speech encoding algorithm, and the radio network controller displays the codec mode request speed in a speed control message for sending to the core network. 9. A device for adjusting the speed of speech coding, characterized in that it contains:
a receiving module, configured to receive a codec mode request from a base station; and
a first determining module, configured to determine a type of speech encoding algorithm used by third generation mobile user equipment,
moreover, the first determination module is further configured to determine the type of algorithm used by the third-generation user’s mobile equipment, and is further configured to: if the type of algorithm used by the third-generation user’s mobile equipment is the adaptive multi-speed algorithm II of the universal mobile communication system, to display the speed codec mode request in a speed control message and send a speed control message in b zovuyu network; or if the type of algorithm used by the third-generation mobile communication user equipment is the adaptive multi-speed algorithm I of the universal mobile communication system, limit the codec mode request rate to the lowest speed and map the codec mode request rate to the speed control message for sending to the core network;
wherein the codec mode request rate is a rate corresponding to the codec mode requested by the codec mode request. 10. The device according to p. 9, characterized in that it further comprises:
a second determination module, configured to determine if the codec mode request rate has changed, wherein the codec mode request rate is a rate corresponding to the codec mode requested by the codec mode request.

Images